Tiotropium bromide and olodaterol: Difference between revisions

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{{DrugProjectFormSinglePage
{{DrugProjectFormSinglePage
|authorTag={{VD}}
|genericName=Tiotropium bromide and olodaterol
|aOrAn=a
|drugClass=combination of an [[anticholinergic]] and a [[LABA|long-acting beta2-adrenergic agonist]]
|indicationType=treatment
|indicationType=treatment
|indication=STIOLTO RESPIMAT is a combination of tiotropium, an anticholinergic and olodaterol, a long-acting beta2-adrenergic agonist (LABA) indicated for:
|indication=of airflow obstruction in patients with [[chronic obstructive pulmonary disease]] (COPD), including [[chronic bronchitis]] and/or [[emphysema]]
The long-term, once-daily maintenance treatment of airflow obstruction in patients with chronic obstructive pulmonary disease (COPD) (1.1)
|hasBlackBoxWarning=Yes
|adverseReactions=[[nasopharyngitis]], [[cough]], and [[back pain]]
|blackBoxWarningTitle='''<span style="color:#FF0000;"></span>'''WARNING: ASTHMA-RELATED DEATH
|blackBoxWarningBody=''<span style="color:#FF0000;"></span>''
*Long-acting beta2-adrenergic agonists (LABA) such as olodaterol increase the risk of asthma-related death.
*Data from a large, placebo-controlled US study that compared the safety of another long-acting beta2-adrenergic agonist (salmeterol) with placebo added to usual asthma therapy showed an increase in asthma-related deaths in patients receiving salmeterol.
*This finding with salmeterol is considered a class effect of all LABAs, including olodaterol.
*The safety and efficacy of tiotropium bromide and olodaterol in patients with asthma have not been established. Tiotropium bromide and olodaterol is not indicated for the treatment of asthma.
|fdaLIADAdult=[[Tiotropium bromide]] and [[olodaterol]] is indicated for long-term, once-daily maintenance treatment of airflow obstruction in patients with [[chronic obstructive pulmonary disease]] (COPD), including [[chronic bronchitis]] and/or [[emphysema]].
 
Important Limitations of Use:
*[[Tiotropium bromide]] and [[olodaterol]] is not indicated to treat acute deteriorations of [[COPD]].
*[[Tiotropium bromide]] and [[olodaterol]] is not indicated to treat [[asthma]]. The safety and effectiveness of [[tiotropium bromide]] and [[olodaterol]] in [[asthma]] have not been established.
 
'''Dosing Information'''
*The recommended dose of [[tiotropium bromide]] and [[olodaterol]] is two inhalations once-daily at the same time of the day.
*Do not use [[tiotropium bromide]] and [[olodaterol]] more than two inhalations every 24 hours.
|offLabelAdultGuideSupport=There is limited information regarding ''Off-Label Guideline-Supported Use'' of [[tiotropium]] bromide and [[olodaterol]] in adult patients.
|offLabelAdultNoGuideSupport=There is limited information regarding ''Off-Label Non–Guideline-Supported Use'' of [[tiotropium]] bromide and [[olodaterol]] in adult patients.
|offLabelPedGuideSupport=There is limited information regarding ''Off-Label Guideline-Supported Use'' of [[tiotropium]] bromide and [[olodaterol]] in pediatric patients.
|offLabelPedNoGuideSupport=There is limited information regarding ''Off-Label Non–Guideline-Supported Use'' of [[tiotropium]] bromide and [[olodaterol]] in pediatric patients.
|contraindications=*All [[LABA|LABAs]] are contraindicated in patients with [[asthma]] without use of a long-term [[asthma]] control medication. [[Tiotropium bromide]] and [[olodaterol]] is not indicated for the treatment of [[asthma]].
*[[Tiotropium bromide]] and [[olodaterol]] is contraindicated in patients with a [[hypersensitivity]] to [[tiotropium]], [[ipratropium]], [[olodaterol]], or any component of this product.
*In clinical trials and postmarketing experience with [[tiotropium]], immediate [[hypersensitivity]] reactions, including [[angioedema]], [[itching]], or [[rash]] have been reported. [[Hypersensitivity]] reactions were also reported in clinical trials with [[tiotropium bromide]] and [[olodaterol]].
|warnings=*[[Asthma]]-Related Death
**Data from a large placebo-controlled study in [[asthma]] patients showed that [[LABA|long-acting beta2-adrenergic agonists]] may increase the risk of [[asthma]]-related death.
**Data are not available to determine whether the rate of death in patients with [[COPD]] is increased by [[LABA|long-acting beta2-adrenergic agonists]].
**A 28-week, placebo-controlled US study comparing the safety of another [[LABA|long-acting beta2-adrenergic agonist]] ([[salmeterol]]) with placebo, each added to usual [[asthma]] therapy, showed an increase in [[asthma]]-related deaths in patients receiving [[salmeterol]] (13/13,176 in patients treated with [[salmeterol]] vs. 3/13,179 in patients treated with placebo; RR 4.37, 95% CI 1.25, 15.34).
**The increased risk of [[asthma]]-related death is considered a class effect of [[LABA|long-acting beta2-adrenergic agonists]], including [[olodaterol]], one of the active ingredients in [[tiotropium bromide]] and [[olodaterol]]. No study adequate to determine whether the rate of [[asthma]]-related death is increased in patients treated with [[tiotropium bromide]] and [[olodaterol]] has been conducted.
**The safety and efficacy of [[tiotropium bromide]] and [[olodaterol]] in patients with [[asthma]] have not been established. [[Tiotropium bromide]] and [[olodaterol]] is not indicated for the treatment of [[asthma]].
*Deterioration of Disease and Acute Episodes
**[[Tiotropium bromide]] and [[olodaterol]] should not be initiated in patients with acutely deteriorating [[COPD]], which may be a life-threatening condition. [[Tiotropium bromide]] and [[olodaterol]] has not been studied in patients with acutely deteriorating [[COPD]]. The use of [[tiotropium bromide]] and [[olodaterol]] in this setting is inappropriate.
**[[Tiotropium bromide]] and [[olodaterol]] should not be used for the relief of acute symptoms, i.e., as rescue therapy for the treatment of acute episodes of [[bronchospasm]]. [[Tiotropium bromide]] and [[olodaterol]] has not been studied in the relief of acute symptoms and extra doses should not be used for that purpose.
**Acute symptoms should be treated with an inhaled [[SABA|short-acting beta2-agonist]].
**When beginning [[tiotropium bromide]] and [[olodaterol]], patients who have been taking inhaled, [[SABA|short-acting beta2-agonists]] on a regular basis (e.g., four times a day) should be instructed to discontinue the regular use of these drugs and use them only for symptomatic relief of acute respiratory symptoms.
**When prescribing [[tiotropium bromide]] and [[olodaterol]], the healthcare provider should also prescribe an inhaled, [[SABA|short-acting beta2-agonist]] and instruct the patient on how it should be used.
**Increasing inhaled [[Beta2-adrenergic receptor agonist|beta2-agonist]] use is a signal of deteriorating disease for which prompt medical attention is indicated.
**[[COPD]] may deteriorate acutely over a period of hours or chronically over several days or longer. If [[tiotropium bromide]] and [[olodaterol]] no longer controls symptoms of [[bronchoconstriction]], or the patient’s inhaled, [[SABA|short-acting beta2-agonist]] becomes less effective or the patient needs more inhalation of [[SABA|short-acting beta2-agonist]] than usual, these may be markers of deterioration of disease.
**In this setting, a re-evaluation of the patient and the [[COPD]] treatment regimen should be undertaken at once. Increasing the daily dosage of [[tiotropium bromide]] and [[olodaterol]] beyond the recommended dose is not appropriate in this situation.
*Excessive Use of [[Tiotropium bromide]] and [[Olodaterol]] and Use With Other [[LABA|Long-Acting Beta2-Agonists]]
**As with other inhaled drugs containing [[Beta2-adrenergic receptor agonist|beta2-adrenergic agents]], [[tiotropium bromide]] and [[olodaterol]] should not be used more often than recommended, at higher doses than recommended, or in conjunction with other medications containing [[LABA|long-acting beta2-agonists]], as an overdose may result.
**Clinically significant cardiovascular effects and fatalities have been reported in association with excessive use of inhaled [[sympathomimetic]] drugs.
*Immediate [[Hypersensitivity]] Reactions
**Immediate [[hypersensitivity]] reactions, including [[urticaria]], [[angioedema]] (including [[swelling]] of the lips, tongue or throat), [[rash]], [[bronchospasm]], [[anaphylaxis]], or [[itching]] may occur after administration of [[tiotropium bromide]] and [[olodaterol]].
**If such a reaction occurs, therapy with [[tiotropium bromide]] and [[olodaterol]] should be stopped at once and alternative treatments should be considered.
**Given the similar structural formula of [[atropine]] to [[tiotropium]], patients with a history of [[hypersensitivity]] reactions to [[atropine]] or its derivatives should be closely monitored for similar [[hypersensitivity]] reactions to [[tiotropium bromide]] and [[olodaterol]].
*Paradoxical [[Bronchospasm]]
**As with other inhaled medicines, [[tiotropium bromide]] and [[olodaterol]] may cause paradoxical [[bronchospasm]] that may be life-threatening.
**If paradoxical [[bronchospasm]] occurs, [[tiotropium bromide]] and [[olodaterol]] should be stopped immediately and alternative therapy instituted.
*Cardiovascular Effects
**[[Olodaterol]], like other [[Beta2-adrenergic receptor agonist|beta2-agonists]], can produce a clinically significant cardiovascular effect in some patients as measured by increases in [[pulse rate]], [[systolic]] or [[diastolic blood pressure]], and/or symptoms.
**If such effects occur, [[tiotropium bromide]] and [[olodaterol]] may need to be discontinued. In addition, [[Beta2-adrenergic receptor agonist|beta-agonists]] have been reported to produce [[ECG]] changes, such as flattening of the [[T wave]], prolongation of the [[QTc interval]], and [[ST segment]] depression. The clinical significance of these findings is unknown.
**[[LABA|Long acting beta2-adrenergic agonists]] should be administered with caution in patients with cardiovascular disorders, especially coronary insufficiency, [[cardiac arrhythmias]], [[hypertrophic obstructive cardiomyopathy]], and [[hypertension]].
*Coexisting Condition
**[[Olodaterol]], like other [[sympathomimetic amine|sympathomimetic amines]], should be used with caution in patients with convulsive disorders or [[thyrotoxicosis]], in patients with known or suspected prolongation of the [[QT interval]], and in patients who are unusually responsive to [[sympathomimetic amine|sympathomimetic amines]].
**Doses of the related [[Beta2-adrenergic receptor agonist|beta2-agonist]] [[albuterol]], when administered [[intravenously]], have been reported to aggravate pre-existing [[diabetes mellitus]] and [[ketoacidosis]].
*Worsening of [[narrow-angle glaucoma|Narrow-Angle Glaucoma]]
**[[Tiotropium bromide]] and [[olodaterol]] should be used with caution in patients with [[narrow-angle glaucoma]]. Prescribers and patients should be alert for signs and symptoms of acute [[narrow-angle glaucoma]] (e.g., eye pain or discomfort, [[blurred vision]], visual halos or colored images in association with [[red eyes]] from [[conjunctiva|conjunctival]] congestion and [[cornea|corneal]] [[edema]]).
**Instruct patients to consult a physician immediately should any of these signs or symptoms develop.
*Worsening of [[urinary retention|Urinary Retention]]
**[[Tiotropium bromide]] and [[olodaterol]] should be used with caution in patients with [[urinary retention]]. Prescribers and patients should be alert for signs and symptoms of prostatic hyperplasia or bladder-neck obstruction (e.g., [[difficulty passing urine]], [[painful urination]]), especially in patients with prostatic hyperplasia or bladder neck obstruction.
**Instruct patients to consult a physician immediately should any of these signs or symptoms develop.
*[[renal impairment|Renal Impairment]]
**Because [[tiotropium]] is a predominantly renally excreted drug, patients with moderate to severe [[renal impairment]] ([[creatinine clearance]] of <60 mL/min) treated with [[tiotropium bromide]] and [[olodaterol]] should be monitored closely for [[anticholinergic]] side effects.
*[[Hypokalemia]] and [[Hyperglycemia]]
**[[Beta2-adrenergic receptor agonist|Beta-adrenergic agonists]] may produce significant [[hypokalemia]] in some patients, which has the potential to produce adverse cardiovascular effects.
**The decrease in serum [[potassium]] is usually transient, not requiring supplementation.
**Inhalation of high doses of [[Beta2-adrenergic receptor agonist|beta2-adrenergic agonists]] may produce increases in plasma [[glucose]].
**In patients with severe [[COPD]], [[hypokalemia]] may be potentiated by [[hypoxia]] and concomitant treatment, which may increase the susceptibility for [[cardiac arrhythmias]].
**Clinically notable decreases in serum [[potassium]] or changes in blood [[glucose]] were infrequent during clinical studies with long-term administration of [[olodaterol]] with the rates similar to those for placebo controls.
**[[Olodaterol]] has not been investigated in patients whose [[diabetes mellitus]] is not well controlled.
|clinicalTrials=[[LABA]], such as [[olodaterol]], one of the active components in [[tiotropium bromide]] and [[olodaterol]], increase the risk of [[asthma]]-related death. [[Tiotropium bromide]] and [[olodaterol]] is not indicated for the treatment of [[asthma]].


Because clinical trials are conducted under widely varying conditions, the incidence of adverse reactions observed in the clinical trials of a drug cannot be directly compared to the incidences in the clinical trials of another drug and may not reflect the incidences observed in practice.


Important limitations:
The clinical program for [[tiotropium bromide]] and [[olodaterol]] included 7151 subjects with [[COPD]] in two 52-week active-controlled trials, one 12-week placebo-controlled trial, three 6-week placebo-controlled cross-over trials, and four additional trials of shorter duration. A total of 1988 subjects received at least 1 dose of [[tiotropium bromide]] and [[olodaterol]]. Adverse reactions observed in the ≤12-week trials were consistent with those observed in the 52-week trials, which formed the primary safety database.


Maintenance Treatment of COPD
The primary safety database consisted of pooled data from the two 52-week double-blind, active-controlled, parallel group confirmatory clinical trials. These trials included 5162 adult [[COPD]] patients (72.9% males and 27.1% females) 40 years of age and older. Of these patients, 1029 were treated with [[tiotropium bromide]] and [[olodaterol]] once daily. The [[tiotropium bromide]] and [[olodaterol]] group was composed of mostly Caucasians (71.1%) with a mean age of 63.8 years and a mean percent predicted [[FEV1]] at baseline of 43.2%. In these two trials, [[tiotropium]] 5 mcg and [[olodaterol]] 5 mcg were included as active control arms and no placebo was used.
STIOLTO RESPIMAT is a combination of tiotropium and olodaterol indicated for long-term, once-daily maintenance treatment of airflow obstruction in patients with chronic obstructive pulmonary disease (COPD), including chronic bronchitis and/or emphysema.


Important Limitations of Use
In these two clinical trials, 74% of patients exposed to [[tiotropium bromide]] and [[olodaterol]] reported an adverse reaction compared to 76.6% and 73.3% in the [[olodaterol]] 5 mcg and [[tiotropium]] 5 mcg groups, respectively. The proportion of patients who discontinued due to an adverse reaction was 7.4% for [[tiotropium bromide]] and [[olodaterol]] treated patients compared to 9.9% and 9.0% for [[olodaterol]] 5 mcg and [[tiotropium]] 5 mcg treated patients. The adverse reaction most commonly leading to discontinuation was worsening [[COPD]]. The most common serious adverse reactions were [[COPD]] exacerbation and [[pneumonia]].


STIOLTO RESPIMAT is not indicated to treat acute deteriorations of COPD [See Warnings and Precautions (5.2)].
Table 1 shows all adverse drug reactions that occurred with an incidence of >3% in the [[tiotropium bromide]] and [[olodaterol]] treatment group and a higher incidence rate than the active comparator groups listed.
STIOLTO RESPIMAT is not indicated to treat asthma. The safety and effectiveness of STIOLTO RESPIMAT in asthma have not been established.
[[File:2016 t1.PNG|thumb|none|400px|This image is provided by the National Library of Medicine]]
|hasBlackBoxWarning=Yes
Other adverse drug reactions in patients receiving [[tiotropium bromide]] and [[olodaterol]] that occurred in ≤3% of patients in clinical studies are listed below:
|adverseReactions=The most common adverse reactions (>3% incidence and more than an active control) were nasopharyngitis, cough, and back pain.
*[[Metabolism]] and nutrition disorders: [[dehydration]]
|blackBoxWarningTitle='''<span style="color:#FF0000;">TITLE</span>'''WARNING: ASTHMA-RELATED DEATH
*Nervous system disorders: [[dizziness]], [[insomnia]]
|blackBoxWarningBody=''<span style="color:#FF0000;">Condition Name:</span>'' Long-acting beta2-adrenergic agonists (LABA) such as olodaterol, one of the active ingredients in STIOLTO RESPIMAT, increase the risk of asthma-related death. Data from a large, placebo-controlled US study that compared the safety of another long-acting beta2-adrenergic agonist (salmeterol) with placebo added to usual asthma therapy showed an increase in asthma-related deaths in patients receiving salmeterol. This finding with salmeterol is considered a class effect of all LABA, including olodaterol, one of the active ingredients in STIOLTO RESPIMAT. The safety and efficacy of STIOLTO RESPIMAT in patients with asthma have not been established. STIOLTO RESPIMAT is not indicated for the treatment of asthma [see Contraindications
*Eye disorders: [[glaucoma]], [[intraocular pressure]] increased, [[vision blurred]]
|fdaLIADAdult=STIOLTO RESPIMAT is a combination of tiotropium and olodaterol indicated for long-term, once-daily maintenance treatment of airflow obstruction in patients with chronic obstructive pulmonary disease (COPD), including chronic bronchitis and/or emphysema.
*Cardiac/vascular disorders: [[atrial fibrillation]], [[palpitations]], [[supraventricular tachycardia]], [[tachycardia]], [[hypertension]]
Respiratory, thoracic, and mediastinal disorders: [[epistaxis]], [[pharyngitis]], [[dysphonia]], [[bronchospasm]], [[laryngitis]], [[sinusitis]]
*Gastrointestinal disorders: [[dry mouth]], [[constipation]], [[oropharyngeal candidiasis]], [[dysphagia]], [[gastroesophageal reflux disease]], [[gingivitis]], [[glossitis]], [[stomatitis]], intestinal obstruction including [[paralytic ileus]]
*Skin and subcutaneous disorders: [[rash]], [[pruritus]], [[angioneurotic edema]], [[urticaria]], [[skin infection]], and [[skin ulcer]], [[dry skin]], [[hypersensitivity]] (including immediate reactions)
*Musculoskeletal and connective tissue disorders: [[arthralgia]], [[joint swelling]]
*Renal and urinary disorders: [[urinary retention]], [[dysuria]], and [[urinary tract infection]]
|drugInteractions=*[[Adrenergic]] Drugs
**If additional [[adrenergic]] drugs are to be administered by any route, they should be used with caution because the sympathetic effects of [[olodaterol]], one component of [[tiotropium bromide]] and [[olodaterol]] may be potentiated.
*[[Sympathomimetics]], [[Xanthine]] Derivatives, [[steroid|Steroids]], or [[Diuretics]]
**[[Tiotropium]] has been used concomitantly with [[SABA|short-acting]] and [[LABA|long-acting]] [[sympathomimetic]] (beta-agonists) [[bronchodilators]], methylxanthines, and oral and inhaled [[steroids]], without increases in adverse reactions.
**Concomitant treatment with [[xanthine]] derivatives, [[steroids]], or [[diuretics]] may potentiate any [[hypokalemic]] effect of [[olodaterol]].
*Non-[[potassium-sparing diuretics|Potassium Sparing Diuretics]]
**The [[ECG]] changes and/or [[hypokalemia]] that may result from the administration of non-[[potassium-sparing diuretics|potassium sparing diuretics]] (such as loop or [[thiazide diuretics]]) can be acutely worsened by [[Beta2-adrenergic receptor agonist|beta-agonists]], especially when the recommended dose of the [[Beta2-adrenergic receptor agonist|beta-agonist]] is exceeded.
**Although the clinical significance of these effects is not known, caution is advised in the co-administration of [[tiotropium bromide]] and [[olodaterol]] with non-[[potassium-sparing diuretics|potassium sparing diuretics]].
*[[Monoamine oxidase inhibitors|Monoamine Oxidase Inhibitors]], [[tricyclic antidepressant|Tricyclic Antidepressants]], [[QTc]] Prolonging Drugs
**[[Tiotropium bromide]] and [[olodaterol]], as with other drugs containing [[Beta2-adrenergic receptor agonist|beta2-agonists]], should be administered with extreme caution to patients being treated with [[monoamine oxidase inhibitors]] or [[tricyclic antidepressants]] or other drugs known to prolong the [[QTc interval]] because the action of [[adrenergic agonists]] on the cardiovascular system may be potentiated by these agents.
**Drugs that are known to prolong the [[QTc interval]] may be associated with an increased risk of [[ventricular arrhythmias]].
*[[Beta-blockers|Beta-Blockers]]
**[[Beta-adrenergic receptor antagonists]] (beta-blockers) and the [[olodaterol]] component of [[tiotropium bromide]] and [[olodaterol]] may interfere with the effect of each other when administered concurrently.
**[[Beta-blockers]] not only block the therapeutic effects of [[beta-agonists]], but may produce severe [[bronchospasm]] in [[COPD]] patients. Therefore, patients with [[COPD]] should not normally be treated with [[beta-blockers]].
**However, under certain circumstances, e.g., as [[prophylaxis]] after [[myocardial infarction]], there may be no acceptable alternatives to the use of [[beta-blockers]] in patients with [[COPD]]. In this setting, cardioselective [[beta-blockers]] could be considered, although they should be administered with caution.
*[[Anticholinergics]]
**There is potential for an additive interaction with concomitantly used [[anticholinergic]] medications.
**Therefore, avoid co-administration of [[tiotropium bromide]] and [[olodaterol]] with other [[anticholinergic]]-containing drugs as this may lead to an increase in [[anticholinergic]] adverse effects.
*Inhibitors of [[Cytochrome P450]] and [[P-gp]] Efflux Transporter
**In a drug interaction study using the strong dual [[CYP]] and [[P-gp]] inhibitor [[ketoconazole]], a 1.7-fold increase of [[olodaterol]] maximum plasma concentrations and [[AUC]] was observed.
**[[Olodaterol]] was evaluated in clinical trials for up to one year at doses up to twice the recommended therapeutic dose. No dose adjustment of [[tiotropium bromide]] and [[olodaterol]] is necessary.
|useInPregnancyFDA=''Teratogenic Effects: Pregnancy Category C.''
 
There are no adequate and well-controlled studies with [[tiotropium bromide]] and [[olodaterol]] or its individual components, [[tiotropium]] bromide and olodaterol, in pregnant women. Animal reproduction studies were conducted with the individual components of [[tiotropium bromide]] and [[olodaterol]], [[tiotropium]] bromide and [[olodaterol]]. [[Tiotropium bromide]] and [[olodaterol]] should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.
 
''[[Tiotropium]]''
 
No evidence of structural alterations was observed in rats and rabbits at approximately 790 and 8 times the recommended human daily inhalation dose (RHDID; on a mcg/m2 basis at maternal inhalation doses of 1471 and 7 mcg/kg/day in rats and rabbits, respectively). However, in rats, [[tiotropium]] caused fetal resorption, litter loss, decreases in the number of live pups at birth and the mean pup weights, and a delay in pup sexual maturation at approximately 40 times the RHDID (on a mcg/m2 basis at a maternal inhalation dose of 78 mcg/kg/day). In rabbits, [[tiotropium]] caused an increase in post-implantation loss at approximately 430 times the RHDID (on a mcg/m2 basis at a maternal inhalation dose of 400 mcg/kg/day). Such effects were not observed at approximately 5 and 95 times the RHDID (on a mcg/m2 basis at maternal inhalation doses of 9 and 88 mcg/kg/day in rats and rabbits, respectively).
 
''[[Olodaterol]]''
 
[[Olodaterol]] was not [[teratogenic]] in rats at approximately 2731 times the RHDID (on an [[AUC]] basis at a maternal inhalation dose of 1054 mcg/kg/day). Placental transfer of [[olodaterol]] was observed in pregnant rats.
 
[[Olodaterol]] has been shown to be [[teratogenic]] in New Zealand rabbits at approximately 7130 times the RHDID in adults (on an [[AUC]] basis at a maternal inhalation dose of 2489 mcg/kg/day). [[Olodaterol]] exhibited the following fetal toxicities: enlarged or small heart [[atria]] or [[ventricles]], eye abnormalities, and split or distorted [[sternum]]. No significant effects occurred at approximately 1353 times the RHDID in adults (on an [[AUC]] basis at a maternal inhalation dose of 974 mcg/kg/day).
 
|useInLaborDelivery=There are no adequate and well-controlled human studies that have investigated the effects of [[tiotropium bromide]] and [[olodaterol]] on preterm labor or labor at term. Because of the potential for [[beta-agonist]] interference with uterine contractility, use of [[tiotropium bromide]] and [[olodaterol]] during labor should be restricted to those patients in whom the benefits clearly outweigh the risks.
|useInNursing=Clinical data from nursing women or infants exposed to [[tiotropium bromide]] and [[olodaterol]] or its individual active components are not available. [[Tiotropium]], [[olodaterol]], and [[metabolites]] of [[olodaterol]] are excreted into the milk of lactating rats. It is not known whether these compounds are excreted in human milk, but because many drugs are excreted in human milk and given these findings in rats, caution should be exercised if [[tiotropium bromide]] and [[olodaterol]] is administered to a nursing woman.
|useInPed=[[COPD]] does not normally occur in children. The safety and effectiveness of [[tiotropium bromide]] and [[olodaterol]] in the pediatric population has not been established.
|useInGeri=Based on available data, no adjustment of [[tiotropium bromide]] and [[olodaterol]] dosage in geriatric patients is warranted.
 
Of the 1029 patients who received [[tiotropium bromide]] and [[olodaterol]] at the recommended dose once daily in the clinical studies from the pooled 1-year database, 525 (51.0%) were <65 years of age, 407 (39.6%) were 65 to <75, 96 (9.3%) were 75 to <85, and 1 (0.1%) was ≥85.
 
No overall differences in effectiveness were observed, and in the 1-year pooled data, the adverse drug reaction profiles were similar in the older population compared to the patient population overall.
|useInRenalImpair=No dose adjustment is required for patients with [[renal impairment]]. However, patients with moderate to severe [[renal impairment]] ([[creatinine clearance]] of <60 mL/min) treated with [[tiotropium bromide]] and [[olodaterol]] should be monitored closely for [[anticholinergic]] side effects.
|useInHepaticImpair=No dose adjustment is needed in patients with mild and moderate hepatic impairment. A study in subjects with severe hepatic impairment was not performed.
|administration=*For oral inhalation only.
*Prior to first use, the [[tiotropium bromide]] and [[olodaterol]] cartridge is inserted into the [[tiotropium bromide]] and [[olodaterol]] inhaler and the unit is primed.
*When using the unit for the first time, patients are to actuate the inhaler toward the ground until an aerosol cloud is visible and then repeat the process three more times. The unit is then considered primed and ready for use.
*If not used for more than 3 days, patients are to actuate the inhaler once to prepare the inhaler for use.
*If not used for more than 21 days, patients are to actuate the inhaler until an aerosol cloud is visible and then repeat the process three more times to prepare the inhaler for use.
*No dosage adjustment is required for geriatric, hepatically-impaired, or renally-impaired patients. However, patients with moderate to severe [[renal impairment]] given [[tiotropium bromide]] and [[olodaterol]] should be monitored closely for [[anticholinergic]] effects.
|overdose=The risks associated with overdosage for the individual components described below apply to the combination drug of [[tiotropium bromide]] and [[olodaterol]].
 
''[[Tiotropium]]''
 
High doses of [[tiotropium]] may lead to [[anticholinergic]] signs and symptoms. However, there were no systemic [[anticholinergic]] adverse effects following a single inhaled dose of up to 282 mcg [[tiotropium]] in 6 healthy volunteers. In a study of 12 healthy volunteers, bilateral [[conjunctivitis]] and [[dry mouth]] were seen following repeated once-daily inhalation of 141 mcg of [[tiotropium]]. [[Dry mouth]]/throat and dry [[nasal mucosa]] occurred in a dose-dependent [10-40 mcg daily] manner, were observed following 14-day dosing of up to 40 mcg [[tiotropium]] bromide inhalation solution in healthy subjects.
 
''[[Olodaterol]]''
 
The expected signs and symptoms with overdosage of [[olodaterol]] are those of excessive beta-adrenergic stimulation and occurrence or exaggeration of any of the signs and symptoms, e.g., [[myocardial ischemia]], [[angina pectoris]], [[hypertension]] or [[hypotension]], [[tachycardia]], [[arrhythmias]], [[palpitations]], [[dizziness]], [[nervousness]], [[insomnia]], [[anxiety]], [[headache]], [[tremor]], [[dry mouth]], [[muscle spasms]], [[nausea]], [[fatigue]], [[malaise]], [[hypokalemia]], [[hyperglycemia]], and [[metabolic acidosis]]. As with all inhaled [[sympathomimetic]] medications, [[cardiac arrest]] and even death may be associated with an overdose of [[olodaterol]].
 
Treatment of overdosage consists of discontinuation of [[tiotropium bromide]] and [[olodaterol]] together with institution of appropriate symptomatic and supportive therapy. The judicious use of a cardioselective [[beta-receptor blocker]] may be considered, bearing in mind that such medication can produce [[bronchospasm]]. There is insufficient evidence to determine if [[dialysis]] is beneficial for overdosage of [[tiotropium bromide]] and [[olodaterol]]. Cardiac monitoring is recommended in cases of overdosage.
|drugBox=[[File:Tiotropium bromide drugbox.JPG|thumb|none|400px]]
[[File:Olodaterol drugbox.JPG|thumb|none|400px]]
|mechAction=The properties described below for the individual components apply to the combination of [[tiotropium bromide]] and [[olodaterol]]. These drugs represent 2 different classes of medication (an [[anticholinergic]] and a [[beta-agonist]]) that have different effects on clinical and physiological indices.
 
''[[Tiotropium]]''
 
[[Tiotropium]] is a long-acting, [[muscarinic antagonist]] which is often referred to as an [[anticholinergic]]. It has similar affinity to the subtypes of muscarinic receptors, [[Muscarinic acetylcholine receptor M1|M1]] to [[Muscarinic acetylcholine receptor M5|M5]]. In the airways, it exhibits pharmacological effects through inhibition of [[Muscarinic acetylcholine receptor M3|M3]]-receptors at the [[smooth muscle]] leading to [[bronchodilation]]. The competitive and reversible nature of antagonism was shown with human and animal origin receptors and isolated organ preparations. In preclinical in vitro as well as in vivo studies, prevention of [[methacholine]]-induced [[bronchoconstriction]] effects was dose-dependent and lasted longer than 24 hours. The [[bronchodilation]] following inhalation of [[tiotropium]] is predominantly a site-specific effect.
 
''[[Olodaterol]]''
[[Olodaterol]] is a [[LABA|long-acting beta2-adrenergic agonist]] (LABA). The compound exerts its pharmacological effects by binding and activation of beta2-adrenoceptors after topical administration by inhalation. Activation of these receptors in the airways results in a stimulation of [[intracellular]] adenyl cyclase, an enzyme that mediates the synthesis of [[cAMP|cyclic-3’, 5’ adenosine monophosphate]] (cAMP). Elevated levels of [[cAMP]] induce [[bronchodilation]] by relaxation of airway [[smooth muscle]] cells. In vitro studies have shown that [[olodaterol]] has 241-fold greater agonist activity at beta2-adrenoceptors compared to beta1-adrenoceptors and 2299-fold greater agonist activity compared to beta3-adrenoceptors. The clinical significance of these findings is unknown.
 
Beta-adrenoceptors are divided into three subtypes: beta1-adrenoceptors predominantly expressed on [[cardiac muscle]], beta2-adrenoceptors predominantly expressed on airway smooth muscle, and beta3-adrenoceptors predominantly expressed on adipose tissue. [[Beta2-adrenergic receptor agonist|Beta2-agonists]] cause [[bronchodilation]]. Although the beta2-adrenoceptor is the predominant adrenergic receptor in the airway [[smooth muscle]], it is also present on the surface of a variety of other cells, including lung epithelial and endothelial cells and in the heart. The precise function of beta2-receptors in the heart is not known, but their presence raises the possibility that even highly selective [[Beta2-adrenergic receptor agonist|beta2-agonists]] may have cardiac effects.
|structure=The drug substance [[tiotropium]] bromide monohydrate is chemically described as (1α, 2ß, 4ß, 5α, 7ß)-7-[(Hydroxydi-2-thienylacetyl)oxy]-9,9-dimethyl-3-oxa-9-azoniatricyclo[3.3.1.02,4] nonane bromide monohydrate. It is a synthetic, non-chiral, quaternary ammonium compound. [[Tiotropium]] bromide is a white or yellowish white powder. It is sparingly soluble in water and soluble in [[methanol]]. The structural formula is:
[[File:Tiotropium bromide structure.jpg|thumb|none|400px|This image is provided by the National Library of Medicine]]
[[Tiotropium]] bromide (monohydrate) has a molecular mass of 490.4 and a molecular formula of C19H22NO4S2Br • H2O.
 
The drug substance [[olodaterol]] hydrochloride is chemically described as 2H-1,4-Benzoxazin-3H(4H)-one, 6-hydroxy-8-[(1R)-1-hydroxy-2-[2-(4-methoxyphenyl)-1,1-dimethylethyl]-amino]ethyl]-, monohydrochloride. [[Olodaterol]] hydrochloride is a white to off-white powder that is sparingly-slightly soluble in water and slightly soluble in [[ethanol]]. The molecular weight is 422.9 g/mole (salt): 386.5 g/mole (base), and the molecular formula is C21H26N2O5 x HCl as a hydrochloride. The conversion factor from salt to free base is 1.094. The structural formula is:
[[File:Olodaterol structure.jpg|thumb|none|400px|This image is provided by the National Library of Medicine]]
|PD='''Cardiac Electrophysiology'''
 
''[[tiotropium bromide|Tiotropium Bromide]] and [[Olodaterol]]''
 
In two 52-week randomized, double-blind trials using [[tiotropium bromide]] and [[olodaterol]] that enrolled 5162 patients with [[COPD]], [[ECG]] assessments were performed post-dose on days 1, 85, 169, and 365. In a pooled analysis the number of subjects with changes from baseline-corrected [[QT interval]] of >30 msec using both the Bazett (QTcB) and Fredericia (QTcF), corrections of [[QT]] for heart rate were not different for the [[tiotropium bromide]] and [[olodaterol]] group compared to [[olodaterol]] 5 mcg and [[tiotropium]] 5 mcg across the assessments conducted.
 
''[[Tiotropium]]''
 
The effect of [[tiotropium]] dry powder for inhalation on [[QT interval]] was also evaluated in a randomized, placebo- and positive-controlled crossover study in 53 healthy volunteers. Subjects received [[tiotropium]] inhalation powder 18 mcg, 54 mcg (3 times the recommended dose), or placebo for 12 days. [[ECG]] assessments were performed at baseline and throughout the dosing interval following the first and last dose of study medication. Relative to placebo, the maximum mean change from baseline in study-specific [[QTc interval]] was 3.2 msec and 0.8 msec for [[tiotropium]] inhalation powder 18 mcg and 54 mcg, respectively. No subject showed a new onset of [[QTc]] >500 msec or [[QTc]] changes from baseline of ≥60 msec.
 
In a multicenter, randomized, double-blind trial using [[tiotropium]] dry powder for inhalation that enrolled 198 patients with [[COPD]], the number of subjects with changes from baseline-corrected [[QT interval]] of 30–60 msec was higher in the [[tiotropium]] group as compared with placebo. This difference was apparent using both the Bazett (QTcB) [20 (20%) patients vs. 12 (12%) patients] and Fredericia (QTcF) [16 (16%) patients vs. 1 (1%) patient] corrections of [[QT]] for heart rate. No patients in either group had either QTcB or QTcF of >500 msec. Other clinical trials with [[tiotropium]] did not detect an effect of the drug on [[QTc intervals]].
 
''[[Olodaterol]]''
 
The effect of [[olodaterol]] on the [[QT]]/[[QTc interval]] of the [[ECG]] was investigated in 24 healthy male and female volunteers in a double-blind, randomized, placebo- and active ([[moxifloxacin]])- controlled study at single doses of 10, 20, 30, and 50 mcg. Dose-dependent QtcI (individual subject corrected [[QT interval]]) prolongation was observed. The maximum mean (one-sided 95% upper confidence bound) difference in QTcI from placebo after baseline correction was 2.5 (5.6) ms, 6.1 (9.2) ms, 7.5 (10.7) ms, and 8.5 (11.6) ms following doses of 10, 20, 30, and 50 mcg, respectively.
 
The effect of 5 mcg and 10 mcg [[olodaterol]] on heart rate and rhythm was assessed using continuous 24-hour [[ECG]] recording (Holter monitoring) in a subset of 772 patients in the 48-week, placebo-controlled phase 3 trials. There were no dose- or time-related trends or patterns observed for the magnitudes of mean changes in heart rate or premature beats. Shifts from baseline to the end of treatment in premature beats did not indicate meaningful differences between [[olodaterol]] 5 mcg, 10 mcg, and placebo.
|PK=When [[tiotropium bromide]] and [[olodaterol]] was administered by the inhalation route, the pharmacokinetic parameters for [[tiotropium]] and for [[olodaterol]] were similar to those observed when each active substance was administered separately.
 
''[[Tiotropium]]'':
 
[[Tiotropium]] is administered as an inhalation spray. Some of the pharmacokinetic data described below were obtained with higher doses than recommended for therapy.
 
''[[Olodaterol]]''
 
[[Olodaterol]] showed linear pharmacokinetics. On repeated once-daily inhalation, steady-state of [[olodaterol]] plasma concentrations was achieved after 8 days, and the extent of exposure was increased up to 1.8-fold as compared to a single dose.
 
'''Absorption'''


2.1 Recommended Dosage
''[[Tiotropium]]''
The recommended dose of STIOLTO RESPIMAT is two inhalations once-daily at the same time of the day. Do not use STIOLTO RESPIMAT more than two inhalations every 24 hours.


2.2 Administration Information
Following inhalation of the solution by young healthy volunteers, urinary excretion data suggests that approximately 33% of the inhaled dose reaches the systemic circulation. Oral solutions of [[tiotropium]] have an absolute bioavailability of 2% to 3%. Food is not expected to influence the absorption of [[tiotropium]] for the same reason. Maximum [[tiotropium]] plasma concentrations were observed 5 to 7 minutes after inhalation.
For oral inhalation only.


Prior to first use, the STIOLTO RESPIMAT cartridge is inserted into the STIOLTO RESPIMAT inhaler and the unit is primed. When using the unit for the first time, patients are to actuate the inhaler toward the ground until an aerosol cloud is visible and then repeat the process three more times. The unit is then considered primed and ready for use. If not used for more than 3 days, patients are to actuate the inhaler once to prepare the inhaler for use. If not used for more than 21 days, patients are to actuate the inhaler until an aerosol cloud is visible and then repeat the process three more times to prepare the inhaler for use [see Patient Counseling Information (17)].
''[[Olodaterol]]''
[[Olodaterol]] reaches maximum plasma concentrations generally within 10 to 20 minutes following drug inhalation. In healthy volunteers the absolute bioavailability of [[olodaterol]] following inhalation was estimated to be approximately 30%, whereas the absolute bioavailability was below 1% when given as an oral solution. Thus, the systemic availability of [[olodaterol]] after inhalation is mainly determined by lung absorption, while any swallowed portion of the dose only negligibly contributes to systemic exposure.


No dosage adjustment is required for geriatric, hepatically-impaired, or renally-impaired patients. However, patients with moderate to severe renal impairment given STIOLTO RESPIMAT should be monitored closely for anticholinergic effects [see Warnings and Precautions (5.9), Use in Specific Populations (8.5, 8.6, 8.7), and Clinical Pharmacology (12.3)].
'''Distribution'''
|offLabelAdultGuideSupport=There is limited information regarding ''Off-Label Guideline-Supported Use'' of Tiotropium bromide and olodaterol in adult patients.
|offLabelAdultNoGuideSupport=There is limited information regarding ''Off-Label Non–Guideline-Supported Use'' of Tiotropium bromide and olodaterol in adult patients.
|offLabelPedGuideSupport=There is limited information regarding ''Off-Label Guideline-Supported Use'' of Tiotropium bromide and olodaterol in pediatric patients.
|offLabelPedNoGuideSupport=There is limited information regarding ''Off-Label Non–Guideline-Supported Use'' of Tiotropium bromide and olodaterol in pediatric patients.
|contraindications=All LABAs are contraindicated in patients with asthma without use of a long-term asthma control medication [see Warnings and Precautions (5.1)]. STIOLTO RESPIMAT is not indicated for the treatment of asthma.


STIOLTO RESPIMAT is contraindicated in patients with a hypersensitivity to tiotropium, ipratropium, olodaterol, or any component of this product [see Warnings and Precautions (5.4)].
''[[Tiotropium]]''


In clinical trials and postmarketing experience with tiotropium, immediate hypersensitivity reactions, including angioedema (including swelling of the lips, tongue, or throat), itching, or rash have been reported. Hypersensitivity reactions were also reported in clinical trials with STIOLTO RESPIMAT.
The drug has a [[plasma protein]] binding of 72% and shows a volume of distribution of 32 L/kg. Local concentrations in the lung are not known, but the mode of administration suggests substantially higher concentrations in the lung. Studies in rats have shown that [[tiotropium]] does not penetrate the [[blood-brain barrier]].
|warnings=5.1 Asthma-Related Death [See Boxed Warning]
Data from a large placebo-controlled study in asthma patients showed that long-acting beta2-adrenergic agonists may increase the risk of asthma-related death. Data are not available to determine whether the rate of death in patients with COPD is increased by long-acting beta2-adrenergic agonists.
A 28-week, placebo-controlled US study comparing the safety of another long-acting beta2-adrenergic agonist (salmeterol) with placebo, each added to usual asthma therapy, showed an increase in asthma-related deaths in patients receiving salmeterol (13/13,176 in patients treated with salmeterol vs. 3/13,179 in patients treated with placebo; RR 4.37, 95% CI 1.25, 15.34). The increased risk of asthma-related death is considered a class effect of long-acting beta2-adrenergic agonists, including olodaterol, one of the active ingredients in STIOLTO RESPIMAT. No study adequate to determine whether the rate of asthma-related death is increased in patients treated with STIOLTO RESPIMAT has been conducted. The safety and efficacy of STIOLTO RESPIMAT in patients with asthma have not been established. STIOLTO RESPIMAT is not indicated for the treatment of asthma [See Contraindications (4)].
5.2 Deterioration of Disease and Acute Episodes
STIOLTO RESPIMAT should not be initiated in patients with acutely deteriorating COPD, which may be a life-threatening condition. STIOLTO RESPIMAT has not been studied in patients with acutely deteriorating COPD. The use of STIOLTO RESPIMAT in this setting is inappropriate.


STIOLTO RESPIMAT should not be used for the relief of acute symptoms, i.e., as rescue therapy for the treatment of acute episodes of bronchospasm. STIOLTO RESPIMAT has not been studied in the relief of acute symptoms and extra doses should not be used for that purpose. Acute symptoms should be treated with an inhaled short-acting beta2-agonist.
''[[Olodaterol]]''


When beginning STIOLTO RESPIMAT, patients who have been taking inhaled, short-acting beta2-agonists on a regular basis (e.g., four times a day) should be instructed to discontinue the regular use of these drugs and use them only for symptomatic relief of acute respiratory symptoms. When prescribing STIOLTO RESPIMAT, the healthcare provider should also prescribe an inhaled, short-acting beta2-agonist and instruct the patient on how it should be used. Increasing inhaled beta2-agonist use is a signal of deteriorating disease for which prompt medical attention is indicated.
[[Olodaterol]] exhibits multi-compartmental disposition kinetics after inhalation as well as after [[intravenous]] administration. The volume of distribution is high (1110 L), suggesting extensive distribution into tissue. In vitro binding of [14C] [[olodaterol]] to human [[plasma proteins]] is independent of concentration and is approximately 60%.


COPD may deteriorate acutely over a period of hours or chronically over several days or longer. If STIOLTO RESPIMAT no longer controls symptoms of bronchoconstriction, or the patient’s inhaled, short-acting beta2-agonist becomes less effective or the patient needs more inhalation of short-acting beta2-agonist than usual, these may be markers of deterioration of disease. In this setting, a re-evaluation of the patient and the COPD treatment regimen should be undertaken at once. Increasing the daily dosage of STIOLTO RESPIMAT beyond the recommended dose is not appropriate in this situation.
'''Elimination'''


5.3 Excessive Use of STIOLTO RESPIMAT and Use With Other Long-Acting Beta2-Agonists
''[[Metabolism]]''
As with other inhaled drugs containing beta2-adrenergic agents, STIOLTO RESPIMAT should not be used more often than recommended, at higher doses than recommended, or in conjunction with other medications containing long-acting beta2-agonists, as an overdose may result. Clinically significant cardiovascular effects and fatalities have been reported in association with excessive use of inhaled sympathomimetic drugs.


5.4 Immediate Hypersensitivity Reactions
''[[Tiotropium]]'': The extent of [[metabolism]] is small. This is evident from a urinary excretion of 74% of unchanged substance after an intravenous dose to young healthy volunteers. [[Tiotropium]], an ester, is nonenzymatically cleaved to the alcohol N-methylscopine and dithienylglycolic acid, both not binding to [[Muscarinic acetylcholine receptor|muscarinic receptors]].
Immediate hypersensitivity reactions, including urticaria, angioedema (including swelling of the lips, tongue or throat), rash, bronchospasm, anaphylaxis, or itching may occur after administration of STIOLTO RESPIMAT. If such a reaction occurs, therapy with STIOLTO RESPIMAT should be stopped at once and alternative treatments should be considered. Given the similar structural formula of atropine to tiotropium, patients with a history of hypersensitivity reactions to atropine or its derivatives should be closely monitored for similar hypersensitivity reactions to STIOLTO RESPIMAT.
In vitro experiments with human liver [[microsome|microsomes]] and human [[hepatocytes]] suggest that a fraction of the administered dose (74% of an intravenous dose is excreted unchanged in the [[urine]], leaving 25% for metabolism) is metabolized by [[cytochrome P450]]-dependent oxidation and subsequent [[glutathione]] conjugation to a variety of Phase 2 [[metabolites]]. This enzymatic pathway can be inhibited by [[CYP2D6]] and [[CYP3A4]] inhibitors, such as [[quinidine]], [[ketoconazole]], and [[gestodene]]. Thus, [[CYP2D6]] and [[CYP3A4]] are involved in the [[metabolic]] pathway that is responsible for the elimination of a small part of the administered dose. In vitro studies using human liver [[microsome|microsomes]] showed that [[tiotropium]] in supra-therapeutic concentrations does not inhibit [[CYP1A1]], [[CYP1A2]], [[CYP2B6]], [[CYP2C9]], [[CYP2C19]], [[CYP2D6]], [[CYP2E1]], or [[CYP3A4]].


5.5 Paradoxical Bronchospasm
''[[Olodaterol]]'': [[Olodaterol]] is substantially metabolized by direct [[glucuronidation]] and by O-[[demethylation]] at the [[methoxy]] [[moiety]] followed by conjugation. Of the six [[metabolites]] identified, only the unconjugated [[demethylation]] product binds to beta2-receptors. This [[metabolite]], however, is not detectable in plasma after chronic inhalation of the recommended therapeutic dose.  
As with other inhaled medicines, STIOLTO RESPIMAT may cause paradoxical bronchospasm that may be life-threatening. If paradoxical bronchospasm occurs, STIOLTO RESPIMAT should be stopped immediately and alternative therapy instituted.
[[Cytochrome P450]] isozymes [[CYP2C9]] and [[CYP2C8]], with negligible contribution of [[CYP3A4]], are involved in the O-[[demethylation]] of [[olodaterol]], while uridine diphosphate glycosyl transferase isoforms [[UGT2B7]], [[UGT1A1]], 1A7, and 1A9 were shown to be involved in the formation of [[olodaterol]] [[glucuronides]].


5.6 Cardiovascular Effects
''Excretion''
Olodaterol, like other beta2-agonists, can produce a clinically significant cardiovascular effect in some patients as measured by increases in pulse rate, systolic or diastolic blood pressure, and/or symptoms. If such effects occur, STIOLTO RESPIMAT may need to be discontinued. In addition, beta-agonists have been reported to produce ECG changes, such as flattening of the T wave, prolongation of the QTc interval, and ST segment depression. The clinical significance of these findings is unknown. Long acting beta2-adrenergic agonists should be administered with caution in patients with cardiovascular disorders, especially coronary insufficiency, cardiac arrhythmias, hypertrophic obstructive cardiomyopathy, and hypertension.
''[[Tiotropium]]'': The terminal half-life of [[tiotropium]] in [[COPD]] patients following once daily inhalation of 5 mcg [[tiotropium]] was approximately 25 hours. Total clearance was 880 mL/min after an [[intravenous]] dose in young healthy volunteers. Intravenously administered [[tiotropium]] bromide is mainly excreted unchanged in [[urine]] (74%). After inhalation of the solution by patients with [[COPD]], urinary excretion is 18.6% (0.932 mcg) of the dose, the remainder being mainly non-absorbed drug in the gut that is eliminated via the [[feces]]. The [[renal clearance]] of [[tiotropium]] exceeds the [[creatinine clearance]], indicating secretion into the [[urine]]. After chronic once-daily inhalation by [[COPD]] patients, pharmacokinetic steady state was reached by day 7 with no accumulation thereafter.


5.7 Coexisting Conditions
''[[Olodaterol]]'': Total clearance of [[olodaterol]] in healthy volunteers is 872 mL/min, and [[renal clearance]] is 173 mL/min. The terminal half-life following [[intravenous]] administration is 22 hours. The terminal half-life following inhalation in contrast is about 45 hours, indicating that the latter is determined by absorption rather than by elimination processes. However, the effective half-life at daily dose of 5 mcg calculated from [[Cmax]] from [[COPD]] patients is 7.5 hours.
Olodaterol, like other sympathomimetic amines, should be used with caution in patients with convulsive disorders or thyrotoxicosis, in patients with known or suspected prolongation of the QT interval, and in patients who are unusually responsive to sympathomimetic amines. Doses of the related beta2-agonist albuterol, when administered intravenously, have been reported to aggravate pre-existing diabetes mellitus and ketoacidosis.
Following intravenous administration of [14C]-labeled [[olodaterol]], 38% of the radioactive dose was recovered in the [[urine]] and 53% was recovered in [[feces]]. The amount of unchanged [[olodaterol]] recovered in the [[urine]] after [[intravenous]] administration was 19%. Following oral administration, only 9% of [[olodaterol]] and/or its [[metabolites]] was recovered in [[urine]], while the major portion was recovered in [[feces]] (84%). More than 90% of the dose was excreted within 6 and 5 days following [[intravenous]] and oral administration, respectively. Following inhalation, excretion of unchanged [[olodaterol]] in [[urine]] within the dosing interval in healthy volunteers at steady state accounted for 5% to 7% of the dose.


5.8 Worsening of Narrow-Angle Glaucoma
'''Drug Interactions'''
STIOLTO RESPIMAT should be used with caution in patients with narrow-angle glaucoma. Prescribers and patients should be alert for signs and symptoms of acute narrow-angle glaucoma (e.g., eye pain or discomfort, blurred vision, visual halos or colored images in association with red eyes from conjunctival congestion and corneal edema). Instruct patients to consult a physician immediately should any of these signs or symptoms develop.


5.9 Worsening of Urinary Retention
''[[Tiotropium Bromide]] and [[Olodaterol]]'':
STIOLTO RESPIMAT should be used with caution in patients with urinary retention. Prescribers and patients should be alert for signs and symptoms of prostatic hyperplasia or bladder-neck obstruction (e.g., difficulty passing urine, painful urination), especially in patients with prostatic hyperplasia or bladder neck obstruction. Instruct patients to consult a physician immediately should any of these signs or symptoms develop.


5.10 Renal Impairment
Pharmacokinetic drug interaction studies with [[tiotropium bromide]] and [[olodaterol]] have not been performed; however, such studies have been conducted with individual components [[tiotropium]] and [[olodaterol]].
Because tiotropium is a predominantly renally excreted drug, patients with moderate to severe renal impairment (creatinine clearance of <60 mL/min) treated with STIOLTO RESPIMAT should be monitored closely for anticholinergic side effects [see Use in Specific Populations (8.7) and Clinical Pharmacology (12.3)].


5.11 Hypokalemia and Hyperglycemia
When [[tiotropium]] and [[olodaterol]] were administered in combination by the inhaled route, the pharmacokinetic parameters for each component were similar to those observed when each active substance was administered separately.
Beta-adrenergic agonists may produce significant hypokalemia in some patients, which has the potential to produce adverse cardiovascular effects [see Clinical Pharmacology (12.2)]. The decrease in serum potassium is usually transient, not requiring supplementation. Inhalation of high doses of beta2-adrenergic agonists may produce increases in plasma glucose.


In patients with severe COPD, hypokalemia may be potentiated by hypoxia and concomitant treatment [see Drug Interactions (7.2)], which may increase the susceptibility for cardiac arrhythmias.
''[[Tiotropium]]'':


Clinically notable decreases in serum potassium or changes in blood glucose were infrequent during clinical studies with long-term administration of olodaterol with the rates similar to those for placebo controls. Olodaterol has not been investigated in patients whose diabetes mellitus is not well controlled.
An interaction study with [[tiotropium]] (14.4 mcg [[intravenous]] infusion over 15 minutes) and [[cimetidine]] 400 mg three times daily or [[ranitidine]] 300 mg once-daily was conducted. Concomitant administration of [[cimetidine]] with [[tiotropium]] resulted in a 20% increase in the [[AUC]]0-4h, a 28% decrease in the [[renal clearance]] of [[tiotropium]] and no significant change in the [[Cmax]] and amount excreted in [[urine]] over 96 hours. Co-administration of [[tiotropium]] with [[ranitidine]] did not affect the pharmacokinetics of [[tiotropium]].
|clinicalTrials=LABA, such as olodaterol, one of the active components in STIOLTO RESPIMAT, increase the risk of asthma-related death. STIOLTO RESPIMAT is not indicated for the treatment of asthma [see Boxed Warning and Warning and Precautions 5.1].


The following adverse reactions are described, or described in greater detail, in other sections:
Common concomitant medications ([[LABA|long-acting beta2-adrenergic agonists]] (LABA), inhaled [[corticosterioids]] (ICS)) used by patients with [[COPD]] were not found to alter the exposure to [[tiotropium]].


''[[Olodaterol]]'':
Drug-drug interaction studies were carried out using [[fluconazole]] as a model inhibitor of [[CYP2C9]] and [[ketoconazole]] as a potent [[P-gp]] (and [[CYP3A4]], [[CYP2C8]], [[CYP2C9]]) inhibitor.


Immediate hypersensitivity reactions [see Warnings and Precautions (5.4)]
''[[Fluconazole]]'':
Paradoxical bronchospasm [see Warnings and Precautions (5.5)]
Worsening of narrow-angle glaucoma [see Warnings and Precautions (5.7)]
Worsening of urinary retention [see Warnings and Precautions (5.8)]
6.1 Clinical Trials Experience in Chronic Obstructive Pulmonary Disease
Because clinical trials are conducted under widely varying conditions, the incidence of adverse reactions observed in the clinical trials of a drug cannot be directly compared to the incidences in the clinical trials of another drug and may not reflect the incidences observed in practice.


The clinical program for STIOLTO RESPIMAT included 7151 subjects with COPD in two 52-week active-controlled trials, one 12-week placebo-controlled trial, three 6-week placebo-controlled cross-over trials, and four additional trials of shorter duration. A total of 1988 subjects received at least 1 dose of STIOLTO RESPIMAT. Adverse reactions observed in the ≤12-week trials were consistent with those observed in the 52-week trials, which formed the primary safety database.
Co-administration of 400 mg [[fluconazole]] once a day for 14 days had no relevant effect on systemic exposure to [[olodaterol]].


The primary safety database consisted of pooled data from the two 52-week double-blind, active-controlled, parallel group confirmatory clinical trials. These trials included 5162 adult COPD patients (72.9% males and 27.1% females) 40 years of age and older. Of these patients, 1029 were treated with STIOLTO RESPIMAT once daily. The STIOLTO RESPIMAT group was composed of mostly Caucasians (71.1%) with a mean age of 63.8 years and a mean percent predicted FEV1 at baseline of 43.2%. In these two trials, tiotropium 5 mcg and olodaterol 5 mcg were included as active control arms and no placebo was used.
''[[Ketoconazole]]'':


In these two clinical trials, 74% of patients exposed to STIOLTO RESPIMAT reported an adverse reaction compared to 76.6% and 73.3% in the olodaterol 5 mcg and tiotropium 5 mcg groups, respectively. The proportion of patients who discontinued due to an adverse reaction was 7.4% for STIOLTO RESPIMAT treated patients compared to 9.9% and 9.0% for olodaterol 5 mcg and tiotropium 5 mcg treated patients. The adverse reaction most commonly leading to discontinuation was worsening COPD.
Co-administration of 400 mg [[ketoconazole]] once a day for 14 days increased [[olodaterol]] [[Cmax]] by 66% and [[AUC]]0-1 by 68%.


The most common serious adverse reactions were COPD exacerbation and pneumonia.
''[[Tiotropium]]'': Co-administration of [[tiotropium]] bromide, delivered as a fixed-dose combination with [[olodaterol]], for 21 days had no relevant effect on systemic exposure to [[olodaterol]], and vice versa.


Table 1 shows all adverse drug reactions that occurred with an incidence of >3% in the STIOLTO RESPIMAT treatment group and a higher incidence rate than the active comparator groups listed.
'''Specific Populations'''
[[File:2016 t1.PNG|thumb]]


Other adverse drug reactions in patients receiving STIOLTO RESPIMAT that occurred in ≤3% of patients in clinical studies are listed below:
''[[Olodaterol]]'':


Metabolism and nutrition disorders: dehydration
A pharmacokinetic meta-analysis showed that no dose adjustment is necessary based on the effect of age, gender, and weight on systemic exposure in [[COPD]] patients after inhalation of [[olodaterol]].
Nervous system disorders: dizziness, insomnia
Eye disorders: glaucoma, intraocular pressure increased, vision blurred
Cardiac/vascular disorders: atrial fibrillation, palpitations, supraventricular tachycardia, tachycardia, hypertension
Respiratory, thoracic, and mediastinal disorders: epistaxis, pharyngitis, dysphonia, bronchospasm, laryngitis, sinusitis
Gastrointestinal disorders: dry mouth, constipation, oropharyngeal candidiasis, dysphagia, gastroesophageal reflux disease, gingivitis, glossitis, stomatitis, intestinal obstruction including ileus paralytic
Skin and subcutaneous disorders: rash, pruritus, angioneurotic edema, urticaria, skin infection, and skin ulcer, dry skin, hypersensitivity (including immediate reactions)
Musculoskeletal and connective tissue disorders: arthralgia, joint swelling
Renal and urinary disorders: urinary retention, dysuria, and urinary tract infection
|drugInteractions=7.1 Adrenergic Drugs
If additional adrenergic drugs are to be administered by any route, they should be used with caution because the sympathetic effects of olodaterol, one component of STIOLTO RESPIMAT may be potentiated [see Warnings and Precautions (5.3, 5.6, 5.10, 5.11)].


7.2 Sympathomimetics, Xanthine Derivatives, Steroids, or Diuretics
''Geriatric Patients''
Tiotropium has been used concomitantly with short-acting and long-acting sympathomimetic (beta-agonists) bronchodilators, methylxanthines, and oral and inhaled steroids, without increases in adverse reactions. Concomitant treatment with xanthine derivatives, steroids, or diuretics may potentiate any hypokalemic effect of olodaterol [see Warnings and Precautions (5.11)].


7.3 Non-Potassium Sparing Diuretics
''[[Tiotropium]]'': As expected for all predominantly renally excreted drugs, advancing age was associated with a decrease of [[tiotropium]] [[renal clearance]] (347 mL/min in [[COPD]] patients <65 years to 275 mL/min in [[COPD]] patients ≥65 years). This did not result in a corresponding increase in [[AUC]]0-6,ss and [[Cmax]],ss values.
The ECG changes and/or hypokalemia that may result from the administration of non-potassium sparing diuretics (such as loop or thiazide diuretics) can be acutely worsened by beta-agonists, especially when the recommended dose of the beta-agonist is exceeded. Although the clinical significance of these effects is not known, caution is advised in the co-administration of STIOLTO RESPIMAT with non-potassium sparing diuretics.


7.4 Monoamine Oxidase Inhibitors, Tricyclic Antidepressants, QTc Prolonging Drugs
''[[renal impairment|Renal Impairment]]''
STIOLTO RESPIMAT, as with other drugs containing beta2-agonists, should be administered with extreme caution to patients being treated with monoamine oxidase inhibitors or tricyclic antidepressants or other drugs known to prolong the QTc interval because the action of adrenergic agonists on the cardiovascular system may be potentiated by these agents. Drugs that are known to prolong the QTc interval may be associated with an increased risk of ventricular arrhythmias.


7.5 Beta-Blockers
''[[Tiotropium]]'': Following inhaled administration of therapeutic doses of [[tiotropium]] to steady-state to patients with [[COPD]], mild [[renal impairment]] ([[creatinine clearance]] 60 - <90 mL/min) resulted in 23% higher [[AUC]]0-6,ss and 17% higher [[Cmax]],ss values. Moderate [[renal impairment]] ([[creatinine clearance]] 30 - <60 mL/min) resulted in 57% higher [[AUC]]0-6,ss and 31% higher [[Cmax]],ss values compared to [[COPD]] patients with normal [[renal function]] ([[creatinine clearance]] >90 mL/min). In [[COPD]] patients with severe [[renal impairment]] ([[CrCl|CLCR]] <30 mL/min), a single [[intravenous]] administration of [[tiotropium bromide]] resulted in 94% higher [[AUC]]0-4 and 52% higher [[Cmax]] compared to [[COPD]] patients with normal [[renal function]].
Beta-adrenergic receptor antagonists (beta-blockers) and the olodaterol component of STIOLTO RESPIMAT may interfere with the effect of each other when administered concurrently. Beta-blockers not only block the therapeutic effects of beta-agonists, but may produce severe bronchospasm in COPD patients. Therefore, patients with COPD should not normally be treated with beta-blockers. However, under certain circumstances, e.g., as prophylaxis after myocardial infarction, there may be no acceptable alternatives to the use of beta-blockers in patients with COPD. In this setting, cardioselective beta-blockers could be considered, although they should be administered with caution.


7.6 Anticholinergics
''[[Olodaterol]]'':
There is potential for an additive interaction with concomitantly used anticholinergic medications. Therefore, avoid co-administration of STIOLTO RESPIMAT with other anticholinergic-containing drugs as this may lead to an increase in anticholinergic adverse effects [see Warnings and Precautions (5.7, 5.8) and Adverse Reactions (6)].
[[Olodaterol]] levels were increased by approximately 40% in subjects with severe [[renal impairment]]. A study in subjects with mild and moderate [[renal impairment]] was not performed.


7.7 Inhibitors of Cytochrome P450 and P-gp Efflux Transporter
''Hepatic Impairment''
In a drug interaction study using the strong dual CYP and P-gp inhibitor ketoconazole, a 1.7-fold increase of olodaterol maximum plasma concentrations and AUC was observed [see Pharmacokinetics (12.3)]. Olodaterol was evaluated in clinical trials for up to one year at doses up to twice the recommended therapeutic dose. No dose adjustment of STIOLTO RESPIMAT is necessary.
|useInPregnancyFDA=Teratogenic Effects: Pregnancy Category C.
There are no adequate and well-controlled studies with STIOLTO RESPIMAT or its individual components, tiotropium bromide and olodaterol, in pregnant women. Animal reproduction studies were conducted with the individual components of STIOLTO RESPIMAT, tiotropium bromide and olodaterol. STIOLTO RESPIMAT should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.


Tiotropium  
''[[Tiotropium]]'': The effects of hepatic impairment on the pharmacokinetics of [[tiotropium]] were not studied.
No evidence of structural alterations was observed in rats and rabbits at approximately 790 and 8 times the recommended human daily inhalation dose (RHDID; on a mcg/m2 basis at maternal inhalation doses of 1471 and 7 mcg/kg/day in rats and rabbits, respectively). However, in rats, tiotropium caused fetal resorption, litter loss, decreases in the number of live pups at birth and the mean pup weights, and a delay in pup sexual maturation at approximately 40 times the RHDID (on a mcg/m2 basis at a maternal inhalation dose of 78 mcg/kg/day). In rabbits, tiotropium caused an increase in post-implantation loss at approximately 430 times the RHDID (on a mcg/m2 basis at a maternal inhalation dose of 400 mcg/kg/day). Such effects were not observed at approximately 5 and 95 times the RHDID (on a mcg/m2 basis at maternal inhalation doses of 9 and 88 mcg/kg/day in rats and rabbits, respectively).


Olodaterol  
''[[Olodaterol]]'': Subjects with mild and moderate hepatic impairment showed no changes in [[Cmax]] or [[AUC]], nor did protein binding differ between mild and moderate hepatically impaired subjects and their healthy controls. A study in subjects with severe hepatic impairment was not performed.
Olodaterol was not teratogenic in rats at approximately 2731 times the RHDID (on an AUC basis at a maternal inhalation dose of 1054 mcg/kg/day). Placental transfer of olodaterol was observed in pregnant rats.
|nonClinToxic='''[[Carcinogenesis]], [[Mutagenesis]], Impairment of [[Fertility]]'''


Olodaterol has been shown to be teratogenic in New Zealand rabbits at approximately 7130 times the RHDID in adults (on an AUC basis at a maternal inhalation dose of 2489 mcg/kg/day). Olodaterol exhibited the following fetal toxicities: enlarged or small heart atria or ventricles, eye abnormalities, and split or distorted sternum. No significant effects occurred at approximately 1353 times the RHDID in adults (on an AUC basis at a maternal inhalation dose of 974 mcg/kg/day).
[[Tiotropium Bromide]] and [[Olodaterol]]:
|useInLaborDelivery=There are no adequate and well-controlled human studies that have investigated the effects of STIOLTO RESPIMAT on preterm labor or labor at term. Because of the potential for beta-agonist interference with uterine contractility, use of STIOLTO RESPIMAT during labor should be restricted to those patients in whom the benefits clearly outweigh the risks.
|useInNursing=Clinical data from nursing women or infants exposed to STIOLTO RESPIMAT or its individual active components are not available. Tiotropium, olodaterol, and metabolites of olodaterol are excreted into the milk of lactating rats. It is not known whether these compounds are excreted in human milk, but because many drugs are excreted in human milk and given these findings in rats, caution should be exercised if STIOLTO RESPIMAT is administered to a nursing woman.
|useInPed=COPD does not normally occur in children. The safety and effectiveness of STIOLTO RESPIMAT in the pediatric population has not been established.
|useInGeri=Based on available data, no adjustment of STIOLTO RESPIMAT dosage in geriatric patients is warranted [see Clinical Pharmacology (12.3)].


Of the 1029 patients who received STIOLTO RESPIMAT at the recommended dose once daily in the clinical studies from the pooled 1-year database, 525 (51.0%) were <65 years of age, 407 (39.6%) were 65 to <75, 96 (9.3%) were 75 to <85, and 1 (0.1%) was ≥85.
No studies of the [[carcinogenicity]], in vitro mutagenicity, or impairment of [[fertility]] were conducted with [[tiotropium bromide]] and [[olodaterol]], however, studies are available for the individual components, [[tiotropium]] and [[olodaterol]].
No overall differences in effectiveness were observed, and in the 1-year pooled data, the adverse drug reaction profiles were similar in the older population compared to the patient population overall.
|useInRenalImpair=No dose adjustment is required for patients with renal impairment. However, patients with moderate to severe renal impairment (creatinine clearance of <60 mL/min) treated with STIOLTO RESPIMAT should be monitored closely for anticholinergic side effects [see Dosage and Administration (2), Warnings and Precautions (5.9), and Clinical Pharmacology (12.3)].
|useInHepaticImpair=No dose adjustment is needed in patients with mild and moderate hepatic impairment. A study in subjects with severe hepatic impairment was not performed [see Clinical Pharmacology (12.3)].
|overdose=STIOLTO RESPIMAT contains both tiotropium bromide and olodaterol; therefore, the risks associated with overdosage for the individual components described below apply to STIOLTO RESPIMAT.


Tiotropium  
''[[Tiotropium]]'':
High doses of tiotropium may lead to anticholinergic signs and symptoms. However, there were no systemic anticholinergic adverse effects following a single inhaled dose of up to 282 mcg tiotropium in 6 healthy volunteers. In a study of 12 healthy volunteers, bilateral conjunctivitis and dry mouth were seen following repeated once-daily inhalation of 141 mcg of tiotropium. Dry mouth/throat and dry nasal mucosa occurred in a dose-dependent [10-40 mcg daily] manner, were observed following 14-day dosing of up to 40 mcg tiotropium bromide inhalation solution in healthy subjects.


Olodaterol
No evidence of tumorigenicity was observed in a 104-week inhalation study in rats at [[tiotropium]] doses up to 59 mcg/kg/day, in an 83-week inhalation study in female mice at doses up to 145 mcg/kg/day, and in a 101-week inhalation study in male mice at doses up to 2 mcg/kg/day. These doses correspond to approximately 30, 40, and 0.5 times the recommended human daily inhalation dose (RHDID) on a mcg/m2 basis, respectively.
The expected signs and symptoms with overdosage of olodaterol are those of excessive beta-adrenergic stimulation and occurrence or exaggeration of any of the signs and symptoms, e.g., myocardial ischemia, angina pectoris, hypertension or hypotension, tachycardia, arrhythmias, palpitations, dizziness, nervousness, insomnia, anxiety, headache, tremor, dry mouth, muscle spasms, nausea, fatigue, malaise, hypokalemia, hyperglycemia, and metabolic acidosis. As with all inhaled sympathomimetic medications, cardiac arrest and even death may be associated with an overdose of olodaterol.
[[Tiotropium bromide]] demonstrated no evidence of mutagenicity or clastogenicity in the following assays: the bacterial gene mutation assay, the V79 Chinese hamster cell [[mutagenesis]] assay, the [[chromosomal aberration]] assay in human [[lymphocytes]] in vitro, the mouse [[micronucleus]] assay in vivo, and the unscheduled [[DNA]] synthesis assay in primary rat [[hepatocytes]] in vitro.


Treatment of overdosage consists of discontinuation of STIOLTO RESPIMAT together with institution of appropriate symptomatic and supportive therapy. The judicious use of a cardioselective beta-receptor blocker may be considered, bearing in mind that such medication can produce bronchospasm. There is insufficient evidence to determine if dialysis is beneficial for overdosage of STIOLTO RESPIMAT. Cardiac monitoring is recommended in cases of overdosage.
In rats, decreases in the number of corpora lutea and the percentage of implants were noted at inhalation [[tiotropium]] doses of 78 mcg/kg/day or greater (approximately 35 times the RHDID on a mcg/m2 basis). No such effects were observed at 9 mcg/kg/day (approximately 4 times than the RHDID on a mcg/m2 basis). The [[fertility]] index; however, was not affected at inhalation doses up to 1689 mg/kg/day (approximately 760 times the RHDID on a mcg/m2 basis).
|mechAction=STIOLTO RESPIMAT
STIOLTO RESPIMAT contains both tiotropium and olodaterol. The properties described below for the individual components apply to STIOLTO RESPIMAT. These drugs represent 2 different classes of medication (an anticholinergic and a beta-agonist) that have different effects on clinical and physiological indices.


Tiotropium
''[[Olodaterol]]'':
Tiotropium is a long-acting, muscarinic antagonist which is often referred to as an anticholinergic. It has similar affinity to the subtypes of muscarinic receptors, M1 to M5. In the airways, it exhibits pharmacological effects through inhibition of M3-receptors at the smooth muscle leading to bronchodilation. The competitive and reversible nature of antagonism was shown with human and animal origin receptors and isolated organ preparations. In preclinical in vitro as well as in vivo studies, prevention of methacholine-induced bronchoconstriction effects was dose-dependent and lasted longer than 24 hours. The bronchodilation following inhalation of tiotropium is predominantly a site-specific effect.


Olodaterol
Two-year inhalation studies were conducted in rats and mice to assess the [[carcinogenic]] potential of [[olodaterol]]. Lifetime treatment of female rats induced [[leiomyoma|leiomyomas]] of the mesovarium at doses of 25.8 and 270 mcg/kg/day (approximately 18- and 198-fold, respectively, the RHDID on an [[AUC]] basis). No tumor findings were observed in male rats at doses up to 270 mcg/kg/day (approximately 230-fold the RHDID on an [[AUC]] basis). Lifetime treatment of female mice induced [[leiomyoma|leiomyomas]] and [[leiomyosacroma|leiomyosarcomas]] of the [[uterus]] at doses ≥76.9 mcg/kg/day (approximately 106-fold the RHDID on an [[AUC]] basis). No tumor findings were observed in male mice at doses up to 255 mcg/kg/day (approximately 455-fold the RHDID on an AUC basis). Increases in [[leiomyoma|leiomyomas]] and [[leiomyosacroma|leiomyosarcomas]] of the female rodent reproductive tract have been similarly demonstrated with other [[Beta2-adrenergic receptor agonist|beta2-adrenergic agonist drugs]]. The relevance of these findings to human use is unknown.
Olodaterol is a long-acting beta2-adrenergic agonist (LABA). The compound exerts its pharmacological effects by binding and activation of beta2-adrenoceptors after topical administration by inhalation. Activation of these receptors in the airways results in a stimulation of intracellular adenyl cyclase, an enzyme that mediates the synthesis of cyclic-3’, 5’ adenosine monophosphate (cAMP). Elevated levels of cAMP induce bronchodilation by relaxation of airway smooth muscle cells. In vitro studies have shown that olodaterol has 241-fold greater agonist activity at beta2-adrenoceptors compared to beta1-adrenoceptors and 2299-fold greater agonist activity compared to beta3-adrenoceptors. The clinical significance of these findings is unknown.


Beta-adrenoceptors are divided into three subtypes: beta1-adrenoceptors predominantly expressed on cardiac muscle, beta2-adrenoceptors predominantly expressed on airway smooth muscle, and beta3-adrenoceptors predominantly expressed on adipose tissue. Beta2-agonists cause bronchodilation. Although the beta2-adrenoceptor is the predominant adrenergic receptor in the airway smooth muscle, it is also present on the surface of a variety of other cells, including lung epithelial and endothelial cells and in the heart. The precise function of beta2-receptors in the heart is not known, but their presence raises the possibility that even highly selective beta2-agonists may have cardiac effects.
[[Olodaterol]] was not [[mutagenic]] in the in vitro Ames test or in the in vitro mouse [[lymphoma]] assay. [[Olodaterol]] produced increased frequency of [[micronucleus|micronuclei]] in rats after [[intravenous]] doses. The increased frequency of [[micronucleus|micronuclei]] was likely related to drug enhanced (compensatory) [[erythropoiesis]]. The mechanism for induction of [[micronucleus|micronuclei]] formation is likely not relevant at clinical exposures.
|structure=STIOLTO RESPIMAT is a combination of tiotropium, an anticholinergic, and olodaterol, a long-acting beta2-adrenergic agonist (LABA).


The drug substance tiotropium bromide monohydrate is chemically described as (1α, 2ß, 4ß, 5α, 7ß)-7-[(Hydroxydi-2-thienylacetyl)oxy]-9,9-dimethyl-3-oxa-9-azoniatricyclo[3.3.1.02,4] nonane bromide monohydrate. It is a synthetic, non-chiral, quaternary ammonium compound. Tiotropium bromide is a white or yellowish white powder. It is sparingly soluble in water and soluble in methanol.
[[Olodaterol]] did not impair male or female [[fertility]] in rats at inhalation doses up to 3068 mcg/kg/day (approximately 2322 times the RHDID on an [[AUC]] basis).
|clinicalStudies=The safety and efficacy of [[tiotropium bromide]] and [[olodaterol]] were evaluated in a clinical development program that included three dose ranging trials, two active-controlled trials, three active- and placebo-controlled trials, and one placebo-controlled trial. The efficacy of [[tiotropium bromide]] and [[olodaterol]] is based primarily on two 4-week dose-ranging trials in 592 [[COPD]] patients and two confirmatory active-controlled 52-week trials (Trials 1 and 2) in 5162 [[COPD]] patients.


The structural formula is:
''Dose-Ranging Trials''


tiotropium bromide
Dose selection for [[tiotropium bromide]] and [[olodaterol]] was primarily based on trials for the individual components, [[tiotropium bromide]] and [[olodaterol]]. Dose selection was also supported by two randomized, double-blind, active-controlled, 4-week trials. In one trial in 232 patients with [[COPD]], three [[tiotropium]] doses (1.25, 2.5, and 5 mcg) were given in combination with [[olodaterol]] 5 or 10 mcg and were evaluated compared to [[olodaterol]] [[monotherapy]]. Results demonstrated improvement in trough [[FEV1]] for the combination when compared to [[olodaterol]] alone. The difference in trough [[FEV1]] for the [[tiotropium bromide]]/[[olodaterol]] doses of 1.25/5, 2.5/5, and 5/5 mcg once daily from [[olodaterol]] 5 mcg were 0.054 L (95% CI 0.016, 0.092), 0.065 L (0.027, 0.103), and 0.084 L (0.046, 0.122), respectively. In the second trial in 360 patients with [[COPD]], three [[olodaterol]] doses (2, 5, and 10 mcg) were given in combination with [[tiotropium]] 5 mcg and were evaluated compared to [[tiotropium]] [[monotherapy]]. The difference in trough [[FEV1]] for the [[tiotropium]]/[[olodaterol]] doses of 5/2, 5/5, and 5/10 mcg once daily from [[tiotropium]] 5 mcg were 0.024 L (95% CI -0.029, 0.076), 0.033 L (-0.019, 0.085), and 0.057 L (0.004, 0.110), respectively. Results of these trials supported the evaluation of once-daily doses of [[tiotropium bromide]]/[[olodaterol]] 2.5/5 mcg and 5/5 mcg in the confirmatory trials.
Tiotropium bromide (monohydrate) has a molecular mass of 490.4 and a molecular formula of C19H22NO4S2Br • H2O.


The drug substance olodaterol hydrochloride is chemically described as 2H-1,4-Benzoxazin-3H(4H)-one, 6-hydroxy-8-[(1R)-1-hydroxy-2-[[2-(4-methoxyphenyl)-1,1-dimethylethyl]-amino]ethyl]-, monohydrochloride. Olodaterol hydrochloride is a white to off-white powder that is sparingly-slightly soluble in water and slightly soluble in ethanol. The molecular weight is 422.9 g/mole (salt): 386.5 g/mole (base), and the molecular formula is C21H26N2O5 x HCl as a hydrochloride. The conversion factor from salt to free base is 1.094.
''Confirmatory Trials'':


The structural formula is:
A total of 5162 [[COPD]] patients (1029 receiving [[tiotropium bromide]] and [[olodaterol]], 1038 receiving [[olodaterol]] 5 mcg, and 1033 receiving [[tiotropium bromide]] 5 mcg) were studied in two confirmatory trials of [[tiotropium bromide]] and [[olodaterol]]. Trials 1 and 2 were 52-week, replicate, randomized, double-blind, active controlled, parallel group trials that compared [[tiotropium bromide]] and [[olodaterol]] to [[tiotropium]] 5 mcg and [[olodaterol]] 5 mcg. In these trials, all products were administered via the RESPIMAT inhaler.
|PD=Cardiac Electrophysiology
The trials enrolled patients 40 years of age or older with a clinical diagnosis of [[COPD]], a smoking history of more than 10 pack-years, and moderate to very severe pulmonary impairment (post-[[bronchodilator]] [[FEV1]] less than 80% predicted normal [GOLD Stage 2-4]; post-[[bronchodilator]] [[FEV1]] to [[FVC]] ratio of less than 70%). All treatments were administered once daily in the morning. The primary endpoints were changed from baseline in [[FEV1]] [[AUC]]0-3hr and trough [[FEV1]] after 24-weeks of treatment.
STIOLTO RESPIMAT
The majority of the 5162 patients were male (73%), white (71%) or Asian (25%), with a mean age of 64.0 years. Mean post-[[bronchodilator]] [[FEV1]] was 1.37 L (GOLD 2 [50%], GOLD 3 [39%], GOLD 4 [11%]). Mean [[Beta2-adrenergic receptor agonist|beta2-agonist]] responsiveness was 16.6% of baseline (0.171 L). Pulmonary medications allowed as concomitant therapy included inhaled [[steroids]] [47%] and [[xanthines]] [10%].
In two 52-week randomized, double-blind trials using STIOLTO RESPIMAT that enrolled 5162 patients with COPD, ECG assessments were performed post-dose on days 1, 85, 169, and 365. In a pooled analysis the number of subjects with changes from baseline-corrected QT interval of >30 msec using both the Bazett (QTcB) and Fredericia (QTcF), corrections of QT for heart rate were not different for the STIOLTO RESPIMAT group compared to olodaterol 5 mcg and tiotropium 5 mcg across the assessments conducted.


Tiotropium
In both Trials 1 and 2, [[tiotropium bromide]] and [[olodaterol]] demonstrated significant improvements in [[FEV1]] [[AUC]]0-3hr and trough [[FEV1]] after 24 weeks compared to [[tiotropium]] 5 mcg and [[olodaterol]] 5 mcg (Table 2). The increased [[bronchodilator]] effects of [[tiotropium bromide]] and [[olodaterol]] compared to [[tiotropium]] 5 mcg and [[olodaterol]] 5 mcg were maintained throughout the 52-week treatment period. [[Tiotropium bromide]] and [[olodaterol]] displayed a mean increase in [[FEV1]] from baseline of 0.137 L (range: 0.133-0.140 L) within 5 minutes after the first dose. Patients treated with [[tiotropium bromide]] and [[olodaterol]] used less rescue medication compared to patients treated with [[tiotropium]] 5 mcg and [[olodaterol]] 5 mcg.
The effect of tiotropium dry powder for inhalation on QT interval was also evaluated in a randomized, placebo- and positive-controlled crossover study in 53 healthy volunteers. Subjects received tiotropium inhalation powder 18 mcg, 54 mcg (3 times the recommended dose), or placebo for 12 days. ECG assessments were performed at baseline and throughout the dosing interval following the first and last dose of study medication. Relative to placebo, the maximum mean change from baseline in study-specific QTc interval was 3.2 msec and 0.8 msec for tiotropium inhalation powder 18 mcg and 54 mcg, respectively. No subject showed a new onset of QTc >500 msec or QTc changes from baseline of ≥60 msec.


In a multicenter, randomized, double-blind trial using tiotropium dry powder for inhalation that enrolled 198 patients with COPD, the number of subjects with changes from baseline-corrected QT interval of 30–60 msec was higher in the tiotropium group as compared with placebo. This difference was apparent using both the Bazett (QTcB) [20 (20%) patients vs. 12 (12%) patients] and Fredericia (QTcF) [16 (16%) patients vs. 1 (1%) patient] corrections of QT for heart rate. No patients in either group had either QTcB or QTcF of >500 msec. Other clinical trials with tiotropium did not detect an effect of the drug on QTc intervals.
[[File:2016t2.PNG|thumb|none|This image is provided by the National Library of Medicine]]


Olodaterol
For the subset of patients (n=521) who completed extended lung function measurements up to 12 hours post-dose, [[tiotropium bromide]] and [[olodaterol]] showed a significantly greater [[FEV1]] response compared to [[tiotropium]] 5 mcg and [[olodaterol]] 5 mcg over the full 24-hour dosing interval. Results from Trial 2 are shown in Figure 1.
The effect of olodaterol on the QT/QTc interval of the ECG was investigated in 24 healthy male and female volunteers in a double-blind, randomized, placebo- and active (moxifloxacin)- controlled study at single doses of 10, 20, 30, and 50 mcg. Dose-dependent QtcI (individual subject corrected QT interval) prolongation was observed. The maximum mean (one-sided 95% upper confidence bound) difference in QTcI from placebo after baseline correction was 2.5 (5.6) ms, 6.1 (9.2) ms, 7.5 (10.7) ms, and 8.5 (11.6) ms following doses of 10, 20, 30, and 50 mcg, respectively.


The effect of 5 mcg and 10 mcg olodaterol on heart rate and rhythm was assessed using continuous 24-hour ECG recording (Holter monitoring) in a subset of 772 patients in the 48-week, placebo-controlled phase 3 trials. There were no dose- or time-related trends or patterns observed for the magnitudes of mean changes in heart rate or premature beats. Shifts from baseline to the end of treatment in premature beats did not indicate meaningful differences between olodaterol 5 mcg, 10 mcg, and placebo.
[[File:2016Figure1.PNG|thumb|none|400px|This image is provided by the National Library of Medicine]]
|howSupplied=The drug product, STIOLTO RESPIMAT, is composed of a sterile aqueous solution of tiotropium bromide and olodaterol hydrochloride filled into a 4.5 mL plastic container crimped into an aluminum cylinder (STIOLTO RESPIMAT cartridge) for use with the STIOLTO RESPIMAT inhaler.
|howSupplied=The drug product, [[tiotropium bromide]] and [[olodaterol]], is composed of a sterile aqueous solution of [[tiotropium bromide]] and [[olodaterol]] hydrochloride filled into a 4.5 mL plastic container crimped into an aluminum cylinder ([[tiotropium bromide]] and [[olodaterol]] cartridge) for use with the [[tiotropium bromide]] and [[olodaterol]] inhaler.


Excipients include water for injection, benzalkonium chloride, edetate disodium, and hydrochloric acid.
Excipients include water for injection, benzalkonium chloride, edetate disodium, and hydrochloric acid.


The STIOLTO RESPIMAT cartridge is only intended for use with the STIOLTO RESPIMAT inhaler. The STIOLTO RESPIMAT inhaler is a hand held, pocket sized oral inhalation device that uses mechanical energy to generate a slow-moving aerosol cloud of medication from a metered volume of the drug solution. The STIOLTO RESPIMAT inhaler has a light green-colored cap.
The [[tiotropium bromide]] and [[olodaterol]] cartridge is only intended for use with the [[tiotropium bromide]] and [[olodaterol]] inhaler. The [[tiotropium bromide]] and [[olodaterol]] inhaler is a hand held, pocket sized oral inhalation device that uses mechanical energy to generate a slow-moving aerosol cloud of medication from a metered volume of the drug solution. The [[tiotropium bromide]] and [[olodaterol]] inhaler has a light green-colored cap.
 
When used with the [[tiotropium bromide]] and [[olodaterol]] inhaler each cartridge, containing 4 grams of sterile aqueous solution, delivers the labeled number of metered actuations after preparation for use. Each dose (one dose equals two actuations) from the [[tiotropium bromide]] and [[olodaterol]] inhaler delivers 5 mcg [[tiotropium]] and 5 mcg [[olodaterol]] in 22.1 mcL from the mouthpiece. As with all inhaled drugs, the actual amount of drug delivered to the lung may depend on patient factors, such as the coordination between the actuation of the inhaler and inspiration through the delivery system. The duration of inspiration should be at least as long as the spray duration (1.5 seconds).
 
[[Tiotropium bromide]] and [[olodaterol]] cartridge and one [[tiotropium bromide]] and [[olodaterol]] inhaler.
 
The [[tiotropium bromide]] and [[olodaterol]] cartridge is provided as an aluminum cylinder with a tamper protection seal on the cap. The [[tiotropium bromide]] and [[olodaterol]] cartridge is only intended for use with the [[tiotropium bromide]] and [[olodaterol]] inhaler and should not be interchanged with any other RESPIMAT device delivered product.
 
The [[tiotropium bromide]] and [[olodaterol]] inhaler is a cylindrical shaped plastic inhalation device with a gray colored body and a clear base. The clear base is removed to insert the cartridge. The inhaler contains a dose indicator. The light green-colored cap and the written information on the label of the gray inhaler body indicate that it is labeled for use with the [[tiotropium bromide]] and [[olodaterol]] cartridge.
 
[[Tiotropium Bromide]] and [[Olodaterol]] Inhalation Spray is available as: [[Tiotropium Bromide]] and [[Olodaterol]] Inhalation Spray: 60 metered actuations (NDC 0597-0155-61)
 
The [[tiotropium bromide]] and [[olodaterol]] cartridge has a net fill weight of at least 4 grams and when used with the [[tiotropium bromide]] and [[olodaterol]] inhaler, is designed to deliver the labeled number of metered actuations after preparation for use.
 
When the labeled number of actuations has been dispensed from the inhaler, the RESPIMAT locking mechanism will be engaged and no more actuations can be dispensed.
 
After assembly, the [[tiotropium bromide]] and [[olodaterol]] inhaler should be discarded at the latest 3 months after first use or when the locking mechanism is engaged, whichever comes first.
 
Keep out of reach of children. Do not spray into eyes.
|storage=Store at 25°C (77°F); excursions permitted to 15°C to 30°C (59°F to 86°F). Avoid freezing.
|packLabel=[[File:Tiotropium bromide and olodaterol ingredients.JPG|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label1.jpg|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label2.jpg|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label3.jpg|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label4.jpg|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label5.jpg|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label6.jpg|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label7.jpg|thumb|none|This image is provided by the National Library of Medicine]]
[[File:Tiotropium bromide and olodaterol label8.jpg|thumb|none|This image is provided by the National Library of Medicine]]
|fdaPatientInfo=Advise the patient to read the FDA-approved patient labeling (Medication Guide and Instructions for Use).


When used with the STIOLTO RESPIMAT inhaler each cartridge, containing 4 grams of sterile aqueous solution, delivers the labeled number of metered actuations after preparation for use. Each dose (one dose equals two actuations) from the STIOLTO RESPIMAT inhaler delivers 5 mcg tiotropium and 5 mcg olodaterol in 22.1 mcL from the mouthpiece. As with all inhaled drugs, the actual amount of drug delivered to the lung may depend on patient factors, such as the coordination between the actuation of the inhaler and inspiration through the delivery system. The duration of inspiration should be at least as long as the spray duration (1.5 seconds).
*[[Asthma]]-Related Death
**Inform patients that [[LABA|LABAs]], such as [[tiotropium bromide]] and [[olodaterol]], increase the risk of [[asthma]]-related death.
**[[Tiotropium bromide]] and [[olodaterol]] is not indicated for the treatment of [[asthma]].
*Not for Acute Symptoms
**[[Tiotropium bromide]] and [[olodaterol]] is not meant to relieve acute [[asthma]] symptoms or exacerbations of [[COPD]] and extra doses should not be used for that purpose.
**Acute symptoms should be treated with an inhaled, [[SABA|short-acting beta2-agonists]] such as [[albuterol]]. (The healthcare provider should provide the patient with such medication and instruct the patient in how it should be used.)
**Instruct patients to notify their physician immediately if they experience any of the following:
***Worsening of symptoms
***Decreasing effectiveness of inhaled, [[SABA|short-acting beta2-agonists]]
***Need for more inhalations than usual of inhaled, [[SABA|short-acting beta2-agonists]]
***Significant decrease in lung function as outlined by the physician
**Instruct patients not to stop therapy with [[tiotropium bromide]] and [[olodaterol]] without physician/provider guidance since symptoms may recur after discontinuation.
*Do Not Use Additional [[LABA|Long-Acting Beta2-Agonists]]
**Patients who have been taking inhaled, [[SABA|short-acting beta2-agonists]] on a regular basis should be instructed to discontinue the regular use of these products and use them only for the symptomatic relief of acute symptoms.
**When patients are prescribed [[tiotropium bromide]] and [[olodaterol]], other inhaled medications containing [[LABA|long-acting beta2-agonists]] should not be used.
**Patients should not use more than the recommended once-daily dose of [[tiotropium bromide]] and [[olodaterol]]. Excessive use of [[sympathomimetics]] may cause significant cardiovascular effects, and may be fatal.
*Risks Associated with [[Beta2-adrenergic receptor agonist|Beta2-Agonist]] Therapy
**Inform patients of adverse effects associated with [[Beta2-adrenergic receptor agonist|beta2-agonists]], such as [[palpitations]], [[chest pain]], [[rapid heart rate]], [[tremor]], or [[nervousness]].
*Paradoxical [[Bronchospasm]]
**Inform patients that [[tiotropium bromide]] and [[olodaterol]] can produce paradoxical [[bronchospasm]]. Advise patients that if paradoxical [[bronchospasm]] occurs, patients should discontinue [[tiotropium bromide]] and [[olodaterol]].
*[[urinary retention|Urinary Retention]]
**Difficulty passing [[urine]] and [[dysuria]] may be symptoms of new or worsening prostatic [[hyperplasia]] or bladder outlet obstruction.
**Patients should be instructed to consult a physician immediately should any of these signs or symptoms develop.
*Visual Effects
**[[Eye pain]] or discomfort, [[blurred vision]], visual halos or colored images in association with [[red eyes]] from [[conjunctiva|conjunctival]] congestion and [[cornea|corneal]] [[edema]] may be signs of acute [[narrow-angle glaucoma]].
**Inform patients to consult a physician immediately should any of these signs and symptoms develop.
**Advise patients that miotic eye drops alone are not considered to be effective treatment.
**Inform patients that care must be taken not to allow the aerosol cloud to enter into the eyes as this may cause blurring of vision and [[pupil dilation]].
**Since [[dizziness]] and [[blurred vision]] may occur with the use of [[tiotropium bromide]] and [[olodaterol]], caution patients about engaging in activities such as driving a vehicle or operating appliances or machinery.
*Instructions for Administering [[Tiotropium Bromide]] and [[Olodaterol]]
**It is important for patients to understand how to correctly administer [[tiotropium bromide]] and [[olodaterol]] inhalation spray using the [[tiotropium bromide]] and [[olodaterol]] inhaler.
**Instruct patients that [[tiotropium bromide]] and [[olodaterol]] inhalation spray should only be administered via the [[tiotropium bromide]] and [[olodaterol]] inhaler and the [[tiotropium bromide]] and [[olodaterol]] inhaler should not be used for administering other medications.
**Instruct patients that priming [[tiotropium bromide]] and [[olodaterol]] is essential to ensure appropriate content of the medication in each actuation.
**When using the unit for the first time, the [[tiotropium bromide]] and [[olodaterol]] cartridge is inserted into the [[tiotropium bromide]] and [[olodaterol]] inhaler and the unit is primed.
**[[Tiotropium bromide]] and [[olodaterol]] patients are to actuate the inhaler toward the ground until an aerosol cloud is visible and then to repeat the process three more times. The unit is then considered primed and ready for use.
**If not used for more than 3 days, patients are to actuate the inhaler once to prepare the inhaler for use.  
**If not used for more than 21 days, patients are to actuate the inhaler until an aerosol cloud is visible and then repeat the process three more times to prepare the inhaler for use.
|alcohol=Alcohol-Tiotropium bromide and olodaterol interaction has not been established. Talk to your doctor about the effects of taking alcohol with this medication.
|alcohol=Alcohol-Tiotropium bromide and olodaterol interaction has not been established. Talk to your doctor about the effects of taking alcohol with this medication.
|brandNames=STIOLTO RESPIMAT
}}
}}

Latest revision as of 15:38, 31 July 2017

Tiotropium bromide and olodaterol
Black Box Warning
Adult Indications & Dosage
Pediatric Indications & Dosage
Contraindications
Warnings & Precautions
Adverse Reactions
Drug Interactions
Use in Specific Populations
Administration & Monitoring
Overdosage
Pharmacology
Clinical Studies
How Supplied
Images
Patient Counseling Information
Precautions with Alcohol
Brand Names
Look-Alike Names

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Vishal Devarkonda, M.B.B.S[2]

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Black Box Warning

WARNING: ASTHMA-RELATED DEATH
See full prescribing information for complete Boxed Warning.
  • Long-acting beta2-adrenergic agonists (LABA) such as olodaterol increase the risk of asthma-related death.
  • Data from a large, placebo-controlled US study that compared the safety of another long-acting beta2-adrenergic agonist (salmeterol) with placebo added to usual asthma therapy showed an increase in asthma-related deaths in patients receiving salmeterol.
  • This finding with salmeterol is considered a class effect of all LABAs, including olodaterol.
  • The safety and efficacy of tiotropium bromide and olodaterol in patients with asthma have not been established. Tiotropium bromide and olodaterol is not indicated for the treatment of asthma.

Overview

Tiotropium bromide and olodaterol is a combination of an anticholinergic and a long-acting beta2-adrenergic agonist that is FDA approved for the treatment of of airflow obstruction in patients with chronic obstructive pulmonary disease (COPD), including chronic bronchitis and/or emphysema. There is a Black Box Warning for this drug as shown here. Common adverse reactions include nasopharyngitis, cough, and back pain.

Adult Indications and Dosage

FDA-Labeled Indications and Dosage (Adult)

Tiotropium bromide and olodaterol is indicated for long-term, once-daily maintenance treatment of airflow obstruction in patients with chronic obstructive pulmonary disease (COPD), including chronic bronchitis and/or emphysema.

Important Limitations of Use:

Dosing Information

Off-Label Use and Dosage (Adult)

Guideline-Supported Use

There is limited information regarding Off-Label Guideline-Supported Use of tiotropium bromide and olodaterol in adult patients.

Non–Guideline-Supported Use

There is limited information regarding Off-Label Non–Guideline-Supported Use of tiotropium bromide and olodaterol in adult patients.

Pediatric Indications and Dosage

FDA-Labeled Indications and Dosage (Pediatric)

There is limited information regarding Tiotropium bromide and olodaterol FDA-Labeled Indications and Dosage (Pediatric) in the drug label.

Off-Label Use and Dosage (Pediatric)

Guideline-Supported Use

There is limited information regarding Off-Label Guideline-Supported Use of tiotropium bromide and olodaterol in pediatric patients.

Non–Guideline-Supported Use

There is limited information regarding Off-Label Non–Guideline-Supported Use of tiotropium bromide and olodaterol in pediatric patients.

Contraindications

Warnings

WARNING: ASTHMA-RELATED DEATH
See full prescribing information for complete Boxed Warning.
  • Long-acting beta2-adrenergic agonists (LABA) such as olodaterol increase the risk of asthma-related death.
  • Data from a large, placebo-controlled US study that compared the safety of another long-acting beta2-adrenergic agonist (salmeterol) with placebo added to usual asthma therapy showed an increase in asthma-related deaths in patients receiving salmeterol.
  • This finding with salmeterol is considered a class effect of all LABAs, including olodaterol.
  • The safety and efficacy of tiotropium bromide and olodaterol in patients with asthma have not been established. Tiotropium bromide and olodaterol is not indicated for the treatment of asthma.

Adverse Reactions

Clinical Trials Experience

LABA, such as olodaterol, one of the active components in tiotropium bromide and olodaterol, increase the risk of asthma-related death. Tiotropium bromide and olodaterol is not indicated for the treatment of asthma.

Because clinical trials are conducted under widely varying conditions, the incidence of adverse reactions observed in the clinical trials of a drug cannot be directly compared to the incidences in the clinical trials of another drug and may not reflect the incidences observed in practice.

The clinical program for tiotropium bromide and olodaterol included 7151 subjects with COPD in two 52-week active-controlled trials, one 12-week placebo-controlled trial, three 6-week placebo-controlled cross-over trials, and four additional trials of shorter duration. A total of 1988 subjects received at least 1 dose of tiotropium bromide and olodaterol. Adverse reactions observed in the ≤12-week trials were consistent with those observed in the 52-week trials, which formed the primary safety database.

The primary safety database consisted of pooled data from the two 52-week double-blind, active-controlled, parallel group confirmatory clinical trials. These trials included 5162 adult COPD patients (72.9% males and 27.1% females) 40 years of age and older. Of these patients, 1029 were treated with tiotropium bromide and olodaterol once daily. The tiotropium bromide and olodaterol group was composed of mostly Caucasians (71.1%) with a mean age of 63.8 years and a mean percent predicted FEV1 at baseline of 43.2%. In these two trials, tiotropium 5 mcg and olodaterol 5 mcg were included as active control arms and no placebo was used.

In these two clinical trials, 74% of patients exposed to tiotropium bromide and olodaterol reported an adverse reaction compared to 76.6% and 73.3% in the olodaterol 5 mcg and tiotropium 5 mcg groups, respectively. The proportion of patients who discontinued due to an adverse reaction was 7.4% for tiotropium bromide and olodaterol treated patients compared to 9.9% and 9.0% for olodaterol 5 mcg and tiotropium 5 mcg treated patients. The adverse reaction most commonly leading to discontinuation was worsening COPD. The most common serious adverse reactions were COPD exacerbation and pneumonia.

Table 1 shows all adverse drug reactions that occurred with an incidence of >3% in the tiotropium bromide and olodaterol treatment group and a higher incidence rate than the active comparator groups listed.

This image is provided by the National Library of Medicine

Other adverse drug reactions in patients receiving tiotropium bromide and olodaterol that occurred in ≤3% of patients in clinical studies are listed below:

Respiratory, thoracic, and mediastinal disorders: epistaxis, pharyngitis, dysphonia, bronchospasm, laryngitis, sinusitis

Postmarketing Experience

There is limited information regarding Tiotropium bromide and olodaterol Postmarketing Experience in the drug label.

Drug Interactions

Use in Specific Populations

Pregnancy

Pregnancy Category (FDA): Teratogenic Effects: Pregnancy Category C.

There are no adequate and well-controlled studies with tiotropium bromide and olodaterol or its individual components, tiotropium bromide and olodaterol, in pregnant women. Animal reproduction studies were conducted with the individual components of tiotropium bromide and olodaterol, tiotropium bromide and olodaterol. Tiotropium bromide and olodaterol should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.

Tiotropium

No evidence of structural alterations was observed in rats and rabbits at approximately 790 and 8 times the recommended human daily inhalation dose (RHDID; on a mcg/m2 basis at maternal inhalation doses of 1471 and 7 mcg/kg/day in rats and rabbits, respectively). However, in rats, tiotropium caused fetal resorption, litter loss, decreases in the number of live pups at birth and the mean pup weights, and a delay in pup sexual maturation at approximately 40 times the RHDID (on a mcg/m2 basis at a maternal inhalation dose of 78 mcg/kg/day). In rabbits, tiotropium caused an increase in post-implantation loss at approximately 430 times the RHDID (on a mcg/m2 basis at a maternal inhalation dose of 400 mcg/kg/day). Such effects were not observed at approximately 5 and 95 times the RHDID (on a mcg/m2 basis at maternal inhalation doses of 9 and 88 mcg/kg/day in rats and rabbits, respectively).

Olodaterol

Olodaterol was not teratogenic in rats at approximately 2731 times the RHDID (on an AUC basis at a maternal inhalation dose of 1054 mcg/kg/day). Placental transfer of olodaterol was observed in pregnant rats.

Olodaterol has been shown to be teratogenic in New Zealand rabbits at approximately 7130 times the RHDID in adults (on an AUC basis at a maternal inhalation dose of 2489 mcg/kg/day). Olodaterol exhibited the following fetal toxicities: enlarged or small heart atria or ventricles, eye abnormalities, and split or distorted sternum. No significant effects occurred at approximately 1353 times the RHDID in adults (on an AUC basis at a maternal inhalation dose of 974 mcg/kg/day).
Pregnancy Category (AUS): There is no Australian Drug Evaluation Committee (ADEC) guidance on usage of Tiotropium bromide and olodaterol in women who are pregnant.

Labor and Delivery

There are no adequate and well-controlled human studies that have investigated the effects of tiotropium bromide and olodaterol on preterm labor or labor at term. Because of the potential for beta-agonist interference with uterine contractility, use of tiotropium bromide and olodaterol during labor should be restricted to those patients in whom the benefits clearly outweigh the risks.

Nursing Mothers

Clinical data from nursing women or infants exposed to tiotropium bromide and olodaterol or its individual active components are not available. Tiotropium, olodaterol, and metabolites of olodaterol are excreted into the milk of lactating rats. It is not known whether these compounds are excreted in human milk, but because many drugs are excreted in human milk and given these findings in rats, caution should be exercised if tiotropium bromide and olodaterol is administered to a nursing woman.

Pediatric Use

COPD does not normally occur in children. The safety and effectiveness of tiotropium bromide and olodaterol in the pediatric population has not been established.

Geriatic Use

Based on available data, no adjustment of tiotropium bromide and olodaterol dosage in geriatric patients is warranted.

Of the 1029 patients who received tiotropium bromide and olodaterol at the recommended dose once daily in the clinical studies from the pooled 1-year database, 525 (51.0%) were <65 years of age, 407 (39.6%) were 65 to <75, 96 (9.3%) were 75 to <85, and 1 (0.1%) was ≥85.

No overall differences in effectiveness were observed, and in the 1-year pooled data, the adverse drug reaction profiles were similar in the older population compared to the patient population overall.

Gender

There is no FDA guidance on the use of Tiotropium bromide and olodaterol with respect to specific gender populations.

Race

There is no FDA guidance on the use of Tiotropium bromide and olodaterol with respect to specific racial populations.

Renal Impairment

No dose adjustment is required for patients with renal impairment. However, patients with moderate to severe renal impairment (creatinine clearance of <60 mL/min) treated with tiotropium bromide and olodaterol should be monitored closely for anticholinergic side effects.

Hepatic Impairment

No dose adjustment is needed in patients with mild and moderate hepatic impairment. A study in subjects with severe hepatic impairment was not performed.

Females of Reproductive Potential and Males

There is no FDA guidance on the use of Tiotropium bromide and olodaterol in women of reproductive potentials and males.

Immunocompromised Patients

There is no FDA guidance one the use of Tiotropium bromide and olodaterol in patients who are immunocompromised.

Administration and Monitoring

Administration

  • For oral inhalation only.
  • Prior to first use, the tiotropium bromide and olodaterol cartridge is inserted into the tiotropium bromide and olodaterol inhaler and the unit is primed.
  • When using the unit for the first time, patients are to actuate the inhaler toward the ground until an aerosol cloud is visible and then repeat the process three more times. The unit is then considered primed and ready for use.
  • If not used for more than 3 days, patients are to actuate the inhaler once to prepare the inhaler for use.
  • If not used for more than 21 days, patients are to actuate the inhaler until an aerosol cloud is visible and then repeat the process three more times to prepare the inhaler for use.
  • No dosage adjustment is required for geriatric, hepatically-impaired, or renally-impaired patients. However, patients with moderate to severe renal impairment given tiotropium bromide and olodaterol should be monitored closely for anticholinergic effects.

Monitoring

There is limited information regarding Tiotropium bromide and olodaterol Monitoring in the drug label.

IV Compatibility

There is limited information regarding the compatibility of Tiotropium bromide and olodaterol and IV administrations.

Overdosage

The risks associated with overdosage for the individual components described below apply to the combination drug of tiotropium bromide and olodaterol.

Tiotropium

High doses of tiotropium may lead to anticholinergic signs and symptoms. However, there were no systemic anticholinergic adverse effects following a single inhaled dose of up to 282 mcg tiotropium in 6 healthy volunteers. In a study of 12 healthy volunteers, bilateral conjunctivitis and dry mouth were seen following repeated once-daily inhalation of 141 mcg of tiotropium. Dry mouth/throat and dry nasal mucosa occurred in a dose-dependent [10-40 mcg daily] manner, were observed following 14-day dosing of up to 40 mcg tiotropium bromide inhalation solution in healthy subjects.

Olodaterol

The expected signs and symptoms with overdosage of olodaterol are those of excessive beta-adrenergic stimulation and occurrence or exaggeration of any of the signs and symptoms, e.g., myocardial ischemia, angina pectoris, hypertension or hypotension, tachycardia, arrhythmias, palpitations, dizziness, nervousness, insomnia, anxiety, headache, tremor, dry mouth, muscle spasms, nausea, fatigue, malaise, hypokalemia, hyperglycemia, and metabolic acidosis. As with all inhaled sympathomimetic medications, cardiac arrest and even death may be associated with an overdose of olodaterol.

Treatment of overdosage consists of discontinuation of tiotropium bromide and olodaterol together with institution of appropriate symptomatic and supportive therapy. The judicious use of a cardioselective beta-receptor blocker may be considered, bearing in mind that such medication can produce bronchospasm. There is insufficient evidence to determine if dialysis is beneficial for overdosage of tiotropium bromide and olodaterol. Cardiac monitoring is recommended in cases of overdosage.

Pharmacology

Mechanism of Action

The properties described below for the individual components apply to the combination of tiotropium bromide and olodaterol. These drugs represent 2 different classes of medication (an anticholinergic and a beta-agonist) that have different effects on clinical and physiological indices.

Tiotropium

Tiotropium is a long-acting, muscarinic antagonist which is often referred to as an anticholinergic. It has similar affinity to the subtypes of muscarinic receptors, M1 to M5. In the airways, it exhibits pharmacological effects through inhibition of M3-receptors at the smooth muscle leading to bronchodilation. The competitive and reversible nature of antagonism was shown with human and animal origin receptors and isolated organ preparations. In preclinical in vitro as well as in vivo studies, prevention of methacholine-induced bronchoconstriction effects was dose-dependent and lasted longer than 24 hours. The bronchodilation following inhalation of tiotropium is predominantly a site-specific effect.

Olodaterol

Olodaterol is a long-acting beta2-adrenergic agonist (LABA). The compound exerts its pharmacological effects by binding and activation of beta2-adrenoceptors after topical administration by inhalation. Activation of these receptors in the airways results in a stimulation of intracellular adenyl cyclase, an enzyme that mediates the synthesis of cyclic-3’, 5’ adenosine monophosphate (cAMP). Elevated levels of cAMP induce bronchodilation by relaxation of airway smooth muscle cells. In vitro studies have shown that olodaterol has 241-fold greater agonist activity at beta2-adrenoceptors compared to beta1-adrenoceptors and 2299-fold greater agonist activity compared to beta3-adrenoceptors. The clinical significance of these findings is unknown.

Beta-adrenoceptors are divided into three subtypes: beta1-adrenoceptors predominantly expressed on cardiac muscle, beta2-adrenoceptors predominantly expressed on airway smooth muscle, and beta3-adrenoceptors predominantly expressed on adipose tissue. Beta2-agonists cause bronchodilation. Although the beta2-adrenoceptor is the predominant adrenergic receptor in the airway smooth muscle, it is also present on the surface of a variety of other cells, including lung epithelial and endothelial cells and in the heart. The precise function of beta2-receptors in the heart is not known, but their presence raises the possibility that even highly selective beta2-agonists may have cardiac effects.

Structure

The drug substance tiotropium bromide monohydrate is chemically described as (1α, 2ß, 4ß, 5α, 7ß)-7-[(Hydroxydi-2-thienylacetyl)oxy]-9,9-dimethyl-3-oxa-9-azoniatricyclo[3.3.1.02,4] nonane bromide monohydrate. It is a synthetic, non-chiral, quaternary ammonium compound. Tiotropium bromide is a white or yellowish white powder. It is sparingly soluble in water and soluble in methanol. The structural formula is:

This image is provided by the National Library of Medicine

Tiotropium bromide (monohydrate) has a molecular mass of 490.4 and a molecular formula of C19H22NO4S2Br • H2O.

The drug substance olodaterol hydrochloride is chemically described as 2H-1,4-Benzoxazin-3H(4H)-one, 6-hydroxy-8-[(1R)-1-hydroxy-2-[2-(4-methoxyphenyl)-1,1-dimethylethyl]-amino]ethyl]-, monohydrochloride. Olodaterol hydrochloride is a white to off-white powder that is sparingly-slightly soluble in water and slightly soluble in ethanol. The molecular weight is 422.9 g/mole (salt): 386.5 g/mole (base), and the molecular formula is C21H26N2O5 x HCl as a hydrochloride. The conversion factor from salt to free base is 1.094. The structural formula is:

This image is provided by the National Library of Medicine

Pharmacodynamics

Cardiac Electrophysiology

Tiotropium Bromide and Olodaterol

In two 52-week randomized, double-blind trials using tiotropium bromide and olodaterol that enrolled 5162 patients with COPD, ECG assessments were performed post-dose on days 1, 85, 169, and 365. In a pooled analysis the number of subjects with changes from baseline-corrected QT interval of >30 msec using both the Bazett (QTcB) and Fredericia (QTcF), corrections of QT for heart rate were not different for the tiotropium bromide and olodaterol group compared to olodaterol 5 mcg and tiotropium 5 mcg across the assessments conducted.

Tiotropium

The effect of tiotropium dry powder for inhalation on QT interval was also evaluated in a randomized, placebo- and positive-controlled crossover study in 53 healthy volunteers. Subjects received tiotropium inhalation powder 18 mcg, 54 mcg (3 times the recommended dose), or placebo for 12 days. ECG assessments were performed at baseline and throughout the dosing interval following the first and last dose of study medication. Relative to placebo, the maximum mean change from baseline in study-specific QTc interval was 3.2 msec and 0.8 msec for tiotropium inhalation powder 18 mcg and 54 mcg, respectively. No subject showed a new onset of QTc >500 msec or QTc changes from baseline of ≥60 msec.

In a multicenter, randomized, double-blind trial using tiotropium dry powder for inhalation that enrolled 198 patients with COPD, the number of subjects with changes from baseline-corrected QT interval of 30–60 msec was higher in the tiotropium group as compared with placebo. This difference was apparent using both the Bazett (QTcB) [20 (20%) patients vs. 12 (12%) patients] and Fredericia (QTcF) [16 (16%) patients vs. 1 (1%) patient] corrections of QT for heart rate. No patients in either group had either QTcB or QTcF of >500 msec. Other clinical trials with tiotropium did not detect an effect of the drug on QTc intervals.

Olodaterol

The effect of olodaterol on the QT/QTc interval of the ECG was investigated in 24 healthy male and female volunteers in a double-blind, randomized, placebo- and active (moxifloxacin)- controlled study at single doses of 10, 20, 30, and 50 mcg. Dose-dependent QtcI (individual subject corrected QT interval) prolongation was observed. The maximum mean (one-sided 95% upper confidence bound) difference in QTcI from placebo after baseline correction was 2.5 (5.6) ms, 6.1 (9.2) ms, 7.5 (10.7) ms, and 8.5 (11.6) ms following doses of 10, 20, 30, and 50 mcg, respectively.

The effect of 5 mcg and 10 mcg olodaterol on heart rate and rhythm was assessed using continuous 24-hour ECG recording (Holter monitoring) in a subset of 772 patients in the 48-week, placebo-controlled phase 3 trials. There were no dose- or time-related trends or patterns observed for the magnitudes of mean changes in heart rate or premature beats. Shifts from baseline to the end of treatment in premature beats did not indicate meaningful differences between olodaterol 5 mcg, 10 mcg, and placebo.

Pharmacokinetics

When tiotropium bromide and olodaterol was administered by the inhalation route, the pharmacokinetic parameters for tiotropium and for olodaterol were similar to those observed when each active substance was administered separately.

Tiotropium:

Tiotropium is administered as an inhalation spray. Some of the pharmacokinetic data described below were obtained with higher doses than recommended for therapy.

Olodaterol

Olodaterol showed linear pharmacokinetics. On repeated once-daily inhalation, steady-state of olodaterol plasma concentrations was achieved after 8 days, and the extent of exposure was increased up to 1.8-fold as compared to a single dose.

Absorption

Tiotropium

Following inhalation of the solution by young healthy volunteers, urinary excretion data suggests that approximately 33% of the inhaled dose reaches the systemic circulation. Oral solutions of tiotropium have an absolute bioavailability of 2% to 3%. Food is not expected to influence the absorption of tiotropium for the same reason. Maximum tiotropium plasma concentrations were observed 5 to 7 minutes after inhalation.

Olodaterol

Olodaterol reaches maximum plasma concentrations generally within 10 to 20 minutes following drug inhalation. In healthy volunteers the absolute bioavailability of olodaterol following inhalation was estimated to be approximately 30%, whereas the absolute bioavailability was below 1% when given as an oral solution. Thus, the systemic availability of olodaterol after inhalation is mainly determined by lung absorption, while any swallowed portion of the dose only negligibly contributes to systemic exposure.

Distribution

Tiotropium

The drug has a plasma protein binding of 72% and shows a volume of distribution of 32 L/kg. Local concentrations in the lung are not known, but the mode of administration suggests substantially higher concentrations in the lung. Studies in rats have shown that tiotropium does not penetrate the blood-brain barrier.

Olodaterol

Olodaterol exhibits multi-compartmental disposition kinetics after inhalation as well as after intravenous administration. The volume of distribution is high (1110 L), suggesting extensive distribution into tissue. In vitro binding of [14C] olodaterol to human plasma proteins is independent of concentration and is approximately 60%.

Elimination

Metabolism

Tiotropium: The extent of metabolism is small. This is evident from a urinary excretion of 74% of unchanged substance after an intravenous dose to young healthy volunteers. Tiotropium, an ester, is nonenzymatically cleaved to the alcohol N-methylscopine and dithienylglycolic acid, both not binding to muscarinic receptors. In vitro experiments with human liver microsomes and human hepatocytes suggest that a fraction of the administered dose (74% of an intravenous dose is excreted unchanged in the urine, leaving 25% for metabolism) is metabolized by cytochrome P450-dependent oxidation and subsequent glutathione conjugation to a variety of Phase 2 metabolites. This enzymatic pathway can be inhibited by CYP2D6 and CYP3A4 inhibitors, such as quinidine, ketoconazole, and gestodene. Thus, CYP2D6 and CYP3A4 are involved in the metabolic pathway that is responsible for the elimination of a small part of the administered dose. In vitro studies using human liver microsomes showed that tiotropium in supra-therapeutic concentrations does not inhibit CYP1A1, CYP1A2, CYP2B6, CYP2C9, CYP2C19, CYP2D6, CYP2E1, or CYP3A4.

Olodaterol: Olodaterol is substantially metabolized by direct glucuronidation and by O-demethylation at the methoxy moiety followed by conjugation. Of the six metabolites identified, only the unconjugated demethylation product binds to beta2-receptors. This metabolite, however, is not detectable in plasma after chronic inhalation of the recommended therapeutic dose. Cytochrome P450 isozymes CYP2C9 and CYP2C8, with negligible contribution of CYP3A4, are involved in the O-demethylation of olodaterol, while uridine diphosphate glycosyl transferase isoforms UGT2B7, UGT1A1, 1A7, and 1A9 were shown to be involved in the formation of olodaterol glucuronides.

Excretion

Tiotropium: The terminal half-life of tiotropium in COPD patients following once daily inhalation of 5 mcg tiotropium was approximately 25 hours. Total clearance was 880 mL/min after an intravenous dose in young healthy volunteers. Intravenously administered tiotropium bromide is mainly excreted unchanged in urine (74%). After inhalation of the solution by patients with COPD, urinary excretion is 18.6% (0.932 mcg) of the dose, the remainder being mainly non-absorbed drug in the gut that is eliminated via the feces. The renal clearance of tiotropium exceeds the creatinine clearance, indicating secretion into the urine. After chronic once-daily inhalation by COPD patients, pharmacokinetic steady state was reached by day 7 with no accumulation thereafter.

Olodaterol: Total clearance of olodaterol in healthy volunteers is 872 mL/min, and renal clearance is 173 mL/min. The terminal half-life following intravenous administration is 22 hours. The terminal half-life following inhalation in contrast is about 45 hours, indicating that the latter is determined by absorption rather than by elimination processes. However, the effective half-life at daily dose of 5 mcg calculated from Cmax from COPD patients is 7.5 hours. Following intravenous administration of [14C]-labeled olodaterol, 38% of the radioactive dose was recovered in the urine and 53% was recovered in feces. The amount of unchanged olodaterol recovered in the urine after intravenous administration was 19%. Following oral administration, only 9% of olodaterol and/or its metabolites was recovered in urine, while the major portion was recovered in feces (84%). More than 90% of the dose was excreted within 6 and 5 days following intravenous and oral administration, respectively. Following inhalation, excretion of unchanged olodaterol in urine within the dosing interval in healthy volunteers at steady state accounted for 5% to 7% of the dose.

Drug Interactions

Tiotropium Bromide and Olodaterol:

Pharmacokinetic drug interaction studies with tiotropium bromide and olodaterol have not been performed; however, such studies have been conducted with individual components tiotropium and olodaterol.

When tiotropium and olodaterol were administered in combination by the inhaled route, the pharmacokinetic parameters for each component were similar to those observed when each active substance was administered separately.

Tiotropium:

An interaction study with tiotropium (14.4 mcg intravenous infusion over 15 minutes) and cimetidine 400 mg three times daily or ranitidine 300 mg once-daily was conducted. Concomitant administration of cimetidine with tiotropium resulted in a 20% increase in the AUC0-4h, a 28% decrease in the renal clearance of tiotropium and no significant change in the Cmax and amount excreted in urine over 96 hours. Co-administration of tiotropium with ranitidine did not affect the pharmacokinetics of tiotropium.

Common concomitant medications (long-acting beta2-adrenergic agonists (LABA), inhaled corticosterioids (ICS)) used by patients with COPD were not found to alter the exposure to tiotropium.

Olodaterol:

Drug-drug interaction studies were carried out using fluconazole as a model inhibitor of CYP2C9 and ketoconazole as a potent P-gp (and CYP3A4, CYP2C8, CYP2C9) inhibitor.

Fluconazole:

Co-administration of 400 mg fluconazole once a day for 14 days had no relevant effect on systemic exposure to olodaterol.

Ketoconazole:

Co-administration of 400 mg ketoconazole once a day for 14 days increased olodaterol Cmax by 66% and AUC0-1 by 68%.

Tiotropium: Co-administration of tiotropium bromide, delivered as a fixed-dose combination with olodaterol, for 21 days had no relevant effect on systemic exposure to olodaterol, and vice versa.

Specific Populations

Olodaterol:

A pharmacokinetic meta-analysis showed that no dose adjustment is necessary based on the effect of age, gender, and weight on systemic exposure in COPD patients after inhalation of olodaterol.

Geriatric Patients

Tiotropium: As expected for all predominantly renally excreted drugs, advancing age was associated with a decrease of tiotropium renal clearance (347 mL/min in COPD patients <65 years to 275 mL/min in COPD patients ≥65 years). This did not result in a corresponding increase in AUC0-6,ss and Cmax,ss values.

Renal Impairment

Tiotropium: Following inhaled administration of therapeutic doses of tiotropium to steady-state to patients with COPD, mild renal impairment (creatinine clearance 60 - <90 mL/min) resulted in 23% higher AUC0-6,ss and 17% higher Cmax,ss values. Moderate renal impairment (creatinine clearance 30 - <60 mL/min) resulted in 57% higher AUC0-6,ss and 31% higher Cmax,ss values compared to COPD patients with normal renal function (creatinine clearance >90 mL/min). In COPD patients with severe renal impairment (CLCR <30 mL/min), a single intravenous administration of tiotropium bromide resulted in 94% higher AUC0-4 and 52% higher Cmax compared to COPD patients with normal renal function.

Olodaterol: Olodaterol levels were increased by approximately 40% in subjects with severe renal impairment. A study in subjects with mild and moderate renal impairment was not performed.

Hepatic Impairment

Tiotropium: The effects of hepatic impairment on the pharmacokinetics of tiotropium were not studied.

Olodaterol: Subjects with mild and moderate hepatic impairment showed no changes in Cmax or AUC, nor did protein binding differ between mild and moderate hepatically impaired subjects and their healthy controls. A study in subjects with severe hepatic impairment was not performed.

Nonclinical Toxicology

Carcinogenesis, Mutagenesis, Impairment of Fertility

Tiotropium Bromide and Olodaterol:

No studies of the carcinogenicity, in vitro mutagenicity, or impairment of fertility were conducted with tiotropium bromide and olodaterol, however, studies are available for the individual components, tiotropium and olodaterol.

Tiotropium:

No evidence of tumorigenicity was observed in a 104-week inhalation study in rats at tiotropium doses up to 59 mcg/kg/day, in an 83-week inhalation study in female mice at doses up to 145 mcg/kg/day, and in a 101-week inhalation study in male mice at doses up to 2 mcg/kg/day. These doses correspond to approximately 30, 40, and 0.5 times the recommended human daily inhalation dose (RHDID) on a mcg/m2 basis, respectively. Tiotropium bromide demonstrated no evidence of mutagenicity or clastogenicity in the following assays: the bacterial gene mutation assay, the V79 Chinese hamster cell mutagenesis assay, the chromosomal aberration assay in human lymphocytes in vitro, the mouse micronucleus assay in vivo, and the unscheduled DNA synthesis assay in primary rat hepatocytes in vitro.

In rats, decreases in the number of corpora lutea and the percentage of implants were noted at inhalation tiotropium doses of 78 mcg/kg/day or greater (approximately 35 times the RHDID on a mcg/m2 basis). No such effects were observed at 9 mcg/kg/day (approximately 4 times than the RHDID on a mcg/m2 basis). The fertility index; however, was not affected at inhalation doses up to 1689 mg/kg/day (approximately 760 times the RHDID on a mcg/m2 basis).

Olodaterol:

Two-year inhalation studies were conducted in rats and mice to assess the carcinogenic potential of olodaterol. Lifetime treatment of female rats induced leiomyomas of the mesovarium at doses of 25.8 and 270 mcg/kg/day (approximately 18- and 198-fold, respectively, the RHDID on an AUC basis). No tumor findings were observed in male rats at doses up to 270 mcg/kg/day (approximately 230-fold the RHDID on an AUC basis). Lifetime treatment of female mice induced leiomyomas and leiomyosarcomas of the uterus at doses ≥76.9 mcg/kg/day (approximately 106-fold the RHDID on an AUC basis). No tumor findings were observed in male mice at doses up to 255 mcg/kg/day (approximately 455-fold the RHDID on an AUC basis). Increases in leiomyomas and leiomyosarcomas of the female rodent reproductive tract have been similarly demonstrated with other beta2-adrenergic agonist drugs. The relevance of these findings to human use is unknown.

Olodaterol was not mutagenic in the in vitro Ames test or in the in vitro mouse lymphoma assay. Olodaterol produced increased frequency of micronuclei in rats after intravenous doses. The increased frequency of micronuclei was likely related to drug enhanced (compensatory) erythropoiesis. The mechanism for induction of micronuclei formation is likely not relevant at clinical exposures.

Olodaterol did not impair male or female fertility in rats at inhalation doses up to 3068 mcg/kg/day (approximately 2322 times the RHDID on an AUC basis).

Clinical Studies

The safety and efficacy of tiotropium bromide and olodaterol were evaluated in a clinical development program that included three dose ranging trials, two active-controlled trials, three active- and placebo-controlled trials, and one placebo-controlled trial. The efficacy of tiotropium bromide and olodaterol is based primarily on two 4-week dose-ranging trials in 592 COPD patients and two confirmatory active-controlled 52-week trials (Trials 1 and 2) in 5162 COPD patients.

Dose-Ranging Trials

Dose selection for tiotropium bromide and olodaterol was primarily based on trials for the individual components, tiotropium bromide and olodaterol. Dose selection was also supported by two randomized, double-blind, active-controlled, 4-week trials. In one trial in 232 patients with COPD, three tiotropium doses (1.25, 2.5, and 5 mcg) were given in combination with olodaterol 5 or 10 mcg and were evaluated compared to olodaterol monotherapy. Results demonstrated improvement in trough FEV1 for the combination when compared to olodaterol alone. The difference in trough FEV1 for the tiotropium bromide/olodaterol doses of 1.25/5, 2.5/5, and 5/5 mcg once daily from olodaterol 5 mcg were 0.054 L (95% CI 0.016, 0.092), 0.065 L (0.027, 0.103), and 0.084 L (0.046, 0.122), respectively. In the second trial in 360 patients with COPD, three olodaterol doses (2, 5, and 10 mcg) were given in combination with tiotropium 5 mcg and were evaluated compared to tiotropium monotherapy. The difference in trough FEV1 for the tiotropium/olodaterol doses of 5/2, 5/5, and 5/10 mcg once daily from tiotropium 5 mcg were 0.024 L (95% CI -0.029, 0.076), 0.033 L (-0.019, 0.085), and 0.057 L (0.004, 0.110), respectively. Results of these trials supported the evaluation of once-daily doses of tiotropium bromide/olodaterol 2.5/5 mcg and 5/5 mcg in the confirmatory trials.

Confirmatory Trials:

A total of 5162 COPD patients (1029 receiving tiotropium bromide and olodaterol, 1038 receiving olodaterol 5 mcg, and 1033 receiving tiotropium bromide 5 mcg) were studied in two confirmatory trials of tiotropium bromide and olodaterol. Trials 1 and 2 were 52-week, replicate, randomized, double-blind, active controlled, parallel group trials that compared tiotropium bromide and olodaterol to tiotropium 5 mcg and olodaterol 5 mcg. In these trials, all products were administered via the RESPIMAT inhaler. The trials enrolled patients 40 years of age or older with a clinical diagnosis of COPD, a smoking history of more than 10 pack-years, and moderate to very severe pulmonary impairment (post-bronchodilator FEV1 less than 80% predicted normal [GOLD Stage 2-4]; post-bronchodilator FEV1 to FVC ratio of less than 70%). All treatments were administered once daily in the morning. The primary endpoints were changed from baseline in FEV1 AUC0-3hr and trough FEV1 after 24-weeks of treatment. The majority of the 5162 patients were male (73%), white (71%) or Asian (25%), with a mean age of 64.0 years. Mean post-bronchodilator FEV1 was 1.37 L (GOLD 2 [50%], GOLD 3 [39%], GOLD 4 [11%]). Mean beta2-agonist responsiveness was 16.6% of baseline (0.171 L). Pulmonary medications allowed as concomitant therapy included inhaled steroids [47%] and xanthines [10%].

In both Trials 1 and 2, tiotropium bromide and olodaterol demonstrated significant improvements in FEV1 AUC0-3hr and trough FEV1 after 24 weeks compared to tiotropium 5 mcg and olodaterol 5 mcg (Table 2). The increased bronchodilator effects of tiotropium bromide and olodaterol compared to tiotropium 5 mcg and olodaterol 5 mcg were maintained throughout the 52-week treatment period. Tiotropium bromide and olodaterol displayed a mean increase in FEV1 from baseline of 0.137 L (range: 0.133-0.140 L) within 5 minutes after the first dose. Patients treated with tiotropium bromide and olodaterol used less rescue medication compared to patients treated with tiotropium 5 mcg and olodaterol 5 mcg.

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For the subset of patients (n=521) who completed extended lung function measurements up to 12 hours post-dose, tiotropium bromide and olodaterol showed a significantly greater FEV1 response compared to tiotropium 5 mcg and olodaterol 5 mcg over the full 24-hour dosing interval. Results from Trial 2 are shown in Figure 1.

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How Supplied

The drug product, tiotropium bromide and olodaterol, is composed of a sterile aqueous solution of tiotropium bromide and olodaterol hydrochloride filled into a 4.5 mL plastic container crimped into an aluminum cylinder (tiotropium bromide and olodaterol cartridge) for use with the tiotropium bromide and olodaterol inhaler.

Excipients include water for injection, benzalkonium chloride, edetate disodium, and hydrochloric acid.

The tiotropium bromide and olodaterol cartridge is only intended for use with the tiotropium bromide and olodaterol inhaler. The tiotropium bromide and olodaterol inhaler is a hand held, pocket sized oral inhalation device that uses mechanical energy to generate a slow-moving aerosol cloud of medication from a metered volume of the drug solution. The tiotropium bromide and olodaterol inhaler has a light green-colored cap.

When used with the tiotropium bromide and olodaterol inhaler each cartridge, containing 4 grams of sterile aqueous solution, delivers the labeled number of metered actuations after preparation for use. Each dose (one dose equals two actuations) from the tiotropium bromide and olodaterol inhaler delivers 5 mcg tiotropium and 5 mcg olodaterol in 22.1 mcL from the mouthpiece. As with all inhaled drugs, the actual amount of drug delivered to the lung may depend on patient factors, such as the coordination between the actuation of the inhaler and inspiration through the delivery system. The duration of inspiration should be at least as long as the spray duration (1.5 seconds).

Tiotropium bromide and olodaterol cartridge and one tiotropium bromide and olodaterol inhaler.

The tiotropium bromide and olodaterol cartridge is provided as an aluminum cylinder with a tamper protection seal on the cap. The tiotropium bromide and olodaterol cartridge is only intended for use with the tiotropium bromide and olodaterol inhaler and should not be interchanged with any other RESPIMAT device delivered product.

The tiotropium bromide and olodaterol inhaler is a cylindrical shaped plastic inhalation device with a gray colored body and a clear base. The clear base is removed to insert the cartridge. The inhaler contains a dose indicator. The light green-colored cap and the written information on the label of the gray inhaler body indicate that it is labeled for use with the tiotropium bromide and olodaterol cartridge.

Tiotropium Bromide and Olodaterol Inhalation Spray is available as: Tiotropium Bromide and Olodaterol Inhalation Spray: 60 metered actuations (NDC 0597-0155-61)

The tiotropium bromide and olodaterol cartridge has a net fill weight of at least 4 grams and when used with the tiotropium bromide and olodaterol inhaler, is designed to deliver the labeled number of metered actuations after preparation for use.

When the labeled number of actuations has been dispensed from the inhaler, the RESPIMAT locking mechanism will be engaged and no more actuations can be dispensed.

After assembly, the tiotropium bromide and olodaterol inhaler should be discarded at the latest 3 months after first use or when the locking mechanism is engaged, whichever comes first.

Keep out of reach of children. Do not spray into eyes.

Storage

Store at 25°C (77°F); excursions permitted to 15°C to 30°C (59°F to 86°F). Avoid freezing.

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Patient Counseling Information

Advise the patient to read the FDA-approved patient labeling (Medication Guide and Instructions for Use).

Precautions with Alcohol

Alcohol-Tiotropium bromide and olodaterol interaction has not been established. Talk to your doctor about the effects of taking alcohol with this medication.

Brand Names

STIOLTO RESPIMAT

Look-Alike Drug Names

There is limited information regarding Tiotropium bromide and olodaterol Look-Alike Drug Names in the drug label.

Drug Shortage Status

Price

References

The contents of this FDA label are provided by the National Library of Medicine.