:''Do not administer [[vasodilator|<span style="color:white;">vesodilators</span>]] among patients with [[hypotension|<span style="color:white;">hypotension</span>]].''<br><br>
:''Do not administer [[vasodilator|<span style="color:white;">vesodilators</span>]] among patients with [[hypotension|<span style="color:white;">hypotension</span>]].''<br><br>
❑ Administer [[Inotrope|<span style="color:white;">inotropic agents</span>]] (click here for details).
❑ Administer IV [[Inotrope|<span style="color:white;">inotropic agents</span>]]
:''If the patient is total body and intravascular volume overloaded in normotensive, then [[diuresis|<span style="color:white;">diuresis</span>]] alone should be undertaken. If the patient is volume overloaded but [[hypotensive|<span style="color:white;">hypotensive</span>]], then [[inotrope|<span style="color:white;">inotropes</span>]] must be administered in addition to [[diuretics|<span style="color:white;">diuretics</span>]].''<br><br>
:Administer inotropic agents temporarily to patients with reduced LVEF and reduced peripheral perfusion/end-organ damage to maintain systemic tissue perfusion until either acute factors are resolved or the patient receives definitive therapy (e.g. revascularization or heart transplant)<br>
:❑ Dobutamine: IV initial dose 0.5 to 1 microgram/kg/minute followed by maintenance dose of 2 to 20 microgram/kg/min (maximum dose 40 microgram/kg/min).
❑ Monitor vital signs continuously during administration of inotropic agents<br>
❑ Monitor for worsening tachyarrhythmia or worsening hypotension, which requires discontinuation of inotropic agents<br><br>
Dilated cardiomyopathy (DCM) relates to a group of heterogeneous myocardial disorders and is characterized by dilatation and impaired contraction and systolic function of the left or both ventricles. Atrial and/or ventricular arrhythmias can occcur, and there is a risk for sudden death. [1] The weight of the heart assessed by the MRI and echocardiogram is increased but the maximal thicknesses of the left ventricular free wall and septum are usually normal as a result of the abnormally dilated chambers.[2]Dilated cardiomyopathy is treated the same way that congestive heart failure is.
Causes
Life-threatening causes include conditions which may result in death or permanent disability within 24 hours if left untreated.[3]
A Focused Initial Rapid Evaluation (FIRE) should be performed to identify patients with signs and symptoms of severe acute decompensated heart failure who require immediate intervention.[4]
Boxes in red signify that an urgent management is needed.
Airway Stabilization
❑ Position the patient upright at an angle of 45 degrees, with legs dangling off the bedside (decrease preload)
❑ Monitor oxygen saturation continuously
❑ If hypoxemia is present (Sa02 < 90% or Pa02 <60 mmHg), administer oxygen with/without noninvasive ventilation
❑ Non-rebreather face mask with delivery of high flow oxygen
❑ Consider non-invasive positive pressure ventilation (NPPV) for patients with no contraindication
NPPV is contraindicated in cardiorespiratory arrest, glasgow coma scale < 10 or no patient cooperation, severe upper GI bleeding, hemodynamic instability, facial injury, upper airway obstruction, or high aspiration risk
❑ Titrate oxygen delivery to maintain SpO2 >90%
SPO2 in patients with COPD should not exceed 92-94%
Assess Congestion and Perfusion
Congestion at rest (dry vs. wet) "Wet" suggested by orthopnea, ↑JVP, rales, S3, pedal edema Low perfusion at rest (warm vs. cold) "Cold" suggested by narrow pulse pressure, cool extremities, hypotension
The patient is:
❑ Warm and dry, OR
❑ Warm and wet, OR
❑ Cold and dry, OR
❑ Cold and wet
Identify Precipitating Factors and Treat Accordingly
❑ Evaluate adequacy of diuresis. For furosemide, adequate diuresis is defined as urine output > 1L/2hours following IV administration.
❑ If not adequate, increase furosemide IV dose to 80 mg. Re-evaluate diuresis adequacy in the following 2 hours post-administration.
❑ Titrate dose until adequate diuresis is achieved. Once achieved, administer the dose at a twice daily rate.
❑ Perform serial assessment of fluid input and output, vital signs, daily body weight (measured every day, with the same scale, at the same time, after first void) and symptoms
❑ Add a second diuretics, such as thiazide (preferably metolazone) (I-B)
❑ Metolazone PO dose: 2.5 - 10 mg once daily (there is no IV preparation for metolazone)
❑ Reassess diuresis adequacy several hours (2 to 9) following metolazone administration.
❑ Consider low dose dopamine infusion for improved diuresis and renal blood flow (IIb-B)
❑ Consider renal replacement therapy/ultrafiltration in obvious volume overload (IIb-B) refractory to higher dose/combination of IV diuretics
Maintenance of Diuresis
❑ Consider continuous infusion of furosemide following bolus administration. Infusion dose and rate vary according to the patient's creatinine clearance:
❑ CrCl > 75 ml/min: Administer furosemide infusion 100 mg loading dose with an initial infusion rate of 10 mg/hour. Maximum daily infusion rate is 240-360 mg/hour in non-elderly adults (170 mg/hour in elderly).
❑ CrCl= 25-75 ml/min: Administer furosemide infusion 100-200 mg loading dose with an initial infusion rate of 10-20 mg/hour. Maximum daily infusion rate is 240-360 mg/hour in non-elderly adults (170 mg/hour in elderly).
❑ CrCl < 25 ml/min: Administer furosemide infusion 200 mg loading dose with an initial infusion rate of 20-40 mg/hour. Maximum daily infusion rate is 240-360 mg/hour in non-elderly adults (170 mg/hour in elderly).
Manage Low Perfusion / Low Output
❑ Administer IV inotropic agents
Administer inotropic agents temporarily to patients with reduced LVEF and reduced peripheral perfusion/end-organ damage to maintain systemic tissue perfusion until either acute factors are resolved or the patient receives definitive therapy (e.g. revascularization or heart transplant)
❑ Dobutamine: IV initial dose 0.5 to 1 microgram/kg/minute followed by maintenance dose of 2 to 20 microgram/kg/min (maximum dose 40 microgram/kg/min).
❑ Monitor vital signs continuously during administration of inotropic agents
❑ Monitor for worsening tachyarrhythmia or worsening hypotension, which requires discontinuation of inotropic agents
Administer Thromboprophylaxis
❑ Anticoagulation in the absence of contraindications (I-B)
Hold Home Administered Chronic Medical Therapy
❑ Chronic ACE inhibitor: Hold if patient is hemodynamically unstable
❑ Chronic beta blocker:
❑ Hold if patient is hemodynamically unstable and/or in need or inotropes
❑ Decrease dose by ≥ half if patient is in moderate heart failure
❑ DO NOT INITIATE ACEI/ARBs during an acute decompensation
❑ DO NOT INITIATE BETA BLOCKER during an acute decompensation; initiate beta blockers at a low dose in stable patients following optimization of volume status and D/C of IV diuretics and inotropes (I-B)
Monitor Laboratory Tests
❑ BUN daily
❑ Creatinine daily
A complete diagnostic approach should be carried out after a focused initial rapid evaluation is conducted and following initiation of any urgent intervention.[5]
Symptoms of heart failure
History and symptoms:
❑ Hints for etiology (at least 3 generations of family history, and others)
❑ Duration and onset of illness
❑ Severity and triggers of dyspnea and fatigue, presence of chest pain, exercise capacity, physical activity, sexual activity (NYHA?)
❑ Weight loss/weight gain (cachexia/volume overload?)
❑ Palpitations/(pre)syncope/ICD shocks(adverse prognosis)
❑ Symptoms of transient ischemic attack or thromboembolism (anticoagulation necessary?)
❑ Presence of peripheral edema or ascites (volume overload?)
❑ Problems with breathing at night/ sleep
❑ Medical history:
❑ Prior hospitalizations for HF (adverse prognosis?)
❑ ECG: nonspecific repolarization or conduction abnormalities, poor R wave progression, and LVH
❑ Chest x-ray: cardiomegaly, pulmonary venous redistribution, and pulmonary congestion
❑ 2-dimensional echocardiogram with Doppler (ventricular function, size, wall thickness, wall motion, and valve function?)
❑ Repeat measurement of EF and severity of structural remodeling (after significant change in clinical status, after clinical event, after treatment or if candidates for device therapy)
❑ Viability assessment when planning revascularization in HF patients with CAD
❑ Radionuclide ventriculography or magnetic resonance imaging can be useful to assess LVEF and volume when echocardiography is inadequate
❑ Consider magnetic resonance imaging when assessing myocardial infiltrative processes or scar burden
❑ Invasive imaging:
Consider invasive Imaging only in specific cases.
❑ Invasive hemodynamic monitoring with a pulmonary artery catheter to guide therapy in patients with respiratory distress or clinical evidence of impaired perfusion if the adequacy or excess of intracardiac filling pressures cannot be determined from clinical assessment
❑ Careful consideration of invasive hemodynamic monitoring for patients:
❑ With persistent symptoms despite empiric adjustment of standard therapies
❑ If fluid status, perfusion, or systemic or pulmonary vascular resistance is uncertain
❑ Systolic pressure remains low, or is associated with symptoms, despite initial therapy
❑ If renal function is worsening with therapy
❑ If parenteral vasoactive agents are required
❑ If consideration for MCS or transplantation
❑ If ischemia contributes to HF coronary arteriography for patients who are eligible for revascularization
❑ Endomyocardial biopsy:
❑ Consider if a specific diagnosis is suspected that would influence therapy
❑ Consider if rapidly progressive clinical HF or worsening ventricular dysfunction that persists despite appropriate medical therapy
❑ Consider if suspicion of an acute cardiac rejection status after heart transplantation or a myocardial infiltrative processes
❑ Coronary angiography:
❑ Consider for patients with HF and angina, or without angina but with LV dysfunction
❑ In patients with known CAD and angina or with significant ischemia diagnosed by ECG or noninvasive testing and impaired ventricular function
❑ CAD should be considered as a potential etiology of impaired LV function and should be excluded wherever possible among those without prior diagnosis
The initial diagnostic approach should aim to identify potentially reversible causes of left ventricular dysfunction. Pertinent history includes alcohol consumption, recent viral illness, coronary risk factors, and family history.
Dont's
Endomyocardial biopsy should not be performed in the routine evaluation of patients with HF.[5] Optimal timing of endomyocardial biopsy for patients unresponsive to medical therapy remains unclear.[3]
Nondihydropyridine calcium channel blockers with negative inotropic effects may be harmful in asymptomatic patients with low LVEF and no symptoms of HF after MI.[6]
↑ 5.05.1Yancy, C. W.; Jessup, M.; Bozkurt, B.; Butler, J.; Casey, D. E.; Drazner, M. H.; Fonarow, G. C.; Geraci, S. A.; Horwich, T.; Januzzi, J. L.; Johnson, M. R.; Kasper, E. K.; Levy, W. C.; Masoudi, F. A.; McBride, P. E.; McMurray, J. J. V.; Mitchell, J. E.; Peterson, P. N.; Riegel, B.; Sam, F.; Stevenson, L. W.; Tang, W. H. W.; Tsai, E. J.; Wilkoff, B. L. (2013). "2013 ACCF/AHA Guideline for the Management of Heart Failure: A Report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines". Circulation. 128 (16): e240–e327. doi:10.1161/CIR.0b013e31829e8776. ISSN0009-7322.