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== University Education ==
== University Education ==
_NOTOC__
{{DiseaseDisorder infobox |
  Name          = Apraxia |
  ICD10          = {{ICD10|R|48|2|r|47}} |
  ICD9          = {{ICD9|438.81}}, {{ICD9|784.69}} |
  ICDO          = |
  Image          = |
  Caption        = |
  OMIM          = |
  OMIM_mult      = |
  MedlinePlus    = 003203 |
  DiseasesDB    = 31600 |
  MeshID        = D001072 |
}}
{{SI}}
{{CMG}} {{AE}} {{Parul}} {{Norina Usman}}
{{SK}} Dyspraxia
==Overview==
'Praxis', a Greek work, is the ability to perform the learned movements. It usually comprises of three components, namely, ideation, motor planning, and execution that results in purposeful movements. Apraxia, however, is the inability to perform these skilled and learned movements when there is a breakdown in any component of praxis. This disorder makes it difficult to perform daily tasks and negatively impact the quality of life. Apraxia is a complex neurological disease with cognitive-motor dysfunction. It can occur as a result of brain trauma/disease, and higher motor functional neuronal pathways damage in the setting of preserved comprehension, coordination, elementary sensory and motor systems. The most common types of apraxia are Ideational and Ideomotor.
==Historical Perspective==
*Steinthal introduced the term '[[apraxia]]' in 1971. However, a German physician, Hugo Lipmann first established the conceptual knowledge and published complete description of apraxia after studying the gestures in a 48-year old [[stroke]] patient who had a left hemispheric stroke.
*Lipmann noticed that, despite of resolution of the paresis, the patient was unable to perform tasks such as buttoning the shirt, with no affect on spontaneous movements, and doing simple tasks on command. He observed this phenomenon specifically in patients with left hemispheric lesions. He also concluded that the planning of the motor movements occurs in the motor area of the left side of the brain.Lipmann further proposed that the 'praxis' information flows from the posterior brain areas (parietal and occipital lobes) to the anterior (motor cortex).
*The major subtypes classified by Lipmann were ideational, ideomotor, and limb-kinetic apraxia.
*One of the behavioral neurologist, Norman Geschwind, presented that the superior longitudinal fasciculus involvement disconnects the Wernike's are from the left premotor cortex, leading to 'apraxia'.
== Classification==
The most common types of apraxia are-
* '''''Ideomotor apraxia''':'' The most commonly known type of apraxia is Ideomotor apraxia, or decreased performance of skilled motor performances despite integral language, sensory and motor function. It can be seen more frequently in [[neurodegenerative disorders]] and [[stroke]] patients.Ideomotor apraxia is classically demonstrated when a patient questioned verbally to make a motion with a limb. Patients with Ideomotor apraxia display spatial and temporal errors, inconvenient timing, amplitude, sequencing, configuration,  limb position in space. It is an inability to carry out, learned motor acts, command, adequate motor, and sensory abilities. Ideomotor apraxia can be due to cerebral damage in numerous areas, including the left parietal lobe, the intrahemispheric association fibers, the dominant hemisphere motor association cortex, and the anterior corpus callosum. Patients often use their arm as an object relatively than indicating how to use the object . Patients are frequently able to achieve the same acts without struggle in their daily lives. This process has been called the "voluntary-automatic dissociation".These patients have a deficiency in their skill to plan or ample motor actions that depend on semantic memory. They can describe how to achieve a response, but incapable to "imagine" or do the movement. Though the capability to perform an act inevitably when cued remains complete, this is recognized as automatic-voluntary dissociation.In Ideomotor apraxia, there is difficulty or inability to execute familiar or learned movements on command despite of understanding the command and willingness to perform that action. The characteristic of this type of [[apraxia]] is the inability to a transitive movement. For example, the person can describe how a tool such as comb is used, but, when asked to use that tool, he is unable to perform the task (i.e. combing the hair) using the comb.
* '''''Ideational apraxia:''''' like the name depicts, problem in conceptualization of the task. The person may be able to name the objects correctly but fails to coceptualize how that object is used.
* '''''Constructional apraxia'':'''  It is a condition resulting from neurological damage, which is demonstrated by the inability to construct and copy to command two- and three-dimensional stimuli. Constructional apraxia has been a classic sign of a parietal lobe lesion, and as a valuable tool to escalate the spatial abilities functioned by this lobe. It has become gradually clear that Constructional apraxia is a complex construct that can be observed with very different tasks that are only slightly interrelated, and hit various kinds of visuospatial, attentional, perceptual, planning, and motor mechanisms.The patient with constructional apraxia is unable to construct, draw, or copy simple configurations; for example, intersecting shapes; they have trouble drawing basic shapes or copying a simple diagram.
* '''''Buccofacial or orofacial apraxia''':'' This is the most common type of apraxia; patients cannot convey facial movements on requests, such as voluntary movements of the tongue, cheeks, lips, pharynx, or larynx on command, for example, include licking lips, whistling, coughing, or winking).
* '''''Limb-kinetic apraxia''':'' It is the failure to make precise movements with an arm, finger, or leg. For example, a person may have trouble tying their shoes, waving hello, or typing on a computer''.''
* '''''Gait apraxia''':'' Apraxia of gait is a rare locomotion syndrome categorized by the incapability of lifting the feet from the floor regardless of discontinuous stepping action. The accountable site of lesions is in the basal ganglia and frontal lobe.
*Certain task-specific apraxiahave been identified, and these include-
**Sitting apraxia
**Dressing apraxia
**Eyelid opening apraxia
*Other types of apraxia, include-
**Classic apraxia
**Ideokinetic apraxia
**Motor apraxia
**Oculomotor apraxia
==Pathophysiology==
*'Praxis' comprises three components, which include ideation, motor planning, and execution to carry out the purposeful movement. There are particular regions of the brain that represent specific component functions, and these regions together work as a ‘praxis system’ to process and execute a purposeful movement. Dysfunction in any of these regions, namely, frontal and parietal cortex, basal ganglia, and the white matter which connects theses areas, leads to apraxia.
*The movements which requires tools are transitive movements, and the ones which do not require tools are intransitive. The intransitive movements are gestural which can be meaningful (communicative), or meaningless movements (not representational). In apraxia, transitive movements are affected more frequently as compared to intransitive movements.
*The observations of the patients in the clinical practice is the basis of most of the knowledge about 'apraxia'. Apraxia has been mostly seen in chronic left hemispheric lesions and Alzheimer's disease. The left hemispheric lesions cause more difficulty to perform transitive movements, as compared to intransitive movements and imitating gestures. Left hemisphere has a major role in 'praxis' and this may be due to specific stored representations in left hemisphere and their retrieval. On the other hand, Alzheimer's patients have preserved transitive movements, but shows deficits in gestures. Therefore, the type of apraxia depends on the type of neurological disease and the area of the brain affected by it.
*Different brain regions which have role in cognition and movement are involved in complex 'Praxis' movements. The conceptualization of a purposeful task involves prefrontal, left premotor, middle temporal and parietal areas of the brain..
*Neuroimaging studies have been done to investigate praxis correlations, but studies done so far vary widely on focus areas of praxis. One of the study reported left temporal lobe correltion with praxis because of its role in somatic memory retrieval.. Left premotor cortex, left parietal lobule, and parietal cortex have also been shown to have a role in praxis as they are involved in knowledge of tools and their use, grasping movements, spatiotemporal information integration, respectively.. Stronger left lateralization (especially posterior parietal and premotor cortex) for gesture production in praxis has been suggested by neuroimaging studies.
==Causes==
Damage to brain can lead to apraxia. When apraxia progresses in a person who was before able to perform the abilities or task, it is termed as acquired apraxia.
The most common causes of apraxia are:
*Neurodegenerative illness
*Brain tumor
*Dementia
*Stroke
* Traumatic brain injury
== Differentiating Apraxia from Other Diseases==
==Epidemiology and Demographics==
The information available on the incidence of apraxia in adults is limited. As apraxia is most common in children, the incidence is approximately 1 to 2 children per 1,000 (0.1%–0.2%) worldwide. Prevalence rates of  apraxia range among 0 and 34% for patients with Right hemisphere stroke and 28–57% for patients with Left hemisphere stroke.Real tool-use loss prevalence rates were stated with 25–54% impaired level of patients. Apraxia commonly affects individuals older than 50 years of age. Apraxia affects men and women equally.
==Risk Factors==
Apraxia is a rare disease caused by stroke; it has the same risk factors as a stroke.  <ref><nowiki><ref name="pmid18957186"></nowiki>{{cite journal| author=Gross RG, Grossman M| title=Update on apraxia. | journal=Curr Neurol Neurosci Rep | year= 2008 | volume= 8 | issue= 6 | pages= 490-6 | pmid=18957186 | doi=10.1007/s11910-008-0078-y | pmc=2696397 | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=18957186  }}</ref>.
*High blood pressure
*High cholesterol
*Diabetes
*Smoking
*Prior stroke or cardiovascular disease
*Prior transient ischemic attack (TIA)
*Dialysis treatment
==Screening ==
There is insufficient evidence to recommend routine screening for [[apraxia.]]
== Natural History, Complications, and Prognosis==
===== Natural History:: =====
*The symptoms of apraxia typically develop during early or later years depending on the cause and the location affected.
*Often, patients with apraxia are not aware of their shortfalls. Therefore, the history of a patient's capability to accomplish skilled movements should be obtained from the patient's caregiver or the patient himself.
*Caregivers should be asked about the capability of patients to perform activities of daily living and perform tasks involving household tools such as using a toothbrush, knife, and fork appropriately, using kitchen utensils correctly and safely to prepare a meal; using tools such as scissors or hammer correctly.
*Caregivers should also be asked about the whole activity level of the patient and whether decreases in his or her total actions have happened.
*The patient may sit on the couch and watch television without showing interest in essential activities he or she use to do in the past.
*This indifference can be related to many kinds of brain dysfunction, but it sporadically occurs because the patient is incapable of performing his or her usual activities.
====Complications====
Common complications of apraxia include:
*Broca's Aphasia
*Acalculi
*Right-left Confusion
*Alexia with agraphia
*Wernicke's Aphasia.
===== Prognosis =====
*Patients with apraxia are not able to do things independently and may distress carrying out everyday responsibilities. Activities should be avoided that can lead to injury and take the appropriate safety actions. Over-all, patients with apraxia rely on others for their daily activities and need at least some notch of command; skilled nursing care may be obligatory. Patients with the tumor or degenerative diseases usually develop into amplified levels of dependence.
== Diagnosis==
*Many tests have been developed to evaluate apraxia but most are difficult to apply in clinics as they are not rapid tests. Additionally, most of those lack in sensitivity and validity.
**''De Renzi ideomotor apraxia test''for ideomotor apraxia assessment, can be tested in either side brain damage. It is a 24-item scale test.
**''Test of upper limb apraxia (TULIA)'' is a 48 item test, is preferred test as it has a good validity and reliability. It can be used to test-
***non-symbolic (meaningless)
***intransitive (communicative)
***transitive (tool-related) gestures.20
**''Apraxia Screen of TULIA (AST)'' is a short bedside test with 12 items, with a high sensitivity and specificity. The basis of this test is TULIA test.
=== History and Symptoms===
===Physical Examination===
===CT scan===
===MRI===
===Other Imaging Findings===
===Other Diagnostic Studies===
==Treatment==
*No standardized treatment is available for apraxia. The frequency of limb apraxia in left hemispheric stroke patients is reported to be nearly 51%and, hence, the therapeutic efforts are so far mostly concentrated towards stroke patients (left hemispheric stroke patients). Based on the studies, following treatment modalities have been considered so far-
**''Rehabilitative treatment''- 30 sessions, each lasting 50 minutes, 3 times weekly have been tried.
**''Behavioral training Program''-These include gesture-production exercises.
*With treatment, an improvement in praxis and daily living activities is seen in apraxia patients, based on some studies. The communicative gestures training has led to significant improvement of the gestures which were practiced during the training sessions, with some unpracticed gestures also showing some improvement. However, the sustainability of these positive results is not clear. Although rehabilitative training has been reported to benefit, but, for sustained benefit, training alone is not sufficient.
*''Noninvasive brain stimulation''- This method had been used widely for many neurological disorders, but there is very limited data for its use in cognitive disorders. However, some studies have shown that this technique has been tried for therapeutic and investigational purpose for this complex neurological disorder and may show some positive results. This technique when used with rehabilitative training, may be useful. Through this technique and different stimulation settings, inhibitory or excitatory influences are exerted on cortical excitability or plasticity. The synergistic approach using this technique prior to rehabilitative training, not only increases the efficacy, but it also increases the sustainability of the improvement seen. Some examples of non-invasive brain stimulation techniques which have been used in some neurological conditions with some improvement in the cognitive function components of the disease can be tried-
**Transcranial direct current stimulation (tDCS)-low-level continuous electric current is delivered to influence plasticity and excitabililty of the cortex. In this, anodal tDCS works in excitatory ways, and cathodal tDCS in inhibitory ways.
**single-pulse or rTMS- It can be delivered in either low frequency (0.2–1 Hz) for inhibitory mode, or in high frequency (≥5 Hz) for excitatory mode.
**theta-burst stimulation (TBS)-It is also a magnetic stimulation method like rTMS, but it shows equal efficacy even with shorter stimulation period.
**paired associative stimulation (PAS)- This stimulation technique can be used to tackle physiological mechanisms underlying memory using long-term depression (LTD), and long-term potentiation (LTP).<br />
===Medical Therapy===
===Interventions===
There are no specific recommended therapeutic interventions for the management of Apraxia.
Apraxia is believed to have an adverse impact on the Activity of Daily Living independence<ref><nowiki><ref name="Hagmann1998"></nowiki>{{cite journal|last1=Hagmann|first1=Georg Goldenberg Sonja|title=Therapy of Activities of Daily Living in Patients with Apraxia|journal=Neuropsychological Rehabilitation|volume=8|issue=2|year=1998|pages=123–141|issn=0960-2011|doi=10.1080/713755559}}</ref>. There are limited information and research available regarding various treatments<ref><nowiki><ref name="pmid18254038"></nowiki>{{cite journal| author=West C, Bowen A, Hesketh A, Vail A| title=Interventions for motor apraxia following stroke. | journal=Cochrane Database Syst Rev | year= 2008 | volume=  | issue= 1 | pages= CD004132 | pmid=18254038 | doi=10.1002/14651858.CD004132.pub2 | pmc=6464830 | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=18254038  }}</ref><nowiki></ref></nowiki>. Various interventions include:
*Daily living doings training: this method explains internal and external compensatory approaches that permit a functional mission to be accomplished<ref><nowiki><ref name="van HeugtenDekker2016"></nowiki>{{cite journal|last1=van Heugten|first1=C M|last2=Dekker|first2=J|last3=Deelman|first3=B G|last4=van Dijk|first4=A J|last5=Stehmann-Saris|first5=J C|title=Outcome of strategy training in stroke patients with apraxia: a phase II study|journal=Clinical Rehabilitation|volume=12|issue=4|year=2016|pages=294–303|issn=0269-2155|doi=10.1191/026921598674468328}}</ref>.
*Sensory Stimulation: Including deep pressure stimulation, soft and sharp touch are useful to the patients' limbs<ref><nowiki><ref name="Butler2016"></nowiki>{{cite journal|last1=Butler|first1=Jenny|title=Intervention Effectiveness: Evidence from a Case Study of Ideomotor and Ideational Apraxia|journal=British Journal of Occupational Therapy|volume=60|issue=11|year=2016|pages=491–497|issn=0308-0226|doi=10.1177/030802269706001109}}</ref>.
*Chaining (forward or backward): This method is fragmented down into its sections. The task is done with assistance from the therapist separately from the final element through backward chaining, which the patient performs out unassisted. If positive next time, additional steps are presented. Forward chaining is the opposite of backward chaining;
*Proprioceptive stimulation: The patient props on and puts his weight through their upper and lower extremities;
*Cueing, physical or verbal stimuli: This technique enables each phase of the task to be completed;
===Surgery===
Surgical intervention is not recommended for the management of Apraxia.
===Primary Prevention===
There are no established measures for the primary prevention of Apraxia. Some steps can be used which include<ref><nowiki><ref name="pmid2799873"></nowiki>{{cite journal| author=| title=Stroke--1989. Recommendations on stroke prevention, diagnosis, and therapy. Report of the WHO Task Force on Stroke and other Cerebrovascular Disorders. | journal=Stroke | year= 1989 | volume= 20 | issue= 10 | pages= 1407-31 | pmid=2799873 | doi=10.1161/01.str.20.10.1407 | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=2799873  }}</ref>.
*Exercise regularly.
*Eat a healthy diet.
*Limit how much alcohol you drink.
*Quit smoking
*Check your blood pressure often.
===Secondary Prevention===
Effective measures for the secondary prevention of Apraxia include secondary prevention of stroke<ref><nowiki><ref name="pmid26300647"></nowiki>{{cite journal| author=Esenwa C, Gutierrez J| title=Secondary stroke prevention: challenges and solutions. | journal=Vasc Health Risk Manag | year= 2015 | volume= 11 | issue=  | pages= 437-50 | pmid=26300647 | doi=10.2147/VHRM.S63791 | pmc=4536764 | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=26300647  }}</ref>:
*Aspirin, clopidogrel, extended-release dipyridamole, ticlopidine
*Anticoagulants (apixaban, dabigatran, edoxaban, rivaroxaban, warfarin)
*Blood pressure-lowering medications.
*Diabetes Control
*Low-fat diet
*Cholesterol-lowering medications, Cessation of cigarette smoking, carotid revascularization
*Weight loss and Exercise
==Overview==
'''Apraxia''' is a [[neurological disorder]] characterized by loss of the ability to execute or carry out learned purposeful movements, despite having the desire and the physical ability to perform the movements. It is a disorder of motor planning which may be acquired or developmental, but may not be caused by incoordination, sensory loss, or failure to comprehend simple commands (which can be tested by asking the person tested to recognize the correct movement from a series). The root word of '''Apraxia''' is ''praxis'', [[Greek language|Greek]] for an act, work, or deed. It is preceded by a privative a, meaning 'without'.
==Types==
There are several types of apraxia including:
* ''ideomotor'' (inability to carry out a motor command, for example, "act as if you are brushing your teeth" or "salute") - the form most frequently encountered by [[physician]]s,
** ''limb apraxia'' when movements of the arms and legs are involved,
** ''nonverbal-oral'' or ''buccofacial'' (inability to carry out facial movements on command, e.g., lick [[lips]], [[whistle]], [[cough]], or [[wink]]),
* ''ideational'' (inability to create a plan for or idea of a specific movement, for example, "pick up this pen and write down your name"),
* ''limb-kinetic'' (inability to make fine, precise movements with a limb),
* ''verbal'' (difficulty planning the movements necessary for [[Speech communication|speech]]), also known as Apraxia of Speech (see below)
* ''constructional'' (inability to draw or construct simple configurations),
* ''oculomotor'' (difficulty moving the [[eye]])
Each type may be tested at decreasing levels of complexity; if the person tested fails to execute the commands, you can make the movement yourself and ask that the person mimic it, or you can even give them a real object (like a tooth brush) and ask them to use it.
Apraxia may be accompanied by a [[language disorder]] called [[aphasia]].
===Apraxia of speech===
Developmental Apraxia of Speech (DAS) presents in children who have no evidence of difficulty with strength or range of motion of the articulators, but are unable to execute speech movements because of motor planning and coordination problems. This is not to be confused with phonological impairments in children with normal coordination of the articulators during speech.
Symptoms of Acquired Apraxia of Speech (AOS) and Developmental Apraxia of Speech (DAS) include inconsistent articulatory errors, groping oral movements to locate the correct articulatory position, and increasing errors with increasing word and phrase length. AOS often co-occurs with Oral Apraxia (during both speech and non-speech movements) and Limb Apraxia.
==Causes==
Ideomotor apraxia is almost always caused by lesions in the language-dominant (usually left) hemisphere of the [[brain]], and as such these patients often have concomitant [[aphasia]], especially of the [[Expressive aphasia|Broca]] or [[Conduction aphasia|conduction]] type. Left-side ideomotor apraxia may be caused by a lesion of the [[anterior]] [[corpus callosum]].
Ideational apraxia is commonly associated with confusion states and dementia.
==Treatment==
Generally, treatment for individuals with apraxia includes [[physical therapy]], [[occupational therapy]] or [[speech therapy]], or Oral Motor Therapy and [[IVIG]]. If apraxia is a symptom of another disorder (usually a [[Neurology|neurologic]] disorder), the underlying disorder should be treated.
==Prognosis==
The prognosis for individuals with apraxia varies. With therapy, some patients improve significantly, while others may show very little improvement. Some individuals with apraxia may benefit from the use of a [[Augmentative and alternative communication|communication aid]].
==Related Chapters==
*[[Dyspraxia]]
==References==
*{{cite book
  | last = Epstein
  | first = O.
  | authorlink =
  | coauthors = D. Perkin, J. Cookson, D.P. de Bono
  | title = Clinical Examination
  | publisher = Mosby
  | date = 2003
  | location = London
  | pages = 294
  | url = http://www.fleshandbones.com/bookshop/title.cfm?ISBN=0723432295
  | doi =
  | id = ISBN 0-7234-3229-5 }}
* Kasper DL, Braunwald E, Fauci AS, Hauser SL, Longo DL, Jameson JL. ''Harrison's Principles of Internal Medicine''. New York: McGraw-Hill, 2005. ISBN 0-07-139140-1.
{{Symptoms and signs}}
[[Category:Neurology]]
[[es:Apraxia]]
[[fr:Apraxie]]
[[pt:Apraxia]]
[[ru:Апраксия]]
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Parul Pahal, M.B.B.S[2] Norina Usman, M.B.B.S[3]


Synonyms and keywords: Dyspraxia

Overview

'Praxis', a Greek work, is the ability to perform the learned movements. It usually comprises of three components, namely, ideation, motor planning, and execution that results in purposeful movements. Apraxia, however, is the inability to perform these skilled and learned movements when there is a breakdown in any component of praxis. This disorder makes it difficult to perform daily tasks and negatively impact the quality of life. Apraxia is a complex neurological disease with cognitive-motor dysfunction. It can occur as a result of brain trauma/disease, and higher motor functional neuronal pathways damage in the setting of preserved comprehension, coordination, elementary sensory and motor systems. The most common types of apraxia are Ideational and Ideomotor.

Historical Perspective

  • Steinthal introduced the term 'apraxia' in 1971. However, a German physician, Hugo Lipmann first established the conceptual knowledge and published complete description of apraxia after studying the gestures in a 48-year old stroke patient who had a left hemispheric stroke.
  • Lipmann noticed that, despite of resolution of the paresis, the patient was unable to perform tasks such as buttoning the shirt, with no affect on spontaneous movements, and doing simple tasks on command. He observed this phenomenon specifically in patients with left hemispheric lesions. He also concluded that the planning of the motor movements occurs in the motor area of the left side of the brain.Lipmann further proposed that the 'praxis' information flows from the posterior brain areas (parietal and occipital lobes) to the anterior (motor cortex).
  • The major subtypes classified by Lipmann were ideational, ideomotor, and limb-kinetic apraxia.
  • One of the behavioral neurologist, Norman Geschwind, presented that the superior longitudinal fasciculus involvement disconnects the Wernike's are from the left premotor cortex, leading to 'apraxia'.

Classification

The most common types of apraxia are-

  • Ideomotor apraxia: The most commonly known type of apraxia is Ideomotor apraxia, or decreased performance of skilled motor performances despite integral language, sensory and motor function. It can be seen more frequently in neurodegenerative disorders and stroke patients.Ideomotor apraxia is classically demonstrated when a patient questioned verbally to make a motion with a limb. Patients with Ideomotor apraxia display spatial and temporal errors, inconvenient timing, amplitude, sequencing, configuration, limb position in space. It is an inability to carry out, learned motor acts, command, adequate motor, and sensory abilities. Ideomotor apraxia can be due to cerebral damage in numerous areas, including the left parietal lobe, the intrahemispheric association fibers, the dominant hemisphere motor association cortex, and the anterior corpus callosum. Patients often use their arm as an object relatively than indicating how to use the object . Patients are frequently able to achieve the same acts without struggle in their daily lives. This process has been called the "voluntary-automatic dissociation".These patients have a deficiency in their skill to plan or ample motor actions that depend on semantic memory. They can describe how to achieve a response, but incapable to "imagine" or do the movement. Though the capability to perform an act inevitably when cued remains complete, this is recognized as automatic-voluntary dissociation.In Ideomotor apraxia, there is difficulty or inability to execute familiar or learned movements on command despite of understanding the command and willingness to perform that action. The characteristic of this type of apraxia is the inability to a transitive movement. For example, the person can describe how a tool such as comb is used, but, when asked to use that tool, he is unable to perform the task (i.e. combing the hair) using the comb.
  • Ideational apraxia: like the name depicts, problem in conceptualization of the task. The person may be able to name the objects correctly but fails to coceptualize how that object is used.
  • Constructional apraxia: It is a condition resulting from neurological damage, which is demonstrated by the inability to construct and copy to command two- and three-dimensional stimuli. Constructional apraxia has been a classic sign of a parietal lobe lesion, and as a valuable tool to escalate the spatial abilities functioned by this lobe. It has become gradually clear that Constructional apraxia is a complex construct that can be observed with very different tasks that are only slightly interrelated, and hit various kinds of visuospatial, attentional, perceptual, planning, and motor mechanisms.The patient with constructional apraxia is unable to construct, draw, or copy simple configurations; for example, intersecting shapes; they have trouble drawing basic shapes or copying a simple diagram.
  • Buccofacial or orofacial apraxia: This is the most common type of apraxia; patients cannot convey facial movements on requests, such as voluntary movements of the tongue, cheeks, lips, pharynx, or larynx on command, for example, include licking lips, whistling, coughing, or winking).
  • Limb-kinetic apraxia: It is the failure to make precise movements with an arm, finger, or leg. For example, a person may have trouble tying their shoes, waving hello, or typing on a computer.
  • Gait apraxia: Apraxia of gait is a rare locomotion syndrome categorized by the incapability of lifting the feet from the floor regardless of discontinuous stepping action. The accountable site of lesions is in the basal ganglia and frontal lobe.
  • Certain task-specific apraxiahave been identified, and these include-
    • Sitting apraxia
    • Dressing apraxia
    • Eyelid opening apraxia
  • Other types of apraxia, include-
    • Classic apraxia
    • Ideokinetic apraxia
    • Motor apraxia
    • Oculomotor apraxia

Pathophysiology

  • 'Praxis' comprises three components, which include ideation, motor planning, and execution to carry out the purposeful movement. There are particular regions of the brain that represent specific component functions, and these regions together work as a ‘praxis system’ to process and execute a purposeful movement. Dysfunction in any of these regions, namely, frontal and parietal cortex, basal ganglia, and the white matter which connects theses areas, leads to apraxia.
  • The movements which requires tools are transitive movements, and the ones which do not require tools are intransitive. The intransitive movements are gestural which can be meaningful (communicative), or meaningless movements (not representational). In apraxia, transitive movements are affected more frequently as compared to intransitive movements.
  • The observations of the patients in the clinical practice is the basis of most of the knowledge about 'apraxia'. Apraxia has been mostly seen in chronic left hemispheric lesions and Alzheimer's disease. The left hemispheric lesions cause more difficulty to perform transitive movements, as compared to intransitive movements and imitating gestures. Left hemisphere has a major role in 'praxis' and this may be due to specific stored representations in left hemisphere and their retrieval. On the other hand, Alzheimer's patients have preserved transitive movements, but shows deficits in gestures. Therefore, the type of apraxia depends on the type of neurological disease and the area of the brain affected by it.
  • Different brain regions which have role in cognition and movement are involved in complex 'Praxis' movements. The conceptualization of a purposeful task involves prefrontal, left premotor, middle temporal and parietal areas of the brain..
  • Neuroimaging studies have been done to investigate praxis correlations, but studies done so far vary widely on focus areas of praxis. One of the study reported left temporal lobe correltion with praxis because of its role in somatic memory retrieval.. Left premotor cortex, left parietal lobule, and parietal cortex have also been shown to have a role in praxis as they are involved in knowledge of tools and their use, grasping movements, spatiotemporal information integration, respectively.. Stronger left lateralization (especially posterior parietal and premotor cortex) for gesture production in praxis has been suggested by neuroimaging studies.

Causes

Damage to brain can lead to apraxia. When apraxia progresses in a person who was before able to perform the abilities or task, it is termed as acquired apraxia.

The most common causes of apraxia are:

  • Neurodegenerative illness
  • Brain tumor
  • Dementia
  • Stroke
  • Traumatic brain injury

Differentiating Apraxia from Other Diseases

Epidemiology and Demographics

The information available on the incidence of apraxia in adults is limited. As apraxia is most common in children, the incidence is approximately 1 to 2 children per 1,000 (0.1%–0.2%) worldwide. Prevalence rates of  apraxia range among 0 and 34% for patients with Right hemisphere stroke and 28–57% for patients with Left hemisphere stroke.Real tool-use loss prevalence rates were stated with 25–54% impaired level of patients. Apraxia commonly affects individuals older than 50 years of age. Apraxia affects men and women equally.

Risk Factors

Apraxia is a rare disease caused by stroke; it has the same risk factors as a stroke. [1].

  • High blood pressure
  • High cholesterol
  • Diabetes
  • Smoking
  • Prior stroke or cardiovascular disease
  • Prior transient ischemic attack (TIA)
  • Dialysis treatment

Screening

There is insufficient evidence to recommend routine screening for apraxia.

Natural History, Complications, and Prognosis

Natural History::
  • The symptoms of apraxia typically develop during early or later years depending on the cause and the location affected.
  • Often, patients with apraxia are not aware of their shortfalls. Therefore, the history of a patient's capability to accomplish skilled movements should be obtained from the patient's caregiver or the patient himself.
  • Caregivers should be asked about the capability of patients to perform activities of daily living and perform tasks involving household tools such as using a toothbrush, knife, and fork appropriately, using kitchen utensils correctly and safely to prepare a meal; using tools such as scissors or hammer correctly.
  • Caregivers should also be asked about the whole activity level of the patient and whether decreases in his or her total actions have happened.
  • The patient may sit on the couch and watch television without showing interest in essential activities he or she use to do in the past.
  • This indifference can be related to many kinds of brain dysfunction, but it sporadically occurs because the patient is incapable of performing his or her usual activities.

Complications

Common complications of apraxia include:

  • Broca's Aphasia
  • Acalculi
  • Right-left Confusion
  • Alexia with agraphia
  • Wernicke's Aphasia.
Prognosis
  • Patients with apraxia are not able to do things independently and may distress carrying out everyday responsibilities. Activities should be avoided that can lead to injury and take the appropriate safety actions. Over-all, patients with apraxia rely on others for their daily activities and need at least some notch of command; skilled nursing care may be obligatory. Patients with the tumor or degenerative diseases usually develop into amplified levels of dependence.

Diagnosis

  • Many tests have been developed to evaluate apraxia but most are difficult to apply in clinics as they are not rapid tests. Additionally, most of those lack in sensitivity and validity.
    • De Renzi ideomotor apraxia testfor ideomotor apraxia assessment, can be tested in either side brain damage. It is a 24-item scale test.
    • Test of upper limb apraxia (TULIA) is a 48 item test, is preferred test as it has a good validity and reliability. It can be used to test-
      • non-symbolic (meaningless)
      • intransitive (communicative)
      • transitive (tool-related) gestures.20
    • Apraxia Screen of TULIA (AST) is a short bedside test with 12 items, with a high sensitivity and specificity. The basis of this test is TULIA test.

History and Symptoms

Physical Examination

CT scan

MRI

Other Imaging Findings

Other Diagnostic Studies

Treatment

  • No standardized treatment is available for apraxia. The frequency of limb apraxia in left hemispheric stroke patients is reported to be nearly 51%and, hence, the therapeutic efforts are so far mostly concentrated towards stroke patients (left hemispheric stroke patients). Based on the studies, following treatment modalities have been considered so far-
    • Rehabilitative treatment- 30 sessions, each lasting 50 minutes, 3 times weekly have been tried.
    • Behavioral training Program-These include gesture-production exercises.
  • With treatment, an improvement in praxis and daily living activities is seen in apraxia patients, based on some studies. The communicative gestures training has led to significant improvement of the gestures which were practiced during the training sessions, with some unpracticed gestures also showing some improvement. However, the sustainability of these positive results is not clear. Although rehabilitative training has been reported to benefit, but, for sustained benefit, training alone is not sufficient.
  • Noninvasive brain stimulation- This method had been used widely for many neurological disorders, but there is very limited data for its use in cognitive disorders. However, some studies have shown that this technique has been tried for therapeutic and investigational purpose for this complex neurological disorder and may show some positive results. This technique when used with rehabilitative training, may be useful. Through this technique and different stimulation settings, inhibitory or excitatory influences are exerted on cortical excitability or plasticity. The synergistic approach using this technique prior to rehabilitative training, not only increases the efficacy, but it also increases the sustainability of the improvement seen. Some examples of non-invasive brain stimulation techniques which have been used in some neurological conditions with some improvement in the cognitive function components of the disease can be tried-
    • Transcranial direct current stimulation (tDCS)-low-level continuous electric current is delivered to influence plasticity and excitabililty of the cortex. In this, anodal tDCS works in excitatory ways, and cathodal tDCS in inhibitory ways.
    • single-pulse or rTMS- It can be delivered in either low frequency (0.2–1 Hz) for inhibitory mode, or in high frequency (≥5 Hz) for excitatory mode.
    • theta-burst stimulation (TBS)-It is also a magnetic stimulation method like rTMS, but it shows equal efficacy even with shorter stimulation period.
    • paired associative stimulation (PAS)- This stimulation technique can be used to tackle physiological mechanisms underlying memory using long-term depression (LTD), and long-term potentiation (LTP).

Medical Therapy

Interventions

There are no specific recommended therapeutic interventions for the management of Apraxia.

Apraxia is believed to have an adverse impact on the Activity of Daily Living independence[2]. There are limited information and research available regarding various treatments[3]</ref>. Various interventions include:

  • Daily living doings training: this method explains internal and external compensatory approaches that permit a functional mission to be accomplished[4].
  • Sensory Stimulation: Including deep pressure stimulation, soft and sharp touch are useful to the patients' limbs[5].
  • Chaining (forward or backward): This method is fragmented down into its sections. The task is done with assistance from the therapist separately from the final element through backward chaining, which the patient performs out unassisted. If positive next time, additional steps are presented. Forward chaining is the opposite of backward chaining;
  • Proprioceptive stimulation: The patient props on and puts his weight through their upper and lower extremities;
  • Cueing, physical or verbal stimuli: This technique enables each phase of the task to be completed;

Surgery

Surgical intervention is not recommended for the management of Apraxia.

Primary Prevention

There are no established measures for the primary prevention of Apraxia. Some steps can be used which include[6].

  • Exercise regularly.
  • Eat a healthy diet.
  • Limit how much alcohol you drink.
  • Quit smoking
  • Check your blood pressure often.

Secondary Prevention

Effective measures for the secondary prevention of Apraxia include secondary prevention of stroke[7]:

  • Aspirin, clopidogrel, extended-release dipyridamole, ticlopidine
  • Anticoagulants (apixaban, dabigatran, edoxaban, rivaroxaban, warfarin)
  • Blood pressure-lowering medications.
  • Diabetes Control
  • Low-fat diet
  • Cholesterol-lowering medications, Cessation of cigarette smoking, carotid revascularization
  • Weight loss and Exercise

Overview

Apraxia is a neurological disorder characterized by loss of the ability to execute or carry out learned purposeful movements, despite having the desire and the physical ability to perform the movements. It is a disorder of motor planning which may be acquired or developmental, but may not be caused by incoordination, sensory loss, or failure to comprehend simple commands (which can be tested by asking the person tested to recognize the correct movement from a series). The root word of Apraxia is praxis, Greek for an act, work, or deed. It is preceded by a privative a, meaning 'without'.

Types

There are several types of apraxia including:

  • ideomotor (inability to carry out a motor command, for example, "act as if you are brushing your teeth" or "salute") - the form most frequently encountered by physicians,
    • limb apraxia when movements of the arms and legs are involved,
    • nonverbal-oral or buccofacial (inability to carry out facial movements on command, e.g., lick lips, whistle, cough, or wink),
  • ideational (inability to create a plan for or idea of a specific movement, for example, "pick up this pen and write down your name"),
  • limb-kinetic (inability to make fine, precise movements with a limb),
  • verbal (difficulty planning the movements necessary for speech), also known as Apraxia of Speech (see below)
  • constructional (inability to draw or construct simple configurations),
  • oculomotor (difficulty moving the eye)

Each type may be tested at decreasing levels of complexity; if the person tested fails to execute the commands, you can make the movement yourself and ask that the person mimic it, or you can even give them a real object (like a tooth brush) and ask them to use it.

Apraxia may be accompanied by a language disorder called aphasia.

Apraxia of speech

Developmental Apraxia of Speech (DAS) presents in children who have no evidence of difficulty with strength or range of motion of the articulators, but are unable to execute speech movements because of motor planning and coordination problems. This is not to be confused with phonological impairments in children with normal coordination of the articulators during speech.

Symptoms of Acquired Apraxia of Speech (AOS) and Developmental Apraxia of Speech (DAS) include inconsistent articulatory errors, groping oral movements to locate the correct articulatory position, and increasing errors with increasing word and phrase length. AOS often co-occurs with Oral Apraxia (during both speech and non-speech movements) and Limb Apraxia.

Causes

Ideomotor apraxia is almost always caused by lesions in the language-dominant (usually left) hemisphere of the brain, and as such these patients often have concomitant aphasia, especially of the Broca or conduction type. Left-side ideomotor apraxia may be caused by a lesion of the anterior corpus callosum.

Ideational apraxia is commonly associated with confusion states and dementia.

Treatment

Generally, treatment for individuals with apraxia includes physical therapy, occupational therapy or speech therapy, or Oral Motor Therapy and IVIG. If apraxia is a symptom of another disorder (usually a neurologic disorder), the underlying disorder should be treated.

Prognosis

The prognosis for individuals with apraxia varies. With therapy, some patients improve significantly, while others may show very little improvement. Some individuals with apraxia may benefit from the use of a communication aid.

Related Chapters

References

  • Epstein, O. (2003). Clinical Examination. London: Mosby. p. 294. ISBN 0-7234-3229-5. Unknown parameter |coauthors= ignored (help)
  • Kasper DL, Braunwald E, Fauci AS, Hauser SL, Longo DL, Jameson JL. Harrison's Principles of Internal Medicine. New York: McGraw-Hill, 2005. ISBN 0-07-139140-1.

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