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Practical Neurology Jan 2017Adams and Foley described asterixis in the 1940s in patients with hepatic encephalopathy, but it has since been associated with a wide range of potential causes, both in... (Review)
Review
Adams and Foley described asterixis in the 1940s in patients with hepatic encephalopathy, but it has since been associated with a wide range of potential causes, both in neurology and general medicine. Here, we review the history, characteristics and clinical significance of this important clinical sign.
Topics: Dyskinesias; Electromyography; Humans; Liver Diseases; Renal Insufficiency
PubMed: 27807107
DOI: 10.1136/practneurol-2016-001393 -
Journal of Postgraduate Medicine 2016Asterixis is a type of negative myoclonus characterized by irregular lapses of posture of various body parts. It is an uncommon but important sign in clinical neurology.... (Review)
Review
Asterixis is a type of negative myoclonus characterized by irregular lapses of posture of various body parts. It is an uncommon but important sign in clinical neurology. Initially described as a "liver flap," its utility encompasses a galaxy of neurological and nonneurological situations. Asterixis has a rich history. Despite being described over 70 years ago, its exact pathogenesis remains unknown. Its significance as a tool for the evaluation and prognosis of encephalopathies has been suggested. This review presents its history, clinical implications and its significance.
Topics: Brain; Dyskinesias; Humans; Movement Disorders; Myoclonus
PubMed: 27089111
DOI: 10.4103/0022-3859.180572 -
Journal of Postgraduate Medicine 2003
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Neurology India 2021Involuntary movements develop after 1-4% of strokes and they have been reported in patients with ischemic and hemorrhagic strokes affecting the basal ganglia, thalamus,... (Review)
Review
Involuntary movements develop after 1-4% of strokes and they have been reported in patients with ischemic and hemorrhagic strokes affecting the basal ganglia, thalamus, and/or their connections. Hemichorea-hemiballism is the most common movement disorder following a stroke in adults while dystonia is most common in children. Tremor, myoclonus, asterixis, stereotypies, and vascular parkinsonism are other movement disorders seen following stroke. Some of them occur immediately after acute stroke, some can develop later, and others may have delayed onset progressive course. Proposed pathophysiological mechanisms include neuronal plasticity, functional diaschisis, and age-related differences in brain metabolism. There are no guidelines regarding the management of post-stroke movement disorders, mainly because of their heterogeneity.
Topics: Adult; Child; Chorea; Dystonia; Humans; Movement Disorders; Stroke; Tremor
PubMed: 33904435
DOI: 10.4103/0028-3886.314574 -
Medicina (Kaunas, Lithuania) Feb 2024Asterixis is a subtype of negative myoclonus characterized by brief, arrhythmic lapses of sustained posture due to involuntary pauses in muscle contraction. We performed... (Review)
Review
Asterixis is a subtype of negative myoclonus characterized by brief, arrhythmic lapses of sustained posture due to involuntary pauses in muscle contraction. We performed a narrative review to characterize further asterixis regarding nomenclature, historical aspects, etiology, pathophysiology, classification, diagnosis, and treatment. Asterixis has been classically used as a synonym for negative myoclonus across the literature and in previous articles. However, it is important to distinguish asterixis from other subtypes of negative myoclonus, for example, epileptic negative myoclonus, because management could change. Asterixis is not specific to any pathophysiological process, but it is more commonly reported in hepatic encephalopathy, renal and respiratory failure, cerebrovascular diseases, as well as associated with drugs that could potentially lead to hyperammonemia, such as valproic acid, carbamazepine, and phenytoin. Asterixis is usually asymptomatic and not spontaneously reported by patients. This highlights the importance of actively searching for this sign in the physical exam of encephalopathic patients because it could indicate an underlying toxic or metabolic cause. Asterixis is usually reversible upon treatment of the underlying cause.
Topics: Humans; Myoclonus; Tremor; Dyskinesias; Brain Diseases; Carbamazepine
PubMed: 38541088
DOI: 10.3390/medicina60030362 -
Revue Neurologique 2016Stroke may be associated with different types of movement disorders, such as hyperkinetic syndromes (hemichorea-hemiballism, unilateral asterixis, limb-shaking,... (Review)
Review
Stroke may be associated with different types of movement disorders, such as hyperkinetic syndromes (hemichorea-hemiballism, unilateral asterixis, limb-shaking, dystonia, tremor, myoclonus) and hypokinetic syndromes (especially vascular parkinsonism). However, movement disorders are rare and transient in acute stroke and, as a permanent consequence, are more often delayed. While ischemic and hemorrhagic strokes can happen at any level of the frontal-subcortical motor system, they can be explained most of the time by a dysfunction in the basal ganglia motor circuit. However, only brain MRI allows the involved structure(s) to be precisely located, and each syndrome is specific to the type of lesion. Treatment is above all symptomatic. Only limb-shaking syndrome requires urgent surgical treatment because of the low-perfusion hemodynamic state. The functional prognosis depends on the type of movement disorder.
Topics: Chorea; Dyskinesias; Dystonia; Humans; Movement Disorders; Myoclonus; Parkinson Disease, Secondary; Prognosis; Stroke
PubMed: 27476417
DOI: 10.1016/j.neurol.2016.07.006 -
Physical Medicine and Rehabilitation... May 2023Scapular dyskinesis, the impairment of optimal scapular position and motion, is common in association with shoulder injury. A comprehensive evaluation process can show... (Review)
Review
Scapular dyskinesis, the impairment of optimal scapular position and motion, is common in association with shoulder injury. A comprehensive evaluation process can show the causative factors and lead to effective treatment protocols. The complexity of scapular motion and the integrated relationship between the scapula, humerus, trunk, and legs suggest a need to develop rehabilitation programs that involve all segments working as a unit rather than isolated components. This is best accomplished with an integrated rehabilitation approach that includes rectifying deficits in mobility, strength, and motor control but not overtly focusing on any one area.
Topics: Humans; Scapula; Shoulder Injuries; Dyskinesias; Biomechanical Phenomena; Range of Motion, Articular
PubMed: 37003662
DOI: 10.1016/j.pmr.2022.12.008 -
Journal of Neurophysiology Jan 2016Deep brain stimulation (DBS) is widely used for the treatment of movement disorders including Parkinson's disease, essential tremor, and dystonia and, to a lesser... (Review)
Review
Deep brain stimulation (DBS) is widely used for the treatment of movement disorders including Parkinson's disease, essential tremor, and dystonia and, to a lesser extent, certain treatment-resistant neuropsychiatric disorders including obsessive-compulsive disorder. Rather than a single unifying mechanism, DBS likely acts via several, nonexclusive mechanisms including local and network-wide electrical and neurochemical effects of stimulation, modulation of oscillatory activity, synaptic plasticity, and, potentially, neuroprotection and neurogenesis. These different mechanisms vary in importance depending on the condition being treated and the target being stimulated. Here we review each of these in turn and illustrate how an understanding of these mechanisms is inspiring next-generation approaches to DBS.
Topics: Animals; Brain Waves; Deep Brain Stimulation; Dyskinesias; Humans; Parkinson Disease
PubMed: 26510756
DOI: 10.1152/jn.00281.2015 -
Tremor and Other Hyperkinetic Movements... 2023Peripherally-induced movement disorders (PIMD) should be considered when involuntary or abnormal movements emerge shortly after an injury to a body part. A close... (Review)
Review
BACKGROUND
Peripherally-induced movement disorders (PIMD) should be considered when involuntary or abnormal movements emerge shortly after an injury to a body part. A close topographic and temporal association between peripheral injury and onset of the movement disorders is crucial to diagnosing PIMD. PIMD is under-recognized and often misdiagnosed as functional movement disorder, although both may co-exist. Given the considerable diagnostic, therapeutic, and psychosocial-legal challenges associated with PIMD, it is crucial to update the clinical and scientific information about this important movement disorder.
METHODS
A comprehensive PubMed search through a broad range of keywords and combinations was performed in February 2023 to identify relevant articles for this narrative review.
RESULTS
The spectrum of the phenomenology of PIMD is broad and it encompasses both hyperkinetic and hypokinetic movements. Hemifacial spasm is probably the most common PIMD. Others include dystonia, tremor, parkinsonism, myoclonus, painful leg moving toe syndrome, tics, polyminimyoclonus, and amputation stump dyskinesia. We also highlight conditions such as neuropathic tremor, pseudoathetosis, and -associated myogenic tremor as examples of PIMD.
DISCUSSION
There is considerable heterogeneity among PIMD in terms of severity and nature of injury, natural course, association with pain, and response to treatment. As some patients may have co-existing functional movement disorder, neurologists should be able to differentiate the two disorders. While the exact pathophysiology remains elusive, aberrant central sensitization after peripheral stimuli and maladaptive plasticity in the sensorimotor cortex, on a background of genetic (two-hit hypothesis) or other predisposition, seem to play a role in the pathogenesis of PIMD.
Topics: Humans; Tremor; Movement Disorders; Dystonic Disorders; Tic Disorders; Dyskinesias; Myoclonus
PubMed: 37008994
DOI: 10.5334/tohm.758 -
Rhode Island Medical Journal (2013) Feb 2023
Topics: Humans; Ammonia; Carbamazepine; Dyskinesias; Benzodiazepines
PubMed: 36706202
DOI: No ID Found