Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the last decade, a new electrophysiological tool has become available since the development of painless magnetic stimulators able to activate the primary motor cortex and the motor roots in conscious man. Therefore, it became possible to measure the conduction time within fast-conducting central motor pathways by substracting from the total latency of muscle responses elicited by cortical stimuli the conduction time in peripheral nerves. This technique proved sensitive enough to illustrate early abnormalities of central motor conduction in various neurological diseases such as multiple sclerosis, amyotrophic lateral sclerosis, cervical spondylotic myelopathy, degenerative ataxias or hereditary spastic paraplegias. When recorded early after stroke, motor evoked potentials are also a valuable tool to predict functional outcome. They can also illustrate subtle pathophysiological disturbances in diseases where there is no direct involvement of central motor pathways such as Parkinson's disease, dystonia or epilepsy. Magnetic cortical stimulation also offers unique opportunities to explore intracerebral inhibitory and excitatory circuits and mechanisms of brain plasticity. The recent development of rapid rate stimulators also enables functional studies of non-motor cerebral regions such as visual or frontal cortices. Moreover, rapid rate stimulation seems useful in the treatment of drug-resistant depression but the safety of this procedure, particularly with regard to the production of seizures or kindling, remains to be fully documented.
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PMID:[Applications of cortical magnetic stimulation]. 956 96

Posthemiplegic focal limb or hemidystonias are rare movement disorders usually due to vascular lesions of the contralateral basal ganglia. The pathogenesis of posthemiplegic dystonia is unknown and its management is usually difficult. In this paper, we report two patients who suffered from a single limb dystonia and hemidystonia, respectively. In the latter patient, hemidystonia developed due to an ischaemic cerebrovascular accident 2 or 3 months after the recovery of hemiplegia. Computed tomography and magnetic resonance imaging scans showed evidence of contralateral putamen and thalamus infarcts.
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PMID:Posthemiplegic focal limb dystonia: a report of two cases. 963 5

Reports of 9 cases with hand dystonia due to stroke are described. The site of the lesion was found to be parietothalamic in 1 patient, posterolateral thalamic in 5 patients, dorsal thalamic in 2 patients and medial thalamic in 1 patient as defined by computerized tomography or magnetic resonance imaging. In addition to the hand dystonia, hemiballism was noted in 1 case, hemichorea in 2 cases, action tremor in 3, anxiety in 3 and pain in 2 cases. The time lapse from the stroke to the manifestation of dystonia was 1 month to 2 years.
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PMID:Lesion localization in developing poststroke hand dystonia. 969 39

A case of unilateral infarct in the territory of the left internal cerebral vein, severely disturbing cognitive processes, and more especially recall in verbal memory, is reported. This 22-year-old patient survived a left thalamic and striato-capsular infarct related to a straight sinus and left internal cerebral vein thrombosis. Motor and functional recovery was fair, despite late dystonia. At the secondary phase post-stroke, cognitive disorders were severe, including increased short-term forgetting and episodic (anterograde and retrograde) and semantic amnesia. One year later, a residual deficit of verbal recall was observed, which participated in the anterograde and retrograde amnesia. Recognition was well preserved. This case showed that: (1) internal cerebral vein thrombosis can have severe consequences on cognition and memory, and that late prognosis is not as fair as has been previously reported in selected patients, and (2) left diencephalic structures are specifically associated with recollection of verbal information from long-term memory.
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PMID:[Residual deficit of verbal recall after a left internal cerebral vein infarct]. 977 71

Spasticity is a velocity-dependent increase in stretch reflex activity. It is one of the forms of muscle overactivity that may affect patients with damage to the central nervous system. Spasticity monitoring is relevant to function because the degree of spasticity may reflect the intensity of other disabling types of muscle overactivity, such as unwanted antagonistic co-contractions, permanent muscle activity in the absence of any stretch or volitional command (spastic dystonia), or inappropriate responses to cutaneous or vegetative inputs. In addition, spasticity, like other muscle overactivity, can cause muscle shortening, which is another significant source of disability. Finally, spasticity is the only form of muscle overactivity easily quantifiable at the bedside. Under the name pharmacological treatments of spasticity, we understand the use of agents designed to reduce all types of muscle overactivity, by reducing excitability of motor pathways, at the level of the central nervous system, the neuromuscular junctions, or the muscle. Pharmacologic treatment should be an adjunct to muscle lengthening and training of antagonists. Localized muscle overactivity of specific muscle groups is often seen in a number of common pathologies, including stroke and traumatic brain injury. In these cases, we favor the use of local treatments in those muscles where overactivity is most disabling, by injection into muscle (neuromuscular block) or close to the nerve supplying the muscle (perineural block). Two types of local agents have been used in addition to the newly emerged botulinum toxin: local anesthetics (lidocaine and congeners), with a fully reversible action of short duration, and alcohols (ethanol and phenol), with a longer duration of action. Local anesthetics block both afferent and efferent messages. The onset of action is within minutes and duration of action varies between one and several hours according to the agent used. Their use requires resuscitation equipment available close by. When a long-lasting blocking agent is being considered, we favor the use of transient blocks with local anesthetics for therapeutic tests or diagnostic procedures to answer the following questions: Can function be improved by the block? What are the roles played by overactivity and contracture in the impairment of function? Which muscle is contributing to pathologic posturing? What is the true level of performance of antagonistic muscles? A short-acting anesthetic can also serve as preparation to casting or as an analgesic for intramuscular injections of other antispastic treatment. Alcohol and phenol provide long-term chemical neurolysis through destruction of peripheral nerve. Experience with ethanol is more developed in children using intramuscular injection, while experience with phenol is greater in adults with perineural injection. In both cases, there are anecdotal reports of efficacy but studies have rarely been controlled. Side effects are numerous and include pain during injection, chronic dysesthesia and chronic pain, and episodes of local or regional vascular complications by vessel toxicity. In the absence of controlled studies, a theoretical comparison of neurolytic agents with botulinum toxin is proposed. Neurolytic agents may be preferred to botulinum toxin on a number of grounds, including earlier onset, potentially longer duration of effect, lower cost, and easier storage. Conversely, pain during injection, tissue destruction with chronic sensory side effects, and lack of selectivity on motor function with neurolytic agents may favor the use of botulinum toxin. Neurolytic agents and botulinum toxin may be used in combination, the former for larger proximal muscles and the latter for selective injection into distal muscles. In the future, neurolytic agents may prove more appropriate in very severely affected patients for whom the purposes of the block are comfort and hygiene. (ABSTRACT TRUNCATED)
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PMID:Traditional pharmacological treatments for spasticity. Part I: Local treatments. 982 83

We prospectively studied motor symptoms in 32 patients with CT- or MRI-proven acute pure parietal stroke. A transient, mild, 'pseudoparesis' of the hand (90%), was noted, improved by visual attention and prompting, associated with non-awareness of muscle power (53%), transient soft pyramidal signs (50%), unilateral akinesia (100%) and motor hemineglect (37%) in non-dominant lesions. Lower motoneurone-type atrophy was not observed in this acute phase. We called 'poikilotonia' the striking unpredictable variations in muscle tone, ranging from extreme hypertonia to hypotonia, found in all patients. When maintaining postures, patients showed large oscillations (100%), laterodeviation or levitation of the arm (60%), especially in the case of large or posterior lesions, or, occasionally (3%), motor persistence or even hemicatalepsy (3%). Limb kinetic and manipulatory apraxia, with inadequate organization and anticipation of motor sequences and synergies, motor arrests, perplexity, unrecognizable gestures and loss of bimanual coordination, was a constant finding (100%). Other apraxias (62%) and difficulty in copying intransitive gestures of the hand (84%) were associated with posterior lesions involving the supramarginal gyrus. When reaching towards objects, all patients showed abnormal anticipatory hand shaping, but visuomotor ataxia (3%) was only seen with bilateral posterior stroke. Sensory (70%) or pseudocerebellar (4%) ataxia, was seen in both anterior and posterior lesions. Avoidance behaviors (34%) were not uncommon, but had no localizing value. Of the dyskinesias, hand dystonia (84%) was frequent, but athetosis (16%), asterixis (15%), postural tremor (15%), myoclonus (9%) and stereotypia (9%), were uncommon. The abnormal eye movements were unilateral hypo-akinesia of exploratory saccades (43%), abnormal ipsilateral pursuit and contralateral optokinetic nystagmus in the case of posterior lesions, and oculomotor apraxia with bilateral posterior lesions. In conclusion, parietal motor syndrome can be recognized during bedside examination, and probably reflects the loss of multiple sensory feedback to motor programs, especially those directed to the extrapersonal space.
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PMID:Parietal motor syndrome: a clinical description in 32 patients in the acute phase of pure parietal strokes studied prospectively. 987 53

The objective of this study was to determine whether the continuous intrathecal delivery of baclofen will control spastic hypertonia associated with long-standing hemiplegia from acquired brain injury. Six hemiparetic patients (average age, 50 (range, 42-66) yr) with more than 6 mo of disabling lower limb spastic hypertonia on one side caused by either a unilateral traumatic brain injury or a stroke were recruited in a consecutive manner. The setting was a tertiary care outpatient and inpatient rehabilitation center directly attached to a university hospital. Patients were screened via a randomized, double-blind, placebo-controlled, crossover design to receive either an intrathecally administered bolus injection of normal saline or 50 microg of baclofen. Data for Ashworth rigidity scores, spasm scores, and deep tendon reflex scores were collected on the affected upper limb and lower limb side. Those who dropped an average of two points on their affected lower limb side Ashworth scores were then offered computer-controlled pump implantation for continuous intrathecal administration of baclofen. Differences over time were assessed via descriptive statistics and Wilcoxon's signed-rank test. After 3 mo of treatment, the average lower limb Ashworth score on the affected side decreased from 3.7 +/- 1.0 to 1.9 +/- 0.6 standard deviation (SD) (P < 0.0001), the reflex score from 1.8 +/- 1.3 to 0.5 +/- 0.8 SD (P = 0.0208), and the spasm score from 1.3 +/- 1.2 to 0.8 +/- 1.3 SD (P > 0.05). The average upper limb Ashworth score on the affected side decreased from 3.4 +/- 0.9 to 2.1 +/- 0.9 SD (P = 0.0002), the reflex score from 2.3 +/- 0.5 to 1.7 +/- 0.5 SD (P > 0.050, and the spasm score from 0.8 +/- 1.3 to 0 +/- 0 SD (P > 0.05). The average intrathecally administered dose of baclofen that was required to attain these effects was 205.3 microg, which was continuously infused for 24 h. Continuous intrathecal infusion of baclofen is capable of maintaining a reduction in the dystonia on the hemiparetic side without significantly affecting motor strength on the normal side.
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PMID:Continuously infused intrathecal baclofen for spastic/dystonic hemiplegia: a preliminary report. 1034 Apr 23

A new family of rehabilitation techniques, termed Constraint-Induced Movement Therapy or CI Therapy, has been developed that controlled experiments have shown is effective in producing large improvements in limb use in the real-world environment after cerebrovascular accident (CVA). The signature therapy involves constraining movements of the less-affected arm with a sling for 90% of waking hours for 2 weeks, while intensively training use of the more-affected arm. The common therapeutic factor in all CI Therapy techniques would appear to be inducing concentrated, repetitive practice of use of the more-affected limb. A number of neuroimaging and transcranial magnetic stimulation studies have shown that the massed practice of CI Therapy produces a massive use-dependent cortical reorganization that increases the area of cortex involved in the innervation of movement of the more-affected limb. The CI Therapy approach has been used successfully to date for the upper limb of patients with chronic and subacute CVA and patients with chronic traumatic brain injury and for the lower limb of patients with CVA, incomplete spinal cord injury, and fractured hip. The approach has recently been extended to focal hand dystonia of musicians and possibly phantom limb pain.
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PMID:Constraint-Induced Movement Therapy: a new family of techniques with broad application to physical rehabilitation--a clinical review. 1065 97

Magnetotherapy and laser therapy were used in complex and complex-combined regimens in 75 patients after cerebral ischemic or hemorrhagic stroke starting on the poststroke week 4-5. Clinico-neurologic, neurophysiological and cerebrohemodynamic findings evidence for the highest effectiveness of neurorehabilitation including complex magneto-laser therapy in hemispheric ischemic and hemorrhagic stroke of subcortical location in the absence of marked clinico-tomographic signs of dyscirculatory encephalopathy. Complex-combined magneto-laser therapy is more effective for correction of spastic dystonia. Mutual potentiation of magnetotherapy and laser therapy results in maximal development of collateral circulation and cerebral hemodynamic reserve (84% of the patients). Complex effects manifest in arteriodilating and venotonic effects. Complex magneto-laser therapy is accompanied by reduction of hyperthrombocythemia and hyperfibrinogenemia.
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PMID:[The optimization of an early rehabilitation program for cerebral stroke patients: the use of different methods of magneto- and laser therapy]. 1092 65

To define the clinical and anatomical factors associated with dyskinesias following thalamic infarction, we performed neurological examination and three-dimensional brain magnetic resonance imaging for 23 patients with thalamic infarction. We measured the total volumes and the largest diameters of the lesions on axial and coronal images. Using the atlas of human thalamus, we investigated the damaged thalamic nuclei. We compared the means of the volumes and the largest diameters of the lesions, and the frequencies of damaged thalamic nuclei between patients with and without thalamic dyskinesias. Seven (two pseudochoreoathetosis and five dystonia) of the 23 patients with thalamic infarction developed dyskinesias. No specific neurological deficits at the onset of stroke predicted the development of dyskinesias. The mean volume of the lesions of patients with dyskinesias (739 mm(3)) was significantly larger than that of those without dyskiensias (92.9 mm(3)). The means of the largest axial (11.6 mm) and coronal (10.8 mm) diameters were significantly larger in patients with dyskinesias, compared to those (axial, 7.1 mm; coronal, 6.4 mm) of patients without dyskinesias. Patients with dyskinesias had damage in the centromedian (CM) thalamic nucleus more frequently compared to those without dyskinesias. Patients with a large thalamic infarction involving the CM nucleus are more likely to develop dyskinesias.
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PMID:Clinical and anatomical factors associated with thalamic dyskinesias. 1113 19


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