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The pathophysiology of dystonia is unclear, but several clues implicate striatal dopamine dysfunction. In contrast, the causal relationship between striatal dopamine deficiency and parkinsonism is well defined. We now suggest that parkinsonism or dystonia may occur following striatal dopamine deficiency. Baboons treated with intracarotid 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) developed transient hemidystonia prior to hemiparkinsonism. The day after MPTP treatment, most animals had spontaneous ipsilateral turning. Within a few days, all developed contralateral hemidystonia, with the arm and leg extended and externally rotated. This transient dystonia preceded hemiparkinsonism with flexed posture, bradykinesia, and postural tremor that persisted for up to 1.5 years. Dystonia corresponded temporally with a decreased striatal dopamine content and a transient decrease in D2-like receptor number. The time course of dystonia and parkinsonism is analogous to lower limb dystonia as the first, frequently transient, symptom of Parkinson's disease in humans. The association of striatal dopamine deficiency with dystonia and parkinsonism implies that other factors influence clinical manifestations.
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PMID:MPTP induces dystonia and parkinsonism. Clues to the pathophysiology of dystonia. 937 34

Transient movement disorders are quite common in pediatrc practice, occurring mainly in infants. They are underdiagnosed but represent about 20% of cases of movement disorders (tics excluded) seen in a neuropaediatric department. Dystonia, tremor and myoclonus are the most common. Transient idiopathic dystonia of infancy is quite common, and the diagnosis can be suspected on clinical examination. Knowledge of these disorders avoids not only unnecessary tests and treatment, but also familial anxiety.
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PMID:Transient movement disorders in children. 945 21

Indirect evidence suggests that the thalamus contributes to abnormal movements occurring in patients with dystonia (dystonia patients). The present study tested the hypothesis that thalamic activity contributes to the dystonic movements that occur in such patients. During these movements, spectral analysis of electromyographic (EMG) signals in flexor and extensor muscles of the wrist and elbow exhibited peak EMG power in the lowest frequency band [0-0.78 Hz (mean: 0.39 Hz) dystonia frequency] for 60-85% of epochs studied during a pointing task. Normal controls showed low-frequency peaks for <16% of epochs during pointing. Among dystonia patients, simultaneous contraction of antagonistic muscles (cocontraction) at dystonia frequency during pointing was observed for muscles acting about the wrist (63% of epochs) and elbow (39%), but cocontraction was not observed among normal controls during pointing. Thalamic neuronal signals were recorded during thalamotomy for treatment of dystonia and were compared with those of control patients without motor abnormality who were undergoing thalamic procedures for treatment of chronic pain. Presumed nuclear boundaries of a human thalamic cerebellar relay nucleus (ventral intermediate, Vim) and a pallidal relay nucleus (ventral oral posterior, Vop) were estimated by aligning the anterior border of the principal sensory nucleus (ventral caudal, Vc) with the region where the majority of cells have cutaneous receptive fields (RFs). The ratio of power at dystonia frequency to average spectral power was >2 (P < 0.001) for cells in presumed Vop often for dystonia patients (81%) but never for control patients. The percentage of such cells in presumed Vim of dystonia patients (32%) was not significantly different from that of controls (31%). Many cells in presumed Vop exhibited dystonia frequency activity that was correlated with and phase-advanced on EMG activity during dystonia, suggesting that this activity was related to dystonia. Thalamic somatic sensory activity also differed between dystonia patients and controls. The percentage of cells responding to passive joint movement or to manipulation of subcutaneous structures (deep sensory cells) in presumed Vim was significantly greater in patients with dystonia than in control patients undergoing surgery for treatment of pain or tremor. Dystonia patients had a significantly higher proportion of deep sensory cells responding to movement of more than one joint (26%, 13/52) than did "control" patients (8%, 4/49). Deep sensory cells in patients with dystonia were located in thalamic maps that demonstrated increased representations of parts of the body affected by dystonia. Thus dystonia patients showed increased receptive fields and an increased thalamic representation of dystonic body parts. The motor activity of an individual sensory cell was related to the sensory activity of that cell by identification of the muscle apparently involved in the cell's receptive field. Specifically, we defined the effector muscle as the muscle that, by contraction, produced the joint movement associated with a thalamic neuronal sensory discharge, when the examiner passively moved the joint. Spike X EMG correlation functions during dystonia indicated that thalamic cellular activity less often was related to EMG in effector muscles (52%) than in other muscles (86%). Thus there is a mismatch between the effector muscle for a thalamic cell and the muscles with EMG correlated with activity of that cell during dystonia. This mismatch may result from the reorganization of sensory maps and may contribute to the simultaneous activation of multiple muscles observed in dystonia. Microstimulation in presumed Vim in dystonia patients produced simultaneous contraction of multiple forearm muscles, similar to the simultaneous muscle contractions observed in dystonia. (ABSTRACT TRUNCATED)
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PMID:Thalamic single neuron activity in patients with dystonia: dystonia-related activity and somatic sensory reorganization. 1056 12

Movement disorders have rarely been the result of psychiatric disturbances. Psychogenic dystonia is caracterized by inconsistent findings, a known precipitant factor, onset in legs, pain, multiple somatizations and incongruent association with other movement disorders. We report two patients with clinically established psychogenic dystonia. Patient 1: a female that presented sudden loss of strength in her four limbs; she developed feet dystonia, alternant laterocollis, generalized and irregular tremor, and limb hypertonia that disappeared with distraction; psychological examination showed severe depression, hypochondria and obsessive disorder. Patient 2: a female that presented with irregular limb tremors that disappeared with distraction and left foot dystonia nine years ago; she gradually lost her walk capacity; she complained pain in lumbar area and in her left limb, psychological examination showed infantile behaviour, low frustration tolerance, impulsivity and self-aggression. Their complementary exams showed no alterations and they had no response to specific pharmacological treatment. Dystonia is rarely psychogenic, but this etiology is suggested when clinical characteristics are inconsistent and incongrous with a classical disorder. It should be part of differential diagnosis when appears in association with other somatization or psychiatric disorders.
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PMID:[Psychogenic dystonia: report of 2 cases]. 1092 Apr 17

We studied the clinical features, laboratory investigation, management and natural history of a cohort of patients with Juvenile Parkinsonism (JP), seen at a tertiary referral centre. JP was defined as Parkinsonism with onset at age 20 years or less. Six patients (five male, one female) entered the study. The mean age at onset of Parkinsonism was 12.5 years (range 7-19) and the mean follow-up time was 49.3 months (range 40-57). Bradykinesia, rigidity, and postural instability were observed in all patients and five subjects had tremor. Dystonia was present in four subjects. Other clinical features were dementia (five subjects), supranuclear ophthalmoparesis (five subjects), seizures (three subjects), multifocal myoclonus (one subject), decreased deep reflexes (one subject), pyramidal signs (one subject). Family history of Parkinson's disease (PD) was positive in one subject. Work-up for Wilson's disease was negative in all patients. Neuroimaging studies showed cortical atrophy in two subjects and mild brainstem atrophy in two others. Sea-blue histiocytes were found in one subject. L-dopa improved the Parkinsonism in all subjects but four rapidly developed fluctuations and dyskinesias, requiring, in one, stereotaxic surgery. After a mean disease duration of 6.5 years, five subjects require assistance for performance of all daily activities. JP is a heterogeneous clinical entity. In the majority of patients, no underlying cause is identified. The unusual clinical features suggest most subjects have a CNS degenerative disease distinct from PD. There is, however, evidence suggesting that PD may rarely cause JP. Gangliosidosis is another cause of L-dopa-responsive JP. Regardless of the cause, in the present study JP displays an aggressive and rapidly progressive course in most patients.
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PMID:Juvenile parkinsonism: a heterogeneous entity. 1105 29

Focal task-specific dystonias are unusual disorders of motor control, often affecting individuals who perform complex repetitive movements. Musicians are especially prone to develop these disorders because of their training regimens and intense practice schedules. Task-specific dystonia occurring in keyboard or string instrumentalists usually affects the hand. In contrast, there have been few descriptions of musicians with task-specific dystonia affecting the muscles of the face and jaw. We report detailed clinical observations of 26 professional brass and woodwind players afflicted with focal task-specific dystonia of the embouchure (the pattern of lip, jaw, and tongue muscles used to control the flow of air into a mouthpiece). This is the largest and most comprehensively studied series of such patients. Patients developed embouchure dystonia in the fourth decade, and initial symptoms were usually limited to one range of notes or style of playing. Once present, dystonia progressed without remission and responded poorly to oral medications and botulinum toxin injection. Patients with embouchure dystonia could be separated by the pattern of their abnormal movements into several groups, including embouchure tremor, involuntary lip movements, and jaw closure. Dystonia not infrequently spread to other oral tasks, often producing significant disability. Effective treatments are needed for this challenging and unusual disorder.
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PMID:The natural history of embouchure dystonia. 1174 20

Generalized dystonia is known as a type of movement disorder in which pharmacotherapeutic options are very limited. Deep Brain Stimulation (DBS) is well established for Parkinson's disease (PD) and tremor dominant movement disorders. We report on two cases of generalized dystonia which were successfully treated by chronic high frequency stimulation in the Globus pallidus internus (GPI). Two 26 and 27 years old males suffered from severe torsion dystonia and multisegmental dystonia of the lower limbs. Case 1 is a familiar type of dystonia (DYT1 positive). The onset of symptoms in both cases was at age 7. The complaints were initially treated with orally administered benzodiazepines, anticholinergic drugs, later by baclofen and L-DOPA. However there was no response. Case 2 was a patient with a history of left side dominated dystonia since the age of 8. It was first diagnosed as a psychogenic movement disorder. Prior to surgery he was treated with L-DOPA, anticholinergics, Baclofen without any effect. There was only a limited effect on high doses of diazepam. The patient is DYT1 negative. The target point was on both sides the GPI. Intraoperative computerized tomography (CT) and ventriculography (VG) were used for target setting. Furthermore microrecordings were helpful to ensure the exact electrode position. Surgery was performed under analgosedation. Two weeks after surgery we first observed a relief of symptoms in both cases. A significant reduction in the Burke-Fahn-Marsden-Dystonia Movement Rating Scale was observed at the 6 month follow-up (case 1: 95%, case 2: 80%). In case 1 a slight dystonic movement of the left ankle was the only remaining symptom under stimulation. The medication was continuously reduced. At the 24 month follow-up the effect of stimulation remained unchanged. However high stimulation parameters are required to maintain an optimal effect (mean 3.5 V, 400 microseconds, 145 Hz).
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PMID:Deep brain stimulation of the globus pallidus internus (GPI) for torsion dystonia--a report of two cases. 1197 95

Sensory disturbances (hypoaesthesia in fingertips and tenderness) and movement disorders (tremor, dystonia, muscle spasms, abnormal postures and inability in initiating of movement) were investigated in 80 patients with post-traumatic reflex sympathetic dystrophy (RSD) of the upper extremity. Sensory disturbances were found in 67 patients (84%): most frequently hypoaesthesia in fingertips--in 49, and tenderness of the dorsal aspect of the hand in 24; in six patients both these signs were present simultaneously. Movement disorders were found less frequently: tremor was observed in 12 patients, spasms of the flexor muscles of the forearm and hand in two, postural dystonia in one, and inability initiating of movement in the other one. Sympathetic interruptions reduced movement disturbances in two patients. Dystonia was resistant to various treatment approaches including botulinum toxin injections. Certain hypothesis explaining pathogenic background of motor and sensory disorders in RSD are discussed. The results of this study show that sensory disturbances are frequently observed in RSD, however, they usually disappear after successful treatment of the condition; movement disorders are less frequent, but much more difficult to control. Neurologists are not frequently faced with the problem of neurological disorders after trauma of the limb. Inclusion of RSD in differential diagnosis may improve recognition of the disorder and result in its faster and proper management.
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PMID:[Neurological disorders in post-traumatic algodystrophy of the upper extremity]. 1205 14

During the last decade, it has become clear that deep brain stimulation (DBS) therapy provides a dramatic improvement in the symptoms of movement disorders. We have experienced DBS in 110 patients with various types of involuntary movements, and confirmed the benefits of stimulation of the thalamic nucleus ventralis intermedius (Vim), internal globus pallidus (GPi) and subthalamic nucleus (STN) in these patients. DBS therapy affords the best effect on tremor when the Vim is selected as the stimulation site. DBS therapy is also useful for controlling rigidity when the GPi or STN is stimulated. Improvements of bradykinesia and gait disturbance are often induced by DBS therapy involving the GPi or STN. Dopa-induced dyskinesia can be attenuated effectively by the direct and/or indirect effects of DBS therapy. DBS of the Vim also provides excellent control of post-stroke involuntary movements, including hemiballism and hemichoreoathetosis. Dystonia in young patients is controlled effectively by DBS of GPi. Ablative procedures for control of involuntary movement disorders, such as thalamotomy and pallidotomy, always carry a risk associated with creating additional lesions in an already damaged brain. In contrast, there is not such a risk in DBS therapy. This modality of therapy is an important option in treating involuntary movements.
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PMID:[Deep brain stimulation therapy for involuntary movements]. 1223 1

Upon clinical examination of involuntary movement, its correct diagnosis and classification is most important for choosing its most appropriate treatment. Correct diagnosis of involuntary movements should be based on their clinical characteristics rather than laboratory data. First attention should be paid to the way of its occurrence; whether it repeats itself at a relatively regular period or it occurs irregularly. Among irregular movements, chorea and ballism (us) belong to the same category clinically as well as neuropharmacologically; both respond to benzodiazepine and D2 receptor blockers. Dyskinesia and akathisia are often drug-induced. Athetosis often overlaps chorea and dystonia. Dystonia is characterized by excessive muscle contraction in terms of strength, spread and duration. Recently involvement of the sensori-motor cortex is emphasized in generation of focal dystonia. Myoclonus is usually caused by abrupt muscle contraction but also by sudden cessation of muscle contraction (negative myoclonus). Myoclonus and tics are usually irregular, but they can be rhythmic or quasiperiodic. Tremor is often associated with dysfunction of basal ganglia, cerebellum or thalamus, but recently an increasing attention has been paid to involvement of the sensori-motor cortex. Some involuntary movement could show features of two or more kinds of involuntary movements or it may shift among different kinds of involuntary movements or among different subgroups of that particular involuntary movement. Therefore, it is not advisable to feel obliged to classify every single involuntary movement into any pre-existing category. Instead a more flexible approach is warranted.
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PMID:[How to clinically approach involuntary movements]. 1515 56


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