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:C0030552 (paresis)
5,831 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lesions of the central nervous system often result in an upper motor neuron syndrome including spasticity, paresis with pyramidal signs, and painful spasms. Pharmacological treatment with oral antispasticity drugs is frequently associated with systemic side effects which limit their clinical use. Botulinum Toxin A (BtxA) injected in spastic muscles has been shown to be effective in reducing muscle tone, but only few studies have reported pain relief as additional benefit. Therefore, we investigated the effects of local BtxA injections in 60 patients with acute (< 12 months) and chronic spasticity and pain in a prospective multicenter study. Target muscles for BtxA were selected on the basis of clinical examination. Intramuscular BtxA injections were placed in muscles exhibiting increased muscle tone in combination with pain during passive joint movement. Patients received a mean total dose of 165.7 +/- 108.2 [30-400] units BOTOX((R)) per treatment session in a mean 3.4 +/- 1.5 muscles. Baseline and follow-up (mean 5.9 weeks) measures included a patient self-assessment of pain and function on a five-level scale, a physician's evaluation of function, and a global rating of response to BtxA. Fifty-four of sixty patients experienced improvement in pain without subjective functional improvement. The effects were comparable in acute (n = 17) and chronic (n = 43) spasticity. Physician's assessment of gain in function increased significantly (p < 0.05) only in patients with chronic spasticity. No serious adverse event was observed. Mild reversible side effects (local pain, hematoma, edema, mild weakness) were observed in four patients. In conclusion, we found that intramuscular BtxA injections are a potent, well-tolerated treatment modality to significantly reduce spasticity-related local pain. This problem may be a main indication, especially in patients with poor response or intolerable side effects to oral medication.
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PMID:Management of spasticity associated pain with botulinum toxin A. 1094 68

Spasticity is usually treated by rehabilitation, orthosis, chemical denervations, orthopaedic surgery and neurosurgery. Selective fascicular neurotomy is a neurosurgical procedure consisting in partial section of selected motor nerves innervating spastic muscles. Neurotomy is indicated in cases of localised disabling spasticity without musculotendinous shortening, resistant to chemical denervation and for which a motor nerve block with anaesthetic has given a good functional result. Neurotomy includes division of the afferent Ia and Ib fibers, unable to recover, leading to permanent disappearance of the spasticity. Neurotomy also includes section of the motor efferent fibers with transient paresis as a result. In adults, neurotomy provides functional improvement in 81 to 97% of cases. In case of posterior tibial neurotomy, improved walking stability and a decrease in foot equinus and knee recurvatum is observed. In children, the risk of deformity recurrence seems higher because of motor axonal reinnervation: indications must therefore be carefully considered and rehabilitation provided after surgery.
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PMID:[Selective fasicular neurotomy for spastic equinovarus foot deformity in cerebral palsy children]. 1128 66

A consecutive series of 53 children with myelomeningocele (mean age 7.6, range 3.2 to 11.4 years) was assessed in order to see if the children with motor paresis of the lower limbs achieved the expected level of ambulation, and if not, to identify possible causative factors. Methods used were clinical examination of orthopaedic and neurological status, information from medical reports, and documentation of orthoses use. Functional skills were documented and energy expenditure was examined. Thirty-one of 53 children had reached the expected ambulation considered possible according to their motor paresis, whereas 22 of the 53 performed worse than expected. Balance disturbances, occurrence of spasticity in knee and hip joints, and number of shunt revisions made differed significantly between the groups that achieved and did not achieve expected ambulation. Functional skills of mobility differed significantly between two muscle-function levels in children who had walking ability. Energy expenditure was higher in the non-achieving group than in the group who achieved expected ambulation in each of the muscle-function levels. Results show that children with similar muscle paresis exhibit different ambulatory function. This indicates the importance of a close analysis of other factors which may cause ambulation to deteriorate in order to predict future ambulation in children with myelomeningocele.
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PMID:Factors influencing ambulation in myelomeningocele: a cross-sectional study. 1130 3

Recent studies have confirmed that regular treadmill training can improve walking capabilities in incomplete spinal cord-injured subjects. At the beginning of this training the leg movements of the patients have to be assisted by physiotherapists during gait on the moving treadmill. The physical capabilities and the individual experience of the therapists usually limit this training. A driven gait orthosis (DGO) has been developed that can move the legs of a patient in a physiological way on the moving treadmill. The orthosis is adjustable in size so different patients can use it. Actuators at the knee and hip joints are controlled by a position controller. With the DGO the legs of patients with different degrees of paresis and spasticity could be trained for more than half an hour, and physiological gait patterns were obtained.
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PMID:Treadmill training of paraplegic patients using a robotic orthosis. 1132 Oct 5

This article discusses the treatment of spasticity with botulinum toxin A as a new approach in the neurological rehabilitation of patients after stroke. Clinical studies have been reviewed to provide information about target groups, technical aspects and the advantages and disadvantages of treating spasticity with botulinum toxin A. Open and controlled studies showed that the intramuscular injection of Dysport 500 to 1,500U or Botox 100 to 300U could reversibly relieve upper limb flexor and lower limb extensor spasticity. A reduced muscle tone, pain relief, better hand hygiene and improved walking function were the main benefits. Patients tolerated the treatment well. Activity or, if not possible, electrical stimulation of the injected muscles may enhance the effectiveness of the costly toxin. Serial casting is another option. With respect to the action of botulinum toxin A, it is suggested that the effect of the toxin could be mediated by paresis of both the extrafusal and intrafusal muscle fibres, thereby altering the afferent discharge in the muscle.
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PMID:Botulinum toxin A treatment of adult upper and lower limb spasticity. 1134 73

The process of learning to produce voluntary changes in the position of the center of pressures using biological feedback was studied by stabilography in patients with hemipareses due to cerebrovascular lesions in the zone supplied by the middle cerebral artery. There were significant impairments to learning in all groups of patients, who had lesions in different sites, demonstrating that cortical mechanisms are involved in learning to control posture voluntarily. These studies showed that patients with lesions in the right hemisphere had rather greater deficits in performing the task than those with lesions in the left hemisphere. There were significant differences in the initial deficit in performing the task on the first day of training depending on the side of the lesion. All groups of patients differed from healthy subjects in that significant learning occurred only at the initial stages of training (the first five days). Learning at the initial stage in patients with concomitant lesions of the parietal-temporal area and with combined lesions with motor, premotor, and parietal-temporal involvement was significantly worse and the level of task performance at the end of the initial stage was significantly worse than in patient with local lesions of the motor cortex. The level of learning was independent of the severity of the motor deficit (paresis, spasticity), but was associated with the severity of impairment of the proprioceptive sense and the severity of disruption to the upright posture (asymmetry in the distribution of support pressures, amplitude of variation in the position of the center of pressures). The learning process had positive effects on the severity of motor impairment and on the asymmetry of the distribution of support pressures in the standing posture. Reorganization of posture during bodily movements occurred mainly because of impairment to the developed "non-use" stereotype of the paralyzed lower limb.
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PMID:Impairment of learning the voluntary control of posture in patients with cortical lesions of different locations: the cortical mechanisms of pose regulation. 1143 May 69

Kufor-Rakeb syndrome is an autosomal recessive nigro-striatal-pallidal-pyramidal neurodegeneration. The onset is in the teenage years with clinical features of Parkinson's disease plus spasticity, supranuclear upgaze paresis, and dementia. Brain scans show atrophy of the globus pallidus and pyramids and, later, widespread cerebral atrophy. We report linkage in Kufor-Rakeb syndrome to a 9 cM region of chromosome 1p36 delineated by the markers D1S436 and D1S2843, with a maximum multipoint lod score of 3.6.
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PMID:Kufor-Rakeb syndrome, pallido-pyramidal degeneration with supranuclear upgaze paresis and dementia, maps to 1p36. 1158 46

In daily clinical practice we noticed that patients with intellectual impairment spontaneously flex the elbow within a few seconds of the forearm being manipulated during routine examination of spasticity of the muscles in the upper extremities. We termed this phenomenon elbow flexion response (EFR), and prospectively studied it in 229 patients who underwent in-hospital rehabilitation following brain damage. Evaluation of each patient included EFR, patient profile, ability to communicate, scores on three parameters from various intelligence tests, scores on seven parameters testing primitive reflexes, and scores on three parameters describing personality. We investigated for relationships among these parameters. Consequently, although EFR rarely have a statistical association with the varied profiles of patients, patients with bilateral lesion or bilateral paresis demonstrated significantly more marked EFR than those with unilateral lesion or unilateral paresis. Patients with involvement of the frontal lobe showed significantly more marked EFR than those without damage in this area. Elbow flexion responses occurred significantly more frequently in relation with lower scores on intelligence and occurred with significantly higher frequency in conjunction with the more marked appearance of conventional primitive reflexes. Therefore, we conclude that EFR have a strong association with intelligence and with the existence of frontal lobe lesion, and their mode of clinical presentation parallels that of primitive reflexes particularly that of the grasp reflex. We propose that EFR could be referred as a variation of the grasp reflex occurring in the more proximal or axial part of the body.
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PMID:Elbow flexion response as another primitive reflex. 1195 15

This study investigated the role of paresis, excessive antagonist coactivation, increased muscle-tendon passive stiffness and spasticity in the reduced stance phase plantarflexor moment (Mmax) and swing phase dorsiflexion during gait (DFmax) in subjects with a recent (<6 months post-stroke) hemiparesis (patients). The gait pattern of the paretic and non-paretic sides was evaluated in 30 patients (aged 57.8+/-10.8 years), whereas only one side was evaluated in 15 healthy controls (aged 59.1+/-9.8 years) while walking at natural and very slow speeds. Peak plantarflexor moment (Mmax) and peak medial gastrocnemius (MG) activation during the stance phase, as well as peak dorsiflexion angle (Dfmax) and peak tibialis anterior (TA) activation during the swing phase, were retained for analysis. In addition, a coactivation index and a plantarflexor spasticity index were calculated for both the stance and the swing phase, and plantarflexor passive stiffness was evaluated on an isokinetic dynamometer. The results showed that Mmax on the paretic and non-paretic sides were both reduced compared with control values at natural speed. This reduction was combined to a low MG activation (paresis) on the paretic side. On the non-paretic side, the reduced plantarflexor moment was related to excessive coactivation levels. The swing phase Dfmax tended to be reduced (not significantly) on the paretic side of the patients compared with control values. This reduction was neither associated with excessive antagonist coactivation nor to plantarflexor hyperactive stretch reflexes, but rather to an increased plantarflexor passive stiffness. In some of the patients, however, an increased TA activation that overcame the plantarflexor passive stiffness allowed for normal DFmax values. The functional consequences of the disturbed mechanisms of motor control observed in both the paretic and non-paretic sides are discussed.
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PMID:Mechanisms of disturbed motor control in ankle weakness during gait after stroke. 1198 99

The authors categorised congenital malformations of the spine into five different pathomorphologic groups basing on a series of 61 cases (age ranging from 1 to 50 years): defects of the vertebra, of the vertebral body, intervertebral synostosis, rib synostosis, and defects of the vertebral arch. A total of over 30 different kinds of malformations were obtained in this classification. In the analysed series 34 patients had a predominant kind of malformation, while in 27 cases mixed malformations were noted. These malformations lead to spine deformities: 21 cases with arch scoliosis, 15 cases with kyphoscoliosis, 13 cases with angular scoliosis and 12 cases with kyphosis. Deformities had a tendency to progress with age. In 20 patients neurological deficits (increased spasticity, spastic paresis, spastic and flaccid paralysis) increased after reaching skeletal maturity. Prognosis as to deformity regression was made difficult be the large variety of different pathomorphologic types of deformity. Only general patterns were visible e.g. a tendency to progress in cases were hemivertebra were found. In cases were more than one type of deformity was noted, growth balance of the spine was not a rule. On the contrary, even small mixed deformities of ten progressed. This paper indicates that most congenital deformities of the spine should be treated operatively, either to correct the deformity or to attain spine growth balance.
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PMID:[The pathomorphology of congenital spinal defects in relation to future clinical development of the disease]. 1241


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