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:C0026838 (spasticity)
6,471 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Botulinum toxin type B (BTX-B) is a member of a family of neurotoxins produced by the anaerobic bacteria Clostridium botulinum. BTXs specifically inhibit acetylcholine release at the neuromuscular junction and cause muscle paralysis in humans. The mechanism of action of BTXs involves inactivation of the neural exocytotic pathway by proteolytic cleavage of components of the exocytotic apparatus. Purified BTXs have been used clinically to treat disorders of muscle contraction, such as spasticity and dystonia. BTXs are purified as high molecular weight complexes that contain additional bacterial proteins which function to protect the toxin molecule. BTX complexes are stable in solution only at acidic pH. A new method was developed to purify intact BTX-B complexes. The resulting liquid formulation of high specific activity BTX-B (Elan's BTX-B evaluated as NeuroBloc) is buffered at pH 5.6 and demonstrates long-term stability at 2 to 25 degrees C.
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PMID:The biochemistry of botulinum toxin type B. 1118 81

For the treatment of focal spasticity using botulinum toxin, only studies using type A have been published. Botulinum toxin type B (Neurobloc) is registered for cervical dystonia, but there is increasing interest in ist effectiveness for treating other diseases. Four patients, each with seriously disabling hip adductor spasticity of different origins, were treated with botulinum toxin type B following the failure of other therapeutic options. Total doses of 10,000 IU to 22,000 IU were injected bilaterally into the hip adductor muscles. A reduction in muscle tone or painful spasms was observed in all patients within 2 weeks, leading to an improvement in gait and increased ease of nursing care. Therefore, botulinum toxin type B may be a more cost-effective treatment for hip adductor spasticity than botulinum toxin type A.
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PMID:[Treatment of hip adductor spasticity with botulinum toxin type B]. 1248 68

In the United States, the popularity of botulinum toxins as agents to treat muscle hypertonia has grown significantly over the last decade, despite lack of approval from the Food and Drug Administration for the indication of spasticity. Botox (botulinum toxin type A) and Myobloc (botulinum toxin type B) are Food and Drug Administration-approved for other indications, such as cervical dystonia. Another commercial preparation of type A, Dysport, has yet to reach the United States market as of this writing. Although botulinum toxin's efficacy in influencing spastic hypertonia is well accepted, the impact of certain clinical issues, such as dosing and dilution, on treatment outcome is not well established by published studies. This article will review important articles and selected abstracts on the use of botulinum toxin, specifically for spastic hypertonia in adults, with emphasis on current clinical practices as they relate to dosing and dilution.
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PMID:Botulinum toxin: dosing and dilution. 1544 75

Botulinum toxin type B (BTX-B) has been approved by the Food and Drug Administration for the treatment of cervical dystonia. However, as with botulinum toxin type A (BTX-A) it has off-label uses, such as for hyperhidrosis, focal dystonias, spasticity, and facial wrinkles. BTX-B has also been shown to be a safe and effective alternative for patients who are resistant to BTX-A. The most commonly reported side effects include dry mouth and dysphagia. To date, there have been few reports of visual disturbances associated with BTX-B use. In this study, we report on three individual patients who received BTX-B and who subsequently developed parasympathetic dysfunction of the visual system after injections of BTX-B at remote sites.
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PMID:Visual system side effects caused by parasympathetic dysfunction after botulinum toxin type B injections. 1580 68

The increasing use of botulinum toxin type-A, especially for focal dystonia and spasticity has highlighted the issue of secondary non-responsiveness. Within the last few years botulinum toxin type-B (Myobloc/Neurobloc) has become commercially available as an alternative to type-A. This paper discusses our initial experience of botulinum toxin type-B in a total of 63 individuals who attended our botulinum clinic. Thirty-six patients had cervical dystonia and a secondary non-response to type-A toxin. Thirteen of these patients (36%) had a reasonable clinical response to Neurobloc and continue to have injections. The other 23 patients either had no response, or a poor response, or had unacceptable side effects and ceased treatment. A small number of people with blepharospasm, hemifacial spasm and foot dystonia also had a disappointing response to injection. Twenty patients with spasticity were also type-A resistant. Seven of these show some continuing response to type-B, without unacceptable side effects. These findings demonstrate that botulinum toxin type-B has a place in the management of patients who have become non-responsive to type-A, but overall the responses to type-B toxin were disappointing.
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PMID:The use of botulinum toxin type-B in the treatment of patients who have become unresponsive to botulinum toxin type-A -- initial experiences. 1632 88

Spasticity, characterized by increased muscle tone, exaggerated stretch reflexes, and abnormal limb posture, is a common sequel of central nervous system pathology. Historically, medicinal treatments have been of limited efficacy. This review discusses the clinical features of spasticity, the functional and pathological consequences, and treatment. It reviews the most common patterns of spasticity encountered in the upper and lower limbs and focuses on focal treatment of spastic muscles with the three commercially available botulinum toxins Botox, Dysport, and Myobloc/NeuroBloc. It addresses practical details such as muscle selection and identification, drug dilution, and doses.
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PMID:Management of spasticity in adults: practical application of botulinum toxin. 1641 97

Injections of botulinum toxin have revolutionised the treatment of focal spasticity. Before their advent, the medical treatment for focal spasticity involved oral anti-spasticity drugs, which had decidedly non-focal adverse effects, and phenol injections. Phenol injections could be difficult to perform, could cause sensory complications and had effects that were of uncertain duration and magnitude. Furthermore, few neurologists knew how to perform them as they were mostly the province of rehabilitation specialists. Botulinum toxin can produce focal, controllable muscle weakness of predictable duration, without sensory adverse effects. Randomised clinical trials (RCTs) involving patients with spasticity resulting from a variety of diseases (mainly stroke and multiple sclerosis) have clearly shown that botulinum toxin type A (Dysport and Botox) can temporarily (for approximately 3 months) reduce spastic hypertonia in the elbow, wrist and finger flexors of the upper limbs, and the hip adductors and ankle plantar flexors in the lower limbs. The clinical benefits from this reduction of neurological impairment are best shown in the upper limb, with less disability of passive function and reduced caregiver burden. In the lower limbs, there is improved perineal hygiene from hip adductor injections. The benefits of reducing ankle plantar flexor tone are less well established. Pain is also reduced, possibly by mechanisms other than muscle weakness. Improved active function has not yet been clearly demonstrated in RCTs, only in open-label trials. The safety of botulinum toxin-A is impressive, with minimal (mainly local) adverse effects. There are little data on the use of botulinum toxin type B (Myobloc or Neurobloc) in spasticity and the only RCT that has examined this did not show tone reduction; dry mouth appeared to be a very common adverse effect. There are also very little data to allow a benefit-risk comparison of phenol and botulinum toxin injections; each have their clinical and technical advantages and disadvantages, and phenol is much less costly than botulinum toxin.
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PMID:Botulinum toxin treatment of adult spasticity : a benefit-risk assessment. 1645 33

The intramuscular application of botulinum toxin type A (BoNT/A) has emerged to be an established treatment option to reduce muscular hyperactivity due to spasticity in children with cerebral palsy. Accurate injection is a prerequisite for efficient and safe treatment with BoNT/A. So far, treatment procedures have not been standardized. This paper is a short review of different injection techniques, i.e., manual needle placement as well as guidance by electromyography, electrical stimulation, and ultrasound. Advantages and disadvantages of the different injection techniques are discussed with a focus on needle positioning within the targeted muscle, injection close to the neuromuscular junction and diffusion of BoNT/A within the target muscles and through fascia. The additional information gained by each injection technique is weighed in terms of the clinical impact for children with cerebral palsy.
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PMID:Botulinum toxin treatment of children with cerebral palsy - a short review of different injection techniques. 1678 17

The protein botulinum neurotoxin A (BoNT/A) is one of seven distinct neurotoxins produced by Clostridium botulinum. BoNT/A blocks cholinergic synapses with an extremely high specificity and potency. Appropriately purified and diluted, BoNT/A serves as a reliable and well tolerated drug that is applied by local injection.The efficacy of BoNT/A is evident in the symptomatic therapy of disorders in which muscular hyperactivity plays a prominent role, such as focal dystonias and hemifacial spasm; in these disorders, BoNT/A is considered first-line therapy. BoNT/A is also beneficial in the treatment of both adults and children with spasticity of various causes. The pain that frequently accompanies these conditions is effectively reduced by BoNT/A. A genuine analgesic effect for BoNT/A unrelated to skeletal muscle spasmolysis has been suggested on the basis of in vitro and in vivo (animal) data. However, studies in humans designed to detect such an effect were negative, as were controlled studies of BoNT/A in patients with primary headache disorders.BoNT/A also acts on cholinergic synapses of the autonomic nervous system, and injection of BoNT/A into salivary glands significantly decreases the production of saliva. This may be beneficial for patients with Parkinson's disease, in whom the excessive production of saliva may be problematic.Overall, BoNT/A has been confirmed as an efficacious, predictable and well tolerated drug in an ever-increasing number of neurological disorders.
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PMID:Use of botulinum toxin A in adult neurological disorders: efficacy, tolerability and safety. 1869 73

The aim of this systematic review was to determine whether botulinum neurotoxin (BoNT) reduce spasticity or improve function in adult patients after stroke. Eleven double-blind randomized placebo-controlled trials met inclusion criteria. They encompassed 782 patients, 767 (98%) of whom received BoNT/A, and 15 (2%) BoNT/B. Most studies used the Ashworth scale as primary outcome measure. Differences between treated and control groups were assessed as categorical or continuous comparisons. The overall effect on upper limb spasticity was in favor of BoNT/A. A significantly higher number of patients had a reduction of upper limb spasticity at 4-week and 8-week evaluations in the treatment group compared with placebo. Mean changes in joint spasticity revealed improvement 3 to 6 weeks and 9 to 12 weeks after treatment. There were insufficient data to establish BoNT/A efficacy on lower limb spasticity or the effect of BoNT/B on the upper and lower limbs. Because of inconsistency and heterogeneity of the available data, it was not possible to perform a meta-analysis on disability and patients' reported outcomes. There was an overlapping safety profile between the treatment and the placebo groups. BoNT/A reduces upper limb spasticity in patients post-stroke, but the improvement in functional ability remains to be established. This gap needs to be filled by new studies to assess the effect of BoNT in the context of multidisciplinary patient management.
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PMID:Botulinum neurotoxins for post-stroke spasticity in adults: a systematic review. 1922 14


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