UMLS:C0013421 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0013421 (dystonia)
8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Crow's feet develop with age and are one of the earliest signs of the normal aging process. Botulinum toxin type A, approved by the Food and Drug Administration for the treatment of glabellar wrinkles in April 2002, has been used off-label to treat facial wrinkles since 1981. Botulinum toxin type B (BTX-B, Myobloc) was Food and Drug Administration-approved for use in cervical dystonia in the United States in December 2000 and has subsequently been used in an off-label indication to treat facial wrinkles. There are sparse data in the literature evaluating the safety and efficacy of BTX-B for the treatment of facial wrinkles. In this pilot study, participants with moderate or severe crow's feet wrinkles were treated with Myobloc versus placebo. The duration of correction and side effect profile are reported.
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PMID:A double-blinded, randomized, placebo-controlled pilot study of the safety and efficacy of Myobloc (botulinum toxin type B)-purified neurotoxin complex for the treatment of crow's feet: a double-blinded, placebo-controlled trial. 1275 19

A new serotype of botulinum toxin has recently arrived in the US. Botulinum toxin type B (BTX-B), known as Myobloc in the United States and as Neurobloc in Europe, is one of seven different antigenic members of the botulinum toxin family, five of which the human nervous system is susceptible to. Like botulinum toxin type A (BTX-A), BTX-B has been used for a myriad of both dermatologic and nondermatologic problems since its recent approval by the FDA for the treatment of cervical dystonia in December 2000. It is currently not approved however, for a cosmetic use but has been used for this purpose in an "off-label" fashion. It has followed in the therapeutic footsteps of BTX-A in the prevention and treatment of facial wrinkles such as crow's feet and glabellar frown lines. In addition, one of its current and popular uses is in the management of hyperhidrosis, a disease in search of a long needed treatment. This past year researchers have been investigating the efficacy as well as defining the dosing and application regiments of BTX-B in the treatment of hyperhidrosis. In addition, recent studies have been examining its side effect profile, which may be very different than that seen with BTX-A. There are only a handful of studies in the literature examining the cosmetic applications of BTX-B. This chapter will review what is currently known about BTX-B and its current use in regards to the treatment of hyperhidrosis.
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PMID:Botulinum toxin-B and the management of hyperhidrosis. 1515 47

Botulinum toxin A (BoNT/A), a neurotoxin, is effective for treating a variety of disorders of involuntary muscle contraction, including cervical dystonia, blepharospasm and hemifacial spasm. It inhibits neurouscular signaling by blocking the release of acetylcholine at the neuromuscular junction. The biological effects of the toxin are transient with normal neuronal signaling returning within approximately 3-6 months post injection. Recently, clinical findings suggest that BoNT/A may inhibit pain associated with migraine and other headache types. The mechanism by which this toxin inhibits pain is under investigation, recent findings suggest that it inhibits the release of neurotransmitters from nociceptive nerve terminals and in this way may exert an analgesic effect. A number of retrospective open-label chart reviews and three placebo-controlled double-blind trials have demonstrated that localized injections of BTX-A significantly reduce migraine frequency, severity, and migraine-associated disability. The majority of patients in these studies experienced no BoNT/A mediated side effects; however, a small percentage of patients did report transient minor side effects including blepharoptosis, dipolpia, and injection-site weakness. Currently there are several large-scale randomized, placebo-controlled clinical trials in progress evaluating the efficacy, optimal dosing and side effect profile of this toxin as a novel treatment for migraine and other headache types. These studies may provide further evidence that BoNT/A is an effective option for the preventive treatment of migraine.
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PMID:Botulinum neurotoxin for the treatment of migraine and other primary headache disorders. 1515 49

Myobloc is the currently available commercial formulation of type B botulinum toxin. Released in the United States in 2000, it is approved by the Food and Drug Administration for the treatment of cervical dystonia. The most commonly used botulinum toxins, the type A toxins (Botox and Dysport), affect the SNAP-25 protein, whereas the type B toxin (Myobloc) affects vesicle-associated membrane protein, also known as synaptobrevin. Both type B and type A are antigenically distinct. This article explains the difference between Myobloc and type A toxins, reviews equivalency and other published studies, and describes practical uses for this product in facial aesthetics.
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PMID:Myobloc. 1522 81

Approximately 5% of patients with cervical dystonia receiving repeated botulinum neurotoxin A (BoNT/A) injections develop secondary loss of treatment benefit. Currently available tests to directly detect neutralizing BoNT/A antibodies (BoNT/A-AB) are either expensive or time consuming. To establish a simple, clinically useful test for antibody detection, we adapted the ninhydrin sweat test (NST). Eighteen dystonic patients with secondary nonresponse and clinically suspected BoNT/A-AB formation were tested for BoNT/A-AB in the mouse diaphragm test (MDT). In addition, the size of the anhidrotic area was determined by the NST 21 days after an intradermal dose of 10 U Dysport into the hypothenar region of the left palm. In nine patients, positive BoNT-AB titers were found in the MDT. There was a significant correlation between the BoNT/A-AB titers and the anhidrotic area (Spearman's rho = -0.9, P < 0.0001). Both tests provided comparably good results with respect to qualitative antibody detection. In the clinical situation of secondary nonresponse to BoNT/A therapy, the economical NST may be a helpful tool to detect neutralizing BoNT/A-AB.
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PMID:Ninhydrin sweat test: a simple method for detecting antibodies neutralizing botulinum toxin type A. 1530 Jun 61

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

Botulinum toxin type A (BoNT/A) is the principal therapy for patients with cervical dystonia. Repeated treatments over many years are required in most cases. This retrospective review evaluates the dose of BoNT/A used to treat cervical dystonia and the interval between treatments during a 2-year observation period. Outcomes data were abstracted from the medical records of 172 patients at 3 different sites who had received BoNT/A between January and December 1998. A total of 1059 treatments were assessed. Mean per-treatment doses throughout the 2-year study ranged from 241.80 to 254.07 units. The mean interval between treatments was 108.48 days during the first year of observation and 114.14 days during the second year. These findings indicate that doses of and intervals between BoNT/A treatments for cervical dystonia were consistent throughout 2 years of observation.
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PMID:Longitudinal assessment of the dose consistency of botulinum toxin type A (BOTOX) for cervical dystonia. 1594 22

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

In some patients treated with botulinum toxin (BT), antibodies are produced in association with certain treatment parameters, patient characteristics and immunological properties of the BT preparation used. Therapeutic BT preparations are comprised of botulinum neurotoxin, non-toxic proteins and excipients. Antibodies formed against botulinum neurotoxin can block BT's biological activity. The antigenicity of a BT preparation depends on the amount of botulinum neurotoxin presented to the immune system. This amount is determined by the specific biological activity, the relationship between the biological activity and the amount of botulinum neurotoxin contained in the preparation. For Botox the specific biological activity is 60 MU-EV/ng neurotoxin, for Dysport 100 MU-EV/ng neurotoxin and for Myobloc/NeuroBloc 5 MU-EV/ng neurotoxin. For Myobloc/NeuroBloc this translates into an antibody-induced therapy failure rate of 44% in patients treated for cervical dystonia, whereas for BT type A preparations this figure is approximately 5%. No obvious differences in antigenicity of BT type A preparations have been detected thus far. For the current formulation of Botox, the rate of antibody-induced therapy failure is reportedly less than 1%. To determine the antigenicity of different BT preparations in more detail, prospective studies on large series of unbiased patients with sensitive and specific BT antibody tests are necessary.
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PMID:Immunological aspects of Botox, Dysport and Myobloc/NeuroBloc. 1641 92

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