Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword – Alan B. Scott
- Preface
- 1 The pretherapeutic history of botulinum toxin
- 2 Botulinum toxin: history of clinical development
- 3 Pharmacology of botulinum toxin drugs
- 4 Immunological properties of botulinum toxins
- 5 Treatment of cervical dystonia
- 6 Treatment of hemifacial spasm
- 7 Treatment of blepharospasm
- 8 Treatment of oromandibular dystonia
- 9 Treatment of focal hand dystonia
- 10 Botulinum toxin applications in ophthalmology
- 11 Botulinum toxin therapy of laryngeal muscle hyperactivity syndromes
- 12 The use of botulinum toxin in otorhinolaryngology
- 13 Spasticity
- 14 The use of botulinum toxin in spastic infantile cerebral palsy
- 15 Hyperhidrosis
- 16 Cosmetic uses of botulinum toxins
- 17 Botulinum toxin in the gastrointestinal tract
- 18 Botulinum toxin in urological disorders
- 19 Use of botulinum toxin in musculoskeletal pain and arthritis
- 20 The use of botulinum toxin in the management of headache disorders
- 21 Treatment of plantar fasciitis with botulinum toxin
- 22 Treatment of stiff-person syndrome with botulinum toxin
- 23 Botulinum toxin in tic disorders and essential hand and head tremor
- 24 Developing the next generation of botulinum toxin drugs
- Index
- References
22 - Treatment of stiff-person syndrome with botulinum toxin
Published online by Cambridge University Press: 28 July 2009
- Frontmatter
- Contents
- List of contributors
- Foreword – Alan B. Scott
- Preface
- 1 The pretherapeutic history of botulinum toxin
- 2 Botulinum toxin: history of clinical development
- 3 Pharmacology of botulinum toxin drugs
- 4 Immunological properties of botulinum toxins
- 5 Treatment of cervical dystonia
- 6 Treatment of hemifacial spasm
- 7 Treatment of blepharospasm
- 8 Treatment of oromandibular dystonia
- 9 Treatment of focal hand dystonia
- 10 Botulinum toxin applications in ophthalmology
- 11 Botulinum toxin therapy of laryngeal muscle hyperactivity syndromes
- 12 The use of botulinum toxin in otorhinolaryngology
- 13 Spasticity
- 14 The use of botulinum toxin in spastic infantile cerebral palsy
- 15 Hyperhidrosis
- 16 Cosmetic uses of botulinum toxins
- 17 Botulinum toxin in the gastrointestinal tract
- 18 Botulinum toxin in urological disorders
- 19 Use of botulinum toxin in musculoskeletal pain and arthritis
- 20 The use of botulinum toxin in the management of headache disorders
- 21 Treatment of plantar fasciitis with botulinum toxin
- 22 Treatment of stiff-person syndrome with botulinum toxin
- 23 Botulinum toxin in tic disorders and essential hand and head tremor
- 24 Developing the next generation of botulinum toxin drugs
- Index
- References
Summary
Introduction
Stiff-person syndrome (SPS), formerly termed stiff-man syndrome and Moersch–Woltmann syndrome, was first described in 1956 as a condition of muscular rigidity and episodic spasms that principally involved the trunk and lower limbs (Moersch & Woltman, 1956). The idiopathic (typical) form of SPS is now considered an autoimmune disorder, often associated with type I diabetes and increased levels of antibodies against glutamic acid decarboxylase (GAD), the enzyme that catalyzes gamma-amino butyric acid from glutamic acid. Symptoms usually begin during adult life and affect both sexes. Early in the disease course symptoms can be confused with orthopedic conditions, but as the disease progresses, a clear distinction can be made. Increasing symptoms of axial and limb rigidity and painful muscle spasms eventually lead to disability. Electromyography demonstrates continuous and spontaneous firing of motor units in the rigid muscles.
Clinical features
Brown and Marsden (1999) describe a typical form (classic) and several atypical forms (i.e., plus variants) of SPS. The typical form of SPS is characterized by progressive axial rigidity predominantly involving the paraspinal and abdominal muscles along with hyperlordosis of the lumbar spine, and spontaneous or stimulus sensitive disabling muscle spasms of the abdominal wall, lower extremities, and other proximal muscles. Muscle rigidity in typical SPS is attributed to dysfunction of the inhibitory interneurons of the spinal cord. These patients have high incidence of anti-GAD and islet cell antibodies (ICA) (96% GAD-65 antibodies and 89% ICA in Mayo clinic series) (Walikonis & Lennon, 1998).
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- Information
- Manual of Botulinum Toxin Therapy , pp. 189 - 194Publisher: Cambridge University PressPrint publication year: 2009