Book contents
- Frontmatter
- Dedication
- Contents
- List of Contributors
- Preface
- Chapter 1 The pretherapeutic history of botulinum neurotoxin
- Chapter 2 Botulinum neurotoxin: history of clinical development
- Chapter 3 Pharmacology of botulinum neurotoxins
- Chapter 4 Immunological properties of botulinum neurotoxins
- Chapter 5 Treatment of cervical dystonia
- Chapter 6 Examination and treatment of complex cervical dystonia
- Chapter 7 Ultrasound guidance for botulinum neurotoxin therapy: cervical dystonia
- Chapter 8 Treatment of blepharospasm
- Chapter 9 Botulinum neurotoxin in oromandibular dystonia
- Chapter 10 Treatment of focal hand dystonia
- Chapter 11 Botulinum neurotoxin therapy of laryngeal muscle hyperactivity syndromes
- Chapter 12 The use of botulinum neurotoxin in otorhinolaryngology
- Chapter 13 Treatment of hemifacial spasm
- Chapter 14 Spasticity
- Chapter 15 The use of botulinum neurotoxin in spastic infantile cerebral palsy
- Chapter 16 The role of ultrasound for botulinum neurotoxin injection in childhood spasticity
- Chapter 17 The use of botulinum neurotoxin in spasticity using ultrasound guidance
- Chapter 18 The use of botulinum neurotoxin in tic disorders and essential hand and head tremor
- Chapter 19 Treatment of stiff-person syndrome with botulinum neurotoxin
- Chapter 20 Botulinum neurotoxin applications in ophthalmology
- Chapter 21 Cosmetic uses of botulinum neurotoxins
- Chapter 22 Hyperhidrosis
- Chapter 23 Botulinum neurotoxin A treatment for ischemic digits
- Chapter 24 Botulinum neurotoxin in wound healing
- Chapter 25 Use of botulinum neurotoxin in neuropathic pain
- Chapter 26 The use of botulinum neurotoxin in the management of headache disorders
- Chapter 27 The use of botulinum neurotoxin in musculoskeletal pain and arthritis
- Chapter 28 Treatment of plantar fasciitis with botulinum neurotoxins
- Chapter 29 Use of botulinum neurotoxin in the treatment of low-back pain
- Chapter 30 Use of botulinum neurotoxin in the treatment of piriformis syndrome
- Chapter 31 Ultrasound-guided botulinum neurotoxin injections for thoracic outlet syndrome
- Chapter 32 Botulinum neurotoxin in the gastrointestinal tract
- Chapter 33 Botulinum neurotoxin applications in urological disorders
- Index
- References
Chapter 16 - The role of ultrasound for botulinum neurotoxin injection in childhood spasticity
Published online by Cambridge University Press: 05 February 2014
- Frontmatter
- Dedication
- Contents
- List of Contributors
- Preface
- Chapter 1 The pretherapeutic history of botulinum neurotoxin
- Chapter 2 Botulinum neurotoxin: history of clinical development
- Chapter 3 Pharmacology of botulinum neurotoxins
- Chapter 4 Immunological properties of botulinum neurotoxins
- Chapter 5 Treatment of cervical dystonia
- Chapter 6 Examination and treatment of complex cervical dystonia
- Chapter 7 Ultrasound guidance for botulinum neurotoxin therapy: cervical dystonia
- Chapter 8 Treatment of blepharospasm
- Chapter 9 Botulinum neurotoxin in oromandibular dystonia
- Chapter 10 Treatment of focal hand dystonia
- Chapter 11 Botulinum neurotoxin therapy of laryngeal muscle hyperactivity syndromes
- Chapter 12 The use of botulinum neurotoxin in otorhinolaryngology
- Chapter 13 Treatment of hemifacial spasm
- Chapter 14 Spasticity
- Chapter 15 The use of botulinum neurotoxin in spastic infantile cerebral palsy
- Chapter 16 The role of ultrasound for botulinum neurotoxin injection in childhood spasticity
- Chapter 17 The use of botulinum neurotoxin in spasticity using ultrasound guidance
- Chapter 18 The use of botulinum neurotoxin in tic disorders and essential hand and head tremor
- Chapter 19 Treatment of stiff-person syndrome with botulinum neurotoxin
- Chapter 20 Botulinum neurotoxin applications in ophthalmology
- Chapter 21 Cosmetic uses of botulinum neurotoxins
- Chapter 22 Hyperhidrosis
- Chapter 23 Botulinum neurotoxin A treatment for ischemic digits
- Chapter 24 Botulinum neurotoxin in wound healing
- Chapter 25 Use of botulinum neurotoxin in neuropathic pain
- Chapter 26 The use of botulinum neurotoxin in the management of headache disorders
- Chapter 27 The use of botulinum neurotoxin in musculoskeletal pain and arthritis
- Chapter 28 Treatment of plantar fasciitis with botulinum neurotoxins
- Chapter 29 Use of botulinum neurotoxin in the treatment of low-back pain
- Chapter 30 Use of botulinum neurotoxin in the treatment of piriformis syndrome
- Chapter 31 Ultrasound-guided botulinum neurotoxin injections for thoracic outlet syndrome
- Chapter 32 Botulinum neurotoxin in the gastrointestinal tract
- Chapter 33 Botulinum neurotoxin applications in urological disorders
- Index
- References
Summary
Introduction
Botulinum neurotoxin type A (BoNT-A) injections are established as a standard procedure for the treatment of functional shortening of different muscles in spastic or dystonic children. Preconditions for beneficial effects are:
a functional problem resulting from dynamic hyperactive muscle shortening without major structural changes
a focal problem caused by hyperactivity of a few muscles
application of the BoNT in the target muscle close to the neuromuscular junctions
a sufficient dose
no antibodies to BoNT-A.
Muscles that are superficial and palpable are easy to inject. In contrast, exact placement of the needle is more difficult and less controllable in muscles that are not palpable and deeply situated (e.g. iliopsoas) or are small and difficult to selectively identify (such as forearm muscles). Exact needle placement is, however, essential for optimal functional result, avoidance of side effects and evaluation of therapeutic failures.
To localize the target muscle and to control the placement of the injection needle several techniques are available:
orientation at anatomical landmarks and palpation supported by moving the distal joint to observe the motion of the needle placed in the target muscle (Buchthal technique)
electromyography
electrical stimulation
real-time ultrasound
CT.
Clinical application of BoNT has been shown to be inaccurate except for the gastrocsoleus complex (Chin et al., 2005). Electromyography is good, but many muscles may be simultaneously active. Control by electrical stimulation is quite uncomfortable and painful and often requires anesthesia. Guidance under CT is not appropriate for routine use because of the exposure to radiation and high costs. By comparison, the advantages of the ultrasound-guided technique are clear:
real-time observation of the injection
readily available
easily applicable after a manageable learning period
cost effective
no serious side effects.
- Type
- Chapter
- Information
- Manual of Botulinum Toxin Therapy , pp. 128 - 132Publisher: Cambridge University PressPrint publication year: 2014