Cerebral palsy (CP) is a group of non-progressive motor dysfunction but often changing, secondary to injury or brain abnormalities that occur in early stages of development. In children with CP, the brain injury lead to a delayed motor development in the first weeks, associated with muscular spasticity. Drug treatments include oral treatments (baclofen and tizanidine) and injectable treatments like Botox (intramuscular injection) and neurolysis with alcohol or phenol (local injection into the nerve). Regarding botulinum toxin, there is no study questioning its effectiveness. However, no publication on the pathophysiology of human muscle of the CP child after toxin injection was found. The action of the toxin on the neuromuscular junction (NMJ) and muscle structure is unknown in children with CP. The primary objective of this study is to describe structural abnormalities of the CP child's muscle following multiple toxin injections in terms of NMJ fragmentation and axonal sprouting. Secondary objectives: To evaluate the relationship between: * The severity of the motor impairment and muscle structural abnormalities. * The clinical measure of spasticity and muscle structural abnormalities. * To compare the structure spastic muscles with toxin injections and spastic muscle without toxin injections For muscles with multiple toxin injections, assessing the relationship between : * The number of toxin injections and muscle structural abnormalities. * The date of the first injection and muscle structural abnormalities. * The total dose of injected toxin in the muscle and its structural abnormalities. * The nature of the product injected in the muscle and its structural abnormalities. This innovative study will improve the knowledge on the effects of long-term botulinum toxin injections on the muscle (and therefore its safety in usual care), on the spastic muscle NMJ of CP children, on the pathophysiology of the CP child's muscle. All the visits all acts will be performed according to usual patient follow-up. Only a biopsy will be performed in addition, taken from an injected muscle during a planned operation. A biopsy may also be performed on a muscle without toxin injection if the act is made possible by the planned surgery. No biopsy will be made on a muscle that would not require surgery.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
20
A biopsy (specifically done for the study) of a muscle that has already been injected with botulinum toxin before inclusion of the patient in the study will be performed, taken during a planned surgery (for tendon transfer or muscle lengthening). A biopsy of a muscle that has never been injected with botulinum toxin may be performed during surgery. No biopsy will be made on a member that would not require surgery. Thus sampling will be conducted on a muscle requiring a surgery: 2 to 3 millimeters will be taken on 10 mm muscle before transfer or lengthening.
Hôpital Femme Mère Enfant
Bron, France
Presence of neuromuscular junctions fragmentation (both qualitative and quantitative).
The biopsy is performed at the same time of a scheduled general anesthesia surgery (multisite surgery). The biopsy is 2 to 3 mm x 10 mm. It is a simple and quick gesture, usually practiced by surgeon
Time frame: 6 months maximum (time of surgery)
Presence of axonal sprouting (qualitative).
Time frame: 6 months maximum (time of surgery)
Proportion of muscles with neuromuscular junctions fragmentation (both qualitative and quantitative) and/or axonal sprouting (qualitative) according to patient's GMFCS grade (1 to 5).
The Gross Motor Function Classification System (GMFCS) is a 5 level clinical classification system that describes the gross motor function of people with cerebral palsy on the basis of self-initiated movement abilities.
Time frame: 6 months maximum (time of surgery)
Proportion of muscles with neuromuscular junctions fragmentation (both qualitative and quantitative) and/or axonal sprouting (qualitative) according to Ashworth score.
The Ashworth scale is bedside tool for assessing muscle spasticity in patients with neurological conditions. Ashworth grades as follows: 0, 1, 1+, 2, 3, 4.
Time frame: 6 months maximum (time of surgery)
Proportion of muscles with neuromuscular junctions fragmentation (both qualitative and quantitative) and/or axonal sprouting (qualitative) according to Tardieu score.
The Tardieu Scale is bedside tool for assessing muscle spasticity in patients with neurological conditions. Tardieu scale grades from 0 to 5.
Time frame: 6 months maximum (time of surgery)
Proportion of muscles with neuromuscular junctions fragmentation (both qualitative and quantitative) and/or axonal sprouting (qualitative) according to the number of toxin injections in the muscle.
Time frame: 6 months maximum (time of surgery)
Proportion of muscles with neuromuscular junctions fragmentation (both qualitative and quantitative) and/or axonal sprouting (qualitative) according to the delay (in months) since the first toxin injection in the muscle
Time frame: 6 months maximum (time of surgery)
Proportion of muscles with neuromuscular junctions fragmentation (both qualitative and quantitative) and/or axonal sprouting (qualitative) according to the total volume (IU) of injected toxin since the first injection in the muscle.
Time frame: 6 months maximum (time of surgery)
Proportion of muscles with neuromuscular junctions fragmentation (both qualitative and quantitative) and/or axonal sprouting (qualitative) according to the brand of the injected toxin (Botox® or Dysport®).
Time frame: 6 months maximum (time of surgery)
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