Classification of Gait Patterns in Cerebral Palsy: Difference between revisions
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In Type 1 hemiplegia there is a `drop foot' which is noted most clearly in the swing phase of gait, due to inability to selectively control the ankle dorsiflexors during this part of the gait cycle. There is no calf contracture and therefore during stance phase, ankle dorsiflexion is relatively normal. In the experience of the author, this gait pattern is rare, unless there has already been a calf lengthening procedure. The only management maybe needed is a leaf spring or hinged ankle foot orthosis (AFO). Spasticity management and contracture surgery are clearly not required. | In Type 1 hemiplegia there is a `drop foot' which is noted most clearly in the swing phase of gait, due to inability to selectively control the ankle dorsiflexors during this part of the gait cycle. There is no calf contracture and therefore during stance phase, ankle dorsiflexion is relatively normal. In the experience of the author, this gait pattern is rare, unless there has already been a calf lengthening procedure. The only management maybe needed is a leaf spring or hinged ankle foot orthosis (AFO). Spasticity management and contracture surgery are clearly not required. | ||
==== Management: ==== | ==== Management: ==== | ||
Orthotic management may include a leaf spring or hinged AFO. | Orthotic management may include a leaf spring or hinged AFO. | ||
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=== Type 2 hemiplegia === | === Type 2 hemiplegia === | ||
Type 2 hemiplegia is by far the most common type in clinical practice. True equinus is noted in the stance phase of gait because of the spasticity and / or contracture of the gastroc-soleus muscles. There are two sub-catagories to type 2 hemiplegic gait patterns, which are: | Type 2 hemiplegia is by far the most common type in clinical practice. True equinus is noted in the stance phase of gait because of the spasticity and / or contracture of the gastroc-soleus muscles. There are two sub-catagories to type 2 hemiplegic gait patterns, which are: | ||
*2a Equinus plus neutral knee and extended hip. | *2a Equinus plus neutral knee and extended hip. | ||
*2b Equinus plus recurvatum knee and extended hip | *2b Equinus plus recurvatum knee and extended hip | ||
There is usually a variable degree of drop foot in swing because of impaired function in tibialis anterior and the ankle dorsiflexors. A pattern of true equinus can be seen, with the ankle in the plantar flexion range through most of the stance phase. The plantar flexion / knee extension couple is over active and the knee may adopt a position of extension or recurvatum. | There is usually a variable degree of drop foot in swing because of impaired function in tibialis anterior and the ankle dorsiflexors. A pattern of true equinus can be seen, with the ankle in the plantar flexion range through most of the stance phase. The plantar flexion / knee extension couple is over active and the knee may adopt a position of extension or recurvatum. | ||
==== Management: ==== | ==== Management: ==== | ||
If there is a mild contracture, supplemental casting can be very effective. The majority of children will also require orthotic support, both to control the tendency to `drop foot‘. Once a significant fixed contracture develops, lengthening of the gastrocnemius and soleus may be indicated. Type 2 hemiplegia with a fixed contracture of the gastroc-soleus constitutes the only indication for isolated lengthening of the tendon achilles. If the knee is fully extended or in recurvatum, then a hinged AFO with an appropriate plantar flexion stop is the most appropriate choice of orthosis. A plantarflexion stop or posterior stop in an AFO is designed to substitute for inadequate strength of the ankle dorsiflexors during swing phase of gait. This stop is effective by limiting the plantarflexion range of motion of the talocrural joint. Older children with progressive valgus deformities are likely to become brace intolerant and require bony surgery. | If there is a mild contracture, supplemental casting can be very effective. The majority of children will also require orthotic support, both to control the tendency to `drop foot‘. Once a significant fixed contracture develops, lengthening of the gastrocnemius and soleus may be indicated. Type 2 hemiplegia with a fixed contracture of the gastroc-soleus constitutes the only indication for isolated lengthening of the tendon achilles. If the knee is fully extended or in recurvatum, then a hinged AFO with an appropriate plantar flexion stop is the most appropriate choice of orthosis. A plantarflexion stop or posterior stop in an AFO is designed to substitute for inadequate strength of the ankle dorsiflexors during swing phase of gait. This stop is effective by limiting the plantarflexion range of motion of the talocrural joint. Older children with progressive valgus deformities are likely to become brace intolerant and require bony surgery. <br> | ||
<blockquote> | <blockquote> | ||
Common characteristics of types 2, 3 and 4 are a limb length discrepancy (hemiplegic leg is shorter)<br> | |||
</blockquote> | </blockquote> | ||
=== Type 3 Hemiplegia === | |||
Type 3 hemiplegia is characterized by gastroc-soleus spasticity or contracture, impaired ankle dorsiflexion in swing and a flexed, `stiff knee gait' as the result of hamstring/quadriceps cocontraction. Management may consist of at a later stage, muscle tendon lengthening for gastroc-soleus contracture. | |||
==== Management:<br> ==== | |||
A solid or hinged AFO may also be helpful; the choice should be according to the integrity of the `plantar-flexion, knee-extension couple'. | |||
=== Type 4 Hemiplegia === | |||
In Type 4 hemiplegia there is much more marked proximal involvement and the pattern is similar to that seen in spastic diplegia. However, because involvement is unilateral, there will be marked asymmetry, including pelvic retraction. In the sagittal plane there is equinus, a flexed stiff knee, a flexed hip and an anterior pelvic tilt. In the coronal plane, there is hip adduction and in the transverse plane, internal rotation. <br> | |||
==== Management: ==== | |||
Management is similar to Type 2 and Type 3 hemiplegia, in respect of the distal problems. However, there is a high incidence of hip subluxation and careful radiographic examination of the hip is important. The adducted and internally rotated hip will usually require lengthening of the adductors and an external rotation osteotomy of the femur. Failure to address the hip adduction and hip internal rotation will usually mean that any distally focused intervention will fail and the overall outcome will be poor.<br><br> | |||
Revision as of 22:58, 15 August 2016
Introduction[edit | edit source]
This page will look at the different types of gait patterns found in people with cerebral palsy, the use of orthosis and the background of use, and interventions which might be used.
Gait Patterns [edit | edit source]
There are a couple of different common gait patterns found in people with cerebral palsy which will be covered in a little more detail below. This page will focus on:
- Spastic Hemiplegia / Unilateral CP
- Bilateral Spastic CP
It will them focus on the different types of gait patterns found within these two groups.
Spastic Hemiplegia / Unilateral CP[edit | edit source]
The most widely accepted classification of gait in spastic hemiplegia is that reported by Winters et al. (1987). They subdivided hemiplegia into four gait patterns based on sagittal plane kinematics. The classification has direct relevance to understanding the gait pattern and management.
- Type 1 –weak or paralysed/silent dorsiflexors (= dropfoot)
- Type 2 – type 1 + triceps surae contracture
- Type 3 – type 2 + hamstrings and/or Rectus Femoris spasticity
- Type 4 – type 3 + spastic hip flexors and adductors
Type 1 Hemiplegia[edit | edit source]
In Type 1 hemiplegia there is a `drop foot' which is noted most clearly in the swing phase of gait, due to inability to selectively control the ankle dorsiflexors during this part of the gait cycle. There is no calf contracture and therefore during stance phase, ankle dorsiflexion is relatively normal. In the experience of the author, this gait pattern is rare, unless there has already been a calf lengthening procedure. The only management maybe needed is a leaf spring or hinged ankle foot orthosis (AFO). Spasticity management and contracture surgery are clearly not required.
Management:[edit | edit source]
Orthotic management may include a leaf spring or hinged AFO.
Type 2 hemiplegia[edit | edit source]
Type 2 hemiplegia is by far the most common type in clinical practice. True equinus is noted in the stance phase of gait because of the spasticity and / or contracture of the gastroc-soleus muscles. There are two sub-catagories to type 2 hemiplegic gait patterns, which are:
- 2a Equinus plus neutral knee and extended hip.
- 2b Equinus plus recurvatum knee and extended hip
There is usually a variable degree of drop foot in swing because of impaired function in tibialis anterior and the ankle dorsiflexors. A pattern of true equinus can be seen, with the ankle in the plantar flexion range through most of the stance phase. The plantar flexion / knee extension couple is over active and the knee may adopt a position of extension or recurvatum.
Management: [edit | edit source]
If there is a mild contracture, supplemental casting can be very effective. The majority of children will also require orthotic support, both to control the tendency to `drop foot‘. Once a significant fixed contracture develops, lengthening of the gastrocnemius and soleus may be indicated. Type 2 hemiplegia with a fixed contracture of the gastroc-soleus constitutes the only indication for isolated lengthening of the tendon achilles. If the knee is fully extended or in recurvatum, then a hinged AFO with an appropriate plantar flexion stop is the most appropriate choice of orthosis. A plantarflexion stop or posterior stop in an AFO is designed to substitute for inadequate strength of the ankle dorsiflexors during swing phase of gait. This stop is effective by limiting the plantarflexion range of motion of the talocrural joint. Older children with progressive valgus deformities are likely to become brace intolerant and require bony surgery.
Common characteristics of types 2, 3 and 4 are a limb length discrepancy (hemiplegic leg is shorter)
Type 3 Hemiplegia[edit | edit source]
Type 3 hemiplegia is characterized by gastroc-soleus spasticity or contracture, impaired ankle dorsiflexion in swing and a flexed, `stiff knee gait' as the result of hamstring/quadriceps cocontraction. Management may consist of at a later stage, muscle tendon lengthening for gastroc-soleus contracture.
Management:
[edit | edit source]
A solid or hinged AFO may also be helpful; the choice should be according to the integrity of the `plantar-flexion, knee-extension couple'.
Type 4 Hemiplegia[edit | edit source]
In Type 4 hemiplegia there is much more marked proximal involvement and the pattern is similar to that seen in spastic diplegia. However, because involvement is unilateral, there will be marked asymmetry, including pelvic retraction. In the sagittal plane there is equinus, a flexed stiff knee, a flexed hip and an anterior pelvic tilt. In the coronal plane, there is hip adduction and in the transverse plane, internal rotation.
Management:[edit | edit source]
Management is similar to Type 2 and Type 3 hemiplegia, in respect of the distal problems. However, there is a high incidence of hip subluxation and careful radiographic examination of the hip is important. The adducted and internally rotated hip will usually require lengthening of the adductors and an external rotation osteotomy of the femur. Failure to address the hip adduction and hip internal rotation will usually mean that any distally focused intervention will fail and the overall outcome will be poor.
