If your child’s body seems to move in ways they cannot control, twisting, writhing, or suddenly stiffening during everyday activities, you may be seeing the defining features of dyskinetic cerebral palsy. Why can’t my child hold still? Why do movements get worse when they try harder? Dyskinetic CP is one of the least understood subtypes, and parents often struggle to find clear explanations. This guide is designed to change that.

What Is Dyskinetic Cerebral Palsy?

Dyskinetic cerebral palsy is the second most common type of CP, accounting for approximately 15% of all cases according to the Surveillance of Cerebral Palsy in Europe (SCPE) classification. It is defined by involuntary, uncontrolled movements that interfere with voluntary action. The underlying cause is damage to the basal ganglia, a group of deep brain structures responsible for regulating the coordination, timing, and smoothness of movement.

The most distinctive feature of dyskinetic CP is fluctuating muscle tone. Unlike spastic CP, where muscles are consistently too tight, children with dyskinetic CP experience tone that shifts between too high (hypertonia) and too low (hypotonia), sometimes within seconds. This fluctuation makes movements unpredictable and difficult to control. Involuntary movements often intensify during stress, excitement, fatigue, or when the child attempts purposeful action, and they typically decrease or disappear during sleep.

Dystonia vs. Athetosis: The Two Subtypes

Dyskinetic CP is divided into two main subtypes based on the pattern of involuntary movement. Many children have features of both.

FeatureDystoniaAthetosis
Movement patternSustained, involuntary muscle contractions causing twisting or repetitive posturesSlow, continuous, writhing movements that flow from one position to another
Body areas most affectedTrunk, limbs; can be focal (one area) or generalizedHands, fingers, feet, face, and tongue primarily
Triggered byAttempts at voluntary movement, emotional stress, fatiguePresent at rest; worsens with attempted movement
At restMay have abnormal postures even at restContinuous low-level movement; stillness is difficult
During sleepTypically absentTypically absent
Impact on functionDifficulty initiating and sustaining postures; makes sitting and standing unstableDifficulty with fine motor control; handwriting, feeding, and object manipulation are affected
Why is the distinction important? Dystonia and athetosis respond differently to treatment. Some medications that help dystonia (such as trihexyphenidyl) may not help athetosis, and vice versa. Accurate classification by a pediatric neurologist with experience in movement disorders guides the most effective treatment approach.
~15%Of All CP Cases
Basal GangliaBrain Area Affected
2Main Subtypes
G80.3ICD-10 Code

How Dyskinetic CP Differs from Spastic CP

Understanding the difference matters because the treatment approaches are fundamentally different:

  • Muscle tone: Spastic CP involves consistently increased tone (stiffness). Dyskinetic CP involves fluctuating tone that shifts between too high and too low.
  • Movement quality: Spastic CP restricts movement through tightness. Dyskinetic CP disrupts movement through unwanted, involuntary activity.
  • Brain injury location: Spastic CP results from damage to the motor cortex or white matter. Dyskinetic CP results from damage to the basal ganglia.
  • Cognition: Many children with dyskinetic CP have preserved intelligence, sometimes trapped behind severe motor impairment. This is less consistently the pattern in severe spastic CP (quadriplegia).
  • Treatment response: Spastic CP responds to stretching, Botox, and antispasticity medications. Dyskinetic CP requires medications that target the basal ganglia pathways and may benefit from deep brain stimulation.
Important: Some children have mixed CP, combining features of both spastic and dyskinetic types. This is not unusual and requires a treatment plan that addresses both components. If your child seems to have both stiffness and involuntary movements, ask your neurologist about the possibility of mixed CP.

What Causes Dyskinetic Cerebral Palsy?

The most common causes involve injury to the basal ganglia:

  • Severe birth asphyxia and HIE: Acute, profound oxygen deprivation during delivery preferentially damages the basal ganglia and thalamus. This “acute total” or “acute near-total” pattern of HIE is the leading cause of dyskinetic CP. Research by Martinez-Biarge et al. showed that basal ganglia injury on MRI is the strongest predictor of dyskinetic motor outcomes.
  • Kernicterus: Severe, untreated neonatal jaundice allows bilirubin to accumulate in the basal ganglia, causing permanent damage. Kernicterus was historically a major cause of dyskinetic CP and remains relevant when newborn jaundice monitoring or treatment is inadequate.
  • Neonatal stroke: Strokes affecting the deep brain structures can cause focal dyskinetic symptoms.
  • Genetic and metabolic disorders: Rare genetic conditions affecting the basal ganglia can mimic or cause dyskinetic CP. A levodopa trial is often recommended to rule out dopa-responsive dystonia, a treatable genetic condition.
Did Your Child Experience Severe Birth Asphyxia?

Basal ganglia injury from oxygen deprivation is the leading cause of dyskinetic CP. If medical errors contributed, your family may have options.

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How Is Dyskinetic CP Treated?

Treating dyskinetic CP is more complex than treating spastic CP because the involuntary movements do not respond to standard antispasticity approaches. Management requires a multidisciplinary team led by a pediatric neurologist experienced in movement disorders.

1
Physical and occupational therapy. Focus on functional movement training, postural stability, and adaptive equipment. Therapy for dyskinetic CP emphasizes working with the involuntary movements rather than against them, finding positions and strategies that minimize unwanted movement and maximize voluntary control.
2
Speech therapy and AAC. Because oral motor muscles are often affected, speech may be significantly impaired even when cognition is intact. Augmentative and alternative communication (AAC) devices, from simple communication boards to sophisticated eye-tracking systems, can be transformative for children whose intelligence far exceeds their ability to speak.
3
Medications. Trihexyphenidyl (an anticholinergic) is often the first-line medication for generalized dystonia. A levodopa trial is recommended to rule out dopa-responsive dystonia. Baclofen (oral or intrathecal) may help reduce tone. Botulinum toxin injections can target specific dystonic muscles.
4
Deep brain stimulation (DBS). For children with severe, medication-resistant dystonia, DBS surgery places electrodes in the globus pallidus internus (part of the basal ganglia) to modulate abnormal signals. DBS has shown the strongest results in children with dystonia from genetic causes, with more variable outcomes in HIE-related dystonia, though some children benefit significantly.
5
Positioning and adaptive equipment. Specialized seating systems, standing frames, and postural supports help manage fluctuating tone and provide stable positioning for activities like eating, learning, and communication.
Intelligence is often preserved. One of the most important things for parents to understand is that many children with dyskinetic CP have typical or near-typical intelligence. The motor impairment can make it appear otherwise, especially when speech is affected. Never assume that a child who cannot speak cannot think. Invest in communication access early.
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