Ascorbic Acid Treatment in CMT1A Trial (AATIC)

• Change in motor nerve conduction velocity of the median nerve after 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  

• Change in minimal F response latency of the median nerve after 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  
• Changes in compound muscle action potential amplitude and area after 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  
• Change in motor unit number estimation of the abductor pollicis brevis muscle after 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  
• Changes in handgrip strength, strength of armflexors, foot dorsiflexors, knee extensors and hip flexors after 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  
• Change in overall disability sum score after 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  
• Change in AMC Linear Disability Scale score after 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  
• Evaluation of serum ascorbic acid concentrations during 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  
• Evaluation of side effects during 1 year [ Time Frame: 1 year ] [ Designated as safety issue: No ]
  

Charcot-Marie-Tooth type 1A (CMT1A), or hereditary motor and sensory neuropathy type Ia (HMSN Ia), is an autosomal dominant disease, most often caused by a 1.5 Mb duplication of chromosome 17, giving rise to three copies of the peripheral myelin protein 22 gene (PMP22). Mutations in this gene rarely cause CMT1A. It is a primarily demyelinating neuropathy, as has been shown in nerve conduction studies and in histopathological investigations. The conduction velocities of peripheral nerves are already slowed at the age of five years. Longitudinal data show that these conduction velocities do not change during life, indicating that the degree of demyelination is rather constant during life.

CMT1A is characterized clinically by distal muscle weakness and wasting, legs more than arms, impaired distal sensation, and reduced or absent reflexes. Moreover, foot and hand deformities are often encountered. In childhood, disease progression has been shown. In adults, there are indications for disease progression, but properly conducted longitudinal studies are awaited. Cross-sectional studies show that disease severity in adults is variable: a group of CMT1A patients is asymptomatic (5-10%), whereas other patients are wheelchair dependent (5-10%), still most have the classical CMT phenotype. Therapy is symptomatic and aims at maintaining functional possibilities and learning compensation mechanisms. There is no medication available that stabilizes or improves the clinical signs and symptoms.

Ascorbic acid is needed in in vitro studies for proper myelination of axons (in cultures containing serum). Recently, in a mouse model for CMT1A it has been shown that ascorbic acid improves the CMT1A phenotype. Mice (2-4 months old) treated with ascorbic acid once a week during three months showed an increase in the percentage of myelinating nerve fibers and showed better results in locomotor tests.

In this phase 2 study we will study the efficacy and safety of ascorbic acid in young patients with CMT1A. We will investigate whether ascorbic acid induces remyelination by measuring the nerve conduction of a peripheral nerve during a one year study period. CMT1A patients aged 12 years or older may cooperate sufficiently in nerve conduction studies. We include young patients, as clinical signs and symptoms especially develop relatively early in life. These signs and symptoms are due to axonal dysfunction, secondary to the demyelination. This is why we will investigate additionally whether there is an effect of ascorbic acid treatment on axonal function, strength and disabilities.