J Neurol Neurosurg Psychiatry 84:806-812 doi:10.1136/jnnp-2012-304576
  • Neuromuscular
  • Research paper

Pathophysiology of HNPP explored using axonal excitability

  1. David Burke
  1. Institute of Clinical Neuroscience, Royal Prince Alfred Hospital, and University of Sydney, Sydney, Australia
  1. Correspondence to Dr Stacey K Jankelowitz, Department of Neurology, Institute of Clinical Neuroscience, Royal Prince Alfred Hospital, and University of Sydney, Level 2, Medical Foundation Building, 92 Parramatta Road, Camperdown, Sydney, NSW 2050, Australia; stacey.jankelowitz{at}
  • Received 14 November 2012
  • Revised 20 January 2013
  • Accepted 21 January 2013
  • Published Online First 16 February 2013


Objective Hereditary liability to pressure palsies (HNPP) is an autosomal dominant disorder of myelination resulting in susceptibility to pressure palsies from compression or stretching of peripheral nerves.

Patients and methods This study examined axonal excitability at two sites (one distal and one proximal) in five patients with biopsy and genetically proven HNPP to understand the pathophysiology of the disease. Comparisons were made with age-matched control subjects as well as five Charcot-Marie-Tooth type 1A patients to contrast the findings and explain the different phenotypes of diseases affecting the same gene.

Results Changes in axonal excitability were found in HNPP subjects, but these were not uniform along the nerve: at the wrist there were prominent alterations in threshold electrotonus, whereas at the elbow there were only subtle alterations in the recovery cycle and the response to strong long-lasting hyperpolarisation. Threshold was raised at both sites, but the nerves were probably not hyperpolarised. Not unexpectedly, changes in CMT1A subjects were more marked than those in HNPP subjects and were uniform along the nerve.

Conclusions Structural abnormalities at the node of Ranvier are sufficient to explain the changes in axonal excitability in HNPP, and these abnormalities would predispose the nerves to conduction block when subjected to pressure or stretch.

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