Postherpetic neuralgia  is neuropathic pain that occurs due to damage to a peripheral nerve caused by the reactivation of the varicella zoster virus (herpes zoster, also known as shingles). Typically, the nerve pain (neuralgia) is confined to an area of skin innervated by a single sensory nerve, which is known as a dermatome. PHN is defined as dermatomal nerve pain that persists for more than 90 days after an outbreak of herpes zoster affecting the same dermatome.Several types of pain may occur with PHN including continuous burning pain, episodes of severe shooting or electric-like pain, and a heightened sensitivity to gentle touch which would not otherwise cause pain (mechanical allodynia) or to painful stimuli (hyperalgesia).Abnormal sensations and itching may also occur.

SYMPTOMS

• With resolution of the herpes zoster eruption, pain that continues for three months or more is defined as postherpetic neuralgia.
• Pain is variable, from discomfort to very severe, and may be described as burning, stabbing, or gnawing.

SIGNS

• Area of previous herpes zoster may show evidence of cutaneous scarring.
• Sensation may be altered over the areas involved, in the form of either hypersensitivity or decreased sensation.
• In rare cases, the patient might also experience muscle weakness, tremor, or paralysis if the nerves involved also control muscle movement.

PATHOPHYSIOLOGY

Postherpetic neuralgia is thought to be due to nerve damage caused by herpes zoster. The damage causes nerves in the affected dermatomic area of the skin to send abnormal electrical signals to the brain. These signals may convey excruciating pain, and may persist or recur for months, years, or for life.

A key factor in the neural plasticity underlying neuropathic pain is altered gene expression in sensory dorsal root ganglia neurons. Injury to sensory nerves induces neurochemical, physiological, and anatomical modifications to afferent and central neurons, such as afferent terminal sprouting and inhibitory interneuron loss. Following nerve damage, NaCl channel accumulation causes hyperexcitability, and downregulation of the TTX-resistant Nav1.8 (sensory neuron specific, SNS1) channel and upregulation of TTX-sensitive Nav1.3 (brain type III) and TRPV1 channels. These changes contribute to increased NMDA glutamate receptor-dependent excitability of spinal dorsal horn neurons and are restricted to the ipsilateral (injured) side. A combination of these factors could contribute to the neuropathic pain state of postherpetic neuralgia.