EMG or Electromyography

Electromyography is a test that measures muscle response to nervous stimulation. A needle electrode is inserted through the skin into the muscle. Each muscle fiber that contracts will produce an action potential. The presence, size, and shape of the wave form of the action potential produced on the oscilloscope, provides information about the ability of the muscle to respond to nervous stimulation.

Alternative names   

EMG; Myogram


Electromyography is a test that assesses the health of the muscles and the nerves controlling the muscles.

How the test is performed   

For an EMG, a needle electrode is inserted through the skin into the muscle. The electrical activity detected by this electrode is displayed on an oscilloscope, and may be heard through a speaker.

After placement of the electrodes, you may be asked to contract the muscle (for example, by bending your arm). The presence, size, and shape of the wave form -- the action potential -- produced on the oscilloscope provide information about the ability of the muscle to respond when the nerves are stimulated.

A nerve conduction velocity test is usually performed in conjunction with an EMG.

How to prepare for the test   

No special preparation is usually necessary. To ensure accurate readings, avoid using any creams or lotions on the day of the test.

How the test will feel   

There may be some discomfort with insertion of the electrodes (similar to an intramuscular injection). Afterward, the muscle may feel tender or bruised for a few days.

Why the test is performed   

EMG is most often used when people have symptoms of weakness and examination shows impaired muscle strength. It can help to differentiate primary muscle conditions from muscle weakness caused by neurologic disorders.

Normal Values   

Muscle tissue is normally electrically silent at rest. Once the insertion activity (caused by the trauma of needle insertion) quiets down, there should be no action potential on the oscilloscope. When the muscle is voluntarily contracted, action potentials begin to appear. As contraction is increased, more and more muscle fibers produce action potentials until a disorderly group of action potentials of varying rates and amplitudes (complete recruitment and interference pattern) appears with full contraction.

What abnormal results mean   

Disorders or conditions that cause abnormal results include the following:

  • Polymyositis

  • Denervation (reduced nervous stimulation)

  • Carpal tunnel syndrome

  • Amyotrophic lateral sclerosis (ALS)

  • Myopathy (muscle degeneration, may be caused by a number of disorders, including muscular dystrophy)

  • Myasthenia gravis

  • Alcoholic neuropathy

  • Axillary nerve dysfunction

  • Becker's muscular dystrophy

  • Brachial plexopathy

  • Cervical spondylosis

  • Common peroneal nerve dysfunction

  • Dermatomyositis

  • Distal median nerve dysfunction

  • Duchenne muscular dystrophy

  • Facioscapulohumeral muscular dystrophy (Landouzy-Dejerine)

  • Familial periodic paralysis

  • Femoral nerve dysfunction

  • Friedreich's ataxia

  • Guillain-Barre

  • Lambert-Eaton Syndrome

  • Mononeuritis multiplex

  • Mononeuropathy

  • Peripheral neuropathy

  • Radial nerve dysfunction

  • Sciatic nerve dysfunction

  • Sensorimotor polyneuropathy

  • Shy-Drager syndrome

  • Thyrotoxic periodic paralysis

  • Tibial nerve dysfunction

  • Ulnar nerve dysfunction

What the risks are   

  • Bleeding (minimal)

  • Infection at the electrode sites (minimal risk)

Special considerations   

Trauma to the muscle from EMG may cause false results on blood tests (such as creatine kinase), a muscle biopsy, or other tests.