What is transcutaneous electrical nerve stimulation?

Transcutaneous electrical nerve stimulation (TENS) involves the passage of low-voltage electrical current to electrodes pasted on the skin. The current is delivered through wires from a small battery-powered power unit. The frequency and intensity of this treatment depend on the specific condition and treatment goals. Accordingly, the electrode pads are placed in various sites on the body. Frequency, intensity, and site of application are believed to be pivotal to achieving optimal effects during and after stimulation.

Also known as TENS, Transcutaneous Electric Nerve Stimulation, Transcutaneous Electrical Stimulation, Transcutaneous Nerve Stimulation, Percutaneous Electrical Nerve Stimulation, Electroanalgesia, Transcutaneous Electric Stimulation, Percutaneous Electric Nerve Stimulation, Transdermal Electrostimulation, Analgesic Cutaneous Electrostimulation
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Low-Grade Gliomas

Low-grade gliomas (glee-O-mahs) are tumors (lumps) in the brain and spinal cord. The brain and spinal cord are made up of neurons (nerve cells). Neurons carry and transmit electrical signals (messages) within the nervous system. Glial cells support and nourish the neurons. Gliomas form when glial cells grow and divide without control or order. Gliomas may be grouped into grades based on how the tumor cells look under a microscope. The grade of glioma will tell how many abnormal cells are present in the tumor. Abnormal cells may range from grades 1 and 2 (low-grade) to grades 3 and 4 (high-grade).


Transcutaneous electrical nerve stimulation - Wikipedia, the free ...

Transcutaneous electrical nerve stimulation (acronym TENS) is the use of electric current produced by a device to stimulate the nerves for therapeutic ...


Transcutaneous Electrical Nerve Stimulation: eMedicine Clinical ...

Apr 13, 2010 ... Overview: Transcutaneous electrical nerve stimulation (TENS) currently is one of the most commonly used forms of electroanalgesia.


Transcutaneous Electrical Nerve Stimulation

Nov 1, 2008 ... Transcutaneous electrical nerve stimulation (TENS) is a method of pain relief in which a special device transmits low-voltage electrical ...


Transcutaneous Electrical Nerve Stimulation (TENS) Therapy: Uses ...

Jun 30, 2009 ... What is TENS?Transcutaneous electrical nerve stimulation (TENS) is a therapy that uses low - voltage electrical current for pain relief.


Transcutaneous electrical nerve stimulation (TENS) for chronic pain.

by D Carroll - 2001 - Cited by 104 - Related articles



Apr 16, 2010 ... Transcutaneous electronic nerve stimulation (TENS) is a method of therapy that may be used to treat nerve pain. It works by inhibiting pain ...


If you do not like the idea of using medication to ease period pain, a transcutaneous electrical nerve stimulation (TENS) machine is a possible alternative option. The device works by work by giving out a small electrical current that interferes with the nerve's pain signals. However, you cannot get these on the NHS.



Neuritis is the inflammation of a nerve or nerves, usually associated with a degenerative process with neuralgia of the affected area. Neuralgia is severe sharp pain along the course of a nerve.


Transcutaneous Electrical Nerve Stimulation - What Is ...

Mar 7, 2008 ... Transcutaneous electrical nerve stimulation (TENS) is used to treat chronic pain, such as osteoarthitis. The effectiveness of transcutaneous ...


Vagus nerve stimulation
Vagus nerve stimulation is a neurological procedure that sends electrical impulses into your brain in an effort to improve chronic depression symptoms. Vagus nerve stimulation is one of several newer types of brain stimulation methods designed to treat depression when standard treatment hasn't worked. Vagus nerve stimulation is sometimes called vagal nerve stimulation.

Transcranial magnetic stimulation
Transcranial magnetic stimulation is a procedure that uses magnetic fields to stimulate nerve cells in the brain to improve symptoms of depression. Transcranial magnetic stimulation is one of the newer types of brain-stimulation methods designed to treat depression when standard treatment hasn't worked.

SURVANTA can rapidly affect oxygenation and lung compliance. Therefore, its use should be restricted to a highly supervised clinical setting with immediate availability of clinicians experienced with intubation, ventilator management, and general care of premature infants. Infants receiving SURVANTA should be frequently monitored with arterial or transcutaneous measurement of systemic oxygen and carbon dioxide.

Deep brain stimulation
Deep brain stimulation is a highly experimental neurosurgical treatment for chronic depression in which the brain is stimulated with electrical impulses. Although it's been approved for several other conditions, deep brain stimulation hasn't been approved by the Food and Drug Administration (FDA) for depression treatment and is in the early stages of research. Requiring brain surgery, deep brain stimulation is the most invasive form of brain stimulation treatment for depression.

Nerve conduction velocity
Nerve conduction velocity (NCV) is a test of the speed of electrical signals through a nerve.

Caloric stimulation
Caloric stimulation is a test which uses differences in temperature to diagnose ear nerve damage.

Guillain-Barre Syndrome
Guillain-Barre syndrome is a nerve disorder. It is an acute and rapidly progressive inflammation of nerves that causes loss of sensation and muscle weakness. This syndrome causes the destruction, removal, or loss of the myelin sheath of a nerve. Myelin is the substance of the cell membrane that coils to form the myelin sheath. The myelin sheath serves as an electrical insulator to nerve fibers.

Electromyography, or EMG, involves testing the electrical activity of muscles. Often, EMG testing is performed with another test that measures the conducting function of nerves. This is called a nerve conduction study. Because both tests are often performed at the same office visit and by the same personnel, the risks and procedures generally apply to both tests. Muscular movement involves the action of muscles and nerves and needs an electrical current. This electrical current is much weaker than the one in your household wiring.

An audiology exam tests your ability to hear sounds. Sounds vary based on their loudness (intensity) and the speed of sound wave vibrations (tone). Hearing occurs when sound waves are converted into electrical energy, which stimulates the nerves of the inner ear. Eventually the sound travels along nerve pathways to the brain. Sound waves can travel to the inner ear through the ear canal, eardrum, and bones of the middle ear (air conduction), or through the bones around and behind the ear (bone conduction). The INTENSITY of sound is measured in decibels (dB): A whisper is about 20 dB Loud music (some concerts) is around 80 - 120 dB A jet engine is about 140 - 180 dB Usually, sounds greater than 85 dB can cause hearing loss in a few hours. Louder sounds can cause immediate pain, and hearing loss can develop in a very short time. The TONE of sound is measured in cycles per second (cps) or Hertz: Low bass tones range around 50 - 60 Hz Shrill, high-pitched tones range around 10,000 Hz or higher The normal range of human hearing is about 20 Hz - 20,000 Hz. Some animals can hear up to 50,000 Hz. Human speech is usually 500 - 3,000 Hz.

Brachial plexus injury
To help diagnose the extent and severity of a brachial plexus injury, you may have one or more of the following tests: Electromyography. This test checks the health of the nerves that help move your muscles. After small needle electrodes are inserted through your skin into a muscle, you're asked to contract that muscle. The amount of electrical activity generated provides information about how well the muscle responds when its nerves are stimulated. You may feel a little pain when the electrodes are inserted, but most people can complete the test without much discomfort. Nerve conduction studies. These measure how quickly impulses are conducted through a nerve. Your nerve is stimulated through...

Foot drop
Foot drop is usually diagnosed during a physical exam. Be prepared to describe how the problem began, as well as any other signs or symptoms you're experiencing. In some cases, additional testing is recommended: Magnetic resonance imaging (MRI). This test uses a magnetic field and radio waves to create cross-sectional images of certain parts of the body., Electromyography (EMG) and nerve conduction studies. These tests measure electrical activity in the muscles and nerves.