Transcutaneous electrical nerve stimulation (TENS) is a term typically referred to the use of nonpharmacologic or noninvasive kind of treatment for neutralizing superficial pains.

How  Transcutaneous electrical nerve stimulation Works


Researches have shown that TENs helps to control pain both over peripheral and also central mechanisms.The central mechanisms include areas of spinal cord and brainstem that are known to incorporate opioid, serotonin and muscaranic receptors which could be effectively stimulated using TENS implementation.

Across peripheral areas TENs may help induce analgesic effects on receptors such as opioid and alpha2
noradrenergic.

The process involves application of very low DC low frequency pulses through electrodes on the patients skin surface for activating the intended pain control.

The method could tried by applying different frequency ranges from as low as 10 Hz up to 50 Hz.

The circuit may be tried with on two modes  the first being in the sensory intensity mode where the patient is able to feel strong effects but without motor contraction sensation, and the second is through high intensity mode in which the motor contractions are induced but without any relative pain or strong sensations.

Typically the high intensity mode is implemented through a high frequency stimulation while the motor intensity is done through a relatively lower frequency electric current.

However researches have indicated that the analgesic effects may be released through any of the above modes regardless of the frequency intensities or variations.

To be more precise, a low frequency TENs may be responsible for initiating the μ-opioid receptors in the spinal cord and brain stem, while a higher frequency TENs could be used to give rise to the activation of δ-opioid receptors around the same areas.

Further developments suggest that the application of TENs may effectively relieve pain due to the actions of serotoninergic, noradrenergic, muscarinic, and γ-aminobutyric acid (GABA)-ergic systems
on the analgesia with the application of both low or high frequency TENs on a patients skin.

 



 

A simple Transcutaneous Nerve Stimulator Circuit may be witnessed in the above figure, using the work horse IC 555 configured in its standard astable mode

P1 is used for producing several ranges of frequency outputs in conjunction with a variations in the pulse widths of the output frequency for the implementing the above explained TENs procedures  T1 is used for producing TENs at the level of the supply voltage for acquiring maximum effectiveness.

The transformer could be any ordinary radio output audio transformer or made by winding 10:100 turns 36 SWG super enameled wire on a small EE ferrite core.

The output of the transformer could be arranged in the form tiny protruding copper prods, not too sharp but sufficient enough for creating a slight digging impression on the skin and may be wrapped on the affected area with some suitable cohesive band

Need Help? Please send your queries through Comments for quick replies!