The transcutaneous electrical nerve stimulation or the TENS unit is a small portable device powered by a battery and used for treating pain. The device utilizes mild safe electrical signals to assist in controlling pain. Tens unit sends electrical signals that are painless through electrodes placed on an individual’s skin to the nerves beneath the skin.
History of TENS Unit Devices
Stone carvings from the Egyptian fifth dynasty show an electric fish somewhat like electric eels, being utilized for pain treatment. This dates back to 2500 BC. This fish has the ability to produce powerful electric shocks. There was a similar use of torpedoes in the Ancient Rome. In 1600, a physician of Queen Elizabeth I discovered the utilization of electrical charges within medicine. There was real progress in the 18th century as the commencement of the discovery of how to create as well as control electricity. In 1745, Kratzetein from Germany outlined static electricity use in treating affected body parts. One Benjamin Franklin from the US utilized electrostatic machines in treating patients in pain in the year 1752. Galvani, an Italian professor of anatomy experimented with electricity effects on muscular movement.
There was a lot of progress in the 19th century. There were inventions of machines using electricity that treated migraines, headaches, as well as other sorts of pain. These static machines were very popular up to the time medical painkillers were discovered. The machines then became absolute. However, in the 1970s, electrical painkilling devices became useful once more by the mainstream with TENS discovery. In 1970, Sjolund and Ericson published a research that compared constant, high-frequency TENS to high-frequency TENS’ bursts. The findings were that the latter provides better pain relieve as well as initiates endorphins’ release into the bloodstream. In the 1990’s, there were developments in electrically conductive polymers as well as self-adhesive electrically conductive gels that facilitated the creation of more user-friendly electrodes. In 1991, Lamers, an Australian company manufactured the first multi-simulator in the world, which integrated a TENS (for relieving pain), with EMS (for strengthening muscles).
Conclusion
Present day’s TENS like created by companies like truMedic have the ability to create a wide range of electrical signals while they can adjust to suit various individual forms of pain as well as applications. Many stimulators feature flexible settings for controlling stimulation amplitude (intensity) by controlling current, voltage, pulse duration for each pulse. Common uses include chronic and acute pain, neuropathies, shoulder syndrome, back and cervical muscular as well as disc syndromes, among other painful conditions.
History of TENS Unit Devices
Stone carvings from the Egyptian fifth dynasty show an electric fish somewhat like electric eels, being utilized for pain treatment. This dates back to 2500 BC. This fish has the ability to produce powerful electric shocks. There was a similar use of torpedoes in the Ancient Rome. In 1600, a physician of Queen Elizabeth I discovered the utilization of electrical charges within medicine. There was real progress in the 18th century as the commencement of the discovery of how to create as well as control electricity. In 1745, Kratzetein from Germany outlined static electricity use in treating affected body parts. One Benjamin Franklin from the US utilized electrostatic machines in treating patients in pain in the year 1752. Galvani, an Italian professor of anatomy experimented with electricity effects on muscular movement.
There was a lot of progress in the 19th century. There were inventions of machines using electricity that treated migraines, headaches, as well as other sorts of pain. These static machines were very popular up to the time medical painkillers were discovered. The machines then became absolute. However, in the 1970s, electrical painkilling devices became useful once more by the mainstream with TENS discovery. In 1970, Sjolund and Ericson published a research that compared constant, high-frequency TENS to high-frequency TENS’ bursts. The findings were that the latter provides better pain relieve as well as initiates endorphins’ release into the bloodstream. In the 1990’s, there were developments in electrically conductive polymers as well as self-adhesive electrically conductive gels that facilitated the creation of more user-friendly electrodes. In 1991, Lamers, an Australian company manufactured the first multi-simulator in the world, which integrated a TENS (for relieving pain), with EMS (for strengthening muscles).
Conclusion
Present day’s TENS like created by companies like truMedic have the ability to create a wide range of electrical signals while they can adjust to suit various individual forms of pain as well as applications. Many stimulators feature flexible settings for controlling stimulation amplitude (intensity) by controlling current, voltage, pulse duration for each pulse. Common uses include chronic and acute pain, neuropathies, shoulder syndrome, back and cervical muscular as well as disc syndromes, among other painful conditions.