Why wool sweaters cause itchiness
- Army used 'chilly grenades' to catch Pakistani militant Sajjad Ahmed
- IPL Governing Council proposes two new teams to replace CSK, RR
- Central govt announces 98 Smart Cities, Naidu terms them 'safe investments for pvt firms'
- Sheena Bora murder: Police meet Mikhail Bora; five-day transit remand for Sanjeev Khanna
- ISRO launches rocket carrying GSAT-6 from Sriharikota
In a new study, researchers have uncovered strong evidence that mice have a specific set of nerve cells that signal itch but not pain, a finding that may settle a decades-long debate about these sensations, and, if confirmed in humans, help in developing treatments for chronic itch, including itch caused by life-saving medications.
At the heart of this discovery by Johns Hopkins researchers, is a type of sensory nerve cell whose endings receive information from the skin and relay it to other nerves in the spinal cord, which then coordinates a response to the stimulus.
A report on the research suggests that even when the itch-specific nerve cells receive stimuli that are normally pain-inducing, the message they send isn't "That hurts!" but rather "That itches!"
Pain and itch are both important sensations that help organisms survive. And pain is arguably more important because it tells us to withdraw the pained body part in order to prevent tissue damage. But itch also warns us of the presence of irritants, as in an allergic reaction.
However, "when either of these sensations continues for weeks or months, they are no longer helpful. We even see patients stop taking life-saving medications because they cause such horrible itchiness all over," says Xinzhong Dong, a Howard Hughes early career scientist and associate professor of neuroscience at the Institute for Basic Biomedical Sciences at the Johns Hopkins University School of Medicine.
"And sometimes when we try to suppress chronic pain, with morphine for example, we end up causing chronic itchiness. So the two sensations are somehow related, and this study has begun to untangle them," he said.
Because nerve cells send their messages as electrical currents that flow through them just as they would through wires, scientists can plug tiny monitors into individual nerve cells to detect the moment of stimulation.