Treatment blocks pain without disrupting other functions

[Discussing a report by Harvard Medical School Researchers published October 4, 2007 in the journal Nature.* Click here for the abstract.]

OCT 4, 2007. A combination of two drugs can selectively block pain-sensing neurons in rats without impairing movement or other sensations such as touch, according to a new study by National Institutes of Health (NIH)-supported investigators. The finding suggests an improved way to treat pain from childbirth and surgical procedures. It may also lead to new treatments to help the millions of Americans who suffer from chronic pain.

The study used a combination of capsaicin — the substance that makes chili peppers hot — and a drug called QX-314. This combination exploits a characteristic unique to pain-sensing neurons, also called nociceptors, in order to block their activity without impairing signals from other cells. In contrast, most pain relievers used for surgical procedures block activity in all types of neurons. This can cause numbness, paralysis and other nervous system disturbances.

“The Holy Grail in pain science is to eliminate pathologic pain without impairing thinking, alertness, coordination, or other vital functions of the nervous system. This finding shows that a specific combination of two molecules can block only pain-related neurons. It holds the promise of major future breakthroughs for the millions of persons who suffer with disabling pain,” says Story C. Landis, Ph.D., director of the National Institute of Neurological Disorders and Stroke (NINDS) at the NIH, which funds the investigators’ research along with the National Institute of Dental and Craniofacial Research (NIDCR) and the National Institute of General Medical Sciences (NIGMS). NINDS and NIDCR are co-chairs of the NIH Pain Consortium. The study appears in the October 4, 2007, issue of Nature.*

Lidocaine, the most commonly used local anesthetic, relieves pain by blocking electric currents in all nerve cells. Although it is a lidocaine derivative, QX-314 alone cannot get through cell membranes to block their electrical activity.

That’s where capsaicin comes in. It opens large pores called TRPV1 channels — found only within the cell membrane of pain-sensing neurons. With these channels propped open by capsaicin, QX-314 can pass through and selectively block the cells’ activity.

The research team, led by Clifford J. Woolf, M.D., Ph.D., of Massachusetts General Hospital and Harvard Medical School and Bruce Bean, Ph.D., at Harvard Medical School, tested the combination of capsaicin and QX-314 in neurons isolated in Petri dishes and found that it blocked pain-sensing neurons without affecting other nerve cells. They then injected the drugs into the paws of rats and found that the treated animals could tolerate much more heat than usual. They also injected the two drugs near the sciatic nerve that runs down the hind leg. The treated rats did not show any signs of pain, and five of the six animals continued to move and behave normally. This showed that the drugs could block pain without impairing motor neurons that control movement.

The drug combination took half an hour to fully block pain in the rats. However, once it began, the pain relief lasted for several hours.

“Current nerve blocks cause paralysis and total numbness,” Dr. Woolf says. “This new strategy could profoundly change pain treatment in the perioperative setting.”

The treatment tested in this study is unique in that it uses a type of ion channel (TRPV1 channels) as an avenue to deliver medication. Ion channels are pores in the cell membrane that control the flow of electrically charged ions in and out of cells. “I’m not aware of any other strategy that uses a channel within cells to deliver a drug to a select set of cells,” Dr. Woolf says. The strategy builds on research done since the 1970’s, largely supported by NIH, that shows how electrical signaling in the nervous system results from expression of dozens of different types of ion channels. Some of these ion channels are found only in specific types of neurons.

“This project is a nice illustration of how research trying to understand very basic biological principles can have practical applications,” says Dr. Bean. This type of treatment has great potential to improve pain treatment during childbirth, dental procedures, and surgery, the researchers say. “Surgical pain is the obvious first application for this type of treatment,” Dr. Woolf says. However, similar therapies might eventually be useful for treating chronic pain, he adds. Chronic pain continues for weeks, months, or even years and can cause severe problems, and is often resistant to standard medical treatments.

While the researchers focused on finding a treatment for pain, this strategy might also be useful for treating itch from eczema, poison ivy rashes, and other conditions, Dr. Woolf says. Like pain sensations, itch signals come from nociceptors. One problem with the combination treatment is that the capsaicin can cause unpleasant burning sensations until the QX-314 takes effect, Dr. Woolf says. Administering the QX-314 ten minutes before the capsaicin minimized this problem in rats. The investigators are now looking for ways to open the TRPV1 channels without the burning sensations, perhaps by finding an alternative to capsaicin. They also hope to find ways of prolonging the pain relief. Eventually, they might be able to develop pills that will stop pain signals without requiring injections, Dr. Woolf adds.

About the NINDS

The NINDS is the nation’s primary funder of research on the brain and nervous system. More information about pain and other neurological disorders can be found on the NINDS web site,


*Binshtok AM, Bean BP, Woolf CJ. “Inhibition of nociceptors by TRPV1-mediated entry of impermeant sodium channel blockers.” Nature, October 4, 2007, Vol. 449, No. 7162, pp. 607-610.

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One thought on “Treatment blocks pain without disrupting other functions”

  1. loveme2 says:

    Good Morning, Sat. Oct 13, 07

    I was reading an article on the subject of Nerve Blocks under the names of Marcaine,Procaine, and another one is Lidocaine.
    I would like to tell you a long story about these drugs, but i won’t. I will just say a few things.Please get as many different opinions as possible before getting your first Tx if after everything you hear and read about these drugs are not desireable for anyone..Talk about paralizing.

    One Dr. had me booked into the hospital for Lidocaine Injections so fast that my head spined and at that point i made the desicion to endure the pain until i find other means to get this under control.
    I can say for sure through direct injections of Marcaine and Procaine, 6 needles, everyweek for over 1 yr and each visit i had to pay out of my own pocket $5.00 that does not seem like alot, please do the math on ODSP income.
    52 x $5.00 = aprox: $260 give or take a few $$, and the relief i was to get, The anxiety, the stabbing of 6 needles being jammed in , and did that ever hurt..and after all that , by the time i arrived home.The pain was back, and now also the pain from the injections.So there you have it..I stoped going, the pain con’t, and now even worse and the Dr.’s have given up..

    When i was seeing that Dr. He had a woman patient who started off walking, i don’t know her story, but she was in a wheelchair under Lidocaine injections , that scared me. for all i could see was me , sitting in that chair.
    So does it work ?? you and only you know what your able to cope with and also what is the best for YOU.



    Have a good day. and keep moving.


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