Portable laser and process for pain research
First Claim
1. A local analgesia and pain relief treatment process for stimulating nerves to deactivate TRPV1 or TRPV2 positive nerve cells, comprising steps of:
- A) generating pulses of infrared light with a diode laser,B) directing said pulses to illuminate a target skin region containing at least one or more TRPV1 or TRPV2 positive nerve cells, to deliver laser energy to the target skin region producing measurable temperature increases in the skin surface temperature in response to each pulse defining for each pulse a maximum skin surface temperature,C) monitoring the skin surface temperature of the target skin region with an infrared temperature sensor, andD) controlling said diode laser to produce multiple laser pulses with duration of between 50 and 200 ms and repetition rates between 0.1 and 4 pulses per second and with pulse energies chosen to apply sufficient heat energy in the target skin region to maintain the maximum surface temperature of the target skin region at approximately 70 C to 75 C for at least nine seconds, producing controlled pain in the target skin region to thereby deactivate the TRPV1 or TRPV2 positive nerve cells to provide local analgesia or pain relief to the illuminated skin region.
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Accused Products
Abstract
A process and laser system for in vitro and in vivo pain research, pain clinical testing and pain management. In preferred embodiments of the present invention a diode laser operating at a 980 nm wavelength is used to produce warmth, tickling, itching, touch, burning, hot pain or pin-prick pain. The device and methods can be used for stimulation of a single nerve fiber, groups of nerve fibers, nerve fibers of single type only as well as more the one type of nerve fibers simultaneously. The present invention is especially useful for research of human/animal sensitivity, pain management, drug investigation and testing, and psychophysiology/electrophysiology studies. The device and methods permit non-contact, reproducible and controlled tests that avoid risk of skin damage. Applicant an his fellow workers have shown that tests with human subjects with the process and laser of the present invention correlate perfectly with laboratory tests with nerve fibers of rats. The device and the methods can be applied in a wide variety of situations involving the study and treatment of pain. Preferred embodiments of the present invention provide laser systems and techniques that permit mapping and single mode activation of C fibers and A-delta fibers.
24 Citations
10 Claims
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1. A local analgesia and pain relief treatment process for stimulating nerves to deactivate TRPV1 or TRPV2 positive nerve cells, comprising steps of:
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A) generating pulses of infrared light with a diode laser, B) directing said pulses to illuminate a target skin region containing at least one or more TRPV1 or TRPV2 positive nerve cells, to deliver laser energy to the target skin region producing measurable temperature increases in the skin surface temperature in response to each pulse defining for each pulse a maximum skin surface temperature, C) monitoring the skin surface temperature of the target skin region with an infrared temperature sensor, and D) controlling said diode laser to produce multiple laser pulses with duration of between 50 and 200 ms and repetition rates between 0.1 and 4 pulses per second and with pulse energies chosen to apply sufficient heat energy in the target skin region to maintain the maximum surface temperature of the target skin region at approximately 70 C to 75 C for at least nine seconds, producing controlled pain in the target skin region to thereby deactivate the TRPV1 or TRPV2 positive nerve cells to provide local analgesia or pain relief to the illuminated skin region. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification