Diode Laser as a Biomarker for Neuropathic Pain of Peripheral Origin. (DLss)

Pain caused by peripheral neuropathy is very common. Understanding patient response to pain and its treatment is one of the biggest barriers to development of effective medicines to reduce neuropathic pain. This project will develop and validate a non-invasive test that correlates with patients' experience of pain caused by peripheral neuropathy, a "pain biomarker". The biomarker device applies specialized light energy to skin on the top of the foot to selectively stimulate the nerve fibers in skin that sense and transmit pain. The test will determine how much energy is necessary to cause a person to feel the stimulus, or to first feel the pain of the stimulus. Sensory threshold to the stimulus, and transient enhancement of blood flow in the skin (flare) will be correlated with patient report of ongoing foot pain. Use of the experimental device, diagnostic testing, and use of lidocaine have risks that are explained in this document, but can include allergic reactions, discomfort, and temporary numbness.

SUMMARY OF STUDY PROCEDURES This study is being conducted by Drs. J. Robinson Singleton in the Department of Neurology at the University of Utah, and by Mikhail Nemenov PhD, of Stanford University, who developed the use of this technique for stimulating nerves in the skin. Study 1 will correlate the biomarker with patients' reported ongoing neuropathic foot. You may also be asked to participate in the Study 2, in which change in the biomarker will be correlated longitudinally to change in pain experience in a brief, randomized crossover trial of placebo or lidocaine patches applied to the top of the foot.

Optimization of DLss Biomarker in Healthy Subjects (Stanford)

Healthy subjects will be screened to exclude neuropathy, foot pain and diabetes then will have the DLss measures performed over several days. The visit lasts about 3-4 hours.

Study 1: biomarker correlation with ongoing pain (Utah)

This study consists of a single visit designed to evaluate possible neuropathy and assess its severity with history, standardized brief exam, and specialized testing. All participants will then rate their ongoing foot pain, and biomarker testing will be performed. The entire visit will take 2-3 hours. The purpose is to correlate the biomarker with patients reported ongoing neuropathic foot pain.

People with peripheral neuropathy. A total of 50 people will participate.

Study 2: biomarker correlation with change in pain during lidocaine treatment (Utah)

Study 2 is designed to see if change in neuropathic pain from treatment with an effective pain reducing agent correlates with change in the biomarker. Lidocaine, a locally acting anesthetic, will be applied to the top of the foot using a patch. The study is structured as a 4 week blinded and randomized crossover treatment trial and will five consist of 5 brief weekly study visits, once weekly over the 4 week study period. Crossover means that you will receive both treatments for a week each. Randomized means that the treatment you receive first, placebo or Lidocaine patch, will be chosen at random. Blinded means that you will not be told whether the treatment you receive during the treatment weeks is placebo or Lidocaine. The patches will look similar or identical. Neither you, nor the study coordinator will be able to tell the identity of the patches.

Study Segments: Each weekly segment of the study is proceeded and followed by a visit, in sequence. Each visit will include review of neuropathic pain and performance of QST and Biomarker Device assessment. There are four segments:

1. Baseline neuropathic pain evaluation. Each participant will be screened in clinic, then record daily pain severity for 7 days.
2. Treatment period 1. After this baseline period, each participant will be randomized to 7 days of treatment with a patch (either lidocaine or placebo) chosen by the study at random.
3. A 7-day wash out period without treatment.
4. Treatment period 2. Daily treatment with patch not received in the first treatment period.

A total of 44 people with neuropathy and associated neuropathic pain will participate