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Trials / Completed

CompletedNCT02630303

High Fluence Light Emitting Diode-Red Light (LED-RL) in Human Skin

Phase I Study of High Fluence Light Emitting Diode-Red Light (LED-RL) in Human Skin

Status
Completed
Phase
Phase 1
Study type
Interventional
Enrollment
60 (actual)
Sponsor
Jared Jagdeo, MD, MS · Federal
Sex
All
Age
Healthy volunteers
Accepted

Summary

The goal of this study is to establish the safety of high fluence LED-RL from 160 J/cm2 up to 640 J/cm2 in healthy subjects. The hypothesis is that high fluence LED-RL phototherapy is safe in human skin.

Detailed description

Skin fibrosis is involved in a variety of pathologic processes ranging from exuberant scar formation secondary to surgery or trauma, as in hypertrophic and keloid scars, to immune-mediated processes such as scleroderma and chronic graft-versus-host disease. As highlighted by quality-of-life studies, skin fibrosis imparts a significant socioeconomic burden due to the functional, aesthetic, and psychosocial impact it has on a patient's life. The effects of visible light, while common in the environment (visible spectrum accounts for 44% of total solar energy), remain undefined. An important safety feature of visible red light (600 nm to 700 nm) is that it does not generate pro-carcinogenic DNA damage as does ultraviolet (UV) light. Recently published clinical observations indicate that red light in combination with other modalities such as photosensitizers in combined red light photodynamic therapy can lessen skin fibrosis. However, preliminary in vitro data generated by the investigator's research group suggests that red light can function as a stand-alone treatment, eliminating the side-effects of chemical photosensitizers and the potential long-term harm of current UV therapy. Furthermore, commercially available light emitting diode-red light (LED-RL) units exist and are already FDA-cleared for other dermatological uses (such as rhytides and acne), thus clinical translation for use in skin fibrosis could occur relatively quickly following safety and efficacy demonstration. Developing high fluence LED-RL phototherapy as a treatment for skin fibrosis would represent an important advance in scarring conditions that lacks the serious systemic side effects associated with immunomodulatory agents (such as oral steroids); avoids the need for invasive, painful injections with anti-fibrotic agents (such as intralesional steroids, 5-fluorouracil and bleomycin); and eliminates the UV-induced DNA damage associated with skin cancer and photoaging that are associated with current UVA/UVA1 and UVB/narrowband UVB phototherapy. To the investigator research group's knowledge, no clinical trials have been performed to determine the safety of high fluence LED-RL for treatment of skin fibrosis. Therefore, the innovation of this approach is that the investigator research group intend to study high fluence LED-RL as a safe modality for treatment of skin fibrosis.

Conditions

Interventions

TypeNameDescription
DEVICELED-RL PhototherapyThe maximum recommended starting dose (MSRD) (160 J/cm2) will be administered to Group 1's LED-RL phototherapy randomized subjects and the LED-RL dose will be escalated in subsequent groups using the classical method for dose escalation as described by Spilker: starting with dose (X) increased by an equal amount (in this instance: X=160 J/cm2, 2X=320 J/cm2, 3X=480 J/cm2, 4X=640 J/cm2). Common expected procedure side effects are mild and temporary, including warmth, redness (erythema) and swelling (edema). The maximally tolerated dose (MTD) is defined as the dose level below the dose producing unacceptable but reversible toxicity and is considered the upper limit of subject tolerance. All subjects will receive total of nine LED-RL phototherapy, three times per week for three consecutive weeks.
DEVICEMock TherapyMock therapy will be administered to mock therapy randomized subjects using the mock therapy unit and only generates warmth and does not emit LED-RL. All subjects will receive total of nine mock therapy procedures, three times per week for three consecutive weeks.

Timeline

Start date
2016-01-01
Primary completion
2017-03-01
Completion
2017-03-01
First posted
2015-12-15
Last updated
2017-03-31

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT02630303. Inclusion in this directory is not an endorsement.