47 Clinical Trials for Various Conditions
The goal of this clinical trial is to compare photobiomodulation therapy (PBMT) in addition to standard of care in the treatment of tibial and metatarsal bone stress injuries in a military training setting. Participants will all receive usual care and also be randomized to either active or sham photobiomodulation therapy. Effectiveness will be assessed based on time to return to duty and measures of pain and function. * Participants will receive care for a maximum of 6 weeks. * Participants will have follow-up through 4 months (or graduation/dismissal from training, whichever comes first).
This is a single center pilot study evaluating intraoral photobiomodulation for the prevention of oral mucositis in patients undergoing myeloablative allogeneic hematopoietic cell transplantation (alloHCT). Patients who are planned for alloHCT will receive daily intraoral photobiomodulation therapy (PBMT) using a novel LED device. The name of the study device involved in this study is: - THOR LX2.3 with LED Lollipop
An open label trial to assess the safety and efficacy of transcranial photobiomodulation (tPBM) in improving autistic traits in ADHD youth.
Oral mucositis is a significant and common toxicity experienced by patients who receive high-dose chemotherapy as a preparatory regimen for a hematopoietic cell transplant (HCT). Furthermore, oral mucositis has been reported as the single most debilitating side effect reported by patients undergoing HCT. The incidence of HCT mucositis among adults is estimated to range between 76% and 89%; however, comparisons are difficult due to variability in patient ages, treatments and criteria for scoring oral mucositis. The use of intra-oral photobiomodulation (PBM) therapy in adult patients after the development of oral mucositis is well documented and now included in the international mucositis guidelines, with limited evidence in pediatrics. This study will build evidence for the incorporation of extra-oral PBM therapy into daily nursing care of children and adolescents undergoing HCT. This intervention has potential in providing evidence for efficacy in the prevention and treatment of oral mucositis, the single most debilitating side effect reported by patients undergoing HCT. Primary Objective: * To evaluate feasibility and efficacy of photobiomodulation therapy (PBM) in reducing oral mucositis in children and adolescents at risk for grade 3 oral mucositis undergoing an allogeneic hematopoietic cell transplant (HCT). Secondary Objective: * To compare clinical manifestations associated with the development of oral mucositis between those treated with daily PBM and a matched control. Clinical factors to include: grade and duration or oral mucositis. Exploratory Objective: * To evaluate efficacy of photobiomodulation therapy in autologous patients at risk for grade 3 oral mucositis compared to matched control. * To evaluate utilization of play-based procedural preparation and treatment feasibility and parental satisfaction.
Randomized clinical trial evaluating the effect of photobiomodulation compared with sham on central subfield thickness (CST) in eyes with central-involved DME and good vision.
This study will test whether photobiomodulation therapy improves muscle endurance and decreases inflammation in persons with relapsing-remitting multiple sclerosis. We will also investigate mechanisms for any improvements.
This study will examine the effect of LASER photobiomodulation therapy on pain and opioid pain medication weaning on patients who are undergoing opioid pain medication weaning.
This study seeks to determine if photobiomodulation (PBM, or low level laser light) affects the growth and distribution of nerves int he skin. Our previous study demonstrated that the treatment we use here was effective at reducing the symptoms of neuropathy (as measured by the modified total neuropathy score) in patients who had been treated with chemotherapy. The current effort is designed to repeat this confirm this observation using a more extensive battery of survey as well as to begin to elucidate the mechanism through which photobiomodulaiton produces the effect. WE will also be attempting to determine if diabetic patients differ in terms of response from chemotherapy patients
This is a 2-armed, randomized, sham-controlled, double-blinded clinical trial of photobiomodulation therapy using the Realief Therapy system. The patients will be randomized in a 3:4 ratio to treatment or sham arms.
Special Operations Forces (SOF) train continually to maintain peak performance. Thus, they are nearly always in a state of recovery, and in need of noninvasive therapies to address the taxing workload. Photobiomodulation therapy (PBMT) is a noninvasive treatment where a low-level laser is applied to the body to enhance healing, recovery, and performance. Army Tactical Human Optimization Rapid Rehabilitation and Reconditioning (THOR3) provides a consistent avenue for implementation of PBMT as a modality. Studies in athletes have shown performance and recovery benefits with pre-and post-workout focal application of PBMT. While there is less evidence on the potential cognitive/behavioral effects of a systematic application of PBMT, self-reported fatigue has also been found to be significantly lower in groups with focal PBMT application as compared to placebo. Further, PBMT research in healthy military tactical athletes is limited. PBMT may be a promising tool for enhancing physical performance by accelerating musculoskeletal and psychological recovery in the SOF population. The investigators aim to study the physiologic and behavioral effects of PBMT application post-exercise on performance in SOF Operators. The Intent: The investigators propose to conduct a single-blinded randomized-control trial with sham control to investigate the effectiveness of providing PBMT post physical training in a SOF population. The specific aims of this study are to: 1. Analyze and describe the physiologic effects, if any, of PBMT application post-exercise in Special Forces Operators undergoing coach-led training. 2. Analyze and describe the behavioral effects, if any, of PBMT application post-exercise in Special Forces Operators undergoing coach-led training. 3. Evaluate the overall clinical utility of focal PBMT subsequent to physical training in a US Army SOF, tactical athlete population.
Plantar fasciitis (PF), a degenerative injury of the connective tissue in the foot, results in pain-related disability in Service Members and contributes to decreased physical activity and excessive healthcare costs. Even if effective, current treatment protocols may require 6-12 months of therapy to return individuals to pain-free activity. Photobiomodulation therapy (PBMT) uses non-ionizing light to elicit biological changes in tissues resulting in beneficial therapeutic outcomes. Evidence supports use of PBM for other degenerative connective tissue conditions, such as achilles tendinopathy and epicondylitis. A previous pilot study was completed in an active-duty military and civilian population, which demonstrated a positive effect of two PBM dose parameters on function and pain levels in participants with chronic PF when combined with stretching and ice. These positive findings from the aforementioned study are promising in the treatment of this common and debilitating issue, but require the addition of a sham comparison to rigorously eliminate any potential placebo effect of the treatment protocol, and further refine the treatment protocol in order to make evidence-based clinical recommendations. As such, proposing a follow-up study and the addition of an objective outcome measure will strengthen the impact of the study. SPECIFIC AIM 1: To assess the clinical effectiveness of photobiomodulation compared to sham photobiomodulation to improve function and decrease pain. SPECIFIC AIM 2: To evaluate the effectiveness of photobiomodulation compared to sham photobiomodulation to resolve plantar fascial thickening. DESIGN: A prospective randomized sham-controlled trial to meet the aims of the study. METHOD: A sample of up to 100 active-duty military members will be randomly assigned to the Sham-PBMT or PBMT group. At baseline, during the treatment protocol, and at long-term (3 and 6 months) follow-up, measures of foot function, pain, and plantar fascial thickness will be collected for analysis. The proposed methods will allow the study team to establish if PBMT is clinically effective to accelerate recovery compared to Sham-PBMT and result in resolution of fascial thickening, decrease in pain, and improved function. LONG-TERM GOAL: The long-term goals of the research include developing PBMT protocols for broad application to other painful and duty-limiting conditions.
This study is an open-label, prospective, multi-center extension study on the continued use of photobiomodulation (PBM) in subjects with dry age-related macular degeneration (AMD) that participated in the CSP005 LIGHTSITE III study.
The purpose of this study is to find out whether photobiomodulation/PBM therapy using the Thor LX2.3 therapy system is a safe and effective treatment for oral Graft-Versus-Host Disease/GVHD.
This is a randomized control trial with an elective cross over after three months to evaluate three different treatments in the management of non-insertional Achilles Tendinopathy. The treatment methods include physical therapy, shockwave therapy and photobiomodulation.
The aim of this study is to evaluate the effectiveness of MLS laser therapy as a treatment for pulmonary complications due to COVID-19 infection.
This LIGHTSITE III study is a double-masked, sham-controlled, parallel design, prospective multi-site study for the use of PBM as a treatment for visual impairment in subjects with dry AMD.
A pilot study to evaluate the ability of photobiomodulation to alter cerebral blood flow in the frontal poles and to affect the emotional status of patients with major depression.
The goal of this clinical trial is to learn more about and compare the effectiveness of standard of care (SOC) physical therapy (PT), PT with photobiomodulation therapy (PBMT; low-level laser therapy), PT with shockwave therapy (SWT; high-energy acoustic wave therapy), and PT with PBMT and SWT, to improve function, decrease pain, and resolve symptoms in individuals with non-insertional Achilles tendinopathy. The main question it aims to answer is: • What is the most effective treatment method for non-insertional Achilles tendinopathy? Participants will Researchers will compare PT, PT + SWT, PT + SWT and PBMT to assess the most effective treatment for Achilles tendinopathy.
The investigators wish to test the hypothesis that transcranial photobiomodulation (tPBM) (i.e., 4-minutes of 810nm near-infrared light at 250 mW/cm2 by LED to the forehead at F3 or F4 versus an indistinguishable placebo treatment) can safely reduce opioid craving in individuals with opioid dependence in a within-patient study.
The current application proposes to conduct a prospective, clinical trial in diabetic subjects with diabetic macular edema (DME) to evaluate the therapeutic efficacy of 670 nm photobiomodulation on validated clinical outcome measures and anatomical changes in central macula by optical coherence tomography (OCT) and other imaging modalities. A total of 30 diabetic patients with treatment-refractory clinically significant diabetic macular edema will be included in this study and randomized into two equal groups. One eye per participant will be included to avoid exposure of both eyes to the study intervention. If both eyes are eligible, the eye with worse visual acuity will become the study eye. One group will be treated with standard-of-care (intravitreal anti-VEGF agent) injections. The photobiomodulaton (PBM) intervention group will be treated with the standard-of-care intravitreal anti-VEGF (vascular endothelial growth factor) injections and 670 nm PBM in one eye. Baseline functional and anatomic assessments will be made and anti-VEGF therapy will be administered as determined by the treating Ophthalmologist.
The aim of this study is to determine the effect of OrthoPulse™, an intra-oral LED (Light Emitting Diode) photobiomodulation device, on orthodontic treatment time. This is a double-blinded RCT with half the patients receiving treatment from a sham non-functional device, serving as controls, and the other half receiving light therapy treatment from a functional OrthoPulse™. Orthodontic treatment time for the sham-control patients are compared to that of the OrthoPulse™ patients.
Photobiomodulation is a form of non-ionizing light therapy has been shown to stimulate cellular processes and reduce inflammation as well as improve pain and wound healing. Photobiomodulation has also been found to enhance fibroblast growth factor production. A challenge in clinic is to answer the patients' questions regarding which FDA-cleared device is the best to purchase. Therefore, this study was designed to gain experience with the use of the following devices and to clinically evaluate their efficacy: iGrow Hair Growth System, Capillus352, Hair Max Ultima 12 LaserComb, and HairMax Laserband 82. The purpose of this pilot research study is to clinically compare and evaluate FDA-cleared photobiomodulation devices after four months of treatment and one-month follow-up in subjects with alopecia.
The study will explore the impact of photobiomodulation (PBM), pulsating at frequencies of red (660nm) and near-infrared (810nm)(NIR), concurrent with a ketogenic dietary protocol (serum ketones @ .5 - 2.0 mmol/L) to mediate vascular features of diabetic retinopathy (DR), diabetic macular edema (DME), age-related macular degeneration (AMD), mid-peripheral drusens, visual acuity and retinal disorders. Red and near-infrared light via light-emitting diode (LED) treatment promotes retinal healing and improves visual acuity by augmenting cellular energy metabolism, enhancing mitochondrial function, increasing cytochrome C oxidase activity, stimulating antioxidant protective pathways and promoting cell survival. LED therapy directly benefits neurons in the retina, the lateral geniculate nucleus and the visual cortex; likewise, a ketogenic dietary protocol shows metabolic and neuro-modulatory benefits within the CNS, most notably as treatment for refractory epilepsy. Photobiomodulation has been approved as a non-significant risk (NSR) modality for the treatment of eye disorders.
The aim of the study is to determine if, and to what degree photobiomodulation treatment with OrthoPulse has an effect on the rate of tooth movement during alignment for patients receiving Invisalign orthodontic aligner treatment.
The purpose of this study is to evaluate the effects of photobiomodulation (PBM) on postoperative pain after endodontic treatment in mandibular molar teeth diagnosed with symptomatic apical periodontitis.
The purpose of this study is to compare the efficacy of laser photobiomodulation and "Magic Mouthwash" for treatment of pain in pediatric patients with aphthous ulcers , to assess how photobiomodulation influences the rate of healing of aphthous ulcers in pediatric patients and to measure changes in pain levels reported by pediatric patients undergoing photobiomodulation treatment for aphthous ulcers.
Obstructive sleep apnea (OSA) is a sleep disorder that is commonly treated using positive airway pressure, yet 50% of patients still experience residual sleepiness after successful therapy. A potential neuromodulation strategy that can decrease residual sleepiness is transcranial photobiomodulation (tPBM). tPBM is a neuromodulatory treatment that uses red and/or near infrared light to penetrate the cortex and can alter both cerebral metabolism and blood flow. However, this potential has never been explored before directly in sleep disordered individuals. This project aims to explore the effect of tPBM on sleepiness and understand the potential neural mechanism of tPBM in OSA. The short-term goal of this project is to collect pilot data, which is the first of its kind, and suggest tPBM as a potential modulator of sleepiness in OSA.
The goal of this clinical trial is to learn if light therapy can prevent and/or treat mouth sores in children with cancer. The main questions it aims to answer are: Is it reasonable and acceptable to provide light therapy for children with cancer? Does light therapy prevent and treat mouth sores related to medical treatment? Researchers will compare children who did not receive light therapy before the clinical trial to children who receive light therapy during the clinical trial to see if light therapy helps to prevent and treat mucositis. Participants will: * Tell the nurse their pain score, related to their mouth sores, before receiving light therapy. * Have picture taken of their mouth to look for mouth sores. * Receive light therapy every other day while admitted to the hospital on the cancer unit or while admitted to an alternate unit.
The purpose of this study is to evaluate the effect of Photobiomodulation (PBM) in postoperative pain after endodontic microsurgery (EMS) in patients from the University of Texas Health Science Center at Houston, School of Dentistry Graduate Endodontic Clinic and to assess the soft tissue healing of the vertical releasing incision (VRI) after PBM
This is a trial to measure the effectiveness and safety of the invisa-RED® IR REHAB device. The researchers will compare the muscle and joint pain relief of participants who are treated with the real machine, to those treated with a non-working "look-a-like" device. If there is a significant difference of pain relief between those treated with the real machine and those treated with the 'look-a-like' device and no safety issues are discovered, the researchers will be able to assume the IR REHAB device is safe and effective for the treatment of muscle and joint pain.