A double blind randomized trial of light-emitting diode (LED) therapy for patients suffering from mild traumatic brain injury (mTBI). Patients seen in the Sports Concussion Clinic with cognitive symptoms lasting for greater than 4 weeks will be randomized to either placebo therapy (controls) or treatment with LED therapy (cases). Both cases and controls would complete post-concussion symptom scales Delis-Kaplan Executive Function System (D-KEFS), and ImPACT studies on entry into the study and at weeks 3 and 6, or earlier if their symptoms resolve before the end of the 6 week period.
Concussion, also known as mild traumatic brain injury (mTBI), results from a rotational acceleration of the brain. The biomechanical forces which cause concussion lead to the opening of ion channels within the neuronal cell membranes, allowing for a massive influx of sodium and efflux of potassium. This results in a spreading depression type of phenomenon, leading to the depolarization of neurons diffusely throughout the brain.19 In order to restore the homeostatic ion gradients across the membrane, the sodium-potassium pumps require increasing amounts of adenosine triphosphate (ATP). Thus, there is an increased need for ATP after concussion. ATP is supplied by the glycolysis of glucose from the blood stream. Both experimental models of concussion and human studies, however, show decreased cerebral blood flow after the initial response to injury. Thus, there is an increased demand for ATP after concussion; but a diminished supply of glucose to meet the demand. The absorption of light in the red/near infrared wavelength spectrum by cytochrome C oxidase increases ATP synthesis. Thus, by increasing ATP synthesis, red/near infrared LEDs can treat the underlying pathophysiological cause of concussion symptoms. If successful, this would be the first therapy to directly treat the underlying pathophysiology of concussion.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
All treatments will be administered using the MedX Health Console model 1100. These units were cleared by the FDA as non-significant risk in 2003 and approved for home treatment use in 2005 "for temporary increase in local blood flow circulation . . . for temporary relief of minor muscle and joint aches." Cluster heads are 2 inches in diameter. Each contains 9 red (633nm wavelength) diodes and 52 near infrared (870 nm wavelength) diodes. LED cluster heads would be applied to the frontal, parietal and temporal areas, as well as the mid sagittal suture line
The placebo machine is identical in appearance as the treatment machine; It vibrates, warms, and does everything the treatment machine does except it does not have LED lights on the marker, therefore it cannot emit light. Subjects enrolled in the placebo group will be on the same schedule as the treatment group. They will have two, 10 minute treatments, three times a week totaling 18 visits. The placebo allows the researchers to isolate the effect of the study treatment. If patient's in the LED treatment group fare significantly better than those in the placebo treatment group, the study helps support the conclusion that the LED therapy is effective.
Boston Children's Hospital
Boston, Massachusetts, United States
Boston Children's Hospital at Waltham
Waltham, Massachusetts, United States
Mean Difference in Change in Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) Score at Baseline and 6 Weeks.
The primary outcome is mean difference on composite scores of Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) between entry into the study and completion of treatment (visit 18, week 6) for both the LED group and the placebo group. The mean difference is calculated by taking the mean of differences of the entry scores minus the 6 week scores. There are 5 composite scores on the ImPACT test; verbal memory, visual memory, visual motor speed, reaction time, and symptom score. The ranges for these subscales are as follows: verbal memory and visual memory: 0-100, visual motor speed: 0-60, reaction time: 0-1.0, and symptom score: 0-132. A higher verbal memory, visual memory, and visual motor speed represent a better outcome, while a lower reaction time and lower symptom score represent a better outcome.
Time frame: From baseline to 6 weeks
Mean Difference in Change in Delis-Kaplan Executive Function System (D-KEF) Color-Word Interference and Trail Making Test Performance at Weeks 3 and 6.
This measure indicates the mean differences in Delis-Kaplan Executive Function System (D-KEF) tests between entry into the study and 3 weeks and entry into the study and 6 weeks for both the LED group and the placebo group. The mean difference is calculated by taking the mean of differences of the entry scores minus the 3 week scores and the entry scores minus the 6 week scores. D-KEFs color-word interferences, made up of color naming, word reading, and inhibition, is measured in seconds, a smaller number represents a better outcome. Participants were given 90 seconds to complete color naming and word reading and 180 seconds to complete inhibition. D-KEFs trail making test, made up of number sequencing, letter sequencing, and number-letter sequencing, is measured in seconds, a faster speed (lower number) represents a better outcome. Participants were given 150 seconds to complete number and letter sequencing and 240 seconds to complete number-letter sequencing.
Time frame: From baseline to 3 weeks and from baseline to 6 weeks
Mean Difference in Change in Delis-Kaplan Executive Function System (D-KEF) Verbal Fluency Performance at Weeks 3 and 6.
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This measure indicates the mean differences in Delis-Kaplan Executive Function System (D-KEF) tests between entry into the study and 3 weeks and entry into the study and 6 weeks for both the LED group and the placebo group. The mean difference is calculated by taking the mean of differences of the entry scores minus the 3 week scores and the entry scores minus the 6 week scores. D-KEFs Verbal Fluency Test, made up of letter fluency and category fluency, is measured by number of responses, a larger number represents a better outcome. Participants were given 60 seconds to complete each fluency test.
Time frame: From baseline to 3 weeks and from baseline to 6 weeks
Mean Difference in Change in Total Post Concussion Symptom Score (PCSS) at Weeks 3 and Weeks 6.
This measure indicates the mean differences in total post concussion symptom score (PCSS) between entry into the study and 3 weeks and entry into the study and 6 weeks for both the LED group and the placebo group. The mean difference is calculated by taking the mean of differences of the entry scores minus the 3 week scores and the entry scores minus the 6 week scores. The PCSS is a sum of severity scores from 0-6 (0=none, 6=severe) for 22 individual symptoms, like headache, neck pain, or drowsiness. The range for the PCSS is 0-132, a lower score represents a better outcome.
Time frame: From baseline to 3 weeks and from baseline to 6 weeks
Mean Difference in Change in Total Cognitive Symptom Score at Weeks 3 and Weeks 6
This measure indicates the mean difference in total cognitive symptom scores between entry into the study and 3 weeks and entry into the study and 6 weeks for both the LED group and the placebo group. The mean difference is calculated by taking the mean of differences of the entry scores minus the 3 week scores and the entry scores minus the 6 weeks scores. The total cognitive symptom scored is a sum of 7 symptom scores from the PCSS; feeling slowed down, feeling like "in a fog", "don't feel right", difficulty concentrating, difficulty remembering, fatigue or low energy, and confusion. The severity of these symptoms are scored 0-6, 0=none, 6=severe. The range for the total cognitive symptom score is 0-42, a lower score represents a better outcome.
Time frame: From baseline to 3 weeks and from baseline to 6 weeks