Major Depressive Disorder Clinical Trial
Official title:
Near-infrared Radiation-transcranial Photobiomodulation for Major Depressive Disorder: From Cellular, Animal Studies to a Sham-controlled Double-blind Randomized Clinical Trial
This study was designed to be a 3 year, 3 phases project, and will explore the therapeutic effects from near-infrared transcranial photobiomodulation (NIR tPBM) in major depressive disordered human subjects, and it's biological mechanisms in cellular and animal model. However, due to shortage of funding under the pandemics, the project is now modified to start from its clinical part first, and will continue to its basic parts later when funding resources in place.
Major depressive disorder (MDD) is a leading cause of the overall global burden of disease in modern society, and has been estimated to move into the first place by 2030. Current antidepressants and psychotherapy had proved their efficacy, but are limited by the adverse effects and shortage of capable therapists worldwide. Accumulating evidence showed that hypometabolism of global and specific brain regions, inflammation, oxidative stress, suppression of neurogenesis and disturbed circadian rhythm all contribute to the pathophysiology of MDD. Dr. Paolo Cassano, MD, PhD and his team from the Massachusetts General Hospital (MGH) of Harvard University recently demonstrated in both animal and human subjects that near-infrared radiation-transcranial photobiomodulation (NIR-tPBM) is a well-tolerated and effective treatment modality for MDD, and hypothesized NIR-tPBM may activate brain metabolism, be anti-inflammatory, reduce oxidative stress and promote neurogenesis. So far, the clinical studies are either open-labeled or only of small scale (n=21), and the real antidepressant mechanism of NIR-tPBM has not yet been fully understood. Adequately powered, well designed, double-blind randomized-control trials of larger scale is in pressing need. In this 3-year study, we will collaborate with the team from Harvard University and MGH, to comprehensively evaluate from cellular mechanism, animal model, to clinical trials in human, the underlying mechanism of NIR-tPBM and the clinical strategy of NIR-tPBM. In the cellular study, we will culture and treat the human neuron-like cell lines with continuous NIR-PBM of different dosimetry and different duration, and compare the differences in cellular circadian rhythm, energy metabolism, and inflammation markers as well as the underlying gene expression. In the animal study, the mice under chronic stress environment will be treated with NIR-tPBM of different duration. We will compare the behavioral differences relevant to anxiety, depression and cognitive performance, as well as the differences in neurogenesis, neuroplasticity, energy metabolism, circadian rhythm, and inflammation markers of the mice and the gene expression of the biomarkers. In both cellular and animal studies, dose-response assessment will be applied. In the clinical human study, we will conduct a prospective, double-blind, randomized, sham-controlled trial, recruiting totally 80 MDD patients, age 18 to 75, and apply adjunctive NIR t-PBM to the dorsolateral prefrontal cortex, bilaterally and simultaneously, from 20 minutes and up to 80 minutes a day under the evaluation and recommendation of the clinicians, for 8 consecutive weeks. The change in depressive symptoms and circadian behaviors will be recorded in the 0, 2, 4, 8, 12 weeks and compared. The patient's peripheral blood-based biochemistry profile, inflammatory, oxidative stress, and circadian rhythm markers, as well as the gene expression of the relevant markers, will be collected in week 0, 8, and 12, and be compared. ;
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