LOW-LEVEL LASER THERAPY IN RESOLUTION OF FIBROTIC PROCESS AND SIGNALLING: NEW TOLL TO TISSUE REPAIR
In our study LLLT operates in different areas, so that there is a reduction in M1 profile, a control of production of M2 phenotype, reduced renal fibrotic process, and improved renal function frame with a non-invasive treatment without side effects, and low cost, we believe that LLLT act by modulating TGF beta pathways.
OPEN FILEEffect of photobiomodulation on ischemia/reperfusion-induced renal damage in diabetic rats.
The results of present investigation revealed that PBM attenuated kidney damage induced by renal IR in diabetic rats."
OPEN FILEMesenchymal Stem Cells Synergize with 635, 532, and 405nm Laser Wavelengths in Renal Fibrosis: A Pilot Study
Specific wavelengths of laser energy appear to induce different responses in renal fibrotic tissue. These findings support further study in the development of a customized laser therapy program of combined wavelengths to optimize MSC effects in the treatment of renal fibrosis.
OPEN FILEPrevention of Abdominal Adhesions and Healing Skin After Peritoniectomy Using Low Level Laser
Low-level LASER is effective in preventing intra-abdominal adhesions in rabbits without compromising strength and healing of the abdominal wall
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