scientific studies

Here's a series of studies validating the efficacy of photobiomodulation (PBM), a non-invasive method using light to stimulate biological processes.

A look back at some
scientific studies

Research has addressed several key areas of medicine and wellness, demonstrating the effectiveness of photobiomodulation in a wide range of applications:

Hair density increased by 30.2%.

Use of helmet combining low-level laser therapy, light-emitting diodes and magnetic field technologies for hair growth care in adults with male androgenic alopecia.

Pablo Naranjo García, Rodolfo López Andrino, Carlos Gómez González, Hernán Pinto

Aesthetic Medicine / Volume 5 / Nº4 / October - December 2019 pages 16-21


38% reduction in inflammation marker PGE2 in less than 2 hours after a single 3-minute application

Bjordal JM, Lopes-Martins RA, Iversen VV (2006) Randomized controlled trial of low-level laser therapy for activated Achilles tendonitis with microdialysis measurement of peritendinous prostaglandin E2 concentrations.

Br J Sports Med 40: pages 76 to 80


79.2% more lubrication and 60% less pain during intercourse

Use of an intravaginal device based on photobiomodulation for the care of vaginal dryness: a pilot study.

Pablo Naranjo García, Rodolfo López Andrino, Carlos Gómez González, Hernán Pinto

Aesthetic Medicine / Volume 5 / Nº4 / October - December 2019 pages 16-21


50.5% reduction in acute musculoskeletal pain with nanopulsed lasers

Complementary use of the combination of superpulsed laser therapy and light-emitting diode photobiomodulation for nonspecific knee pain: a double-blind randomized controlled trial.

Leal-Junior EC, Johnson DS, Saltmarche A, Demchak T. Adjunctive

Lasers Med Sci - November 2014


Venous ulcer: 50% of the wound closed in 4 weeks!

Low-level laser therapy and LED therapy in the management of venous ulcers

P. Blanchemaison, J. Frucot

Journal of wound technology, issue 31 - January 2016


Diabetes: increased cell migration and wound closure in 4 days

In vitro exposure of injured diabetic fibroblast cells to a helium-neon laser at 5 and 16 J/cm².

Houreld N, Abrahamse H

Photomed Laser Surg - April 2007

Invitation
to research

At Milta Technologie, we firmly believe in collaboration and continuous innovation as drivers of scientific and technological progress. We invite academic institutions, researchers and healthcare professionals to join us in exploring new frontiers in the application of photobiomodulation. Whether it's to deepen existing knowledge or to pave the way for new discoveries, your expertise and scientific curiosity can greatly contribute to the advancement of our technology.

Together, we can work to develop innovative solutions that contribute to well-being worldwide. If you are interested in collaborating with us, sharing ideas, developing research projects, or testing new applications of Milta technology, please contact us.

We look forward to working with you to shape the future of photobiomodulation!