Infrared low-level laser therapy enhances proliferation and viability in murine osteoblasts in vitro
Brenda Lizbeth Arroyo Reyes, Luis G. Vázquez-de-Lara-Cisneros, Fabian Galindo Ramírez, Ruben Ramos García, P. Zaca Morán

TL;DR
Infrared low-level laser therapy boosts the growth and survival of bone cells in lab tests, offering a potential method for bone regeneration.
Contribution
This study identifies an optimal laser therapy protocol for enhancing osteoblast proliferation without toxicity.
Findings
Three 10 J/cm² infrared LLLT sessions increased osteoblast proliferation significantly.
Reactive oxygen species levels peaked after the third session but did not cause cytotoxicity.
LLLT reduced apoptosis in early stages, showing a temporary protective effect on cells.
Abstract
Infrared low-level laser therapy (LLLT) has shown great promise in promoting cell proliferation and viability, making it a valuable tool in regenerative medicine. This study investigated how the interval between sessions shapes the response to 970 nm LLLT in murine osteoblast cultures by delivering three 10 J/cm² sessions separated by 24–48 h and measuring proliferation, reactive oxygen species (ROS), cytotoxicity, and apoptosis, with the goal of informing protocol design for bone regeneration. Two osteoblast cultures were used, one control and the other LLL-treated group. The latter consisted of three irradiation sessions (10 J/cm2 each) applied at 24, 48, and 96 h. The experimental results showed a significant increase in cell proliferation after two and three sessions (p < 0.05), while ROS levels progressively accumulated, peaking after the third session (p < 0.001). Cell viability…
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Taxonomy
TopicsLaser Applications in Dentistry and Medicine · Dental Implant Techniques and Outcomes · Bone Tissue Engineering Materials
