Photobiomodulation therapy for osteoarthritis: Mechanisms of action

doi:10.5528/wjtm.v10.i3.29

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Aug 26, 2022 (publication date) through Apr 19, 2024

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World Journal of Translational Medicine

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World J Transl Med. Aug 26, 2022; 10(3): 29-42
Published online Aug 26, 2022. doi: 10.5528/wjtm.v10.i3.29

Photobiomodulation therapy for osteoarthritis: Mechanisms of action

Fábio Pericinoto Giolo, Gabriel Silva Santos, Victor Fontes Pacheco, Stephany Cares Huber, Kaue Franco Malange, Bruno Lima Rodrigues, Fernanda Bassora, Tomas Mosaner, Gabriel Azzini, Lucas Leite Ribeiro, Carlos Amilcar Parada, José Fábio Santos Duarte Lana

Fábio Pericinoto Giolo, Department of Physical Therapy, Brazilian Institute of Regenerative Medicine, Indaiatuba 13334-170, Brazil

Gabriel Silva Santos, Stephany Cares Huber, Bruno Lima Rodrigues, Biomedical Science, Brazilian Institute of Regenerative Medicine, Indaiatuba 13334-170, Brazil

Victor Fontes Pacheco, Tomas Mosaner, Gabriel Azzini, Lucas Leite Ribeiro, José Fábio Santos Duarte Lana, Department of Orthopedics, Brazilian Institute of Regenerative Medicine, Indaiatuba 13334-170, Brazil

Kaue Franco Malange, Carlos Amilcar Parada, Neurobiology of Pain and Regenerative Medicine, The University of Campinas, Campinas 13083-862, Brazil

Fernanda Bassora, Department of Hematology, The University of Campinas, Campinas 13083-878, Brazil

Author contributions: Santos GS and Giolo FP wrote the manuscript; Pacheco VF and Huber SC proposed the research subtopics; Rodrigues BL, Malange KF and Bassora F were responsible for navigating the literature and sharing the relevant studies included in this review. Mosaner T formatted the citations and compiled the references; Parada CA revised and formatted the body of the manuscript, correcting spelling, punctuation and grammatical errors. Azzini G and Ribeiro LL created the figures and tables. As the leader, Lana JFSD was responsible for reviewing and approving all the modifications made to the manuscript, from draft to final version.

Conflict-of-interest statement: All the authors declare that they have no conflict of interest.

Open-Access: This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution NonCommercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: https://creativecommons.org/Licenses/by-nc/4.0/

Corresponding author: Gabriel Silva Santos, BSc, Academic Research, Instructor, Lecturer, Research Scientist, Technician, Biomedical Science, Brazilian Institute of Regenerative Medicine, 1386 Presidente Kennedy Avenue, Indaiatuba 13334-170, Brazil. gabriel1_silva@hotmail.com

Received: March 24, 2022
Peer-review started: March 24, 2022
First decision: May 12, 2022
Revised: May 23, 2022
Accepted: August 6, 2022
Article in press: August 6, 2022
Published online: August 26, 2022

Abstract

Photobiomodulation (PBM) is a non-invasive therapeutic modality with demonstrated effects in many fields related to regenerative medicine. In the field of orthopedics, in particular, PBM at various wavelengths has demonstrated the capacity to trigger multiple biological effects associated with protective mechanisms in musculoskeletal tissues. The articles cited in this review show that devices operating close to or within the near infrared range at low intensities can provoke responses which favor the shift in the predominant catabolic microenvironment typically seen in degenerative joint diseases, especially osteoarthritis (OA). These responses include proliferation, differentiation and expression of proteins associated with stable cell cycles. Additionally, PBM can also modulate oxidative stress, inflammation and pain by exerting regulatory effects on immune cells and blocking the transmission of pain through sensory neuron fibers, without adverse events. Collectively, these effects are essential in order to control the progression of OA, which is in part attributed to exacerbated inflammation and degradative enzymatic reactions which gradually contribute to the destruction of joint tissues. PBM may offer medical experts ease of application, financial viability, efficacy and lack of serious adverse events. Therefore, it may prove to be a suitable ally in the management of mild to moderate degrees of OA. This review explores and discusses the principal biological mechanisms of PBM and how the produced effects may contribute to the amelioration of osteoarthritic progression. Literature was reviewed using PubMed and Google Scholar in order to find studies describing the mechanisms of PBM. The investigation included a combination of nomenclature such as: “photobiomodulation”, “phototherapy”, “laser therapy”, “PBM”, “osteoarthritis”, low level light therapy”, “inflammation” and “cartilage”. We considered only articles written in English, with access to the full text.

Keywords: Photobiomodulation, Low-level laser therapy, Osteoarthritis, Inflammation, Regenerative medicine

Core Tip: Photobiomodulation (PBM) is a non-invasive therapeutic modality with demonstrated effects in regenerative medicine. In the field of orthopedics, in particular, PBM at various wavelengths has demonstrated the capacity to trigger multiple biological effects associated with protective mechanisms in musculoskeletal tissues. These responses include proliferation, differentiation and expression of proteins associated with stable cell cycles. Additionally, PBM can also modulate oxidative stress, inflammation and pain by exerting regulatory effects on immune cells and blocking the transmission of pain through sensory neuron fibers.