Photobiomodulation, Cells of Connective Tissue and Repair Processes: A Look at In Vivo and In Vitro Studies on Bone, Cartilage and Tendon Cells

Asma Shaikh-Kader; Nicolette Nadene Houreld

doi:10.3390/photonics9090618

Photobiomodulation, Cells of Connective Tissue and Repair Processes: A Look at In Vivo and In Vitro Studies on Bone, Cartilage and Tendon Cells

Asma Shaikh-Kader, Nicolette Nadene Houreld

Laser Research Centre

University of Johannesburg

Research output: Contribution to journal › Review article › peer-review

4 Citations (Scopus)

Abstract

The use of light in the red and near-infrared light spectrum influences cell viability and proliferation in both cell and animal experimental models. In wounded models, photobiomodulation (PBM) at various laser parameters may stimulate or inhibit the tissue repair process by affecting cells important to healing. Connective tissue cells include osteocytes and osteoblasts in bone, chondrocytes and chondroblasts in cartilage, and tenocytes and tenoblasts in tendons. PBM, at various wavelengths, energy densities and power output, has various effects on cell viability, proliferation, migration and gene expression. This narrative review will briefly encapsulate the effectiveness of PBM on connective tissue cells, and its possible role in tissue repair. Relevant journal articles were obtained through PubMed and Google Scholar.

Original language	English
Article number	618
Journal	Photonics
Volume	9
Issue number	9
DOIs	https://doi.org/10.3390/photonics9090618
Publication status	Published - Sept 2022

Keywords

bone
cartilage
photobiomodulation
tendon
wound healing

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Instrumentation
Radiology, Nuclear Medicine and Imaging

Access to Document

10.3390/photonics9090618

Cite this

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title = "Photobiomodulation, Cells of Connective Tissue and Repair Processes: A Look at In Vivo and In Vitro Studies on Bone, Cartilage and Tendon Cells",

abstract = "The use of light in the red and near-infrared light spectrum influences cell viability and proliferation in both cell and animal experimental models. In wounded models, photobiomodulation (PBM) at various laser parameters may stimulate or inhibit the tissue repair process by affecting cells important to healing. Connective tissue cells include osteocytes and osteoblasts in bone, chondrocytes and chondroblasts in cartilage, and tenocytes and tenoblasts in tendons. PBM, at various wavelengths, energy densities and power output, has various effects on cell viability, proliferation, migration and gene expression. This narrative review will briefly encapsulate the effectiveness of PBM on connective tissue cells, and its possible role in tissue repair. Relevant journal articles were obtained through PubMed and Google Scholar.",

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AU - Shaikh-Kader, Asma

AU - Houreld, Nicolette Nadene

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N2 - The use of light in the red and near-infrared light spectrum influences cell viability and proliferation in both cell and animal experimental models. In wounded models, photobiomodulation (PBM) at various laser parameters may stimulate or inhibit the tissue repair process by affecting cells important to healing. Connective tissue cells include osteocytes and osteoblasts in bone, chondrocytes and chondroblasts in cartilage, and tenocytes and tenoblasts in tendons. PBM, at various wavelengths, energy densities and power output, has various effects on cell viability, proliferation, migration and gene expression. This narrative review will briefly encapsulate the effectiveness of PBM on connective tissue cells, and its possible role in tissue repair. Relevant journal articles were obtained through PubMed and Google Scholar.

AB - The use of light in the red and near-infrared light spectrum influences cell viability and proliferation in both cell and animal experimental models. In wounded models, photobiomodulation (PBM) at various laser parameters may stimulate or inhibit the tissue repair process by affecting cells important to healing. Connective tissue cells include osteocytes and osteoblasts in bone, chondrocytes and chondroblasts in cartilage, and tenocytes and tenoblasts in tendons. PBM, at various wavelengths, energy densities and power output, has various effects on cell viability, proliferation, migration and gene expression. This narrative review will briefly encapsulate the effectiveness of PBM on connective tissue cells, and its possible role in tissue repair. Relevant journal articles were obtained through PubMed and Google Scholar.

KW - bone

KW - cartilage

KW - photobiomodulation

KW - tendon

KW - wound healing

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DO - 10.3390/photonics9090618

M3 - Review article

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Photobiomodulation, Cells of Connective Tissue and Repair Processes: A Look at In Vivo and In Vitro Studies on Bone, Cartilage and Tendon Cells

Abstract

Keywords

ASJC Scopus subject areas

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