Calcium Hydroxyapatite Combined with Photobiomodulation for Bone Tissue Repair: A Systematic Review

Repairing hard tissues, such as bones, remains a significant challenge, especially in adverse clinical conditions. Calcium hydroxyapatite (CaHA), a calcium phosphate (CaP), has structural and chemical characteristics similar to the mineral structure of human bones and teeth, offering bioactivity and biocompatibility properties. Photobiomodulation (PBM) uses light to reduce inflammation and accelerate tissue healing. This systematic review analyzes the combination of CaHA and PBM from 25 studies extracted from the PubMed, Web of Science, and ScienceDirect databases, using the keywords “hydroxyapatite AND photobiomodulation”, “calcium hydroxyapatite AND photobiomodulation”, and “low-level laser therapy AND calcium phosphate.” All studies focused on bone regeneration, with no mention of soft tissue applications. The most commonly used calcium-based material was biphasic calcium phosphate (76%), a combination of CaHA and β-tricalcium phosphate, while 16% of the studies did not specify the brand or product used. With regard to PBM, the most commonly used wavelengths (48% of cases, with a tie of 24% for each) were infrared lasers at 808 nm and 780 nm, with 20% of studies not mentioning the brand or manufacturer. The results underscore the predominant focus on bone regeneration, highlighting the need for further investigations into soft tissue applications and the establishment of standardized protocols. The combination of CaHA and PBM shows promise in regenerative medicine and dentistry, although more research is needed to expand its experimental and clinical use.

Palavras-chave

bone regeneration, bone repair, calcium phosphate, hard tissue repair, hydroxyapatite, low-level laser therapy, photobiomodulation, regenerative medicine, tissue engineering