Photobiomodulation and Inorganic Bovine Bone in Guided Bone Regeneration: Histomorphometric Analysis in Rats.

The objective of this study was to evaluate the efficacy of photobiomodulation in the bone regeneration of critical-sized defects (CSD) filled with inorganic bovine bone associated or not with collagen membranes. The study has been conducted on 40 critical defects in the calvaria of male rats, divided into four experimental groups (n = 10): (1) DBBM (deproteinized bovine bone mineral); (2) GBR (DBBM+collagen membrane); (3) DBBM+P (DBBM+photobiomodulation); and (4) GBR+P (GBR+photobiomodulation). At 30 days postoperative, the animals were euthanized, and after the tissue had been processed, histological, histometric, and statistical analyses were performed. The analyses have taken into account newly formed bone area (NBA), linear bone extension (LBE), and residual particle area (RPA) as variables. The Kruskal-Wallis test has been performed, followed by the Dwass-Steel-Critchlow-Fligner test for comparison between groups (p < 0.05). When the DBBM+P group was compared to the DBBM group, it was possible to observe significant statistical differences in all the variables analyzed (p < 0.05). The application of photobiomodulation in guided bone regeneration (GBR+P) has shown a decrease in the median value for the RPA variable (26.8) when compared to the GBR group (32.4), with a significant statistical difference; however, for NBA and LBE, the therapy has not provided significant results.

Fotobiomodulação sistêmica transdérmica: uma revisão de literatura / Transdermal systemic photobiomodulation: a literature review

A fotobiomodulação sistêmica (FBM-S) consiste em uma técnica que utiliza o laser de baixa intensidade no espectro vermelho da luz para irradiação sistêmica. Seus benefícios incluem efeito analgésico, antioxidante sistêmico e anti-inflamatório, ativação de células imunológicas, melhora na cicatrização, vasodilatação e aumento da microcirculação. A técnica original, que utiliza cateter e fibra óptica para irradiação sistêmica, é uma técnica invasiva, por isso a fotobiomodulação sistêmica transdérmica foi desenvolvida como uma alternativa. Assim, o objetivo dessa revisão de literatura é discutir os efeitos, aplicações, protocolos e efeitos colaterais desta terapia modificada. Para tanto, foi realizada uma busca na literatura nas bases de dados Pubmed, Bireme, Embase, Scopus, Science Direct, Web of Science e CENTRAL, sem restrição de idioma no período entre 2010 e 2021. Encontraram-se seis estudos sendo um na área da Odontologia. Os resultados desses estudos sugerem que a FBS-S pode ser utilizada para o tratamento de condições sistêmicas. Em Odontologia, no entanto, a literatura ainda é escassa e mais estudos clínicos randomizados controlados são necessários para comprovar seus efeitos e estabelecer um protocolo clínico para sua utilização.

Systemic photobiomodulation (PBM-S) is a technique that uses low-level laser in the red spectrum of light for systemic irradiation. Its benefits include analgesic, systemic antioxi-dant, and anti-inflammatory effect, activation of immune cells, improved healing, vasodilation, and increased microcirculation. The original technique, which uses catheter and optical fibers for systemic irradiation is an invasive technique. Thus, the transdermal systemic photobiomodulation was developed as an alternative. The purpose of this literature review is to discuss the effects, applications, protocols, and side effects of this modified therapy. A literature search was carried out on Pubmed, Bireme, Embase, Scopus, Science Direct, Web of Science, and CENTRAL databases, with no language restriction in the period be-tween 2010 and 2021. Six studies were found, one in the area of Dentistry. The results of these studies suggest that PBM-S can be used for the treatment of systemic conditions. In Dentistry, however, the literature is still scarce and more randomized controlled clinical trials are needed to prove its effects and establish a protocol for its use.

Evaluation of photobiomodulation therapy associated with guided bone regeneration in critical size defects. In vivo study.

The repair of bone defects raises the interest of investigators in several health specialties. Grafting techniques with bone substitutes and laser therapies have been investigated to replace autogenous bone and accelerate the bone healing process. Objective To evaluate the effect of photobiomodulation therapy (PBMT) associated with guided bone regeneration (GBR) in critical size defects. Material and Methods The study was conducted on 80 male rats (Rattus norvegicus albinus, Wistar) submitted to surgical creation of a critical size defect on the calvaria, divided into eight study groups: group C (control - only blood clot); group M (collagen membrane); group PBMT (photobiomodulation therapy); group AB (autogenous bone); group AB+PBMT; group AB+M; group PBMT+M; group AB+PBMT+M. The animals were killed 30 days postoperatively. After tissue processing, bone regeneration was evaluated by histomorphometric analysis and statistical analyses were performed (Tukey test, p<0.05). Results All groups had greater area of newly formed bone compared to group C (9.96±4.49%). The group PBMT+M (achieved the greater quantity of new bone (64.09±7.62%), followed by groups PBMT (47.67±8.66%), M (47.43±15.73%), AB+PBMT (39.15±16.72%) and AB+PBMT+M (35.82±7.68%). After group C, the groups AB (25.10±16.59%) and AB+M (22.72±13.83%) had the smallest quantities of newly formed bone. The area of remaining particles did not have statistically significant difference between groups AB+M (14.93±8.92%) and AB+PBMT+M (14.76±6.58%). Conclusion The PBMT utilization may be effective for bone repair, when associated with bone regeneration techniques.

Evaluation of photobiomodulation therapy associated with guided bone regeneration in critical size defects. In vivo study

Abstract The repair of bone defects raises the interest of investigators in several health specialties. Grafting techniques with bone substitutes and laser therapies have been investigated to replace autogenous bone and accelerate the bone healing process. Objective To evaluate the effect of photobiomodulation therapy (PBMT) associated with guided bone regeneration (GBR) in critical size defects. Material and Methods The study was conducted on 80 male rats (Rattus norvegicus albinus, Wistar) submitted to surgical creation of a critical size defect on the calvaria, divided into eight study groups: group C (control - only blood clot); group M (collagen membrane); group PBMT (photobiomodulation therapy); group AB (autogenous bone); group AB+PBMT; group AB+M; group PBMT+M; group AB+PBMT+M. The animals were killed 30 days postoperatively. After tissue processing, bone regeneration was evaluated by histomorphometric analysis and statistical analyses were performed (Tukey test, p<0.05). Results All groups had greater area of newly formed bone compared to group C (9.96±4.49%). The group PBMT+M (achieved the greater quantity of new bone (64.09±7.62%), followed by groups PBMT (47.67±8.66%), M (47.43±15.73%), AB+PBMT (39.15±16.72%) and AB+PBMT+M (35.82±7.68%). After group C, the groups AB (25.10±16.59%) and AB+M (22.72±13.83%) had the smallest quantities of newly formed bone. The area of remaining particles did not have statistically significant difference between groups AB+M (14.93±8.92%) and AB+PBMT+M (14.76±6.58%). Conclusion The PBMT utilization may be effective for bone repair, when associated with bone regeneration techniques.