Repair of Surgical Bone Defects Grafted with Hydroxylapatite +                   β-TCP and Irradiated with λ=850 nm LED Light

Soares, Luiz Guilherme P.; Marques, Aparecida Maria Cordeiro; Guarda, Milena G.; Aciole, Jouber Mateus S.; Pinheiro, António Luiz Barbosa; Santos, Jean Nunes dos

doi:10.1590/0103-6440201300055

Cited by 10 publications

(14 citation statements)

References 16 publications

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“…A study by Soares et al [65] utilized λ 850 nm LED PBM irradiation on bone defects grafted with HA and βTCP showed to be effective in positively modulating the process of bone repair in rat's femur bone defect submitted or not to biomaterial irradiation. Hence, this study has poorly reported the laser parameters in terms of energy, power density and treatment duration [65]. Another study by Soares et al showed the influence of the LED (λ 78nm) and laser (λ 850 ± 10 nm) PBM on surgical bone defects repair whether augmented with or without biphasic synthetic micro-granular HA + βTCP.…”

Section: Discussionmentioning

confidence: 99%

Effects of photobiomodulation on bone defects grafted with bone substitutes: A systematic review of in vivo animal studies

Hanna

Dalvi

Amaroli

et al. 2020

Journal of Biophotonics

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A present, photobiomodulation therapy (PBMT) effectiveness in enhancing bone regeneration in bone defects grafted with or without biomaterials is unclear. This systematic review (PROSPERO, ref. CRD 42019148959) aimed to critically appraise animal in vivo published data and present the efficacy of PBMT and its potential synergistic effects on grafted bone defects. MEDLINE, CCCT, Scopus, Science Direct, Google Scholar, EMBASE, EBSCO were searched, utilizing the following keywords: bone repair; low-level laser therapy; LLLT; light emitting diode; LEDs; photobiomodulation therapy; in vivo animal studies, bone substitutes, to identify studies between 1994 and 2019. After applying the eligibility criteria, 38 papers included where the results reported according to "PRISMA." The results revealed insufficient and incomplete PBM parameters, however, the outcomes with or without biomaterials have positive effects on bone healing. In conclusion, in vivo animal studies with a standardized protocol to elucidate the effects of PBMT on biomaterials are required initially prior to clinical studies.

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Section: Discussionmentioning

confidence: 99%

Effects of photobiomodulation on bone defects grafted with bone substitutes: A systematic review of in vivo animal studies

Hanna

Dalvi

Amaroli

et al. 2020

Journal of Biophotonics

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“…We highlight the laser light used for laser phototherapy (LPT). Over the past 20 years, experimental protocols have been proposed for a considerable number of procedures involving bone repair in animals and humans [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. These protocols are now also used as an aid to an efficient repair of mineralized tissues, as LPT accelerates bone repair by directly affecting, in different ways, the new bone formation.…”

Section: Laser In Dentistrymentioning

confidence: 99%

“…Fibroblast proliferation and its increased activity have been previously detected in individuals and cultures of irradiated cells and are responsible for the high concentration of collagen fibers observed in the irradiated bone. Our previous studies indicate that the effective result of LPT is observed when the treatment is performed in the initial stages of repair, when a large cell proliferation occurs [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. Vascular responses to LPT have also been suggested as one of the possible mechanisms responsible for the positive clinical results observed.…”

Section: Laser In Dentistrymentioning

confidence: 99%

“…Destacamos a luz laser usada para fototerapia a laser (FTL). Ao longo dos últimos 20 anos, protocolos experimentais foram propostos para um número considerável de procedimentos envolvendo a reparação do osso em animais e humanos [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. Esses protocolos agora são usados também como auxílio para um reparo eficiente de tecidos mineralizados, pois a FTL acelera o reparo ósseo afetando diretamente, de diversas maneiras, a nova formação óssea.…”

Section: Ciência Odontológica Brasileiraunclassified

“…A proliferação fibroblástica e a sua atividade aumentada foram detectadas anteriormente em indivíduos e culturas de células irradiadas e são responsáveis pela grande concentração de fibras de colágeno observadas no osso irradiado. Nossos estudos anteriores indicam que o resultado efetivo da FTL é observado quando o tratamento é realizado nos estágios iniciais do reparo, quando ocorre uma grande proliferação celular [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16] A Terapia fotodinâmica (PDT) tem sido muito utilizada em Periodontia com o objetivo de promover a redução dos microrganismos periodontais principalmente como coadjuvante ao tratamento periodontal não cirúrgico e cirúrgico, ou para o tratamento de bolsas residuais [1]. Consiste no uso de compostos fotossensibilizadores excitados por luz com comprimento ressonante gerando espécies reativas de oxigênio que são citotóxicas para vários tipos de microrganismos Estudos experimentais em animais, tem demonstrado que a PDT isolada ou quando associada a terapia periodontal mecânica é capaz de controlar a perda óssea alveolar, reduzir a extensão do processo inflamatório e da progressão da doença periodontal, controlar a atividade osteoclastogênica, regulando o metabolismo ósseo e promovendo a redução de periodontopatógenos na periodontite experimentalmente induzida, tanto em animais normais [2,3] como em animais modificados sistemicamente [4,5,6].…”

Section: Ciência Odontológica Brasileiraunclassified

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3rd Symposium of Lasers In Dentistry

Eduardo

Gonçalves

Higuera

et al. 2017

BDS

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Biochemical changes on the repair of surgical bone defects grafted with biphasic synthetic micro-granular HA + β-tricalcium phosphate induced by laser and LED phototherapies and assessed by Raman spectroscopy

et al. 2017

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This work aimed the assessment of biochemical changes induced by laser or LED irradiation during mineralization of a bone defect in an animal model using a spectral model based on Raman spectroscopy. Six groups were studied: clot, laser (λ = 780 nm; 70 mW), LED (λ = 850 ± 10 nm; 150 mW), biomaterial (biphasic synthetic micro-granular hydroxyapatite (HA) + β-tricalcium phosphate), biomaterial + laser, and biomaterial + LED. When indicated, defects were further irradiated at a 48-h interval during 2 weeks (20 J/cm per session). At the 15th and 30th days, femurs were dissected and spectra of the defects were collected. Raman spectra were submitted to a model to estimate the relative amount of collagen, phosphate HA, and carbonate HA by using the spectra of pure collagen and biomaterials composed of phosphate and carbonate HA, respectively. The use of the biomaterial associated to phototherapy did not change the collagen formation at both 15 and 30 days. The amount of carbonate HA was not different in all groups at the 15th day. However, at the 30th day, there was a significant difference (ANOVA, p = 0.01), with lower carbonate HA for the group biomaterial + LED compared to biomaterial (p < 0.05). The phosphate HA was higher in the groups that received biomaterial grafts at the 15th day compared to clot (significant for the biomaterial; p < 0.01). At the 30th day, the phosphate HA was higher for the group biomaterial + laser, while this was lower for all the other groups. These results indicated that the use of laser phototherapy improved the repair of bone defects grafted with the biomaterial by increasing the deposition of phosphate HA.

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Repair of Surgical Bone Defects Grafted with Hydroxylapatite + β-TCP and Irradiated with λ=850 nm LED Light

Cited by 10 publications

References 16 publications

Effects of photobiomodulation on bone defects grafted with bone substitutes: A systematic review of in vivo animal studies

Effects of photobiomodulation on bone defects grafted with bone substitutes: A systematic review of in vivo animal studies

3rd Symposium of Lasers In Dentistry

Biochemical changes on the repair of surgical bone defects grafted with biphasic synthetic micro-granular HA + β-tricalcium phosphate induced by laser and LED phototherapies and assessed by Raman spectroscopy

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