OBJECTIVE: The aim of this study was to investigate the effect of laser therapy (lambda = 780 nm) on bone tissue submitted to ionizing radiation. BACKGROUND DATA: The biostimulation effect of laser in normal bone tissue has already been demonstrated successfully; however its effect on bone tissue submitted to radiotherapy has not yet been studied. METHODS: Twenty-two Wistar rats were randomly divided into four groups: group I, control (n = 4), submitted only to radiotherapy; group II, laser starting 1 day prior to radiotherapy (n = 6); group III, laser started immediately after radiotherapy (n = 6); group IV, laser 4 weeks after radiotherapy (n = 6). The source of ionizing radiation used was Cobalt 60, which was applied in a single dose of 3000 cGy on the femur. The laser groups received seven applications with a 48-h interval in four points per session of DE = 4 J/cm(2), P = 40 mW, t = 100 sec, and beam diameter of 0.04 cm(2). All animals were killed 6 weeks after radiotherapy. RESULTS: Clinical examination revealed cutaneous erosions on experimental groups (II, III, and IV) starting at the 6th week after radiotherapy. The radiographic findings showed higher bone density in groups II and IV (p < 0.05) compared to the control group. The results further showed an increase of bone marrow cells, and number of osteocytes and Haversian canals in experimental groups II and IV (p < 0.05). It was also found an increase of osteoblastic activity, in groups II, III, and IV (p < 0.05). CONCLUSION: Laser therapy on bone tissue in rats presented a positive biostimulative effect, especially when applied before or 4 weeks after radiotherapy. However, the use of laser in the parameters above should be used with caution due to epithelial erosions.
OBJECTIVE: The aim of this study was to investigate the effect of laser therapy (lambda = 780 nm) on bone tissue submitted to ionizing radiation. BACKGROUND DATA: The biostimulation effect of laser in normal bone tissue has already been demonstrated successfully; however its effect on bone tissue submitted to radiotherapy has not yet been studied. METHODS: Twenty-two Wistar rats were randomly divided into four groups: group I, control (n = 4), submitted only to radiotherapy; group II, laser starting 1 day prior to radiotherapy (n = 6); group III, laser started immediately after radiotherapy (n = 6); group IV, laser 4 weeks after radiotherapy (n = 6). The source of ionizing radiation used was Cobalt 60, which was applied in a single dose of 3000 cGy on the femur. The laser groups received seven applications with a 48-h interval in four points per session of DE = 4 J/cm(2), P = 40 mW, t = 100 sec, and beam diameter of 0.04 cm(2). All animals were killed 6 weeks after radiotherapy. RESULTS: Clinical examination revealed cutaneous erosions on experimental groups (II, III, and IV) starting at the 6th week after radiotherapy. The radiographic findings showed higher bone density in groups II and IV (p < 0.05) compared to the control group. The results further showed an increase of bone marrow cells, and number of osteocytes and Haversian canals in experimental groups II and IV (p < 0.05). It was also found an increase of osteoblastic activity, in groups II, III, and IV (p < 0.05). CONCLUSION: Laser therapy on bone tissue in rats presented a positive biostimulative effect, especially when applied before or 4 weeks after radiotherapy. However, the use of laser in the parameters above should be used with caution due to epithelial erosions.
Authors: Jonas D Batista; Darceny Zanetta-Barbosa; Sérgio V Cardoso; Paula Dechichi; Flaviana S Rocha; Rogério M Pagnoncelli Journal: Lasers Med Sci Date: 2014-06-10 Impact factor: 3.161
Authors: Judith A E M Zecha; Judith E Raber-Durlacher; Raj G Nair; Joel B Epstein; Sharon Elad; Michael R Hamblin; Andrei Barasch; Cesar A Migliorati; Dan M J Milstein; Marie-Thérèse Genot; Liset Lansaat; Ron van der Brink; Josep Arnabat-Dominguez; Lisette van der Molen; Irene Jacobi; Judi van Diessen; Jan de Lange; Ludi E Smeele; Mark M Schubert; René-Jean Bensadoun Journal: Support Care Cancer Date: 2016-03-17 Impact factor: 3.603
Authors: Jolien Robijns; Raj G Nair; Joy Lodewijckx; Praveen Arany; Andrei Barasch; Jan M Bjordal; Paolo Bossi; Anne Chilles; Patricia M Corby; Joel B Epstein; Sharon Elad; Reza Fekrazad; Eduardo Rodrigues Fregnani; Marie-Thérèse Genot; Ana M C Ibarra; Michael R Hamblin; Vladimir Heiskanen; Ken Hu; Jean Klastersky; Rajesh Lalla; Sofia Latifian; Arun Maiya; Jeroen Mebis; Cesar A Migliorati; Dan M J Milstein; Barbara Murphy; Judith E Raber-Durlacher; Hendrik J Roseboom; Stephen Sonis; Nathaniel Treister; Yehuda Zadik; René-Jean Bensadoun Journal: Front Oncol Date: 2022-08-30 Impact factor: 5.738