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photobiomodulation of wound healing: a review of through increase of MMP activity and collagen synthesis.
experimental studies in mouse and rat animal models. Lasers Med Sci, 2013. 28(5): pp. 1281–8.
Photomed Laser Surg, 2010. 28(3): pp. 291–325. 143. Allahverdi, A., et al. Evaluation of low-level laser
129. Santos, N.R., et al. Influence of the combination of therapy, platelet-rich plasma, and their combination on
infrared and red laser light on the healing of cutaneous the healing of Achilles tendon in rabbits. Lasers Med Sci,
wounds infected by Staphylococcus aureus. Photomed 2015. 30(4): pp. 1305–13.
Laser Surg, 2011. 29(3): pp. 177–82. 144. Tsai, W.C., et al. Low-level laser irradiation stimulates
130. Yu, W., J.O. Naim, and R.J. Lanzafame. Effects of tenocyte migration with up-regulation of dynamin II
photostimulation on wound healing in diabetic mice. expression. PLoS One, 2012. 7(5): p. e38235.
Lasers Surg Med, 1997. 20(1): pp. 56–63. 145. Ozkan, N., et al. Investigation of the supplementary
131. Al-Watban, F.A., X.Y. Zhang, and B.L. Andres. Low- effect of GaAs laser therapy on the rehabilitation of
level laser therapy enhances wound healing in diabetic human digital flexor tendons. J Clin Laser Med Surg, 2004.
rats: a comparison of different lasers. Photomed Laser 22(2): pp. 105–10.
Surg, 2007. 25(2): pp. 72–7. 146. Ben-Dov, N., et al. Low-energy laser irradiation affects
132. Minatel, D.G., et al. Phototherapy promotes healing satellite cell proliferation and differentiation in vitro.
of chronic diabetic leg ulcers that failed to respond to Biochim Biophys Acta, 1999. 1448(3): pp. 372–80.
other therapies. Lasers Surg Med, 2009. 41(6): pp. 433–41. 147. Shefer, G., et al. Low-energy laser irradiation
133. Kaviani, A., et al. A randomized clinical trial on the promotes the survival and cell cycle entry of skeletal
effect of low-level laser therapy on chronic diabetic foot muscle satellite cells. J Cell Sci, 2002. 115(Pt 7): pp.
wound healing: a preliminary report. Photomed Laser 1461–9.
Surg, 2011. 29(2): pp. 109–14. 148. Nakano, J., et al. Low-level laser irradiation promotes
134. Houreld, N.N. Shedding light on a new treatment the recovery of atrophied gastrocnemius skeletal muscle
for diabetic wound healing: a review on phototherapy. in rats. Exp Physiol, 2009. 94(9): pp. 1005–15.
ScientificWorldJournal, 2014. 2014: p. 398412. 149. Rochkind, S., S. Geuna, and A. Shainberg.
135. Maltese, G., et al. A pilot study to evaluate the efficacy Phototherapy and nerve injury: focus on muscle response.
of class IV lasers on nonhealing neuroischemic diabetic Int Rev Neurobiol, 2013. 109: pp. 99–109.
foot ulcers in patients with type 2 diabetes. Diabetes Care, 150. Albuquerque-Pontes, G.M., et al. Effect of pre-
2015. 38(10): pp. e152–3. irradiation with different doses, wavelengths, and
136. De Oliveira, R.F., et al. Comparison between the application intervals of low-level laser therapy on
effect of low-level laser therapy and low-intensity pulsed cytochrome c oxidase activity in intact skeletal muscle of
ultrasonic irradiation in vitro. Photomed Laser Surg, 2008. rats. Lasers Med Sci, 2015. 30(1): pp. 59–66.
26(1): pp. 6–9. 151. Shefer, G., et al. Primary myogenic cells see the
137. Gal, P., et al. Effect of equal daily doses achieved light: improved survival of transplanted myogenic cells
by different power densities of low-level laser therapy following low energy laser irradiation. Lasers Surg Med,
at 635 nm on open skin wound healing in normal and 2008. 40(1): pp. 38–45.
corticosteroid-treated rats. Lasers Med Sci, 2009. 24(4): 152. Oron, U., et al. Attenuation of infarct size in rats
pp. 539–47. and dogs after myocardial infarction by low-energy laser
138. Wood, V.T., et al. Collagen changes and realignment irradiation. Lasers Surg Med, 2001. 28(3): pp. 204–11.
induced by low-level laser therapy and low-intensity 153. Tuby, H., L. Maltz, and U. Oron. Implantation of
ultrasound in the calcaneal tendon. Lasers Surg Med, low-level laser irradiated mesenchymal stem cells into the
2010. 42(6): pp. 559–65. infarcted rat heart is associated with reduction in infarct
139. Casalechi, H.L., et al. Analysis of the effect of size and enhanced angiogenesis. Photomed Laser Surg,
phototherapy in model with traumatic Achilles tendon 2009. 27(2): pp. 227–33.
injury in rats. Lasers Med Sci, 2014. 29(3): pp. 1075–81. 154. Kazemi Khoo, N., et al. Application of low-level laser
140. Oliveira, F.S., et al. Effect of low level laser therapy therapy following coronary artery bypass grafting (CABG)
(830 nm) with different therapy regimes on the process surgery. J Lasers Med Sci, 2014. 5(2): pp. 86–91.
of tissue repair in partial lesion calcaneous tendon. Lasers 155. Gavish, L., L. Perez, and S.D. Gertz. Low-level laser
Surg Med, 2009. 41(4): pp. 271–6. irradiation modulates matrix metalloproteinase activity
141. Guerra Fda, R., et al. Pulsed LLLT improves tendon and gene expression in porcine aortic smooth muscle
healing in rats: a biochemical, organizational, and cells. Lasers Surg Med, 2006. 38(8): pp. 779–86.
functional evaluation. Lasers Med Sci, 2014. 29(2): pp. 156. Stein, A., et al. Low-level laser irradiation promotes
805–11. proliferation and differentiation of human osteoblasts in
142. Guerra Fda, R., et al. LLLT improves tendon healing vitro. Photomed Laser Surg, 2005. 23(2): pp. 161–6.

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