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EFFECTIVENESS OF LOW-LEVEL LASER THERAPY IN DOGS

Yıl 2022, , 363 - 378, 30.09.2022
https://doi.org/10.52538/iduhes.1101060

Öz

Low-Level laser therapy (LLLT), known as photobiomodulation therapy, stimulates the mitochondrial respiratory chain and causes changes in cellular adenosine triphosphate or cyclic adenosine monophosphate levels. Lasers are classified according to their power, maximum exposure, and wavelength. The dose required to treat the tissue; it depends on wavelength, power density, tissue type, tissue condition, pigmentation, depth of target tissue and treatment technique. Lasers are a useful treatment in human and veterinary rehabilitation. Studies showing that cartilage properties are preserved with treatment, improvement in peripheral nerve injuries, and that they contribute to pain management in patients with osteoarthritis are promising for their use in veterinary rehabilitation.

Kaynakça

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KÖPEKLERDE DÜŞÜK YOĞUNLUKLU LAZER TEDAVİSİNİN ETKİNLİĞİ

Yıl 2022, , 363 - 378, 30.09.2022
https://doi.org/10.52538/iduhes.1101060

Öz

Fotobiyomodülasyon tedavisi olarak bilinen düşük yoğunluklu lazer tedavisi (Low Level Laser Therapy-LLLT), mitokondriyal solunum zincirini uyarır ve hücresel adenozin trifosfat veya siklik adenozin monofosfat seviyelerinde değişikliklere neden olur. Lazerler güçlerine, maksimum maruz kalma miktarına ve dalga boylarına göre sınıflandırılır. Dokuyu tedavi etmek için gereken doz; dalga boyuna, güç yoğunluğuna, doku tipine, dokunun durumuna, pigmentasyona, hedef dokunun derinliğine ve tedavi tekniğine bağlıdır. Lazerler, hem insan hem de veteriner rehabilitasyonunda yararlı bir tedavidir. Lazerin kıkırdak özelliklerinin koruduğunu, periferik sinir yaralanmalarında düzelmeye yardımcı olduğunu ve osteoartritli köpeklerde ağrı yönetimine katkı sağladığını gösteren çalışmalar veteriner rehabilitasyonunda kullanımları için umut vericidir.

Kaynakça

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  • Referans62 Silveira, P. C., Ferreira, K. B., da Rocha, F. R., Pieri, B. L., Pedroso, G. S., De Souza, C. T., Nesi, R. T., & Pinho, R. A. (2016). Effect of Low-Power Laser (LPL) and Light-Emitting Diode (LED) on Inflammatory Response in Burn Wound Healing. Inflammation, 39(4), 1395–1404. https://doi.org/10.1007/s10753-016-0371-x
  • Referans63 Snyder-Mackler, L., & Bork, C. E. (1988). Effect of helium-neon laser irradiation on peripheral sensory nerve latency. Physical therapy, 68(2), 223–225. https://doi.org/10.1093/ptj/68.2.223
  • Referans64 Snyder-Mackler, L., Barry, A. J., Perkins, A. I., & Soucek, M. D. (1989). Effects of helium-neon laser irradiation on skin resistance and pain in patients with trigger points in the neck or back. Physical therapy, 69(5), 336–341. https://doi.org/10.1093/ptj/69.5.336
  • Referans65 Stasinopoulos, D., Papadopoulos, K., Lamnisos, D., & Stergioulas, A. (2016). LLLT for the management of patients with ankylosing spondylitis. Lasers in medical science, 31(3), 459–469. https://doi.org/10.1007/s10103-016-1874-2
  • Referans66 Suzuki, R., & Takakuda, K. (2016). Wound healing efficacy of a 660-nm diode laser in a rat incisional wound model. Lasers in medical science, 31(8), 1683–1689. https://doi.org/10.1007/s10103-016-2038-0
  • Referans67 Taheri, P., Vahdatpour, B., & Andalib, S. (2016). Comparative study of shock wave therapy and Laser therapy effect in elimination of symptoms among patients with myofascial pain syndrome in upper trapezius. Advanced biomedical research, 5, 138. https://doi.org/10.4103/2277-9175.187398
  • Referans68 Takenori, A., Ikuhiro, M., Shogo, U., Hiroe, K., Junji, S., Yasutaka, T., Hiroya, K., & Miki, N. (2016). Immediate pain relief effect of low level laser therapy for sports injuries: Randomized, double-blind placebo clinical trial. Journal of science and medicine in sport, 19(12), 980–983. https://doi.org/10.1016/j.jsams.2016.03.006
  • Referans69 Takhtfooladi, M. A., Jahanbakhsh, F., Takhtfooladi, H. A., Yousefi, K., & Allahverdi, A. (2015). Effect of low-level laser therapy (685 nm, 3 J/cm (2)) on functional recovery of the sciatic nerve in rats following crushing lesion. Lasers in medical science, 30(3), 1047–1052. https://doi.org/10.1007/s10103-015-1709-6
  • Referans70 Tim, C. R., Bossini, P. S., Kido, H. W., Malavazi, I., von Zeska Kress, M. R., Carazzolle, M. F., Parizotto, N. A., & Rennó, A. C. (2016). Effects of low level laser therapy on inflammatory and angiogenic gene expression during the process of bone healing: A microarray analysis. Journal of photochemistry and photobiology. B, Biology, 154, 8–15. https://doi.org/10.1016/j.jphotobiol.2015.10.02
  • Referans71 Toma, R. L., Vassão, P. G., Assis, L., Antunes, H. K., & Renno, A. C. (2016). Low level laser therapy associated with a strength training program on muscle performance in elderly women: a randomized double blind control study. Lasers in medical science, 31(6), 1219–1229. https://doi.org/10.1007/s10103-016-1967-y
  • Referans72 Tomazoni, S. S., Leal-Junior, E. C., Pallotta, R. C., Teixeira, S., de Almeida, P., & Lopes-Martins, R. Á. (2017). Effects of photobiomodulation therapy, pharmacological therapy, and physical exercise as single and/or combined treatment on the inflammatory response induced by experimental osteoarthritis. Lasers in medical science, 32(1), 101–108. https://doi.org/10.1007/s10103-016-2091-8
  • Referans73 Vanin, A. A., Miranda, E. F., Machado, C. S., de Paiva, P. R., Albuquerque-Pontes, G. M., Casalechi, H. L., de Tarso Camillo de Carvalho, P., & Leal-Junior, E. C. (2016). What is the best moment to apply phototherapy when associated to a strength training program? A randomized, double-blinded, placebo-controlled trial: Phototherapy in association to strength training. Lasers in medical science, 31(8), 1555–1564. https://doi.org/10.1007/s10103-016-2015-7
  • Referans74 Vasilenko, T., Slezák, M., Kovác, I., Bottková, Z., Jakubco, J., Kostelníková, M., Tomori, Z., & Gál, P. (2010). The effect of equal daily dose achieved by different power densities of low-level laser therapy at 635 and 670 nm on wound tensile strength in rats: a short report. Photomedicine and laser surgery, 28(2), 281–283. https://doi.org/10.1089/pho.2009.2489
  • Referans75 Veronez, S., Assis, L., Del Campo, P., de Oliveira, F., de Castro, G., Renno, A. C., & Medalha, C. C. (2017). Effects of different fluences of low-level laser therapy in an experimental model of spinal cord injury in rats. Lasers in medical science, 32(2), 343–349. https://doi.org/10.1007/s10103-016-2120-7
  • Referans76 Wagner, V. P., Curra, M., Webber, L. P., Nör, C., Matte, U., Meurer, L., & Martins, M. D. (2016). Photobiomodulation regulates cytokine release and new blood vessel formation during oral wound healing in rats. Lasers in medical science, 31(4), 665–671. https://doi.org/10.1007/s10103-016-1904-0
  • Referans77 Yadav, A., & Gupta, A. (2017). Noninvasive red and near-infrared wavelength-induced photobiomodulation: promoting impaired cutaneous wound healing. Photodermatology, photoimmunology & photomedicine, 33(1), 4–13. https://doi.org/10.1111/phpp.12282
  • Referans78 Youssef, E. F., Muaidi, Q. I., & Shanb, A. A. (2016). Effect of Laser Therapy on Chronic Osteoarthritis of the Knee in Older Subjects. Journal of lasers in medical sciences, 7(2), 112–119. https://doi.org/10.15171/jlms.2016.19
  • Referans79 Ziago, E. K., Fazan, V. P., Iyomasa, M. M., Sousa, L. G., Yamauchi, P. Y., da Silva, E. A., Borie, E., Fuentes, R., & Dias, F. J. (2017). Analysis of the variation in low-level laser energy density on the crushed sciatic nerves of rats: a morphological, quantitative, and morphometric study. Lasers in medical science, 32(2), 369–378. https://doi.org/10.1007/s10103-016-2126-1
Toplam 79 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Sağlık Kurumları Yönetimi
Bölüm Makaleler
Yazarlar

Neyran Altınkaya 0000-0003-0323-1536

Yayımlanma Tarihi 30 Eylül 2022
Gönderilme Tarihi 9 Nisan 2022
Yayımlandığı Sayı Yıl 2022

Kaynak Göster

APA Altınkaya, N. (2022). KÖPEKLERDE DÜŞÜK YOĞUNLUKLU LAZER TEDAVİSİNİN ETKİNLİĞİ. Izmir Democracy University Health Sciences Journal, 5(2), 363-378. https://doi.org/10.52538/iduhes.1101060

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