IRRADIAÇÃO LASER TRANSCUTÂNEA DO SANGUE EM MODO SIMULTÂNEO (S-ILIB) PARA RECUPERAÇÃO DE FADIGA: UMA SÉRIE DE CASOS
UMA SÉRIE DE CASOS
TRANSCUTANEOUS LASER IRRADIATION OF BLOOD IN SIMULTANEOUS MODE (S-ILIB) FOR FATIGUE RECOVERY: A CASE SERIES
A CASE SERIES
DOI:
https://doi.org/10.18066/revistaunivap.v30i67.4553
Abstract
The modified transcutaneous laser irradiation on blood (ILIB), a systemic modality of photobiomodulation therapy (PBMT), consists of a laser application on the radial artery or other artery in the body, to improve systemic functions and physiological dynamics of the body. The available therapeutic strategies for the management of fatigue due to daily life stress are mainly focused on lifestyle changes associated with nutrition and exercise. Thus, the present study aims to report a series of cases in which transcutaneous modified ILIB therapy in simultaneous mode (S-ILIB), was used to treat fatigue symptoms. Four healthy patients, without any type of significant comorbidity, reported fatigue related to stress. They were treated by the new PBMT protocol with the modified ILIB technique. The intensity or perception of fatigue was rated using a visual analogue scale (VAS). The "simultaneous technique" used in the present study consisted of laser irradiation in four sites of the body: 1- the radial artery region of the right arm; 2- the radial artery region of the left arm; 3- the right dorsal pedis artery; and 4- the left dorsal pedis artery. For PBMT, two laser device were used at 660 nm, on contact mode, with 100 mW of power. The patients reported a clear recovery in the energy sensation after the S-ILIB session. The PBMT protocol seems to be a promising therapy for managing energy recovery in fatigue-stress-related daily routines; however, complementary studies are required to establish the safest and most efficient protocol
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References
Avci, P., Gupta, A., Sadasivam, M., Vecchio, D., Pam, Z., Pam, N., & Hamblin, M. R. (2013). Low-level laser (light) therapy (LLLT) in skin: Stimulating, healing, restoring. Seminars in Cutaneous Medicine and Surgery, 32(1), 41–52.
Chuang, Y.-C., & Cheng, Y.-Y. (2024). Application of Intravenous Laser Irradiation of Blood (ILIB) in Physical Medicine: A Narrative Review. Rehabilitation Practice and Science, 2024(1). https://doi.org/10.6315/3005-3846.2230
Ewais, T., Begun, J., & Laakso, E.-L. (2023). Protocol for a Single-Arm Feasibility Study of Photobiomodulation for Fatigue, Depression, and Pain in Inflammatory Bowel Disease. Biomedicines, 11(8), 2179.
Ferraresi, C., Huang, Y. Y., & Hamblin, M. R. (2016). Photobiomodulation in human muscle tissue: an advantage in sports performance? Journal of biophotonics, 9(11-12), 1273-1299.
Ferraresi, C., Kaippert, B., Avci, P., Huang, Y., De Sousa, M. V. P., Bagnato, V. S., Parizotto, N. A., & Hamblin, M. R. (2015). Low‐level Laser (Light) Therapy Increases Mitochondrial Membrane Potential and ATP Synthesis in C2C12 Myotubes with a Peak Response at 3–6 h. Photochemistry and Photobiology, 91(2), 411–416. https://doi.org/10.1111/php.12397
Fu, C.-M., Wang, N.-K., Cheng, Y.-Y., & Chang, S.-T. (2022). The adjuvant therapy of intravenous laser irradiation of blood (ILIB) on pain and sleep disturbance of musculoskeletal disorders. Journal of Personalized Medicine, 12(8), 1333.
González-Muñoz, A., Perez-Montilla, J. J., Cuevas-Cervera, M., Aguilar-García, M., Aguilar-Nuñez, D., Hamed-Hamed, D., Pruimboom, L., & Navarro-Ledesma, S. (2023). Effects of Photobiomodulation in Sports Performance: A Literature Review. Applied Sciences, 13(5), 3147. https://doi.org/10.3390/app13053147
Lin, Y.-P., Ding, R.-S., Yin, C.-H., Chen, Y.-S., Chen, J.-S., & Chang, S.-T. (2023). Effects of Intravascular Photobiomodulation on Insomnia, Muscle Soreness, and Biochemistry Profiles: An Eight-Year Retrospective Cohort. Medicina, 59(6), 1006.
Luo, L., Sun, Z., Zhang, L., Li, X., Dong, Y., & Liu, T. C.-Y. (2013). Effects of low-level laser therapy on ROS homeostasis and expression of IGF-1 and TGF-β1 in skeletal muscle during the repair process. Lasers in Medical Science, 28(3), 725–734. https://doi.org/10.1007/s10103-012-1133-0
Mastaglia, F. L. (2012). The relationship between muscle pain and fatigue. Neuromuscular Disorders, 22, S178–S180. https://doi.org/10.1016/j.nmd.2012.10.003
Mitchell, U. H., & Mack, G. L. (2013). Low-level laser treatment with near-infrared light increases venous nitric oxide levels acutely: a single-blind, randomized clinical trial of efficacy. American journal of physical medicine & rehabilitation, 92(2), 151-156.
Soares, L. E. S., Guirado, M. M. G., Berlingieri, G., Ramires, M. C. C. H., Lyra, L. A. D. O. P., Teixeira, I. S., Oliveira, P. C., Tateno, R. Y., Palma, L. F., & Campos, L. (2021). Intranasal photobiomodulation therapy for COVID-19-related olfactory dysfunction: A Brazilian multicenter case series. Photodiagnosis and Photodynamic Therapy, 36, 102574. https://doi.org/10.1016/j.pdpdt.2021.102574
VA, M. (2015). The use of Intravenous Laser Blood Irradiation (ILBI) at 630-640 nm to prevent vascular diseases and to increase life expectancy. Laser therapy, 24(1), 15-26.
Wan, J.-j., Qin, Z., Wang, P.-y., Sun, Y., & Liu, X. (2017). Muscle fatigue: general understanding and treatment. Experimental & molecular medicine, 49(10), e384-e384.
Wasik, M., Gorska, E., Modzelewska, M., Nowicki, K., Jakubczak, B., & Demkow, U. (2007). The influence of low-power helium-neon laser irradiation on function of selected peripheral blood cells. Journal of Physiology and Pharmacology: An Official Journal of the Polish Physiological Society, 58 Suppl 5(Pt 2), 729–737.
Zhong, P., Zhou, M., He, L., Zhu, C., & Chen, N. (2017). Intravascular low‐level helium‐neon laser irradiation on blood for acute ischemic stroke. The Cochrane Database of Systematic Reviews, 2017(2). 10.1002/14651858.CD008917.pub2
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2024-08-05
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Soares, L. E. S. (2024). TRANSCUTANEOUS LASER IRRADIATION OF BLOOD IN SIMULTANEOUS MODE (S-ILIB) FOR FATIGUE RECOVERY: A CASE SERIES. Revista Univap, 30(67). https://doi.org/10.18066/revistaunivap.v30i67.4553
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Copyright (c) 2024 Revista Univap
This work is licensed under a Creative Commons Attribution 4.0 International License.
This work is licensed under a Creative Commons Attribution 4.0 International.
This license allows others to distribute, remix, tweak, and build upon your work, even commercially, as long as they credit you for the original creation.
http://creativecommons.org/licenses/by/4.0/legalcode
DOI:
https://doi.org/10.18066/revistaunivap.v30i67.4553Abstract
The modified transcutaneous laser irradiation on blood (ILIB), a systemic modality of photobiomodulation therapy (PBMT), consists of a laser application on the radial artery or other artery in the body, to improve systemic functions and physiological dynamics of the body. The available therapeutic strategies for the management of fatigue due to daily life stress are mainly focused on lifestyle changes associated with nutrition and exercise. Thus, the present study aims to report a series of cases in which transcutaneous modified ILIB therapy in simultaneous mode (S-ILIB), was used to treat fatigue symptoms. Four healthy patients, without any type of significant comorbidity, reported fatigue related to stress. They were treated by the new PBMT protocol with the modified ILIB technique. The intensity or perception of fatigue was rated using a visual analogue scale (VAS). The "simultaneous technique" used in the present study consisted of laser irradiation in four sites of the body: 1- the radial artery region of the right arm; 2- the radial artery region of the left arm; 3- the right dorsal pedis artery; and 4- the left dorsal pedis artery. For PBMT, two laser device were used at 660 nm, on contact mode, with 100 mW of power. The patients reported a clear recovery in the energy sensation after the S-ILIB session. The PBMT protocol seems to be a promising therapy for managing energy recovery in fatigue-stress-related daily routines; however, complementary studies are required to establish the safest and most efficient protocol
Downloads
References
Avci, P., Gupta, A., Sadasivam, M., Vecchio, D., Pam, Z., Pam, N., & Hamblin, M. R. (2013). Low-level laser (light) therapy (LLLT) in skin: Stimulating, healing, restoring. Seminars in Cutaneous Medicine and Surgery, 32(1), 41–52.
Chuang, Y.-C., & Cheng, Y.-Y. (2024). Application of Intravenous Laser Irradiation of Blood (ILIB) in Physical Medicine: A Narrative Review. Rehabilitation Practice and Science, 2024(1). https://doi.org/10.6315/3005-3846.2230
Ewais, T., Begun, J., & Laakso, E.-L. (2023). Protocol for a Single-Arm Feasibility Study of Photobiomodulation for Fatigue, Depression, and Pain in Inflammatory Bowel Disease. Biomedicines, 11(8), 2179.
Ferraresi, C., Huang, Y. Y., & Hamblin, M. R. (2016). Photobiomodulation in human muscle tissue: an advantage in sports performance? Journal of biophotonics, 9(11-12), 1273-1299.
Ferraresi, C., Kaippert, B., Avci, P., Huang, Y., De Sousa, M. V. P., Bagnato, V. S., Parizotto, N. A., & Hamblin, M. R. (2015). Low‐level Laser (Light) Therapy Increases Mitochondrial Membrane Potential and ATP Synthesis in C2C12 Myotubes with a Peak Response at 3–6 h. Photochemistry and Photobiology, 91(2), 411–416. https://doi.org/10.1111/php.12397
Fu, C.-M., Wang, N.-K., Cheng, Y.-Y., & Chang, S.-T. (2022). The adjuvant therapy of intravenous laser irradiation of blood (ILIB) on pain and sleep disturbance of musculoskeletal disorders. Journal of Personalized Medicine, 12(8), 1333.
González-Muñoz, A., Perez-Montilla, J. J., Cuevas-Cervera, M., Aguilar-García, M., Aguilar-Nuñez, D., Hamed-Hamed, D., Pruimboom, L., & Navarro-Ledesma, S. (2023). Effects of Photobiomodulation in Sports Performance: A Literature Review. Applied Sciences, 13(5), 3147. https://doi.org/10.3390/app13053147
Lin, Y.-P., Ding, R.-S., Yin, C.-H., Chen, Y.-S., Chen, J.-S., & Chang, S.-T. (2023). Effects of Intravascular Photobiomodulation on Insomnia, Muscle Soreness, and Biochemistry Profiles: An Eight-Year Retrospective Cohort. Medicina, 59(6), 1006.
Luo, L., Sun, Z., Zhang, L., Li, X., Dong, Y., & Liu, T. C.-Y. (2013). Effects of low-level laser therapy on ROS homeostasis and expression of IGF-1 and TGF-β1 in skeletal muscle during the repair process. Lasers in Medical Science, 28(3), 725–734. https://doi.org/10.1007/s10103-012-1133-0
Mastaglia, F. L. (2012). The relationship between muscle pain and fatigue. Neuromuscular Disorders, 22, S178–S180. https://doi.org/10.1016/j.nmd.2012.10.003
Mitchell, U. H., & Mack, G. L. (2013). Low-level laser treatment with near-infrared light increases venous nitric oxide levels acutely: a single-blind, randomized clinical trial of efficacy. American journal of physical medicine & rehabilitation, 92(2), 151-156.
Soares, L. E. S., Guirado, M. M. G., Berlingieri, G., Ramires, M. C. C. H., Lyra, L. A. D. O. P., Teixeira, I. S., Oliveira, P. C., Tateno, R. Y., Palma, L. F., & Campos, L. (2021). Intranasal photobiomodulation therapy for COVID-19-related olfactory dysfunction: A Brazilian multicenter case series. Photodiagnosis and Photodynamic Therapy, 36, 102574. https://doi.org/10.1016/j.pdpdt.2021.102574
VA, M. (2015). The use of Intravenous Laser Blood Irradiation (ILBI) at 630-640 nm to prevent vascular diseases and to increase life expectancy. Laser therapy, 24(1), 15-26.
Wan, J.-j., Qin, Z., Wang, P.-y., Sun, Y., & Liu, X. (2017). Muscle fatigue: general understanding and treatment. Experimental & molecular medicine, 49(10), e384-e384.
Wasik, M., Gorska, E., Modzelewska, M., Nowicki, K., Jakubczak, B., & Demkow, U. (2007). The influence of low-power helium-neon laser irradiation on function of selected peripheral blood cells. Journal of Physiology and Pharmacology: An Official Journal of the Polish Physiological Society, 58 Suppl 5(Pt 2), 729–737.
Zhong, P., Zhou, M., He, L., Zhu, C., & Chen, N. (2017). Intravascular low‐level helium‐neon laser irradiation on blood for acute ischemic stroke. The Cochrane Database of Systematic Reviews, 2017(2). 10.1002/14651858.CD008917.pub2
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Copyright (c) 2024 Revista Univap
This work is licensed under a Creative Commons Attribution 4.0 International License.
This work is licensed under a Creative Commons Attribution 4.0 International.
This license allows others to distribute, remix, tweak, and build upon your work, even commercially, as long as they credit you for the original creation.
http://creativecommons.org/licenses/by/4.0/legalcode
