Mehrdad R, Esmaeili Javid G, Hasan Zadeh H, Sotoodeh Manesh A, Ghasemi M,
Volume 63, Issue 4 (7-2005)
Abstract
Background: This study was designed to compare low-level laser therapy (LLLT) + exercise therapy with LLLT alone and exercise therapy alone, and to determine whether laser therapy is a useful treatment modality for chronic low back pain (LBP).
Materials and Methods: This study was a double-blind placebo-controlled randomized clinical trial. Patients with chronic LBP for at least 12 weeks were included. Visual analogue scale (VAS), Modified Oswestry Disability Questionnaire (MODQ), Schober test, flexion, extension and lateral bending were used to evaluate back pain, disability score and lumbar range of motion. Irradiation was performed with GaAlAs (=810 nm, power density=226 mW/cm2) laser, two times a week, over a period of 6 weeks. Subjects were evaluated before the first treatment, at week 6 and 12 follow-up.
Results: The reduction in pain related to motion was significantly greater in the exercise + LLLT group compared with the exercise alone group (P = 0.004) but was not significant, compared with LLLT alone (P = 0.982). Disability score in LLLT + exercise therapy reduced more than the other two groups, and the difference with exercise alone group was significant (p = 0.03). Comparison of reduction of disability between LLLT alone and exercise therapy alone was not statistically significant. Improvement of lumbar range of motion in patients treated with LLLT + exercise therapy was better than the other two groups significantly, especially by Schober test and Flexion and lateral bending.
Conclusion: This study clearly shows that LLLT alone and especially LLLT combined with exercise can lead to better improvement in chronic LBP.
Mina Sadat Naderi, Seyed Mehdi Tabaie, Mohammad Hasan Soheilifar, Majid Pornour,
Volume 79, Issue 1 (4-2021)
Abstract
Background: Low-level lasers are used for various medical applications including wound healing and hair loss treatment. Cell Therapy using skin stem cells could be a novel approach to hair transplantation. However, there is no study on the effect of low-level laser on the hair follicle stem cells. So, in this study, we investigated the effect of low level laser irradiation on viability and ROS production in the hair follicle stem cells.
Methods: This study was performed in the cell culture laboratory of Medical Laser Research Center, Yara Institute in 2020 (June 2020 to February 2020). The hair follicle was isolated from the Safe Donor Area (SDA) using the 4mm punch method. In the laboratory, after separating the follicular units, the bulb region of each follicle was isolated via mechanical and enzymatic methods and cultured in FBS+F12-DMEM. Afterward, the stem cells were characterized via flow cytometry. The effect of low-level laser (685 nm) with different doses (1-20 J/cm2) was investigated on cell proliferation, viability and ROS production.
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Results: The stem cells were confirmed via flow cytometry and also morphological tests. The results indicated that the viability of the stem cells under laser irradiation was different. comparison of the cell viability before and after laser irradiation showed that the highest viability was related to 5 J/cm2 dose energy of laser irradiation. However, the viability of the cells in most dose energy of laser irradiation increased compared with the control group. Moreover, ROS production had a significant increase on 5 J/cm2 energy density of laser irradiation. We can be achieved better treatment in hair transplantation and hair follicle growth by knowing the effect of low-level laser irradiation on the viability of the hair follicle stem cells.
Conclusion: The result of this study could be useful in cell therapy and hair transplantation due to the improvement of cell viability and increase in ROS production under the influence of laser irradiation.
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