低强度激光治疗加速老年大鼠肌肉再生。

Fatma Vatansever, Natalia C Rodrigues, Livia L Assis, Sabrina S Peviani, Joao L Durigan, Fernando M A Moreira, Michael R Hamblin, Nivaldo A Parizotto
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引用次数: 24

摘要

背景:老年人患有骨骼肌疾病,影响其日常活动和生活质量;其中一些问题可以列出但不限于:肌肉减少症,中枢和周围神经系统的变化,血液灌注不足,导致萎缩的再生变化和肌肉无力。再生过程中卫星细胞的决定、增殖和分化受特定的转录因子调控,即肌源性调节因子(MRFs)。在老年人中,核磁共振成像的激活效率低下,阻碍了再生过程。近年来的研究发现,低强度激光治疗(LILT)在肌肉再生过程中具有刺激作用。然而,当与衰老相关时,这种疗法的效果仍然未知。目的:研究λ=830 nm的LILT对老年大鼠胫前肌(TA)的影响。实验对象和方法:雄性Wistar大鼠56只,分为老年和青年两组,每组28只。每组随机分为4组幼龄大鼠(3月龄),每组n=7只;4组老龄大鼠(10月龄),每组n=7只。分为低温损伤+激光照射组、单纯低温损伤组、单纯激光照射组和对照组(无低温损伤/无激光照射组)。激光治疗连续5天。第一次激光应用于损伤后24小时(第2天),第7天,在麻醉下剥离TA肌。在此之后,这些动物被安乐死。用甲苯胺蓝和苏木精-伊红染色(用于计数毛细血管)对病变区域进行组织学分析。定量聚合酶链反应检测MyoD和VEGF mRNA表达。结果:结果显示明显升高(p)。结论:LILT促进了卫星细胞向成肌细胞和肌管的成熟,促进了激光照射老年大鼠的再生过程。
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Low intensity laser therapy accelerates muscle regeneration in aged rats.

Background: Elderly people suffer from skeletal muscle disorders that undermine their daily activity and quality of life; some of these problems can be listed as but not limited to: sarcopenia, changes in central and peripheral nervous system, blood hypoperfusion, regenerative changes contributing to atrophy, and muscle weakness. Determination, proliferation and differentiation of satellite cells in the regenerative process are regulated by specific transcription factors, known as myogenic regulatory factors (MRFs). In the elderly, the activation of MRFs is inefficient which hampers the regenerative process. Recent studies found that low intensity laser therapy (LILT) has a stimulatory effect in the muscle regeneration process. However, the effects of this therapy when associated with aging are still unknown.

Objective: This study aimed to evaluate the effects of LILT (λ=830 nm) on the tibialis anterior (TA) muscle of aged rats.

Subjects and methods: The total of 56 male Wistar rats formed two population sets: old and young, with 28 animals in each set. Each of these sets were randomly divided into four groups of young rats (3 months of age) with n=7 per group and four groups of aged rats (10 months of age) with n=7 per group. These groups were submitted to cryoinjury + laser irradiation, cryoinjury only, laser irradiation only and the control group (no cryoinjury/no laser irradiation). The laser treatment was performed for 5 consecutive days. The first laser application was done 24 h after the injury (on day 2) and on the seventh day, the TA muscle was dissected and removed under anesthesia. After this the animals were euthanized. Histological analyses with toluidine blue as well as hematoxylin-eosin staining (for counting the blood capillaries) were performed for the lesion areas. In addition, MyoD and VEGF mRNA was assessed by quantitative polymerase chain reaction.

Results: The results showed significant elevation (p<0.05) in MyoD and VEGF genes expression levels. Moreover, capillary blood count was more prominent in elderly rats in laser irradiated groups when compared to young animals.

Conclusion: In conclusion, LILT increased the maturation of satellite cells into myoblasts and myotubes, enhancing the regenerative process of aged rats irradiated with laser.

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