Francisco Eugênio Deusdará de Alexandria, Naldiana Cerqueira Silva, Livia Assis, Antônio Luiz Martins Maia Filho, Hueliton Wilian Kido, Juliana Carolina Tarocco, Rui Seabra Ferreira, Benedito Barraviera, Nivaldo Antônio Parizotto, José Figueiredo Silva, Messias Augusto das Neves Neto, Carla Roberta Tim
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引用次数: 0
摘要
糖尿病的特点是血糖水平升高,有时会导致机体自我修复能力受损。有前景的组织修复疗法包括光生物调节疗法和异源纤维蛋白生物聚合物(HFB)。本研究旨在评估 LED 光生物调控疗法对治疗糖尿病大鼠皮肤损伤的影响。使用阿脲诱导糖尿病。在 56 只 Wistar 大鼠背部诱发全厚皮肤伤口,将其随机分为四组:对照组、异源纤维蛋白生物聚合物组、LED 光生物调节疗法组和 LED 光生物调节疗法与异源纤维蛋白生物聚合物组。治疗分为两个实验阶段,分别持续 7 天和 14 天。值得注意的是,HFB 组在伤口消退方面的结果与 LED 组相似,但却表现出更强的抗愈合能力。有趣的是,与对照组相比,LED + HFB 组在 7 天时皮肤损伤更大,但在 14 天时修复过程有所改善。研究结果表明,将 LED 光生物调节与高频分解代谢结合使用,对糖尿病大鼠伤口愈合的促进作用并没有超过单独使用两种疗法的效果。两种治疗方法单独使用都很有效,其中高频生物光波在促进胶原蛋白成熟和改善组织生物力学特性方面表现尤为突出。这项研究为目前使用这种创新型高频分解代谢产物修复皮肤的研究做出了贡献。未来的临床试验对于验证这一观点至关重要。
Diabetic rats skin wounds treated with heterologous fibrin sealant followed by photobiomodulation therapy.
Diabetes mellitus is characterized by elevated blood glucose levels causing sometimes impairment of the body's ability to repair itself. Promising treatments for tissue repair have included photobiomodulation therapy and heterologous fibrin biopolymer (HFB). This study aimed to evaluate the impact of photobiomodulation therapy by LED, both as a standalone treatment and in conjunction with heterologous fibrin biopolymer in treatment of skin lesions of diabetic rats. Diabetes was induced using alloxan. Full-thickness skin wounds were induced on the backs of 56 Wistar rats, which were randomly allocated into four groups: control group, heterologous fibrin biopolymer group, photobiomodulation therapy by LED group, and photobiomodulation therapy by LED combined with heterologous fibrin biopolymer group. The treatments spanned two experimental periods, lasting 7 and 14 days. Notably, the HFB group exhibited results similar to those of the LED group concerning wound regression, while demonstrating superior resistance to healing. Interestingly, the LED + HFB group showed greater skin damage at 7 days, but an improved repair process at 14 days compared to the control group. The findings indicate that combining photobiomodulation by LED with HFB did not enhance wound healing in diabetic rats beyond the effects of each treatment alone. Both treatments were effective individually, with HFB showing particular strength in promoting collagen maturation and improving tissue biomechanical properties. This study contributes to the ongoing body of research on skin repair with this innovative HFB. Future clinical trials will be essential to validate this proposition.
期刊介绍:
Lasers in Medical Science (LIMS) has established itself as the leading international journal in the rapidly expanding field of medical and dental applications of lasers and light. It provides a forum for the publication of papers on the technical, experimental, and clinical aspects of the use of medical lasers, including lasers in surgery, endoscopy, angioplasty, hyperthermia of tumors, and photodynamic therapy. In addition to medical laser applications, LIMS presents high-quality manuscripts on a wide range of dental topics, including aesthetic dentistry, endodontics, orthodontics, and prosthodontics.
The journal publishes articles on the medical and dental applications of novel laser technologies, light delivery systems, sensors to monitor laser effects, basic laser-tissue interactions, and the modeling of laser-tissue interactions. Beyond laser applications, LIMS features articles relating to the use of non-laser light-tissue interactions.