Evaluation of skeletal muscle regeneration in experimental model after malnutrition / Avaliação da regeneração do músculo esquelético em modelo experimental após desnutrição

Abstract The aim of this study was to analyze muscle regeneration after cryoinjury in the tibialis anterior muscle of young rats that were malnourished and then recovered. Forty Wistar rats were divided into a nourished group that received a normal protein diet (14% casein) for 90 days and a malnourished and recovered rats group (MR) that was submitted to 45 days of malnutrition with a hypoproteic diet (6% casein) followed by 45 days of a normal protein diet (14% casein). After the recovery period, all of the animals underwent cryoinjury in the right tibialis anterior muscle and euthanasia after 7, 14 and 21 days. The amount of connective tissue and the inflammation area was higher in the malnutrition recovered injury MR group (MRI) at 14 days post-injury (p < 0.05). Additionally, the cross-sectional area (CSA) of the regenerated fibers was decreased in the MRI (p < 0.05). The MyoD and myogenin protein levels were higher in the nourished injury group. Similar levels of TGF-β1 were found between groups. The proposed malnutrition protocol was effective in showing delayed changes in the regeneration process of the tibialis anterior muscle of young rats. Furthermore, we observed a delay in muscle repair even after nutritional recovery.

Resumo O objetivo do presente estudo foi analisar a regeneração muscular após criolesão no músculo tibial anterior de ratos jovens desnutridos e recuperados. Foram utilizados 40 ratos da linhagem Wistar, divididos em 2 grupos: ratos nutridos receberam dieta normoproteica (14% de caseína) por 90 dias; e ratos desnutridos e recuperado submetidos a duas fases nutricionais pós-desmame, correspondendo a 45 dias de desnutrição com dieta hipoproteica (6% caseína), seguida por 45 dias de dieta normoproteica (14% caseína). Ao completar a fase de recuperação, todos os animais foram submetidos à criolesão no músculo tibial anterior direito e a eutanasia ocorreu 7, 14 e 21 dias após a lesão. A quantidade de tecido conjuntivo e a área de inflamação 14 dias pós-lesão foi maior no grupo desnutrido, recuperado e lesado (MRI – malnourished, recovered and injured group) (p < 0,05). A área de secção transversa (AST) das fibras regeneradas do grupo MRI foi menor (p < 0,05). O conteúdo das proteínas MyoD e Miogenina foi maior no grupo nutridos e lesados. A citocina TGF-β1 não apresentou diferença entre os grupos. O protocolo proposto foi eficaz para demonstrar alterações no processo de regeneração do músculo tibial anterior de ratos jovens, atrasando o reparo muscular mesmo após a recuperação nutricional.

Effect of anti-adhesion products on the healing of abdominal muscle / 医用生物力学

Objective To evaluate the effect of commonly used anti-adhesion products on the healing of abdominal muscles, and to provide guidance for surgeons to use anti-adhesion products in their clinical practice. Methods Adult SD rats were used. Except the sham group, surgical traumas were created on the serosal layer of the cecum and the underlying muscles of the abdominal wall. The wounds were covered without (Adhesion group) or with anti-adhesion products. Fourteen days after the surgery, the mechanical properties and histology of abdominal muscles were investigated to evaluate the healing of injured muscles. Results The ultimate tensile force and stiffness of the healing abdominal muscles in the groups of Polylactic acid membrane and Medical polyethylene glycol berberis lye were the same as those of normal muscles (P>0.05). The ultimate tensile force of the healing muscle in the groups of Chitosan gel and Seprafilm was significantly smaller than that of normal muscles (P0.05). The significant losses of mechanical properties of the healing muscles occurred in the Adhesion and Medical sodium hyaluronate gel group (P<0.05). HE staining indicated that more capillaries were found in Medical sodium hyaluronate gel, Polylactic acid membrane and Medical polyethylene glycol berberis lye group. The wound in Medical sodium hyaluronate gel group had less fibroblasts and fewer inflammatory cells, while the inflammatory cells were fully infiltrated with dense fibers in the other product groups. Conclusions Polylactic acid membrane and Medical polyethylene glycol berberis lye can promote abdominal muscle healing and are superior to Medical sodium hyaluronate gel, Chitosan gel and Seprefilm.