RÉSUMÉ
Objective To investigate the nutritional support of hospitalized patients with advanced lung cancer in Shanghai. Methods From July 2018 to May 2020, hospitalized patients with advanced lung cancer in our hospital were selected. Patients were assessed using general situation questionnaire and patient subjective evaluation scale. The experimental indicators of patients were detected, the nutritional support was analyzed, and the risk factors of nutritional status of patients with lung cancer were analyzed. Results Among the 106 patients, 75 were male and 31 were female, 74 were under 64 years old and 32 were over 65 years old; PG-SGA results revealed that 37 cases (34.91%) scored 0~1, 48 cases (45.28%) scored 2-8, and 21 cases (19.81%) scored equal to or above 9; According to PG-SGA classification, patients were divided into good nutrition group (n=37) and malnutrition group (n=69). The proportion of patients of ≤64-year-old, TNM stage IV, WBC and neutrophil count in good nutrition group was lower than that of malnutrition group (P<0.05), meanwhile, the KPS, body mass index, red blood cell count, lymphocyte count, hemoglobin, serum protein, albumin, immunoglobulin IgG, IgM, IgA, CD4 +, CD3 +, and CD8 + were higher than those of malnutrition group (P<0.05). Logistic analysis showed that age ≥ 64 years old, TNM stage IV, KPS and BMI were risk factors of nutritional status (P<0.05). Conclusion Among the patients with advanced lung cancer in Shanghai, the incidence of malnutrition is 65.09%, and 19.81% of those with severe malnutrition are in urgent need of nutritional support. Logistic analysis results yield that age over 64 years old, TNM stage Ⅳ, KPS, body mass index are risk factors affecting nutritional status of patients.
RÉSUMÉ
Objective To establish a rabbit model of radiation-induced skeletal muscle injury in order to study the ultrastructural pathological changes and underlying mechanism.Methods 28 New Zealand rabbits were randomly divided into 2 groups with 16 rabbits in experimental group and 12 rabbits in control group.The experimental rabbits were irradiated on hip with a single dose of 80 Gy of 9 MeV electrons from a linear accelerator.1 month and 6 months after irradiation the pathological changes were respectively observed under light microscope and electron microscope.Results One month after irradiation,the morphologic changes including degeneration,necrosis of muscle cells,and hemorrhage between the muscle cells were observed under light microscope and the swelling of myofibrillae,blurring of light and shade band,vacuolar degeneration of mitochondria and amorphous areas of necrosis were observed under electron microscope.Six months after irradiation,the morphologic changes of nucleolus chips,fibrous connective tissue,thickening of vascular wall and vascular congestion between the muscle cells and the amorphous areas of necrosis in the experimental group were much more serious than those of 1 month after irradiation.In addition,the myofilaments were lost in degeneration areas and the sarcomere became shorten.Observation with electron microscope showed that the mitochondrial size and its morphological changes were varied and the amounts of collagen between myofibrillaes were increased 6 months after irradiation.Conclusions A rabbit model of high-dose irradiated skeleton muscle injury was successfully established with a single dose of 80 Gy of 9 MeV electrons from a linear accelerator.The degeneration and necrosis of muscle cells may be promoted by mitochondrial and vascular injury,degeneration of vessel and nerve fiber.
RÉSUMÉ
Objective Due to the superior performance,Carbon-Carbon composites,although still at their early stage of development,have gained more and more attention and showed great application potential.Methods According to the National Standard,the biological safety evaluation of carbon-carbon composites were done in the following aspects:cytotoxicity test,acute systemic toxicity test,haemolysis test,pyrogen test,intramuscular implantation test.Results test results showed the biological safety evaluation of carbon-carbon composites well meet the requirement of the national standard with fine biological compatibility.Conclusion The experiment results demonstrate that carbon-carbon composites can be put in clinical application