3.Changes of body composition in children with acute leukemia during different treatment stages
Yi FENG ; Xiaoyan YU ; Jingchao LIAN ; Li HONG
Chinese Journal of Clinical Nutrition 2011;19(2):88-92
Objective To investigate the changes of body composition in the children with acute leukemia during different treatment stages.Methods From January 2009 to April 2010,56 children with acute leukemia hospitalized in Shanghai Children's Medical Center for chemotherapy were enrolled.Meanwhile,56 healthy children with matched age and sex were enrolled as the control group.The body compositions of children in the control group and the children with acute leukemia at the end of the first course of each treatment stages ware detected by segmental multiple-frequency bioelectrical impedance analysis.The distribution of body compositions was recorded asthe percentage of each body composition to the body weighL Results Among 56 children with acute leukemia,41were with acute lymphoblastic leukemia and 15 with acute nonlymphoblasdc leukemia.Twenty-three cases were in remission-induction chemotherapy stage,15 in consolidation chemotherapy stage,and 18 in maintenance chemotherapy stage.Compared with children in the control group,children with acute leukemia showed a reduction in the percentage of intracellular fluid (P = 0.000), extracellular fluid (P - 0.005), protein (P = 0.000), mineral (P = 0.001), skeletal muscle mass (P = 0.000), body cell mass (P = 0.000), and active cell mass (P = 0.000), while an increase in body fat mass [(26.2 ± 8.3)% vs.(20.3±3.8)%, P=0.000].The body weight (P = 0.001), the percentage of intracellular fluid (P = 0.005), protein (P = 0.004), body cell mass (P = 0.001), and active cell mass ( P = 0.020 ) in the children during remission-induction chemotherapy stage were significantly lower than those of the healthy children.However, the parameters of the consolidation chemotherapy stage were significantly lower than those of the control group, including the percentage of intracellular fluid (P = 0.000), extracellular fluid (P =0.000), protein (P = 0.000), mineral (P =0.001), body fat mass (P =0.000), non-fat mass (P = 0.000), skeletal muscle mass (P = 0.000), body cell mass (P = 0.000), and active cell mass (P = 0.000).Most body compositions in the maintenance chemotherapy stage were lower than those of the healthy children ( P < 0.05) except for body mass index (P = 0.127) and the percentage of extracellular fluid (P = 0.097).Conclusions Body compositions remarkably change in children with acute leukemia after chemotherapy.Therefore, the nutritional status of children with acute leukemia should be closely monitored, and proper nutritional support should be provided when necessary to improve the prognosis.
5.Establishment of Congenital Heart Disease Transposition of Great Arteries in Experimental Mice Model
Shijun GAO ; Yu NIE ; Hong LIAN ; Shengshou HU
Chinese Circulation Journal 2016;31(5):499-501
Objective: To establish a mice model of congenital heart disease transposition of great arteries in order to provide a research reference for the occurrence and development of transposition of great arteries. Methods: A total of 20 pregnant ICR mice at 8-10 weeks of age were divided into 2 groups: Control group, the mice received a single dose of DMSO 70 mg/kg at 8.5 days of gestation,n=5 and Experiment group, the mice received a single dose of all-trans retinoic acid 70 mg/kg at 8.5 days of gestation,n=15. All animals were treated for 18 days and then the embryos were taken to observe cardiac morphology under stereomicroscope. Results: Compared with Control group, Experiment group had obviously increased occurrence rates of premature delivery, abortion and embryo absorption, and 61.2% phenotype for transposition of great arteries; meanwhile, combining with non-heart defect phenotypeas exophthalmos and spinal malformation. Conclusion: All-trans retinoic acid may induce transposition of great arteries in mice embryos, which is a feasible animal model in experimental research.
6.Impact of transplant nephrectomy on panel reactive antibodies
Hong LIU ; Lian LI ; Rongjie YU ; Hongwen ZHAO ; Xiongfei WU
Journal of Third Military Medical University 2003;0(10):-
Objective To observe the impact of transplant nephrectomy on panel reactive antibodies and a secondary renal transplantation.Methods Panel reactive antibodies in 15 patients with a failed renal transplant admitted in our hospital between 2004 to 2007 were measured before transplantation,before and 1 month,6 months,12 months after transplant nephrectomy,and the pathological changes were observed after transplant nephrectomy.Results Panel reactive antibodies was increasing after renal transplantation,and reached the highest level one month after transplant nephrectomy,then grandually got down.New HLA allosensitization sites were discovered after transplant nephrectomy.Large amount of C4d was stained in failed transplant.Conclusion Serum PRA increased after transplant nephrectomy.New HLA allosensitization sites were found,which may be useful in HLA matching.
10.Residue decline dynamics and safety utilization of carbendazim in cultivation of Anoectochilus roxburghii.
Qing-Song SHAO ; Hong-Bo LIU ; Yu-Yun ZHANG ; Ai-Lian ZHANG ; Ming-Yan LI
China Journal of Chinese Materia Medica 2014;39(9):1559-1563
The paper aimed to study the residue decline dynamic and standards for safety utilization of carbendazim in roots, stems, leaves of Anoectochilus roxburghii and in growth media. Samples extracted with methanol were purified by liquid-liquid extraction and analysed by HPLC. The results showed that average rate of recovery was 82.9% - 95.7% and RSD were 2.0% - 6.3% with add of carbendazim in respectively diverse concentration, which meets inspection requirement of pesticide residue. Two kinds of dosages of carbendazim were treated, varying from recommended dosage (1.0 kg x hm(-2)) to 1.5 times recommended dosage (1.5 kg x hm(-2)). Results of two years test showed that the half-life period of carbendazim were 7.01 - 8.51 d in the growth media of A. roxburghii, 3.58 - 4.27 d in stems and 3.50 - 3.91 d in leaves, 4.93 - 5.71 d in roots. Providing max recommended residue of carbendazim in the cultivation of A. roxburghii is 0.5 mg x kg(-1), sprayed 4 times a year with the dosage of 1.0 kg x hm(-2), 28 days is proposed for the safety interval of the last pesticide application's and harvest's date.
Benzimidazoles
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metabolism
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pharmacology
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Carbamates
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metabolism
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pharmacology
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Chromatography, High Pressure Liquid
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Culture Media, Conditioned
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chemistry
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Dose-Response Relationship, Drug
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Fungicides, Industrial
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metabolism
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pharmacology
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Liquid-Liquid Extraction
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Orchidaceae
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drug effects
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metabolism
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Pesticide Residues
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analysis
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metabolism
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Plant Leaves
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drug effects
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metabolism
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Plant Roots
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drug effects
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metabolism
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Plant Stems
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drug effects
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metabolism