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热化疗对荷瘤鼠NO水平影响的研究 被引量:1

Influence of Thermochemotherapy on Nitric Oxide Level of Tumor Bearing Mice
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摘要 目的:观察热化疗对荷瘤鼠NO水平的影响。方法:80只荷瘤Balb/c小白鼠随机分为不治疗组(NT),化疗组(P),热疗组(H)和热化疗组(HP),每组20只(雌雄各半)。处理后观察其抑瘤情况及肿瘤组织形态学变化,并采用硝酸还原酶法检测瘤组织内NO的浓度。结果:热化疗组与热疗组,热化疗组与化疗组抑瘤结果有显著性差异(P〈0.01)。除热疗组和化疗组之间差异无统计学意义(P〉0.05)外,其余各组之间NO含量均有显著性差异(P〈0.01)。结论:热化疗具有良好的抗肿瘤效应,可以显著提高荷瘤宿主NO水平,荷瘤宿主血清NO具有双重作用,低浓度时可促进肿瘤生长,高浓度时参与抗肿瘤免疫、抑制和杀伤肿瘤细胞。 Objective: To observe the influence of thermoehemotherapy on nitric oxide level of tumor bearing mice. Methods: 80 tumor bearing Balb/c mice were randomly divided into no treatment group (NT), ehemotherapy group (P), thermotherapy group (H) and thermoehemotherapy group(HP). There were 20 mice in each group, with half female and half male. After treatment , their deterring tumor actions , histomorphology were observed , and the NO levels of tumor tissue were detected by the nitrate reductase method. Results: The HP group was significantly different from the H group and the P group in inhibiting tumor actions (P 〈 0.01 ). The levels of NO were not different between the H group and the P group( P 〉0.05 ), but the levels of NO were signifieantly different among the other groups ( P 〈 0. 01 ). Conclusion: Thermochemotherapy had an excellent anti-cancer effects, its anti-cancer effects was obviously better than that of thermotherapy or chemotherapy. Thermoehemotherapy could increase the level of NO obviously. The experiment also proved that NO played double-effection to cells of tumor. Suitable concentration of NO promoted growth of tumor cells, while high concentration of NO had a potentially cytotoxic/cytostatic effect upon tumor cells.
作者 赵君 高向东 王升志 毛祖彝
机构地区 青岛大学医学院附属烟台毓璜顶医院口腔科 四川大学华西口腔医学院
出处 《肿瘤预防与治疗》 2009年第2期117-121,I0001,共6页 Journal of Cancer Control And Treatment
关键词 一氧化氮 一氧化氮合成酶 肿瘤 热化疗 Nitric Oxide NO Synthase Tumor Thermochemotherapy
分类号 R73-36 [医药卫生—肿瘤]
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参考文献19

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二级参考文献17

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共引文献3

同被引文献20

  • 1Wink DA,Vodocotz Y,Laval J,et al The muhifaceted roles of nitric oxide in cancer[J].Carcinogenesis,1998,19(5):711-722.
  • 2Jenkins DC,Charles IG,Thomsen LL,et al.Roles of nitric oxide in tumor growth[J].Proc Natl Acad Set USA,1995 92(10):4392-4396.
  • 3Urano M,Ling CC.Thermal enhancement of melphalan and oxali-platin cytotoxicity in vitro[J].Int J Hyperthermia,2002,18(4):307-315.
  • 4Brozovic A,Simaga S,Osmak M.Induction of heat shock protein 70 in drug-resistant cells by anticancer drugs and hyperthermia[J].Neoplasma,2001,48(2):99-103.
  • 5Ohtsubo T,Park HJ,Lyons JC,et al.Effect of acidic environment and p53 on apoptotis induction by hyperthermia[J].Int J Hyper-thermia,2000,16(6):481-91.
  • 6Sawaji Y,Sato T.Takeuchi A.et al.Anti.angiogenic action of hy-perthermia by suppressing gene expression and production of tumor-derived vascular endothelial growth factor in vivo and in vitro[J].Br J Cancer,2002,86(10):1579-1603.
  • 7Rosbe KW,Pragma J,Petrusz P,et al.Immunhistochemieal characterization of NOS activity in squamous cell carcinoma of thehead and neck[J].J Otolamgol Head Neck,1995,113(6):541-544.
  • 8Jiang H,Stewart CA,ku RW.Tumor target.derived factor syner-glzes with INF-γand LPS,IL-2 or TNF-α to promote maerophage synthase and enhanced nitric oxide-mediated tumor cytotoxity[J].Immunobiology,1995,192(2):3213-24.
  • 9Ohshima H,Bartsch H.Chronic infections and inflammatory processes as cancer risk factors:possible role of nitric oxide in Car-cinogenesis[J].Mutation Res,1994,305(2):253-264.
  • 10Jenkins DC,Charles IG,Thomsen LL,et al.Roles of nitric oxide in tumor growth[J].Pruc Natl Acad Sci USA,1995,92(10):4392-4396.

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肿瘤预防与治疗
2009年 第2期

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