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微透析技术实时检测肾热缺血后葡萄糖变化的动物实验研究 被引量:2

Glucose Metabolism in the Warm Ischemia/Reperfusion Injured Kidney of Rabbits:In Vivo Microdialysis and Real-Time Electrochemical Detection
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摘要 目的探讨应用微透析技术研究兔肾热缺血再灌注损伤后肾皮质葡萄糖浓度变化规律的可行性。方法新西兰大耳白兔20只,其中实验组10只,麻醉后游离出右肾及其动静脉,将微透析探针置入肾背侧皮质内,复方氯化钠溶液持续灌注平衡60min后,连接电化学分析系统,阻断肾动静脉60min,然后开放动静脉,观察60min。利用电化学方法实时在线检测肾透析液中葡萄糖含量的变化。对照组10只,仅游离出肾动静脉而不结扎,同样留置微透析针取样,连续检测葡萄糖浓度,比较2组在正常灌注期、缺血期和再灌注期葡萄糖浓度的变化。结果葡萄糖电极的电流响应与其浓度呈良好的线性关系,微透析针的回收率在(63.6±2.1)%。实验组兔肾皮质正常状态下测得的透析液葡萄糖浓度为(1.89±0.37)mmol/L,缺血期葡萄糖浓度为(0.69±0.12)mmol/L(LSD检验,P=0.000),缺血期较自身正常灌注期降低(36.7±2.4)%;再灌注期葡萄糖浓度为(0.62±0.14)mmol/L(LSD检验,P=0.000)。与对照组比较,实验组缺血期(t=-11.975,P=0.000)和再灌注期(t=-11.993,P=0.000)葡萄糖浓度显著降低。结论应用微透析与活体在线电化学技术相结合的方法可以方便、灵敏检测肾缺血再灌注损伤后葡萄糖水平,可以较好地实时反映肾皮质缺血状态。 Objective To investigate the change of glucose metabolism in warm ischemia/reperfusion injured kidney of rabbits in vivo by microdialysis and real-time electrochemical detection. Methods A total of 20 New Zealand rabbits were divided into experiment and control groups ( 10 in each). After anesthesia by intravenous injection of harbitone, an oblique incision under the 12th rid was made in the animals to expose the right kidney and the right renal artery and vein. Afterwards, a microdialysis probe was placed into the dorsal renal cortex along the long axle of the kidney. After 60 minutes to equilibrate, an electrochemical detection system was used to continuously determine the concentration of glucose in the renal cortex before ischemia. Then, ischemia/reperfusion injury model was established by clamping the renal pedicle for 60 minutes followed by perfusion for 60 minutes. The control group received the same intervention without clamping the renal pedicle. The glucose concentration of the microdialysis samples were analyzed before, during, and after the isehemia. Results The reaction of the glucose electrode to the electric current was linearly correlated with the concentrations of glucose, and the rate of microdialysis probe recycling was (63.6 ± 2. 1 ) %. The concentration of glucose in the renal cortical interstitial samples were ( 1.89 ±0.37) , (0. 69 ±0. 12) , and (0. 62 ±0.14) mmol/L respectively before, during, and after the warm ischemia. During the ischemia phase, the mean concentration of glucose decreased by (36. 7 ±6 2.4) % from the base level ( LSD test, P = 0. 000). The glucose concentration of the experimental group was significantly lower than that in the control at both ischemia and reperfusion phases ( t = - 11. 975, P = 0. 000 ; t = - 11. 993, P = 0. 000, respectively). Conclusions In vivo microdialysis combined with electrochemical detection provides a sensitive and real-time method for measuring the glucose concentration in warm ischemia/reperfusion injured kidney, which can suggest the ischemic condition of the renal cortex.
作者 张树栋 闫龙涛 林雨青 卢剑 侯小飞 马潞林 毛兰群
机构地区 北京大学第三医院泌尿外科 中国科学院化学研究所
出处 《中国微创外科杂志》 CSCD 2009年第3期225-229,共5页 Chinese Journal of Minimally Invasive Surgery
关键词 微透析 电化学检测 缺血再灌注 葡萄糖 Microdialysis Electrochemical detection Kidney Ischemia/reperfusion Glucose
分类号 R692 [医药卫生—泌尿科学]
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参考文献11

  • 1Tugtepe H, Sener G, Biyikli NK, et al. The protective effect of oxytocin on renal ischemia/reperfusion injury in rats. Regul Pept, 2007,140:101 - 108.
  • 2张红仙,钱传云,许汪斌.微透析技术在人体葡萄糖代谢方面的应用[J].昆明医学院学报,2008,29(B06):232-235. 被引量:1
  • 3Weld KJ, Montiglio C, Bush AC, et al. Predicting irreparable renal ischemic injury using a real-time marker in the porcine model. J Urol,2008,180 ( 9 ) :2218 - 2225.
  • 4Zhang ML,Liu K, Gong KP, et al. Continuous on-line monitoring of extracellular ascorbate depletion in the rat striatum induced by global ischemia with carbon nanotubc-Modificd glassy carbon electrode integrated into a thin-layer radial flow cell. Anal Chem, 2005,77 (19) :6234 -6242.
  • 5Lin Y, Liu K, Yu P, et al. A facile electrochemical method for simultaneous and on-llne measurements of glucose and lactate in brain microdialysate with prussian blue as the electrocatalyst for reduction of hydrogen peroxide. Anal Chem ,2007,79 ( 24 ) :9577- 9583.
  • 6Plock N, Kloft C. Microdialysis-theoretical background and recent implementation in applied life-sciences. Eur J Pharm Sci,2005,25: 1 - 24.
  • 7Keller AK, Jorgensen TM, Olsen H, et al. Early detection of renal ischemia by in situ microdialysis: an experimental study. J Urol, 2008,179(1) :371 -375.
  • 8Krarup PM, Stolle LB, Rawashdeh YF, et al. Regional changes in renal cortical glucose, lactate and urea during acute unilateral ureteral obstruction. Scand J Urol Nephrol,2007,41 (1) :47 -53.
  • 9侯小飞,闫龙涛,林雨青,马潞林,毛兰群.肾动静脉全阻断模型下活体实时检测肾皮质内抗坏血酸变化的研究[J].中国微创外科杂志,2009,9(1):69-72. 被引量:4
  • 10卢剑,林雨青,阎龙涛,张树栋,毛兰群,马潞林.微透析-电化学法检测缺血再灌注损伤对兔肾皮质乳酸代谢的影响[J].临床泌尿外科杂志,2008,23(11):871-873. 被引量:3

二级参考文献40

  • 1Tugtepe H, Sener G, Biyikli N K, et al. The protective effect of oxytocin on renal ischemia/reperfusion injury in rats[J]. Regulatory peptides ,2007(140) : 101- 108.
  • 2Zhang M L, Liu K, Gong K P, et al. Continuous online monitoring of extracellular ascorbate depletion in the rat striatum induced by global ischemia with carbon nanotube-Modified glassy carbon electrode integrated into a thin-layer radial flow cell[J].Analytical chemistry, 2005,77(19) :6234-6242.
  • 3Weld K J, Montiglio C, Bush A C, et al. Predicting irreparable renal ischemic injury using a real-time marker in the porcine model[J].J Urol, 2008, 180 (9) : 2218 -2225.
  • 4Keller A K, Jorgensen T M, Olsen H, et al. Early detection of renal ischemia by in situ microdialysis:an experimental study[J].J Urol, 2008,179(1):371-375.
  • 5Grunewald RA. Ascorbic acid in the brain. Brain Res Brain Res Rev,1993 ,18 :123 - 133.
  • 6Rice ME. Ascorbate regulation and its neuroprotective role in the brain. Trends Neurosci ,2000,23:209 - 216.
  • 7Rebec GV, Pierce RC. A vitamin as neuromodulator : ascorbate release into the extracellular fluid of the brain regulates dopaminergic and glutamatergie transmission. Prog Neurobiol, 1994,43 : 537 - 565.
  • 8Liu K, Lin Y, Xiang L, et al. Comparative study of change in extracellular ascorbic acid in different brain ischemia/reperfusion models with in vivo microdialysis combined with on-line electrochemical detection. Neurochem Int,2008,52 : 1247 - 1255.
  • 9Parle M, Dhingra D. Ascorbic Acid:a promising memory-enhancer in mice. J Pharmacol Sci ,2003,93:129 - 135.
  • 10Ciani E, Groneng L, Vohattorni M, et al. Inhibition of free radical production or free radical scavenging protects from the excitotoxie cell death mediated by glutamate in cuhures of cerebellar granule neurons. Brain Res, 1996,728 : 1 - 6.

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中国微创外科杂志
2009年 第3期

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