Maximising microdialysis sampling by optimising the internal probe geometry

N. Torto, L. Gorton, E. Mikeladze, E. Csöregi, T. Laurell
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引用次数: 13

Abstract

An in-house microdialysis probe equipped with 3 different inner cannulae exhibiting different inner and outer radii was used to sample glucose, maltotriose, maltopentaose and maltoheptaose as model analytes in order to evaluate its performance by means of optimised internal probe geometry. The results were correlated to the inner cannula ratio (Rir), defined as the inner cannula’s inner radius divided by the inner cannula’s outer radius. Extraction fraction (EF) or relative recovery (RR) showed a dependency on Rir for all the investigated analytes at all the perfusion rates. The EF for glucose improved up to 10% for a nominal increase of 0.27 in Rir. The sensitivity of the EF of saccharides to Rir decreased with the size of molecule. Therefore the Rir represents a parameter that should be further investigated in order to maximise the performances of concentric type microdialysis probes.
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通过优化内部探针几何形状来最大化微透析采样
内部微透析探针配有3个不同的内管,具有不同的内外半径,用于将葡萄糖,麦芽糖糖,麦芽糖戊二糖和麦芽糖七糖作为模型分析物,以便通过优化的内部探针几何形状来评估其性能。结果与内套管比(Rir)相关,Rir定义为内套管的内半径除以内套管的外半径。提取分数(EF)或相对回收率(RR)对所有研究分析物在所有灌注速率下的Rir都有依赖性。在Rir中,葡萄糖的EF提高了10%,名义上增加了0.27。糖的EF对Rir的敏感性随分子的大小而降低。因此,Rir代表一个参数,应该进一步研究,以最大限度地提高同心型微透析探针的性能。
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