Like, what the insulin concentration is that a cell sees.
比如,细胞处在什么样的胰岛素浓度中。
Objective To affirm brain insulin concentration, and study its source.
目的对脑胰岛素的含量进行确认,探讨脑胰岛素的来源。
Serum insulin concentration at 30 minutes after a 75-g dose of oral glucose was determined at baseline as a measure of insulin secretion.
口服75g葡萄糖30min后血清胰岛素浓度被测定作为胰岛素分泌测定的基线。
Serum insulin concentration increased firstly and then decreased with the level of arginine increased, and the highest group was 0.4% group.
血清胰岛素含量随日粮精氨酸水平的增加先升高后降低,以0 . 4%组最高。
Moreover the concentration of blood glucose was negatively correlative to the difference of the blood insulin concentrations between hepatic portal vein and hepatic vein.
同时血糖浓度与肝门静脉和肝静脉中的胰岛素浓度差值显示了很好的负相关关系。结论该油相制剂能有效保护胰岛素的活性。
The technique involves a continuous iv insulin and glucose infusion for raising plasma insulin concentrations as well as keeping blood glucose concentration at a constant basic level.
该技术通过同时输注外源性胰岛素与葡萄糖,升高血浆胰岛素水平,同时维持血糖在基础稳态水平。
Blood glucose concentration of rats following severe injury was positively correlated with insulin concentration and BG60-120 at the corresponding time points, but negatively with GIR60-120 and ISI.
重型脑损伤组大鼠伤后血糖与相应时间段血清胰岛素值呈现正相关,与相应时间段BG 60- 120呈现正相关,与相应时间段GIR60 - 120、ISI呈现负相关。
Insulin is a hormone excreted by the pancreas to control blood sugar concentration.
胰岛素是由胰腺分泌的控制血糖浓度的一种激素。
Serum Insulin-like growth factor 1 (IGF-1) concentration and immunological parameters were monitored in the study.
实验前后检测了血清胰岛素样生长因子-1 (IGF - 1)浓度以及多项免疫指标。
Objective To study the effects of supraphysiologic concentration of plasma glucose on pancreatic islets secretion and peripheral tissue sensibility to insulin.
目的探讨超生理浓度的血浆葡萄糖对胰岛素分泌功能及外周组织胰岛素敏感性的作用。
The cells combined human proinsulin gene has the ability of producing insulin with increase in glucose concentration in vitro.
所构建的重组人胰岛素原基因能指导靶细胞随葡萄糖浓度的变化调节胰岛素分泌。
Conclusion: the recombinant human insulin gene could regulate the insulin secretion with the increase of glucose concentration in vitro.
结论:构建的重组人胰岛素基因具有随培养液中葡萄糖浓度升高调节胰岛素分泌的能力。
Insulin secretion of the isolated islets was dependent on the glucose concentration of incubation medium. CDS could stimulate insulin secretion significantly.
离体胰岛胰岛素的分泌依赖于孵育液中的葡萄糖浓度,CDS明显刺激胰岛素的释放。
The change rules of concentration of insulin, T3 and T4 in serum were similitude with the change tendency of daily live weight.
血清中胰岛素、T3、T4浓度的变化规律与日增重的变化趋势基本相似。
Exposure of islet cells to high concentration of glucose, dexamethosone and palmitate can reduce the expression of PDX-1, therefore affects the insulin synthesis of islet cells.
高浓度的葡萄糖、糖皮质激素、脂肪酸可抑制PDX-1蛋白的表达,从而抑制胰岛细胞的胰岛素分泌功能。
The influences on insulin fluorescent spectrum by pulse electrical field, concentration and temperature were determined in this paper.
本文通过荧光光谱,测定和分析了电场、浓度等物理因素对胰岛素荧光光谱的影响。
We measure this by looking at the free fatty acid concentration in the blood plasma in relation to plasma insulin.
我们同时测量血浆中的游离脂肪酸浓度和胰岛素浓度来阐释这个问题。
RESULTS Over 50% insulin was entrapped in skin during transdermal delivery, and more insulin was entrapped with the shorter pulses and higher concentration of insulin in the solution.
结果超过50%的胰岛素在电致孔经皮传输的过程中滞留于皮肤中,滞留量随脉冲时间常数的减小和胰岛素浓度的增加而增加;
Insulin secretion of the isolated islets in incubation medium was glucose concentration-dependent positively. The CDS could stimulate insulin secretion of the islets significantly.
离体胰岛胰岛素的分泌依赖于孵育液中的葡萄糖浓度,CDS明显刺激胰岛素的释放。
NIDD receiving insulin treatment had higher concentration than those treated with no insulin.
接受胰岛素治疗者的HDL - C较未经胰岛素治疗者为高。
Objective To assay serum cortisol concentration in type 2 diabetic patients and evaluate the relationship between serum cortisol concentration and insulin resistance.
目的了解2型糖尿病患者血清皮质醇分泌的变化及其对胰岛素敏感性的影响。
Objective To assay serum cortisol concentration in type 2 diabetic patients and evaluate the relationship between serum cortisol concentration and insulin resistance.
目的了解2型糖尿病患者血清皮质醇分泌的变化及其对胰岛素敏感性的影响。
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