Methods: Blood drug concentration of rabbit.
方法:家兔血药浓度法。
Serum drug concentration, were determined by HPLC.
用HPLC法测定血清药物浓度。
The drug concentration in liver, kidney and plasma was determined by HPLC.
采用HPLC法测定大鼠肝、肾和血浆中的药物浓度。
However the recovery was independent of the drug concentration surrounding the probe.
探针的回收率与周围溶液中药物的浓度无关。
RESULTS:71.7% of the results of blood drug concentration were in the reference range.
结果:71.7%患者的血药浓度结果在参考范围内;
To set up the local plasma drug concentration space time equation of the local embedding.
建立局部植入给药的药物浓度时空方程。
The drug concentration in the urine was determined by ultraviolet spectrophotometric method.
用紫外分光光度法测定尿中痛炎速灵的浓度。
AIM To set up the local plasma drug concentration space time equation of the local embedding.
目的建立局部植入给药的药物浓度时空方程。
A simple, quick and accurate HPLC method was adopted to assay the drug concentration in plasma.
并介绍了一种简单、快速、准确的高效液相方法检测硝苯地平的血药浓度。
Objective: To set up the local plasma drug concentration space time equation of the local embedding.
目的:建立局部植入给药的药物浓度时空方程。
To set up the local plasma drug concentration-space-time equation of the local embedding administration.
按实例建立局部植入给药的局部药物浓度时空方程。
Objective to analyse the influential factors on the serum drug concentration of chlorpromazine and clozapine.
目的探讨影响氯丙嗪与氯氮平血药浓度的相关因素。
Hydrogel patch had the maximum drug concentration in the rat thyroid tissue, next ointment a minimum of oral group.
水凝胶贴剂组大鼠甲状腺组织中的药物浓度最高,软膏组其次,口服组最低。
Objective: To set up the local plasma drug concentration-space-time equation of the local embedding administration.
目的:按实例建立局部植入给药的局部药物浓度时空方程。
Methods: the factors that made the determined plasma drug concentration changed on the course of TDM were analyzed.
方法:针对分析前、分析中、分析后的主要环节可能产生血药浓度变化的因素进行分析。
Conclusion: Ferrofluids as drug carriers can enhance drug concentration in the target with the aid of magnetic field.
结论:采用磁流体作为药物的载体,在外磁场作用下可实现靶向控制,提高药物在靶部位的聚集浓度。
Objective To investigate the most appropriate drug concentration in making animal model of blood-stasis with adrenalin.
目的探讨用肾上腺素法进行血瘀证动物模型造模时的最适浓度。
Objective: to examine modulating effect of Sandostatin to lymph drug concentration following intraperitoneal chemotherapy.
目的:探讨善得定对腹腔化疗时淋巴药物浓度的调节作用。
Conclusion Tumor metastasis status of rectal cancer lymph nodes exerts insignificant effect on drug concentration for LC and RERC.
结论直肠癌淋巴结转移状态对RERC和LC淋巴结内药物浓度聚集无明显影响。
PPD not only have a well-dewaxing role but also to tolerate a variety of external changes and add intensity and drug concentration.
一个好的降凝剂不仅具备降凝作用而且要耐受各种外力变化和强度以及加药浓度的影响。
The drug concentration was determined by high performance liquid chromatography(HPLC) to calculate the apparent permeability coefficient.
运用高效液相色谱法检测药物浓度,计算其表观渗透系数。
For its advantages in all aspects, the chromatography detection techniques take a wide range of applications in drug concentration analysis.
色谱分析检测技术因其各方面的优势,在药物浓度检测分析上有著广泛的应用。
Drug concentration in rats plasma was detected by high performance lipid chromatography (HPLC) after curcumin liposomes administered to rats.
姜黄素脂质体大鼠口服给药后,以高效液相色谱(hplc)法测定大鼠血浆中的药物浓度。
Test of weight, size, drug concentration, mechanical function and antibacterial test and in vitro release study were done to evaluate the DDS.
对DDS药棒进行重量、大小、含药量、机械性能测试和抑菌实验、体外释放实验研究。
Plasma protein binding influences distribution and the apparent relationship between pharmacologic activity and total plasma drug concentration.
血浆蛋白的结合作用会影响药物的分布,并影响药理活性和总血浆药物浓度间的表观关系。
The method is accurate and rapid. It can be used to study pharmacokinetics of gatifloxacin mesylate and to monitor the plasma drug concentration.
本方法准确快速,适用于加替沙星的药动学研究及临床血药浓度监测。
Method: Drug concentration of TFH and TFH-SLN in blood, heart, liver, spleen and kidney of mice after oral administration was determined by HPLC.
方法:采用HPLC法测定小鼠口服醋柳黄酮(TFH)和TFH-SLN后血液、心、肝、脾、肾的药物浓度。
Results: the newer delivery systems increased drug concentration in infected cells or tissue, having slow release and lengthen of effective drug concentration.
结果:抗菌药物脂质体、纳米球、微球等可提高感染细胞或组织的药物浓度,同时具有缓释特性,延长有效药物浓度维持时间。
Objective To evaluate the effect of craniotomy on the CSF drug concentration by measuring drug concentration in blood, in subcutaneous transudation and in CSF.
目的通过测定开颅术后周围静脉血、皮下引流液及脑脊液中药物浓度,来评价开颅手术对脑脊液药物浓度的影响。
Objective To evaluate the effect of craniotomy on the CSF drug concentration by measuring drug concentration in blood, in subcutaneous transudation and in CSF.
目的通过测定开颅术后周围静脉血、皮下引流液及脑脊液中药物浓度,来评价开颅手术对脑脊液药物浓度的影响。
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