HPLC法测定注射用福沙匹坦二甲葡胺中乙二胺四乙酸钙钠的含量

摘 要 目的： 建立高效液相色谱法测定注射用福沙匹坦二甲葡胺中乙二胺四乙酸钙钠的含量。 方法: 采用Agilent Zorbax Eclipse XDB C₁₈(250 mm×4.6 mm,5 μm) 色谱柱;以0.2%四丁基氢氧化铵溶液（用磷酸调节pH4.0）-乙腈（85∶15）为流动相,流速为1.0 ml·min^-1,检测波长为254 nm,柱温为35℃,进样量为20 μl。结果:乙二胺四乙酸钙钠在26.06～104.24 μg·ml^-1（r=0.999 8）范围内呈现良好的线性关系;平均回收率为99.51％（RSD=0.25%,n=9）。结论: 该方法简便、灵敏、准确、专属性强,重复性好,可作为注射用福沙匹坦二甲葡胺中乙二胺四乙酸钙钠含量测定的方法。     

何首乌有效成分二苯乙烯苷的药代动力学研究

目的建立小鼠和兔血浆中二苯乙烯苷浓度的HPLC测定方法,研究何首乌中二苯乙烯苷在小鼠和兔体内的药代动力学行为。方法用Diamonsil^TM C₁₈色谱柱(250 mm×4.6 mm,5 μm),以乙腈-甲醇-1%甲酸(15∶18∶67)为流动相,流速1.0 mL·min^-1,检测波长320 nm。结果线性范围为0.41～42.0 μg·mL^-1(γ=0.9999),最低检测浓度为0.051 μg·mL^-1。高、中、低3种不同浓度的平均回收率分别为97.98%,101.7%和104.5%,日内精密度RSD分别为8.7%,2.9%和5.5%。小鼠和兔iv二苯乙烯苷后药代动力学行为均符合二室模型,药代动力学参数分别为:T_1/2α=1.9,2.7 min;T_1/2β=8.3,13.5 min;K₂₁=6.6,4.2 h^-1;K₁₂=3.8,3.0 h^-1;K₁₀=16.0,11.2 h^-1;V_c=0.090,0.198 L·kg^-1;AUC=6.918,4.530 mg·h·L^-1;CL=1.445,2.208 L·h^-1·kg^-1。小鼠ig给药后二苯乙烯苷在胃肠道内的吸收不规则,且血药浓度很低,药代动力学行为不符合房室模型。结论建立了二苯乙烯苷血药浓度的HPLC测定方法,阐明了二苯乙烯苷的药代动力学特征。方法的专属性高,操作简便,结果准确。     

CO2超临界流体色谱法同时测定莪术油中3个倍半萜类成分的含量

目的 建立CO₂超临界流体色谱法测定莪术油中呋喃二烯、牻牛儿酮和莪术二酮含量的方法。方法 采用ACQUITY UPC² HSS C₁₈ SB色谱柱（3.0 mm×150 mm,1.8 μm）,以CO₂-乙腈为流动相,梯度洗脱;流速为1.0 mL·min^-1;检测波长为216 nm,柱温为55℃,背压为2 000 psi。结果 呋喃二烯在2.67~1 337.26μg·mL^-1内线性关系良好（r=1.000）,加样回收率为97.94%（n=6,RSD=1.50%）。牻牛儿酮在2.77~1 386.00 μg·mL^-1内线性关系良好（r=1.000）,加样回收率为96.07%（n=6,RSD=1.68%）;莪术二酮在6.99~3 493.00 μg·mL^-1内线性关系良好（r=1.000）,加样回收率为99.33%（n=6,RSD=1.88%）。结论 本方法快捷准确、稳定且绿色环保,可用于莪术油中上述3个倍半萜类成分的质量控制。     

邻苯二甲醛柱前衍生化-HPLC测定复方氨基酸注射液中蛋氨酸亚砜的含量

目的 建立测定复方氨基酸注射液中蛋氨酸亚砜含量的方法。方法 采用邻苯二甲醛（O-phthaladehyde,OPA）柱前衍生HPLC。色谱柱为Agilent ZORBAX Eclipse AAA C₁₈柱（150 mm×4.6 mm,5µm）,检测波长为338 nm,流动相A为0.04 mol·L^-1磷酸二氢钠溶液（调节pH至7.8）,流动相B为乙腈-甲醇-水（45：45：10）,梯度洗脱,流速为2.0 ml·min^-1,柱温为40℃,供试品溶液与OPA衍生剂及硼酸盐缓冲液按设定程序自动混匀后进样。结果 蛋氨酸亚砜的质量浓度线性范围为0.000 5~0.050 0 mg·mL^-1（R=0.999 9）;定量限为0.250 5 μg·mL^-1,检测限为0.083 5 μg·mL^-1;精密度、稳定性、重复性试验的RSD<3.0%;平均回收率为99.1%（RSD=1.33%,n=9）。结论 该方法操作简便,可用于复方氨基酸注射液中蛋氨酸亚砜的含量测定。     

HPLC法测定甘草酸二铵制剂的含量

目的 采用HPLC法测定甘草酸二铵制剂的含量。方法 C₁₈色谱柱,以0.01mol·L^-1磷酸溶液-乙腈-二氯甲烷(62∶38∶1)为流动相,λ=252nm;考察了加样回收率,并比较了HPLC法及UV法。结果 甘草酸二铵注射液加样回收率为99.3%,RSD为1.6%;甘草酸二铵胶囊加样回收率为98.3%,RSD为1.5%。HPLC法较UV法含量测定结果低2%～3%。结论 HPLC法专属性强,方法简便,可用于产品质量的控制。     

LC-MS/MS法测定替诺福韦前体药物中遗传毒性杂质

目的 采用高效液相色谱-三重四极杆质谱法（LC-MS/MS）法测定替诺福韦酯前体药物中遗传毒性杂质9-丙烯基腺嘌呤含量,并分析最小二乘法不同线性拟合方法对结果准确度的影响。方法 采用Waters XBridge C₁₈（4.6 mm×150 mm,3.5 μm）色谱柱;以甲醇-水（55:45）为流动相,流速：1.0 mL·min^-1,等度洗脱8 min（2.0～2.6 min进质谱）。进样体积2 μL,柱温40 ℃。采用正离子电喷雾（ESI+）模式电离,多反应离子监测（MRM）模式,选择m/z 176.0→136.0作为检测离子。结果 经分析方法验证,该方法专属性良好;系统精密度试验RSD为1.1%（n=6）;使用最小二乘法进行线性回归,线性范围0.051～25.250 μg·mL^-1;加权线性回归在低浓度区域准确性明显高于未加权线性回归。定量限0.051 ng·mL^-1,检出限0.017 ng·mL^-1;原料药样品溶液平均回收率99.08%～99.97%（n=9）,重复性RSD为0.4%～1.3%;片剂样品溶液平均回收率98.94%～101.96%（n=9）,重复性RSD为0.2%～0.3%;耐用性良好。结论 建立的方法操作简单、灵敏度高、分析速度快、基质不影响检测,结果准确可靠,能够满足痕量遗传毒性杂质的检测要求。     

柱前衍生-HPLC测定白消安在家兔体内的药动学参数

目的 建立测定家兔血清中白消安浓度和家兔体内药动学特征的柱前衍生化HPLC。方法 以1,5-戊二醇二甲磺酸酯为内标,二乙基二硫代氨基甲酸钠为衍生化试剂。流动相：甲醇-水（54∶46）,流速：0~20 min（1.0 mL·min^-1）,20~27 min（1.3 mL·min^-1）。柱温：30℃,检测波长：280 nm,进样量：25 μL。家兔分别以灌胃、静注的方式给予白消安,按本法测定血药浓度,DAS 3.0计算药动学参数。结果 白消安的血药浓度在0.1~3.4 mg·-L¹ 内线性关系良好（r=0.999 7）,日内、日间精密度以及样品稳定性符合中国药典2015年版的规定。低、中、高浓度的萃取回收率分别为90.0%,89.0%,91.5%。不同给药途径获得的药动学参数：单剂量口服t_1/2=（2.26±0.66）h,k=（0.33±0.12）·h^-1,k_a=（2.54±1.3）·h^-1,AUC_0–t=（1.95±0.18）h·mg·mL^-1;单剂量静脉注射t_1/2=（1.53±0.09）h,k=（0.45±0.03）·h^-1,AUC_0–∞=（4.38±0.26）h·mg·mL^-1。多剂量口服后C_ss=（0.48±0.03）mg·mL^-1,AUC_0–τ=（3.87±0.26）h·mg·mL^-1。结论 建立的柱前衍生-HPLC法适用于白消安血药浓度测定及药动学研究,不同给药途径的药动学参数为临床药动学研究提供了依据。     

LC-MS/MS测定阿齐沙坦及其盐在大鼠血浆中的药动学研究

目的 建立液相色谱-串联质谱法测定大鼠血浆中阿齐沙坦及其盐的浓度并研究其药动学。方法 大鼠血浆样本以乙腈沉淀蛋白后,采用Eclipse Plus C₁₈色谱柱（50 mm×3.0 mm,1.8 μm）;流动相（乙腈：水=60：40）,流速为0.35 mL·min^-1,柱温为40℃;采用Agilent 6430三重四极杆串联质谱仪,离子化方式：电喷雾-正离子（API-ES）;监测方式：MRM;阿齐沙坦监测离子对457.3/233.1,缬沙坦监测离子对436.2/291.4,用作内标。SD大鼠灌胃给予阿齐沙坦1.0 mg·kg^-1及阿齐沙坦盐1.2 mg·kg^-1。结果 阿齐沙坦在5~30 000 ng·mL^-1内线性关系良好;回收率为85%~115%,精密度RSD在±15%内。阿齐沙坦盐大鼠体内主要动力学参数如下：AUC_{（0-24 h）}为（12.9±3.2）μg·mL^-1·h^-1,AUC_（0-∞）为（14.2±4.1）μg·mL^-1·h^-1,C_max为（3.8±0.3）μg·mL^-1,T_1/2为（13.4±0.5）h。阿齐沙坦的主要动力学参数如下：AUC_{（0-24 h）}为（8.1±2.6）μg·mL^-1·h^-1,AUC_（0-∞）为（9.7±3.1）μg·mL^-1·h^-1,C_max为（2.3±0.5）μg·mL^-1,T_1/2为（10.5±0.5）h。结论 本法经方法学验证,适用于大鼠血浆中阿齐沙坦及其盐的浓度测定,可用于阿齐沙坦及其盐大鼠体内药动学研究。     

HPLC-ELSD法同时测定感愈胶囊中胆酸和猪去氧胆酸的含量

目的：建立HPLC-ELSD法同时测定感愈胶囊中胆酸和猪去氧胆酸的含量。方法：采用Capcell PAK MG Ⅱ C₁₈色谱柱,以乙腈-水（55∶45）为流动相进行测定。结果：胆酸和猪去氧胆酸分别在0.0614～0.3684 mg·mL^-1（r=0.9995）和0.0423～0.2538 mg·mL^-1（r=0.9992）范围内进样量与峰面积的对数具有良好线性关系;两者平均回收率分别为99.52%、99.83%,RSD分别为0.74%、0.87%（n=6）。结论：本法简便、准确、分离效果好,可用于感愈胶囊的质量控制。     

UHPLC-MS/MS同时检测大鼠血浆中5种CYP450探针药物

目的 采用UHPLC-MS/MS同时检测大鼠血浆中非那西丁、甲苯磺丁脲、奥美拉唑、美托洛尔、咪达唑仑的血药浓度。方法 血浆样品经乙腈沉淀,采用Agilent ZORBAX Eclipse Plus C₁₈色谱柱（2.1 mm×50 mm,1.8 μm）;流动相为乙腈-含0.1%甲酸的水,梯度洗脱,流速为0.4 mL·min^-1。检测采用电喷雾离子源,多反应监测。非那西丁：[M+H]⁺,m/z 180.1→109.9;甲苯磺丁脲：[M+H]⁺,m/z 271.1→91.0;奥美拉唑：[M+H]⁺,m/z 346.1→135.9;美托洛尔：[M+H]⁺,m/z 268.2→115.0;咪达唑仑：[M+H]⁺,m/z 326.1→290.8;内标卡马西平：[M+H]⁺,m/z 237.1→194.0。6只♂ SD大鼠,单剂量口服灌胃10 mg·kg^-1非那西丁,1 mg·kg^-1甲苯磺丁脲,10 mg·kg^-1奥美拉唑,10 mg·kg^-1美托洛尔和10 mg·kg^-1咪达唑仑,分别在给药后多点尾静脉采血。用DAS计算药动学参数。结果 血浆中非那西丁、甲苯磺丁脲、奥美拉唑、美托洛尔和咪达唑仑在各自浓度范围内线性关系良好。日内及日间RSD均<15%,提取回收率>75%,稳定性考察结果良好。非那西丁的AUC_0-t为（5 868.30±2 062.87）ng·mL^-1·h;甲苯磺丁脲的AUC_0-t为（58 056.34±15 569.16）ng·mL^-1·h;奥美拉唑的AUC_0-t为（14 181.67±4 085.40）ng·mL^-1·h;美托洛尔的AUC_0-t为（1 123.67±180.469）ng·mL^-1·h;咪达唑仑的AUC_0-t为（946.91±322.03）ng·mL^-1·h。结论 该方法灵敏度高、操作方便、结果准确,可作为CYP450酶活性及相关研究的测定方法。     

Succimer and the reduction of tissue lead in juvenile monkeys

The extent to which succimer (2,3-dimercaptosuccinic acid, DMSA) chelation reduces target organ lead (Pb) levels, including the skeleton, relative to the cessation of Pb exposure is a primary consideration in evaluating its efficacy for reducing toxicity in children. Here, we utilized a rhesus monkey model of childhood Pb exposure and a sensitive stable (204)Pb isotope tracer methodology to determine the efficacy of succimer for reducing Pb in blood, liver, and skeletal tissues from chronic (>/=1 year) versus short-term (3-4 days) Pb exposures. Specific attention was paid to the efficacy of succimer treatment compared to the cessation of Pb exposure. Infant rhesus monkeys (n = 48) were exposed to Pb daily for 1 year or >1 year postpartum to reach and maintain a target blood Pb level of 35-40 microg/dL. Two successive 19-day succimer treatment regimens were administered at 53 and 65 weeks of age (30 mg/kg/day x 5 days followed by 20 mg/kg/day x 14 days). Blood was collected over the course of treatment, and liver and bone biopsy samples were collected on days 0, 5, and 20, relative to the start of treatment (day 0). Complete 24-h urine collections were conducted over the course of treatment. Results of the first chelation indicate that a single regimen of succimer treatment led to significant reductions in blood and liver Pb levels, relative to the placebo group. However, the cessation of Pb exposure alone (i.e., placebo) also led to significant reductions in blood and liver compared to pretreatment levels. Neither succimer nor the cessation of Pb exposure had a significant impact on bone lead levels. Blood Pb levels in the succimer-treated group rebounded within 5 days after treatment ended, becoming comparable with levels in the placebo group from that point on. Results from the second chelation indicate that succimer treatment is essentially equally efficacious in reducing blood Pb at moderate (20 microg/dL) levels where exposures ended >3 months previously and more elevated (40-50 microg/dL) levels where exposures ended just prior to treatment, relative to the placebo treatment. Finally, similar overall outcomes were observed for tissue Pb from recent exposures (i.e., (204)Pb tracer levels), indicating little or no apparent difference in the chelation of Pb from recent (3-4 days) versus long-term exposures. These data demonstrate that succimer does not reduce skeletal Pb levels, and they show that the efficacy of succimer for reducing blood Pb levels does not persist beyond the completion of treatment due to posttreatment rebounds in blood Pb from endogenous sources. They also demonstrate the relative benefit of eliminating Pb exposures, which serves to underscore the importance of primary prevention of Pb exposure. The extent to which these data reflect the efficacy of succimer for reducing neurocognitive impairment is not yet known, although those data are forthcoming.     

Succimer treatment and calcium supplementation reduce tissue lead in suckling rats

The effect of combined treatment with meso-2,3-dimercaptosuccinic acid (DMSA) and calcium supplementation in reducing lead absorption and enhancing lead elimination was evaluated in suckling rats under two experimental conditions: during ongoing oral lead exposure (lead acetate, 2 mg Pb kg(-1) day(-1), total dose 16 mg Pb kg(-1)) or after lead exposure (72 h after a 2-day lead exposure, total dose 12 mg Pb kg(-1) s.c.). The artificial feeding method was used for calcium supplementation, with 6% Ca (as CaHPO(4)) suspension in cow's milk to increase the daily calcium intake about three times above control values. Artificial feeding lasted for 7 h a day over eight consecutive days. During this period DMSA was administered on 6 days twice a day (0.5 mmol kg(-1) day(-1) p.o.). At the end of the experiments, Pb, Ca and Zn in the carcass and Pb, Fe and Cu in the liver, kidneys and brain were analysed by atomic absorption spectrometry. Calcium supplementation during lead exposure reduced tissue lead but had no effect when applied after lead exposure, and DMSA administered either during or after lead exposure lowered the tissue lead. Combined treatment during ongoing lead exposure caused a greater reduction in tissue lead than either DMSA or calcium treatment alone. When administered after lead exposure, it had no advantage over DMSA treatment alone but did not impair its efficacy. Combined treatment had no influence on growth and did not seriously disturb essential element status. It is concluded that calcium supplementation could be applied during DMSA therapy, when indicated.     

Succimer chelation normalizes reactivity to reward omission and errors in lead-exposed rats

This study evaluated the efficacy of a 3-week course of succimer treatment to alleviate behavioral deficits in rats exposed to lead (Pb) for the first 4 weeks of life. A 3 x 2 factorial design was used: three levels of lead exposure (No Pb, Moderate, and High Pb) and two levels of chelation (succimer or vehicle). Behavioral testing was conducted following chelation therapy, from 2 to 9 months of age; this report presents the results of two of the administered tasks: (1) a conditional olfactory discrimination task (baseline task), and (2) a conditional olfactory discrimination task with periodic reward omission on some correct trials (RO task). In the RO task, the performance disruption produced by committing an error on the previous trial was significantly greater for both unchelated lead-exposed groups than for controls. The High Pb rats were also more sensitive to reward omission than controls, providing converging evidence for impaired regulation of arousal or emotion. Importantly, succimer treatment was effective in normalizing the heightened reactivity of the lead-exposed animals to both errors and reward omission. In addition, non-lead-exposed rats that were treated with succimer tended to be more affected by a prior error than controls in their latency to respond on post-error trials. In sum, these findings provide new evidence that succimer chelation can significantly lessen the lasting neurobehavioral dysfunction produced by early lead exposure, but also suggest that there may be risks of administering the drug to individuals without elevated blood lead levels.     

Succimer treatment during ongoing lead exposure reduces tissue lead in suckling rats.

There is a concern that oral treatment with succimer (meso-2, 3-dimercaptosuccinic acid, DMSA) can promote gastrointestinal lead absorption if not performed in a lead-safe environment. The scope of our investigation was to evaluate the efficacy of oral DMSA treatment during oral lead exposure on tissue lead in suckling rats. Six-day-old Wistar rats of both genders were divided into two groups-untreated (Pb) and treated (Pb + DMSA)-with 10 animals per group. Lead (as acetate) was given orally at a dose of 2 mg kg(-1) body weight day(-1) for eight consecutive days (total dose 16 mg kg(-1), i.e. 0.08 mmol kg(-1)). During this period the treated group received a daily dose of 0.5 mmol DMSA kg(-1) body weight p.o. six times on days 1-3 and 6-8 of the experiment (total dose 3 mmol kg(-1)). Tissue lead was determined by means of atomic absorption spectrometry. The DMSA efficiently reduced the lead concentration in the analysed tissues (carcass, liver, kidneys and brain) by approximately 50% compared with untreated controls. The pups' growth and organ weights were not affected. In conclusion, our results indicate that DMSA is an efficient oral lead chelator in sucklings even if challenged with ongoing lead exposure.     

Succimer and the urinary excretion of essential elements in a primate model of childhood lead exposure.

Succimer is considered to be a safe and effective treatment for lead (Pb) poisoning, since it reduces body Pb levels without an apparent diuresis of other essential elements. However, while existing clinical data indicate that succimer does not significantly increase the excretion of non-target elements, those studies have also reported a wide range of outcomes. Therefore, we investigated whether succimer treatment measurably increased the urinary excretion of essential elements in a primate model of childhood Pb exposure. Infant rhesus monkeys (Macaca mulatta) were exposed to Pb from birth through one year of age, and presented blood Pb levels of approximately 40-50 microg/dL at the start of treatment. Subsequently, they were treated with succimer (30 mg/kg/day x 5 days followed by 20 mg/kg/day x 14 days, n = 15) or vehicle (n = 14) for 19 days. Complete urine samples were collected over the first 5 days of treatment, and were analyzed for levels of calcium (Ca), cobalt (Co), copper (Cu), iron (Fe), lead (Pb), magnesium (Mg), manganese (Mn), nickel (Ni), and zinc (Zn), using trace metal-clean techniques and magnetic sector-ICP-MS. Succimer treatment significantly (p < 0.05) reduced blood Pb levels when compared to the vehicle group over the treatment period, and concomitantly produced a significant >4-fold increase in urinary Pb excretion. Succimer treatment also significantly (p < 0.05, multivariate ANOVA) increased the urinary excretion of essential elements, but only when the cumulative total excretion over treatment days 1-5 for all elements were considered. None of these relative increases reached statistical significance for any particular element x day, although increases in Zn (day 3) excretion were only marginally non-significant (0.1 > p > 0.05). Multivariate analyses of a subset of elements (Cu, Fe, Mn, Zn) similarly indicated no significant effect of succimer treatment overall, although the urinary excretion of Mn was significantly increased on day 3 of treatment. Collectively, these data indicate that succimer does contribute to an increase in the urinary excretion of essential elements, although not significantly for any single element considered here. This may be important in Pb-exposed children, who can possess reduced trace element reserves due to nutritional deficiencies.     

子宫中隔切除术后预防粘连方法探讨

目的 探讨子宫中隔并不孕患者宫腔镜术后不同处理方法预防宫腔粘连的效果.方法 55例子宫中隔并不孕患者行腹腔镜监护下宫腔镜子宫中隔切除术(TCRS),术后针对不同患者采用不同术后处理措施,包括宫腔放置与不放IUD,是否进行人工周期治疗,部分患者术后使用GnRH-a类药物治疗术后第1、3个月行宫腔镜检查随访,宫内放置IUD的患者;于术后第3个月取环.结果 54例患者术后进行宫腔镜检查随访,其中40例分别于术后第1、3个月完成了术后2次宫腔镜检查,另14例只完成一次检查.宫腔术后放环与否对术后宫腔形态影响无差异(P>0.05),术后使用人工周期治疗患者较未使用者子宫内膜厚,此两者术后第3个月宫腔镜检查发现宫底创面均已有内膜覆盖.使用GnRH-a类药物患者术后官腔形态满意.结论 TCRS术后宫腔放置IUD无助于预防术后粘连的发生;术后人工周期治疗应更个体化并有针对性的使用GnRH-a类药物治疗.术后及时进行宫腔镜检查随访可防止术后宫底新粘连的形成.     

欧洲药典适用性认证介绍

目的介绍欧洲药典适用性认证程序,为国内药品监管机构和原料药生产企业提供信息,促进我国原料药生产企业的国际化。方法通过查阅调研欧盟相关药品法规和与EDQM同行面对面的交流,详细了解欧洲药典适用性认证的组织机构和具体程序。结果与结论欧洲药典适用性认证程序在对原料药的质量控制有重要作用,加强了药典的监管力度,进一步保证了原料药的质量、安全性和有效性。     

住院患者精神用药情况调查分析

目的：了解目前住院精神患者的药物使用情况。方法：采用一日法调查西安市精神卫生中心403例住院精神患者诊断和治疗情况，并与上海市精神卫生中心2004年调查结果相比较。结果：①传统精神药物使用显著减少，新型精神药物使用占据首位；②抗精神病药物使用趋向小剂量化；③本组联用丙戊酸盐类药物显著增多；④我院精神药物使用情况与上海精神卫生中心比较有显著差异。结论：近年来精神药物使用情况已发生了显著变化，与新型精神药物疗效好，副作用少，患者依从性高有关。     

不同方法治疗慢性宫颈炎的疗效分析

目的慢性宫颈炎是妇科最常见的疾病之一,可引起盆腔脏器炎症,并且与宫颈癌的发生关系密切。本文诣在探讨不同方法在慢性宫颈炎中的疗效。方法回顾性分析新乡市中心医院收治的210例宫颈炎患者,采用药物保妇康栓、聚焦超声治疗及宫腔镜下宫颈电切术的临床效果进行统计分析。结果宫颈电切术治疗有效率为97.9%,明显高于另外两组,差异有统计学意义。结论宫腔镜下宫颈电切术治愈慢性宫颈炎,并且切除宫颈移行带,减少宫颈癌发生。     

槲皮素代谢产物定性检出条件研究

目的:研究给予大鼠槲皮素后血浆中代谢产物的定性检出条件。方法:给予大鼠槲皮素单体(100mg.kg-1)后腹腔静脉取血,血浆样品经2mol.L-1盐酸(甲醇-水溶液)水解,采用高效液相色谱法对血浆样品中代谢产物进行定性分析。结果:大鼠给药后3h内取血、血浆样品经盐酸水解处理4h,可稳定检测槲皮素和异鼠李素,样品在—20℃条件下贮存稳定。结论:血浆样品采集时间、盐酸水解时间及贮存方式等不同均可影响代谢产物的有效检出。