两种伊维菌素注射液在家兔体内的生物等效性研究

为评价两种伊维菌素注射液在家兔体内的生物等效性,采用双周期交叉给药方式,将16只健康家兔随机分成2组,按5 mg/kg体重皮下单剂量注射两种伊维菌素注射液,使用HPLC法测定血浆中的伊维菌素,利用3P97药动软件计算主要药动学参数。结果显示,受试制剂和参比制剂的T_(max)分别为(26.45±8.62)h,(22.33±11.72)h;Cmax分别为(182.73±59.27)ng/m L,(166.77±65.25)ng/m L;AUC_(0-t)分别为(21122±9999)ng·h·L~(-1),(19475±7009)ng·h·L~(-1);AUC_(0-∞)分别为(27390±12197)ng·h·L~(-1),(31559±13412)ng·h·L~(-1)。伊维菌素注射液受试制剂与参比制剂的AUC0-t、AUC0-∞、Cmax、Tmax均无显著性差异(P0.05),双单侧t检验结果显示两种制剂生物等效,可为兽医临床给药方案的制定以及合理用药提供参考。     

伟嘉集团再次入选中国兽药企业50强

目前,经企业申报、各省（市、自治区）动物保健品协会、兽药监察所推荐,专家评审,初评,公示等程序,2009年度中国兽药生产企业50强评选已经结束,在其中的兽药制剂生产企业30强中．伟嘉集团榜上有名!这张国内顶级兽药企业的排行榜中,伟嘉集团以沈阳伟嘉牧业有限公司的名义胜出。     

盐酸贝那普利咀嚼片在犬体内的生物等效性研究

为研究国产和进口盐酸贝那普利片在犬体内的药代动力学和生物等效性,将20只健康比格犬随机分成2组,采用双周期交叉试验设计,按0.5 mg/kg体重分别单剂量口服受试产品和参比产品。采用UPLC-MS/MS法测定血浆中盐酸贝那普利及贝那普利拉的浓度,利用WinNonlin5.2.1软件计算主要药动学参数,并评价两种产品的生物等效性。结果显示,受试产品和参比产品中盐酸贝那普利Tmax分别为（0.85±0.36）h和（0.98±0.40）h;Cmax分别为（65.85±31.14）ng?mL-1和（52.02±25.79）ng?mL-1;AUC0-t分别为（46.98±29.77）h?ng?mL-1和（40.54±20.76）h?ng?mL-1;AUC0-∞分别为（48.28±30.05）h?ng?mL-1和（41.54±20.85）h?ng?mL-1;受试产品和参比产品的贝那普利拉Tmax分别为（1.78±0.55）h和（1.90±0.72）h;Cmax分别为（63.05±28.44）ng?mL-1和（55.29±36.01）ng?mL-1;AUC0-t分别为（249.09±87.90）h?ng?mL-1和（212.50±90.03）h?ng?mL-1;AUC0-∞分别为（274.15±93.86）h?ng?mL-1和（264.42±161.86）h?ng?mL-1。受试产品和参比产品的Tmax、Cmax、AUC0-t和AUC0-∞均无显著性差异（P>0.05）。双单侧t检验及90%置信区间结果均提示两种制剂生物等效,临床上可相互替代。该试验为兽医临床安全使用该药提供科学的依据。     

牛皮下注射卡洛芬注射液的药动学试验研究

为研究卡洛芬注射液在牛体内的药动学特征,将8头健康牛随机分为两组,每组4头,给药剂量为1.4 mg/kg BW,给药后按设计的采血点采集血样,采用超高液相色谱-串联质谱法(UPLC-MS/MS)测定血浆中卡洛芬的药物浓度,用WinNonlin8.1软件计算药动学参数。结果显示：牛单次皮下注射受试制剂卡洛芬注射液在牛体内主要药动学参数如下：平均最高血药浓度(Cmax)为(17473.30±2398.73)ng·mL^-1,平均药时曲线下面积(AUClast)为(1052647.93±143055.37)h·ng·mL^-1,平均达峰时间(Tmax)为8.00±2.62 h,平均消除半衰期(T_1/2)为55.69±3.25 h;牛单次皮下注射参比制剂卡洛芬注射液的主要药动学参数如下：平均最高血药浓度(Cmax)为(15695.98±4865.73)ng·mL^-1,平均药时曲线下面积(AUClast)为(1002858.15±297235.31)h·ng·mL^-1,平均达峰时间(Tmax...     

桔梗乙酸乙酯提取段对酒石酸泰乐菌素在小鼠血浆和肺组织中药动学的影响

采用高效液相色谱法(HPLC)测定不同时间点小鼠血浆和肺组织中酒石酸泰乐菌素的浓度,运用PKsolver程序及SPSS13.0统计软件处理和分析数据,计算相关药代动力学参数。结果显示:与对照组相比,乙酸乙酯组半衰期(t1/2)变短,Cmax增大、,药时曲线下面积(AUC)增加、Tmax与平均滞留时间(MRT0-inf_obs)缩短,而表观分布容积(Vz/F_obs)与消除率(Cl/F_obs)变小;肺组织分布图显示药物浓度高于对照组。结果表明:桔梗乙酸乙酯提取活性段对酒石酸泰乐菌素在小鼠体内的药动学特征有较大影响,表现为加快了酒石酸泰乐菌素的吸收速度,并增加了吸收程度;但药物在体内分布变窄,却增加了其在肺中的药物浓度。     

帕托珠利混悬液在仔猪体内的药代动力学及生物利用度研究

为研究帕托珠利混悬液在仔猪体内的药动学特征及生物利用度,采用平行实验设计方法,将16头 40 日龄健康仔猪随机分成两组,每组8头（公母各半）,分别进行单剂量静脉注射（6mg/kg bw）和单剂量口服给药（15mg/kg bw）,所有猪给药前禁食12h,给药2h后恢复正常饮食。给药后按预定的采血点采集血样,血浆中帕托珠利的含量采用经验证的 HPLC检测方法进行测定。实测血药浓度数据采用Graphad prism 8.0拟合药时曲线图,并用 Winnonlin5.2计算药动学参数。结果显示,单剂量静脉注射帕托珠利注射液后帕托珠利在仔猪体内主要药动学参数如下：平均消除半衰期（T1/2?）为136.98h,平均滞留时间（MRT）为165.92h,平均药时曲线下面积（AUC0-t）为1570.97 h?μg/mL,平均表观分布容积（Vz）为695.59 mL/kg,平均血浆清除率（CL）为3.77 mL/h?kg;单剂量口服帕托珠利混悬液后帕托珠利在仔猪体内主要药动学参数如下：平均消除半衰期（T1/2?）为134.05h,平均达峰时间（Tmax）为42.00h,平均峰浓度（Cmax）为14.03μg/mL,平均滞留时间（MRT）为173.19h,平均药时曲线下面积（AUC0-t）为2831.00 h?μg/mL,帕托珠利混悬液口服给药绝对生物利用度为72.08%。结果表明,帕托珠利在猪体内分布较差,消除缓慢;仔猪口服帕托珠利混悬液达峰时间较长,但吸收良好。     

两种氟苯尼考制剂产品比较药动学研究

健康杜长大猪16头(体重为18±1kg)随机分为A、B两组,以20mg/kg剂量单次灌服两种氟苯尼考制剂(20%氟苯尼考粉和2%氟苯尼考预混剂),并于给药后不同时间点从前腔静脉采血,采用已建立的高效液相色谱法(HPLC)进行血药浓度测定,利用Win Nonlin软件的非房室模型拟合其血药浓度-时间数据。方法学研究表明本实验建立的HPLC方法专属性良好,在目标峰附近无杂质干扰,线性良好,线性范围为0.03~10μg/mL,相关系数为0.9994。20%氟苯尼考粉主要药动学参数为:Tmax=1.13±0.64h,Cmax=9.61±2.65μg/mL,T1/2=3.84±1.56h,MRT=4.65±0.70h,AUC=52.56±16.99 h*μg/mL;2%氟苯尼考预混剂主要药动学参数为:Tmax=1.31±0.37h,Cmax=8.30±2.17μg/mL,T1/2=3.39±0.35h,MRT=4.93±0.74h,AUC=49.84±17.54 h*μg/mL。比较药动学结果表明20%氟苯尼考粉相对于2%氟苯尼考预混剂的相对生物利用度为105.45%。经T检验和方差分析,二者主要药动学参数无显著差异,在猪体内可视为有相似的药动学过程,但前者在饮水灌服给药时能在更短的时间吸收分布、达到血药峰浓度,且血药峰浓度略高于2%氟苯尼考预混剂,故20%氟苯尼考粉起效更快、效果稍好于2%氟苯尼考预混剂。     

说话从从容容做事精精干干一一访浙江伊科拜克动畅保健品有限公司销售总监曹玉良

扎实做事的处事作风,诚信为本的良好品质,自强不息的生命态势,是本期主人公的真实写照,他就是浙江伊科拜克动物保健品有限公司（以下简称"伊科拜克"）销售总监曹玉良。多年来,曹总通过自已不断的拼搏,加上其对事业的执着追求和诚以立业的经营理念,使他带领下的伊科拜克业绩蒸蒸日上,已然成为动保行业中有一定知名度和影响力的企业。     

泰万菌素兽用国家标准品的研制

旨在研制首批泰万菌素兽用国家标准品,用于酒石酸泰万菌素及其制剂中泰万菌素的效价测定。采用精制后的泰万菌素酒石酸盐为原料进行本批泰万菌素标准品的研制,原料分装后按照酒石酸泰万菌素质量标准及《中华人民共和国兽药典》2015年版中的规定对其进行质量检测及均匀性评价,采用紫外-可见分光光度法测定最大吸收波长,60℃减压干燥法测定干燥失重,高效液相色谱法测定泰万菌素A组分,并以原始发明厂的标准品为基准,采用抗生素微生物检定法中三剂量管碟法进行协作标定,对标定结果进行合并计算,作为本批标准品的效价赋值。结果显示,分装后的标准品经60℃减压干燥至恒重后减失重量为2.0%,均匀性评价符合要求,在289 nm的波长处有最大吸收,抗生素微生物检定法测定的泰万菌素效价为822 U·mg^-1。本研究研制的首批泰万菌素兽用国家标准品各项检测指标均符合规定,可作为国家标准品发放,用于酒石酸泰万菌素原料及制剂中泰万菌素的效价测定,便于生产企业和质量检定部门进行酒石酸泰万菌素原料及制剂的质量控制,对于提高和保证兽药质量具有重要意义。     

鹅巴氏杆菌病病原分离鉴定及中西药联用抑菌试验

应用常规分离鉴定技术,对湛江市某养鹅场的病鹅进行病原分离与鉴定,采用水提法制备中药药液,通过试管二倍稀释法测定各中药药液和抗菌药对病原菌的最小抑菌浓度（MIC）及最小杀菌浓度（MBC）,同时测定中药与西药联用对病原菌的体外抑菌效果。结果表明,分离的病原菌符合巴氏杆菌的生化特性;中药与西药联用抑菌和杀菌能力均大于或等于单药,恩诺沙星与五倍子联用,恩诺沙星用量为单药的1/4、五倍子用量为单药的1/8即可抑制巴氏杆菌;酒石酸泰乐菌素与夏枯草联用,酒石酸泰乐菌素用量为单药的1/16、夏枯草用量为单药的1/4即可抑菌;酒石酸泰乐菌素与五倍子联合,酒石酸泰乐菌素用量为单药的1/4即能杀菌。     

Pharmacokinetics of ivermectin in llamas (Lama glama)

The pharmacokinetic behaviour of ivermectin was investigated in adult llamas (Lama glama) by using high performance liquid chromatography with a lower limit of quantification of 2 ng/ml to measure its concentration in serum. Llamas were treated with one of three commercial formulations (injectable, pour-on or oral paste) at dosages recommended by the manufacturer, or with an experimental injectable sustained-release formulation. In five llamas given 1 per cent ivermectin subcutaneously at 200 microg/kg, the median peak serum concentration (Cmax) was 3 ng/ml and the area under the serum concentration-time curve (AUC) was 13.5 ng x day/ml. In six llamas treated topically with 0.5 per cent ivermedin pour-on at 500 microg/kg, Cmax was 2.5 ng/ml or less and the AUC was 7.75 ng x day/ml or less. In seven llamas with measurable concentrations of ivermedin, the median times to peak serum concentration (tmax) were six days after subcutaneous injection and seven days after treatment with the pour-on formulation. In six llamas, the serum concentration of ivermectin remained less than 2 ng/ml for 124 hours after treatment with a 1.87 per cent oral paste at 200 microg/kg. In five llamas treated subcutaneously with 25 per cent ivermectin sustained-release microspheres at 1500 microg/kg, the median Cmax was 5 ng/ml and the median AUC was 224 ng x day/ml.     

A comparative kinetic study of ivermectin and moxidectin in lactating camels (Camelus dromedarius).

The plasma and milk kinetics of ivermectin (IVM) and moxidectin (MXD) was evaluated in lactating camels treated subcutaneously (0.2 mg kg(-1)) with commercially available formulations for cattle. Blood and milk samples were taken concurrently at predetermined times from 12 h up to 60 days post-administration. No differences were observed between plasma and milk kinetics of IVM, while substantial differences were noted between plasma and milk profiles of MXD in that both the maximal concentration (Cmax) and the area under concentrations curves (AUC) were three to four-fold higher for milk than for plasma. The time (Tmax) to reach Cmax was significantly faster for MXD (1.0 day) than that for IVM (12.33 days). The Cmax and the AUC were significantly higher for MXD (Cmax = 8.33 ng ml(-1); AUC = 70.63 ng day ml(-1)) than for IVM (Cmax = 1.79 ng ml(-1); AUC = 30.12 ng day ml(-1)) respectively. Drug appearance in milk was also more rapid for MXD (Tmax = 3.66 days) compared to IVM (Tmax = 17.33 days). The extent of drug exchange from blood to milk, expressed by the AUCmilk/AUCplasma ratio, was more than three-fold greater for MXD (4.10) compared to that of IVM (1.26), which is consistent with the more lipophilic characteristic of MXD. However, the mean residence time (MRT) was similar in both plasma and milk for each drug.     

Disposition of cyclosporine after intravenous and multi-dose oral administration in cats

The aim of this study was to evaluate the disposition of cyclosporine after intravenous (i.v.) and oral administration and to evaluate single sampling times for therapeutic monitoring of cyclosporine drug concentrations in cats. Six adult male cats (clinically intact) were used. Two treatments consisting of a single i.v. cyclosporine (1 mg/kg) and multiple oral cyclosporine (3 mg/kg b.i.d p.o. for 2 weeks) doses. Whole blood cyclosporine concentrations were measured at fixed times by high performance liquid chromatography and pharmacokinetic values were calculated. Mean values for the i.v. data included AUC (7413 ng/mL.h), t1/2 distribution and elimination (0.705 and 9.7 h, respectively), Cmax (1513 ng/mL), and Vd(ss) (1.71 L/kg). Mean values for the oral data included AUC (6243 ng/mL.h), t1/2 of absorption and elimination (0.227 and 8.19 h, respectively), and Cmax (480.0 ng/mL). Bioavailability of orally administered cyclosporine was 29 and 25% on days 7 and 14 respectively. Whole blood comment cyclosporine concentration 2 h after administration (C2) better correlated with AUC on days 7 and 14 than trough plasma concentration (C12). The rate of oral cyclosporine absorption was less than expected and there was substantial individual variation. Therapeutic drug monitoring strategies for cyclosporine in cats should be re-evaluated.     

姜黄素固体分散体在猪体内的比较药动学研究

本研究首次建立了测定猪血浆中姜黄素的高效液相色谱串联质谱法（HPLC-MS/MS），比较了在内服给药途径下，姜黄素固体分散体和姜黄素预混剂在仔猪体内的药动学特征。选用16头7周龄左右健康二元杂交猪（约克夏×长白），公母各半，随机分为2组，每组8头，按100 mg·kg^-1（以姜黄素计）分别灌服姜黄素固体分散剂和姜黄素预混剂，不同时间点采集血浆样品，经提取、净化后采用HPLC-MS/MS测定血浆中姜黄素的药物浓度，使用WinNonlin 5.2.1软件非房室模型计算、分析姜黄素在猪体内的药动学参数。结果显示，仔猪灌服姜黄素固体分散体和姜黄素预混剂后的药时曲线下面积（AUC）分别为（104.53±38.67）和（37.82±11.48）h·ng·mL^-1；达峰时间（T_max）分别为（3.25±0.38）和（2.31±0.37）h；峰浓度（C_max）分别为（26.65±9.65）和（9.55±2.75）ng·mL^-1；消除半衰期（t_1/2β）分别为（3.55±2.17）和（6.93±0.86）h；平均驻留时间（MRT）分别为（5.23±0.53）和（4.26±0.47）h，统计分析表明，与预混剂相比，仔猪灌服姜黄素固体分散体后，主要药动学参数差异显著（P<0.01），T_max明显延迟，C_max显著提高，AUC明显增大，姜黄素固体分散体的相对生物利用度为280.39%。结果表明，姜黄素固体分散体可改善姜黄素在肠道的吸收，提高姜黄素的生物利用度，为今后姜黄素固体分散体的开发和临床应用提供科学依据。     

Pharmacokinetics and metabolism of orally administered firocoxib, a novel second generation coxib, in horses

The primary objective of this study was to determine the pharmacokinetic profile of firocoxib, a novel second generation coxib, in horses. Horses were administered either a single oral or intravenous dose of firocoxib at 0.1 mg/kg in a two-period crossover study with 12 animals. The dosage was based on previously determined pharmacodynamic parameters. Oral firocoxib was well absorbed with an average bioavailability (absolute) of 79% and a Cmax of 75 ng/mL at 3.9 h. The average elimination half-life was 30 h. Following intravenous administration the average Cmax was 210 ng/mL and the elimination half-life was 34 h. The area under the curve [AUC(0-tlast)] was 1.8 microg.h/mL for the oral dose and 2.3 microg.h/mL for the intravenous dose. Firocoxib was widely distributed with a volume of distribution value of 1.7 L/kg for the intravenous dose. Biotransformation of firocoxib was via dealkylation and glucuronidation to inactive metabolites, namely descyclopropylmethylfirocoxib and its glucuronide conjugate. Urinary excretion was the major route of elimination, and the clearance rate was 37 mL/h/kg.     

Pharmacokinetics of ivermectin in the yak (Bos grunniens)

The yak (Bos grunniens) belongs to the cattle family Bovidae and lives in the mountains of China and adjacent areas. Due to the physiological adaptations of yak to its environment and the lack of data, the ivermectin pharmacokinetic was studied following a single subcutaneous dose at the recommended dose for cattle (0.2 mg kg(-1)). The observed peak plasma concentration (Cmax) was 48.93 ng ml(-1) and the time to reach Cmax (Tmax) was 0.73 day. These results show a faster rate of absorption than in cattle. The values for the absorption half-life (t(1/2a)), the distribution half-life (t(1/2alpha)) and the terminal half-life (t(1/2beta)) were 0.31, 0.74 and 4.82 days, respectively. The calculated area under the concentration-time curve (AUC) was 146.2 ng day ml(-1) and the mean residence time (MRT) was 3.57 days. The availability of ivermectin appears low in yaks in comparison to cattle but equivalent to that reported in horses and is likely to be due to physiological characteristics of this species.     

Pharmacokinetics of Curcumin Solid Dispersion in Piglets

A method for the detection of curcumin in pig plasma by high-performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) was established firstly and the pharmacokinetics of curcumin solid dispersion and curcumin premix in piglets were studied. Sixteen healthy piglets (Yorkshire×Changbai), seven-week aged, half male and half female, were randomly divided into two groups receiving curcumin solid dispersant and curcumin premix orally at the dose of 100 mg·kg^-1, respectively. Then plasma samples were collected at different time points, and the blood concentration of curcumin was determined by HPLC-MS/MS. The WinNonlin 5.2.1 software was used to analyze and calculate the pharmacokinetic parameters. The pharmacokinetic parameters of curcumin solid dispersion and curcumin premix were as follows: the area under the curve (AUC) was (104.53±38.67) and (37.82±11.48) h·ng·mL^-1, time to peak concentration (T_max) was (3.25±0.38) and (2.31±0.37) h, peak concentration (C_max) was (26.65±9.65) and (9.55±2.75) ng·mL^-1, respectively, elimination half-life time (t_1/2β) was (3.55±2.17) and (6.93±0.86) h, mean residence time (MRT) was (5.23±0.53) and (4.26±0.47) h. The statistical analysis showed significant differentce (P<0.01) between curcumin solid dispersion and premix in parameters, the T_max of curcumin solid dispersion was delayed significantly, the C_max was increased obviously and the AUC was improved after the piglets were given curcumin solid dispersion. Compared with curcumin premix, the relative bioavailability of curcumin solid dispersion was 280.39%. The results showed that curcumin solid dispersion could improve the dissolution and absorption of curcumin in the intestinal tract and improve the relative bioavailability of curcumin, which provided a scientific basis for the development and clinical application of curcumin solid dispersions in the future.     

喹烯酮及其主要代谢物在猪体内的药动学研究

本试验旨在研究喹烯酮及其主要代谢物在猪体内的药物代谢动力学过程。将喹烯酮按40 mg/kg的剂量对7头猪进行灌胃给药,采用HPLC-MS/MS法测定血浆中喹烯酮及其主要代谢物的浓度,药代动力学软件WinNonlin 5.2处理血浆中药物浓度－时间数据。灌胃给药后猪血浆中能检测到原药和N1-脱氧喹烯酮、脱二氧喹烯酮及3-甲基喹噁啉-2-羧酸(MQCA)3种代谢物。喹烯酮的浓度－时间数据符合一级吸收一室开放模型,其主要药代动力学参数为:T_1/2Ka＝(0.97±0.08)h,T_1/2λz＝(2.79±0.16)h,CL＝(26.03±0.65)L/h·kg,Cmax＝(0.26±0.01)μg/mL,Tmax＝(2.23±0.06)h,AUC＝(1.54±0.04)h·μg/mL;采用统计矩法处理N1-脱氧喹烯酮和脱二氧喹烯酮的浓度－时间数据,N1-脱氧喹烯酮主要药代动力学参数为:Tmax＝(6.33±1.37)h,Cmax＝(8.81±2.08) ng/mL,T_1/2λz＝(3.03±1.27)h,AUC＝(0.07±0.01)h·ng/mL,MRT＝(6.58±0.40)h;脱二氧喹烯酮的主要药动学参数:Tmax＝(10.29±0.29)h,Cmax＝(6.20±1.11)ng/mL,T_1/2λz＝(5.84±2.78)h,AUC＝(0.15±0.01)h·ng/mL,MRT＝(3.64±0.72)h。同时,在少数时间点检测到代谢物MQCA。猪口服喹烯酮后,吸收较快,消除较慢。血浆中检测到N1-脱氧喹烯酮、脱二氧喹烯酮及3-甲基喹噁啉-2-羧酸3种代谢物,且浓度较低、消除缓慢。     

A Pharmacokinetic Comparison of Meloxicam and Ketoprofen following Oral Administration to Healthy Dogs

Ketoprofen (KTP) and meloxicam (MLX) are non-steroidal anti-inflamatory drugs used extensively in veterinary medicine. The pharmacokinetics of these drugs were studied in eight dogs following a single oral dose of 1 mg/kg of KTP as a racemate or 0.2 mg/kg of MLX. The concentrations of the drugs in plasma were determined by high-performance liquid chromatography (HPLC). There were differences between the disposition curves of the KTP enantiomers, confirming that the pharmacokinetics of KTP is enantioselective. (S)-(+)-KTP was the predominant enantiomer; the S:R ratio in the plasma increased from 2.58 +/- 0.38 at 15 min to 5.72 +/- 2.35 at 1 h. The area under the concentration time curve (AUC) of (S)-(+)-KTP was approximately 6 times greater than that of (R)-(-)-KTP. The mean (+/- SD) pharmacokinetic parameters for (S)-(+)-KTP were characterized as Tmax = 0.76 +/- 0.19 h, Cmax = 2.02 +/- 0.41 microg/ml, t1/2el = 1.65 +/- 0.48 h, AUC = 6.06 +/- 1.16 microg.h/ml, Vd/F = 0.39 +/- 0.07 L/kg, Cl/F = 170 +/- 39 ml/(kg.h). The mean (+/- SD) pharmacokinetic parameters of MLX were Tmax = 8.5 +/- 1.91 h, Cmax = 0.82 +/- 0.29 microg/ml, t1/2lambda(z) = 12.13 +/- 2.15 h, AUCinf = 15.41 +/- 1.24 microg.h/ml, Vd/F = 0.23 +/- 0.03 L/ kg, and Cl/F = 10 +/- 1.4 ml/(kg.h). Our results indicate significant pharmacokinetic differences between MLX and KTP after therapeutic doses.     

盐酸头孢噻呋注射液在猪体内的比较药动学研究

本研究采用肺部支气管灌流技术对盐酸头孢噻呋注射液在健康猪和患巴氏杆菌病的感染猪体内的药动学特征进行了比较,为指导盐酸头孢噻呋注射液治疗猪巴氏杆菌病提供临床数据支持。选取12头健康仔猪,随机均分为健康组和感染组。感染组通过人工感染多杀性巴氏杆菌建立疾病模型。2组动物分别按交叉试验设计,肌内注射盐酸头孢噻呋注射液,在不同时间点采集血液和支气管肺泡灌洗液,用高效液相色谱法（HPLC）检测头孢噻呋含量。健康猪血浆及支气管肺泡灌洗液中的药峰浓度（C_max）分别为22.33和2.49 μg/mL,相差近9倍;消除半衰期（T_1/2）分别为19.51和70.19 h,在肺部的消除非常缓慢,时长是血浆的3.6倍;药-时曲线下面积（AUC_0-∞）分别为372.05和94.59 μg·h/mL;表观分布容积（Vd/F）分别为0.41和5.24 L/kg,头孢噻呋与肺脏呈现高度结合。感染组血浆及支气管肺泡液C_max分别为11.81和5.05 μg/mL,T_1/2分别为11.79和24.65 h,AUC_0-∞分别为162.65和29.73 μg·h/mL,Vd/F分别为0.53和4.65 L/kg,与健康组表现出相同的特点。结果表明,盐酸头孢噻呋注射液在猪体内具有吸收迅速,消除缓慢,生物利用度高的药代动力学特点,且其在血浆和支气管肺泡灌洗液中的药动学参数存在显著差异。