共查询到17条相似文献,搜索用时 707 毫秒
1.
健康四川白鹅20只,随机分为A、B两组,A组单剂量静注头孢噻呋钠无菌粉针,B组单剂量肌注头孢噻呋钠混悬注射液,均按2.2mg·kg-1。用高效液相色谱法测定血浆中的药物浓度,3p97药代动力学程序软件处理药时数据。结果显示,A组药-时数据符合二室开放模型(W=1/C2);主要药代动力学参数:t1/2α0.112h,t1/2β2.711h,CL 0.234L·kg-1·h-1,V 0.064L·kg-1,AUC 9.400mg·h·L-1。B组药-时数据也符合二室开放模型(W=1/C2);主要药代动力学参数:t1/2α0.546h,t1/2β22.737h,Cmax1.252 mg·L-1,Tmax0.484h,V 1.885L·kg-1,AUC8.792mg·h·L-1。结果表明,头孢噻呋钠混悬注射液在鹅体内分布广泛,生物利用度高,且具有长效缓释作用。 相似文献
2.
作者研究了头孢噻呋混悬液和头孢噻呋钠对人工诱发猪大肠杆菌病的疗效.对人工诱导发病的35日龄仔猪分别肌注头孢噻呋混悬液和头孢噻呋钠冻干粉(每种药设3和5 mg/kg2个剂量组),分别在第0、12、48、72 h给药,3 d共给药4次.同时设氨苄西林混悬注射液、Tinknium注射液以及健康和感染对照组.用药14 d后结果表明,头孢噻呋组有效率、治愈率及增重相对比显著高于氨苄西林和Tinknium组,头孢噻呋混悬液和头孢噻呋钠各剂量组之间死亡率、有效率、治愈率和增重相对比差异不显著.头孢噻呋混悬液和头孢噻呋钠冻干粉以3 mg/kg 3 d给药4次的治疗方案是可行的. 相似文献
3.
复方盐酸头孢噻呋混悬剂的药代动力学研究 总被引:2,自引:2,他引:0
利用药物动力学的方法考察复方盐酸头孢噻呋混悬剂是否具备缓释长效的特点,同时研究鱼腥草油对头孢噻呋药代动力学的影响。36只SPF大鼠随机平均分成三组:A组单剂量注射复方盐酸头孢噻呋混悬剂,B组单剂量注射盐酸头孢噻呋混悬剂,C组单剂量注射头孢噻呋钠粉针;三组注射剂量均为50 mg/(kg.bw)。采用反相高效液相色谱内标法测定血浆药物浓度,并以DAS2.0药动学程序和SPSS(11.0)统计软件对所得数据进行分析。A、B、C组药时数据均符合一级吸收二室模型(权重=1/cc),主要动力学参数如下:A组:T1/2Ka=(1.253±0.100)h,Tpeak=(2.000±0.000)h,Cmax=(35.203±5.732)mg/L,AUC=(229.51±18.278)mg.h/L;B组:T1/2Ka=(0.341±0.090)h,Tpeak=(1.000±0.000)h,Cmax=(43.919±1.51)mg/L,AUC=(188.488±9.611)mg.h/L;C组:T1/2Ka=(0.044±0.012)h,Tpeak=(0.167±0.000)h,Cmax=(159.091±19.971)mg/L,AUC=(128.554±6.625)mg.h/L。实验数据表明,复方盐酸头孢噻呋混悬剂肌肉注射后,其药物动力学特征表现为吸收缓慢,血药浓度平稳,消除半衰期延长,生物利用度高等特点,在临床上注射1次,连用3 d,可以维持有效血液浓度。 相似文献
4.
研究了两种头孢噻呋注射液给猪肌注后的比较药物动力学特征。选用12头健康猪随机分为两组,每组6头,分别肌注上海公谊兽药厂生产的长效盐酸头孢噻呋注射液和美国辉瑞生产的盐酸头孢噻呋注射液(速解灵注射液),每头5mg/kg。采用超高效液相色谱法测定猪血浆中头孢噻呋的的药物浓度,用Winnonlin5.2药动学分析软件非房室模型处理药时数据,模型200处理肌注给药后的药代动力学参数。结果表明:健康猪肌注两种注射液后,参数MRT、Cmax、tmax统计差异极显著(P〈0.01),长效盐酸头孢噻呋注射液单剂量肌注给药较速解灵注射液吸收慢,达峰时间显著延迟,达峰浓度显著降低,平均驻留时间显著延长;参数AUC、Kel、t1/2允统计无显著性差异(P〉0.05),长效盐酸头孢噻呋注射液的相对生物利用度为98.41%,与速解灵注射液的生物利用度相当。本研究可为头孢噻呋注射液的临床合理用药提供参考。 相似文献
5.
头孢噻呋是动物专用抗生素,具有超广谱强效抗菌作用。市场上已经有了盐酸头孢噻呋混悬注射液和注射用头孢噻呋钠的剂型。本文拟采用空白注射液辅料添加头孢噻呋钠原料的方法组建新剂型即头孢噻呋钠混悬注射液,并针对此剂型建立HPLC法的含量测定。在建立HPLC法的含量测定时,参考了国内现有盐酸头孢噻呋混悬注射液和注射用头孢噻呋钠等相关标准,但这些标准中混悬液前处理复杂,流动相组分多且配制繁琐,检测波长不是最大吸收波长。所以我们在参考这些标准中含量测定方法的同时,对新方法作进一步调整。这个测定方法能够为头孢噻呋钠混悬注射… 相似文献
6.
在奶牛乳房内灌注头孢噻呋钠后,采用超高效液相色谱一串联质谱法测定牛乳中头孢噻呋的浓度,对其消除动力学进行了研究。3头实验奶牛按每个乳房0.3g头孢噻呋灌注,牛乳中药物达到的最高浓度Cmax=107.89μg/mL,达峰时间Tmax=8h,药物半衰期T1/2=13.97h。在乳房内用药后的最初56h内,头孢噻呋浓度快速下降;最后一次给药88h后,所有乳腺中头孢噻呋的浓度都低于允许限量(0.1μg/mL)。故建议头孢噻呋在牛奶中的休药期为4d。 相似文献
8.
本研究由头孢噻呋钠对人工诱发的鸡白痢杆菌病、鸡大肠杆菌病、鸡葡萄球菌病的三个治疗试验组成。对鸡白痢杆菌病的治疗结果显示,头孢噻呋钠治疗组的死亡率比对照药物治疗组的死亡率分别低20%(氨苄西林混悬注射液)、3.4%(硫酸粘杆菌素)、16.7%(氟苯尼考),治愈率分别高20%(氨苄西林混悬注射液)、13.4%(硫酸粘杆菌素)、26.7%(氟苯尼考);对鸡大肠杆菌病的治疗结果显示,头孢噻呋钠治疗组比硫酸庆大霉素治疗组的死亡率低52.5%,治愈率高72.5%;对鸡葡萄球菌病的治疗结果显示,头孢噻呋钠治疗组比氨苄青霉素治疗组的死亡率低10%,治愈率高12.5%。 相似文献
9.
头孢噻呋混悬剂治疗人工感染仔猪传染性胸膜肺炎的效果观察 总被引:1,自引:0,他引:1
将头孢噻呋混悬剂分为高、中、低(10、5、2.5 mg/kg体重)3个剂量组分别肌肉注射治疗仔猪传染性胸膜肺炎,每36 h用药1次,连用2次;同时设头孢噻呋钠注射液对照组,按10 mg/kg体重给药,2次/d,连用3 d。结果表明,头孢噻呋混悬剂3个剂量组和头孢噻呋钠注射液对照组对仔猪传染性胸膜肺炎均有明显的治疗效果,成活率可达80%~100%,极显著高于感染对照组(P<0.01)。头孢噻呋混悬剂中、高剂量组成活率极显著高于头孢噻呋混悬剂低剂量组及头孢噻呋钠注射液组 (P<0.01)。本试验结果表明,头孢噻呋混悬剂能减少胸膜肺炎放线杆菌人工感染引起的临床症状,降低死亡率。作为注射剂治疗仔猪传染性胸膜肺炎,以5~10 mg/kg体重的剂量为佳。 相似文献
10.
《中国兽医学报》2014,(10):1657-1662
研究并比较了头孢噻呋注射液和速解灵注射液在猪体内药物代谢动力学特征和相对生物利用度。20头健康猪,随机均分为2组,进行单次给药剂量(5mg/kg)肌注头孢噻呋注射液(洛阳惠中)和速解灵注射液(美国辉瑞),前腔静脉采血,高效液相色谱法检测猪血浆中头孢噻呋的浓度。采用药动学软件WinNonlin 5.2.1的非房室模型分析方法,计算出药物的动力学参数。猪肌注头孢噻呋注射液和速解灵注射液后的药动学参数分别为:达峰时间(Tmax):(2.63±0.74)、(3.38±1.92)h;峰质量浓度(Cmax):(14.06±2.21)、(9.48±1.84)mg/L;消除半衰期(t1/2β):(17.65±2.07)、(17.70±2.43)h;平均滞留时间(MRT):(23.21±2.68)、(22.11±2.50)h;药时曲线下面积(AUClast):(240.81±47.73)、(182.51±36.12)μg·h·mL-1。参数Cmax、AUClast统计差异极显著(P<0.01),头孢噻呋注射液较速解灵注射液吸收迅速、完全,达峰时间短,峰浓度显著升高;参数Tmax、t1/2β、MRT统计差异不显著(P>0.05),头孢噻呋注射液的相对生物利用度为132%,高于速解灵注射液。结果表明头孢噻呋注射液肌注后吸收迅速、完全,达峰时间短,峰浓度高,生物利用度高。 相似文献
11.
实验研究了30日龄肉鸡单次肌注(0.6mg/Kg)亚硒酸钠注射液后不同时间采血,用流动注射氢化物发生原子吸收光谱法测定血硒浓度,经微机处理得出血硒浓度及药动学参数,血硒浓度-时间曲线符合一级吸收一室开放模型,最佳药时方程:C=100.2001(e-0.0197t-e-1.6428t)。主要药动学参数:t1/2Ka为0.421 9h,t1/2Ke为35.121 5h,tp为3.312 4h,Cmax为93.986 5μg/L,AUC为5 025.314 9(μg/L).h。根据单剂量给药参数,计算出多剂量给药参数。 相似文献
12.
Brown SA Hanson BJ Mignot A Millérioux L Hamlow PJ Hubbard VL Callahan JK Kausche FM 《Journal of veterinary pharmacology and therapeutics》1999,22(1):35-40
Ceftiofur sodium, a broad-spectrum cephalosporin, is active against gram-positive and gram-negative pathogens of veterinary importance. Two studies were designed to compare the intramuscular bioavailability of the current sodium salt and the new hydrochloride salt in pigs at doses of either 3 mg or 5 mg ceftiofur equivalents (CE)/kg body weight. Twenty-six healthy young pigs were selected for these two-period, two-treatment crossover studies, 12 for the 3 mg/kg study and 14 for the 5 mg/kg study. Each animal received one intramuscular (i.m.) injection of ceftiofur sodium and one i.m. injection of ceftiofur hydrochloride with a 14-day washout period between the two treatments. Blood samples were collected serially for up to 96 h postinjection. Plasma samples were then analysed using a validated assay that measures ceftiofur and all desfuroylceftiofur-related metabolites by high-performance liquid chromatography. In the 3 mg/kg dosage study, average maximum plasma concentration (C(max)) after administration of ceftiofur sodium was 15.8+/-3.40 microg/mL at 0.4-4 h after injection. After administration of ceftiofur hydrochloride, the C(max) was 11.8+/-1.67 microg/mL at 1-4 h after injection. Concentrations of ceftiofur and metabolites 72 h after the injection were 0.392+/-0.162 microg/mL for ceftiofur hydrochloride and 0.270+/-0.118 microg/mL for ceftiofur sodium. The mean area under the curve (AUC), from time 0 to the limit of quantitation (AUC(O-LOQ)) after ceftiofur hydrochloride administration, was 216+/-28.0 microg x h/mL, compared to 169+/-45.4 microg x h/mL after ceftiofur sodium administration. The calculated time during which plasma concentrations remained above 0.02 microg/mL (t(>0.2)) was 85.3+/-10.6 h for ceftiofur sodium and 77.2+/-10.7 h for ceftiofur hydrochloride. In the 5 mg/kg dosage study, C(max) after administration of ceftiofur sodium was 28.3+/-4.45 microg/mL at 0.33-2 h after injection. After administration of ceftiofur hydrochloride, the C(max) was 29.7+/-6.72 microg/mL at 0.66-2 h after injection. Concentrations of ceftiofur and metabolites 96 h after the injection were 0.274+/-0.0550 microg/mL for ceftiofur hydrochloride and 0.224+/-0.0350 microg/mL for ceftiofur sodium. The mean AUC(O-LOQ) after ceftiofur hydrochloride administration was 382+/-89.8 microg x h/mL compared to 302+/-54.4 microg x h/mL after ceftiofur sodium administration. The t(>0.2) was 78.9+/-9.65 h for ceftiofur sodium and 94.2+/-8.64 h for ceftiofur hydrochloride. Based on the similarity of the pharmacokinetic parameters of the sodium and hydrochloride formulations of ceftiofur, similar therapeutic efficacy can be inferred for the two products. 相似文献
13.
为研究"一针肥"注射液中硒元素在山羊体内的血硒水平及药动学变化规律,采用单剂量肌肉注射"一针肥"注射液0.2mL/kg(相当于硒用量6μg/kg),用原子荧光法测定血硒浓度,通过3p97药物动力学程序软件分析药时数据。结果显示,肌注"一针肥"注射液后,血硒的药时数据符合二室开放模型,主要的药代动力学参数分别为:t1/2Ka(0.148 4±0.051 0)h,t1/2α(6.832 4±0.397 7)h,t1/2β(362.324 3±17.789 5)h,Kel(0.004 3±0.000 3)h,AUC(22 414.233 5±2 512.959 8)(μg/L).h。结果表明,肌注"一针肥"注射液后硒在山羊体内吸收迅速,消除缓慢。 相似文献
14.
研究氟苯尼考磺酸盐在肉鸡体内的血药浓度及药动学特征。将12只健康三黄肉鸡,单次肌肉注射推荐治疗剂量(20mg/kg)的自制2%氟苯尼考磺酸盐。采用高效液相色谱法测定血浆药物浓度,所得数据用3P97药动软件进行分析后发现,血药浓度和时间关系符合一级吸收一室模型,选择的权重为1/C。主要药动学参数为T1/2kα:(0.28±0.04)h,T1/2Ke:(2.06±0.06)h,Cmax:(4.17±0.12)μg/mL,Tmax:(0.92±0.09)h,AUC:(16.89±0,35)μg/mL,V/F(c):(3.52±0.13)L/kg,CL/F(s):(1.19±0.03)L/(kg·h),Ke:(0.34±0.01)/h,kα:(2.57±0.37)/h,A:(6.56±0.38)μg/mL。结果提示,氟苯尼考磺酸盐在肉鸡体内具有吸收迅速,分布广泛、峰浓度较高以及消除较快的动力学特征。 相似文献
15.
Drew ML Johnson L Pugh D Navarre CB Taylor IT Craigmill AL 《Journal of veterinary pharmacology and therapeutics》2004,27(1):13-20
Pharmacokinetic studies of antibiotics in South American camelids are uncommon, therefore drugs are often administered to llamas and alpacas based on dosages established in other domestic species. The disposition of ceftiofur sodium was studied in llamas following intramuscular administration and in alpacas following intravenous and intramuscular administration. Eleven adult llamas were given ceftiofur sodium by intramuscular injection. Each animal received either a standard dose of 2.2 mg/kg or an allometrically scaled dose ranging from 2.62 to 2.99 mg/kg in a crossover design. Ten adult alpacas were given ceftiofur sodium by intravenous and intramuscular injections. Each animal received a standard dosage of 1 mg/kg or an allometrically scaled dose ranging from 1.27 to 1.44 mg/kg i.v., and 1.31-1.51 mg/kg i.m. Blood samples were collected at 0, 0.25, 0.5, 1, 2, 4, 8, 12, 24, 36, 48, and 72 h after administration of the ceftiofur. Pharmacokinetic parameters of ceftiofur in llamas and alpacas were similar following i.m. dosing at both dose levels. The only differences noted were in the total AUC between dose levels, but the AUC/dose values were not different. A sequence effect was noted in the alpaca data, which resulted in lower AUCs for the second dose when the i.v. dose was given first, and with higher AUCs for the second dose when the i.m. dose was given first. Overall, ceftiofur pharmacokinetics in llamas and alpacas are similar, and also very similar to reported parameters for sheep and goats. 相似文献
16.
Pharmacokinetics of ceftiofur crystalline-free acid sterile suspension in the equine 总被引:1,自引:0,他引:1
Collard WT Cox SR Lesman SP Grover GS Boucher JF Hallberg JW Robinson JA Brown SA 《Journal of veterinary pharmacology and therapeutics》2011,34(5):476-481
Collard, W. T., Cox, S. R., Lesman, S. P., Grover, G. S., Boucher, J. F., Hallberg, J. W., Robinson, J. A., Brown, S. A. Pharmacokinetics of ceftiofur crystalline‐free acid sterile suspension in the equine. J. vet. Pharmacol. Therap. 34 , 476–481. Absolute bioavailability and dose proportionality studies were performed with ceftiofur in horses. In the absolute bioavailability study, thirty animals received either an intravenous dose of ceftiofur sodium at 1.0 mg/kg or an intramuscular (i.m.) dose of ceftiofur crystalline‐free acid (CCFA) at 6.6 mg/kg. In the dose proportionality study, 48 animals received daily i.m. ceftiofur sodium injections at 1.0 mg/kg for ten doses or two doses of CCFA separated by 96 h, with CCFA doses of 3.3, 6.6, or 13.2 mg/kg. Noncompartmental and mixed‐effect modeling procedures were used to assess pharmacokinetics (PK). CCFA was well absorbed with a bioavailability of 100%. AUC0–∞ and Cmax increased in a dose‐related manner following administration of the two doses of CCFA at 3.3, 6.6, and 13.2 mg/kg. The least‐squares mean terminal half‐life (t½) following the tenth daily i.m. injection of ceftiofur sodium at 2.2 mg/kg was 40.8 h, but the least‐squares mean t½ following the second i.m. injection of CCFA at 6.6 mg/kg was 100 h. The time that plasma ceftiofur equivalent concentrations remain above a threshold concentration of 0.2 μg/mL has been associated with efficacy, and following administration of two 6.6 mg/kg doses of CCFA, the mean time above 0.2 μg/mL was 262 h. Simulations with the nonlinear mixed‐effect PK model predicted that more than 97.5% of horses will have plasma ceftiofur equivalent concentrations >0.2 μg/mL for 96 h after the second 6.6 mg/kg dose of CCFA. 相似文献
17.
Effects of age on the pharmacokinetics of single dose ceftiofur sodium administered intramuscularly or intravenously to cattle 总被引:2,自引:0,他引:2
S. A. BROWN S. T. CHESTER E. J. ROBB 《Journal of veterinary pharmacology and therapeutics》1996,19(1):32-38
The effects of maturation on the intravenous (IV) and intramuscular (IM) pharmacokinetics of ceftiofur sodium following a dose of 2.2 mg ceftiofur equivalents/kg body weight were evaluated in 16 one-day-old Holstein bull calves (33-53 kg body weight initially; Group 1) and 14 six-month-old Holstein steers (217-276 kg body weight initially; Group 2). Group 1 calves were fed unmedicated milk replacer until 30 days of age and were then converted to the same roughage/concentrate diet as Group 2. Groups 1-IV and 2-IV received ceftiofur sodium IV, and Groups 1-IM and 2-IM received ceftiofur sodium IM. Group 1 calves were dosed at 7 days of age and at 1 and 3 months of age; group 2 calves were dosed at 6 and 9 months of age. Blood samples were obtained serially from each calf, and plasma samples were analysed using an HPLC assay that converts ceftiofur and all desfuroylceftiofur metabolites to desfuroylceftiofur acetamide. Cmax values were similar in all calves, and were no higher in younger calves than in older calves. Plasma concentrations remained above 0.150 μg ceftiofur free acid equivalents/mL for 72 h in 7-day-old calves, but were less than 0.150 μg/mL within 48 h following IV or IM injection for 6- and 9-month-old calves. Intramuscular bioavailability, assessed by comparing the model-derived area under the curve (AUCmod) from IM and IV injection at each age, appeared to be complete. After IV administration, the AUCmod in 7-day-old and 1-month-old calves (126.92±21.1 μg-h/mL and 135.0±21.6 μg.h/mL, respectively) was significantly larger than in 3-, 6- and 9-month-old calves (74.0±10.7 μg.h/mL, 61.0±17.7 μg.h/mL and 68.5±12.8 μg.h/mL, respectively; P< 0.0001). The Vd(ss) decreased linearly within the first 3 months of life in cattle (0.345±0.0616 L/kg, 0.335±0.919 L/kg and 0.284±0.0490 L/kg, respectively; P= 0.031), indicative of the decreasing extracellular fluid volume in maturing cattle. The Clb was significantly smaller in 7-day-old and 1-month-old calves (0.0178±0.00325 L/h.kg and 0.0167±0.00310 L/h.kg, respectively) than in 3-, 6- and 9-month-old calves (0.0303±0.0046 L/h.kg, 0.0398±0.0149 L/h.kg and 0.0330±0.00552 L/h.kg, respectively; P≦0.001). This observation may be indicative of maturation of the metabolism and/or excretion processes for ceftiofur and desfuroylceftiofur metabolites. The approved dosage regimens for ceftiofur sodium of 1.1-2.2 mg/kg administered once daily for up to 5 consecutive days will provide plasma concentrations above the MIC for bovine respiratory disease pathogens for a longer period of time in neonatal calves than in older calves. Peak plasma concentrations of ceftiofur and desfuroylceftiofur metabolites were no higher in neonatal calves than in more mature cattle, highly suggestive that peak tissue concentrations would be no higher in neonatal calves than in more mature cattle. 相似文献