麻保沙星(marbofloxacin)在鸡体内的生物利用度及药物动力学

选用 36只 5 1～ 6 0日龄健康岭南黄鸡 ,随机均分为 3组 ,对静注、肌注及内服麻保沙星 (2 .5 mg/ kg)的生物利用度和药物动力学进行了研究。用三氯甲烷提取血浆中的药物 ,反相高效液相色谱法测定血浆中麻保沙星的浓度 ,MCPKP计算机程序处理所得到的血药浓度 -时间数据。静注给药的药时数据适合三室开放模型 ,主要药动学参数分别为 :t1 /2π(0 .19± 0 .0 3) h;t1 /2α(2 .0 7± 0 .2 7) h;t1 /2β(6 .5 2± 0 .6 9) h;V1 (0 .48± 0 .0 3) L / kg;Vd(area) (2 .0 6± 0 .39)L/ kg;Vd(ss) (1.0 5± 0 .0 6 ) L/ kg;Cl B(0 .19± 0 .0 2 ) L/ (kg· h) ;AUC(13.95± 1.0 7) mg· kg- 1 · h。肌注给药的药时数据适合一级吸收二室开放模型 ,主要药动学参数分别为 :t1 /2 Ka(0 .5 4± 0 .0 5 ) h;t1 /2α(2 .33± 0 .2 0 ) h;t1 /2β(6 .2 7± 0 .46 )h;tmax(1.5 7± 0 .0 9) h;Cmax(1.88± 0 .0 5 ) m g/ L ;AUC(13.18± 0 .6 7) mg· kg- 1 · h;F(94.45± 4.80 ) %。内服给药的药时数据适合一级吸收二室开放模型 ,主要药动学参数分别为 :t1 /2 Ka(0 .42± 0 .0 6 ) h;t1 /2α(2 .31± 0 .2 5 ) h;t1 /2β(6 .48±0 .6 6 ) h;tmax(1.35± 0 .12 ) h;Cmax(1.83± 0 .18) mg/ L;AUC(13.5 5± 0 .6 7) mg· k     

马波沙星在罗非鱼体内的药物代谢动力学研究

【目的】研究马波沙星在罗非鱼Oreochromis niloticus体内的药物代谢动力学(简称药动学)特征,为临床合理用药提供参考。【方法】将罗非鱼随机分成2组,水温维持在30℃,以10 mg·kg-1分别单剂量肌内注射和口服给药,高效液相色谱(HPLC)-荧光检测法测定血浆中马波沙星的质量浓度,用Win Nonlin 6.1药动学软件的"非房室模型"分析药动学参数。【结果】肌内注射马波沙星后,药物吸收和消除均较口服快,体内分布广泛。达峰时间(tmax)为0.25 h,峰质量浓度(ρmax)为4.31μg·mL~(-1),消除半衰期(t1/2λz)为19.21 h,表观分布容积为3.94L·kg-1,药-时曲线下面积(AUC)为70.36μg·mL~(-1)·h-1。口服马波沙星后,药物吸收和消除均较慢,体内分布广泛。tmax为4.00 h,ρmax为2.45μg·mL~(-1),t1/2λz为22.67 h,表观分布容积为4.27 L·kg-1,AUC为76.66μg·mL~(-1)·h-1。【结论】10 mg·kg-1马波沙星能够有效治疗大多数敏感菌引起的罗非鱼感染。     

马波沙星在健康小鼠和感染多杀性巴氏杆菌小鼠体内的药动学比较

【目的】建立小鼠肺部感染多杀性巴氏杆菌Pasteurella multocida模型,研究马波沙星在健康小鼠和肺部感染的小鼠体内的药动学,通过分析比较两者的药动学参数,优化临床给药。【方法】采用气管插管法对小鼠进行肺部感染,对感染小鼠和健康小鼠按体质量单剂量皮下注射2 mg·kg-1的马波沙星,用高效液相色谱法测定血浆中马波沙星的浓度。用Win Nonlin5.2.1软件提供的非房室模型处理血浆药物浓度-时间数据。【结果】马波沙星在感染小鼠体内得到的药时曲线下面积(AUC)为4.58μg·m L-1·h、峰质量浓度(Cmax)为0.97μg·m L-1、平均滞留时间(MRT)为5.62 h,均显著高于(P0.05)在健康小鼠体内得到的AUC(1.67μg·m L1·h)、Cmax(0.68μg·m L-1)、MRT(2.63 h),而表观分布容积(V/F)3.12 L·kg-1和体清除率(Cl/F)0.42 L·kg-1·h-1均显著低于(P0.05)健康小鼠体内的V/F(8.61 L·kg-1)和Cl/F(1.07 L·kg-1·h-1)。【结论】多杀性巴氏杆菌感染显著增加了马波沙星的AUC、Cmax、MRT,并降低了V/F、Cl/F,而其他药动学参数无显著性差异。     

Pharmacokinetics of marbofloxacin in Green sea turtles (Chelonia mydas) following intravenous and intramuscular administration at two dosage rates

Limited pharmacokinetic information to establish suitable therapeutic plans is available for green sea turtles. Therefore, the present study was conducted to evaluate the pharmacokinetic characteristics of marbofloxacin (MBF) in the green sea turtle, Chelonia mydas, following single intravenous (i.v.) or intramuscular (i.m.) administration at two dosages of 2 and 4 mg/kg body weight (b.w.). Blood samples were collected at assigned times up to 168 hr. MBF in plasma was extracted using liquid–liquid extraction and analyzed by a validated high-performance liquid chromatography (HPLC). MBF was quantifiable from 15 min to 96 hr after i.v. and i.m. administrations at two dose rates. A noncompartmental model was used to fit the plasma concentration of MBF versus time curve for each green sea turtle. The t_1/2λz value, similar for both the dosages (22–28 hr), indicated that the overall rate of elimination of MBF in green sea turtles is relatively slow. The average i.m. F% ranged 88%–103%. MBF is a concentration-dependent drug and the AUC/MIC ratio is the best PK/PD predictor for its efficacy. The MBF dosage of 4 mg/kg appeared to produce an appropriate value of the PK-PD surrogate that predicts antibacterial success for disease caused by susceptible bacteria. In contrast, i.m. administration of MBF at a dosage of 2 mg/kg b.w. was not found to produce a suitable PK-PD surrogate index. However, further studies of multiple doses and plasma binding proteins are warranted to confirm an appropriate dosage regimen.     

高效液相色谱法测定动物性食品中马波沙星残留量的研究

建立了高效液相色谱法测定猪肝脏、肌肉、肾脏、脂肪等组织中马波沙星残留量的方法。以氧氟沙星为内标物,将经过前处理的样品用高效液相色谱仪测定。经验证,马波沙星在肝脏、肌肉等组织中的浓度在0.02~10μg/g范围内呈良好的线性关系,r≥0.999;方法检出限为0.01μg/g,最低定量限为0.02μg/g;在动物组织中以不同水平添加马波沙星,其回收率均在70%~120%之间,批内变异系数≤10%,批间变异系数≤15%。该残留检测方法具有灵敏度高、准确度及精密度高等优点,满足动物性食品安全检测的要求。     

Evaluation of the clinical efficacy of marbofloxacin (Zeniquin) tablets for the treatment of canine pyoderma: an open clinical trial

The efficacy and field safety of marbofloxacin (Zeniquin) for the treatment of superficial and deep bacterial pyoderma were evaluated. Seventy‐two dogs were treated with 2.75 mg kg^?1 of marbofloxacin orally once daily for 21 or 28 days. Sixty‐two dogs (86%) had superficial pyoderma and 10 (14%) had deep pyoderma. A history of prior pyoderma was reported in 39/72 dogs. Pretreatment aerobic bacteriologic cultures of skin lesions were performed in 47 cases and the predominant pathogen isolated was Staphylococcus intermedius. Treatment was successful in 62/72 (86.1%) dogs, improvement was noted in 6/72 (8.3%) dogs and treatment failed in 4/72 (5.6%) dogs. Adverse effects associated with treatment included listlessness, anorexia, vomiting, soft stool, flatulence and polydipsia; these adverse effects were seen in only 6/81 dogs. Marbofloxacin was safe and effective for the treatment of superficial and deep pyoderma in dogs at the dosage used in this study.     

Effects of pre-shipping marbofloxacin administration on fever and blood properties in healthy Thoroughbreds transported a long distance

The present study evaluated the effects of single-dose marbofloxacin in protecting horses against fever associated with transportation using 48 healthy Thoroughbreds. All horses were premedicated with interferon-α (0.5 U/kg, sublingually, every 24 hr) for 2 days before transportation and on the day of transportation. Horses were randomly assigned to receive marbofloxacin (2 mg/kg, IV, once; MRFX group), enrofloxacin (5 mg/kg, IV, once; ERFX group) or saline (0.9% NaCl) solution (10 ml, IV, once; control group) ≤1 hr before being transportation. Each group contained 16 horses (8 males, 8 females). Horses were transported 1,210 km using commercial vans over the course of approximately 26 hr. Clinical examinations and hematologic analyses were performed on all horses both before and after transportation. Post-transportation neutrophil to lymphocyte ratios were significantly lower in horses in the MRFX group compared with the control horses. The serum amyloid A levels were significantly lower in horses in the MRFX group and ERFX group compared with the control horses. Regarding the post-transportation rectal temperatures, fever was detected in 0 horses and 1 horse in the MRFX and ERFX groups, respectively, whereas fevers exceeding 39.1°C were detected in 2 horses in the control group. Additionally, the number of essential post-transportation treatments provided by veterinarians was reduced 3-fold in the MRFX and ERFX groups compared with the saline group. MRFX provided ERFX-like protection against fever associated with long-distance transportation, yielding significantly better protection than saline. Administration of MRFX just before transportation deserves a further study for efficacy in preventing horse fever associated with transportation.     

犬皮下注射麻保沙星生物利用度的研究

为了研究麻保沙星在犬皮下给药的生物利用度,将18只犬随机分成2组,按照2mg/kg分别皮下注射或静脉注射麻保沙星后,采血待检,2周后两组交叉给药后,采血。分别在药物注射后5、10、15、30、45min,1、1.5、2,4、6,8、12、24、36、72h时采集血液。血浆通过高效液相色谱法检测药物浓度,用3P97药代动力学软件进行分析。麻保沙星皮下注射的平均药代动力学参数为:t1/2ka=0.19±0.08h;t1/2ke=7.21±1.88h;tmax=0.97±0.29h;Cmax=1.13±0.17μg/mL;AUC=13.13±4.24μg·h/mL;CL=0.17±0.05L/h;V/F=1.63±0.24L/kg。犬皮下注射麻保沙星的绝对生物利用度为66.7%,皮下注射能迅速被吸收且有较高的组织渗透性。     

麻保沙星对主要海洋致病性弧菌的体外抗菌活性及抗菌后效应

采用牛津杯法和试管二倍稀释法分别测定麻保沙星对溶藻弧菌(Vibrio alginolyticus)、哈维氏弧菌(V.harveyi)、费氏弧菌(V.fischeri)及灿烂弧菌(V.splendidus)的敏感性、最小抑菌浓度(MIC)和最小杀菌浓度(MBC),并与盐酸二氟沙星、盐酸恩诺沙星、诺氟沙星及氟苯尼考进行比较;采用菌落计数法测定麻保沙星对溶藻弧菌、哈维氏弧菌和灿烂弧菌的抗菌后效应(PAE)。结果表明,麻保沙星对4种弧菌的体外抗菌活性与氟苯尼考相近,高于盐酸二氟沙星、盐酸恩诺沙星和诺氟沙星;麻保沙星在1×MIC、2×MIC和4×MIC浓度时,对溶藻弧菌、哈维氏弧菌和灿烂弧菌的PAE值分别为:0.49h、0.87h和1.17h;0.64h、0.98h和1.22h;0.75h、1.02h和1.25h,表明麻保沙星对溶藻弧菌、哈维氏弧菌和灿烂弧菌均有不同程度的抗菌后效应,且PAE值与药物浓度呈正相关。