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排序方式: 共有118条查询结果,搜索用时 15 毫秒
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A survey of northern Victorian dairy farmers to investigate dairy calf management: colostrum feeding and management 下载免费PDF全文
Objectives
To describe colostrum management practices carried out in northern Victorian dairy herds and to identify weaknesses in these areas that may affect calf health and welfare by comparing the results with the current industry recommendationsMethods
A questionnaire to obtain information about colostrum management and calf‐rearing practices was sent to commercial dairy farming clients of Rochester Veterinary Practice between June and September 2013. The questionnaire consisted of a general herd overview and colostrum harvesting practices.Results
The response rate was 39% (58/150). Many dairy producers were not meeting the current industry recommendations in the following areas: (1) time of removal calf from the dam, (2) relying on calf suckling colostrum from the dam to achieve adequate passive transfer, (3) failing to supplement calves with colostrum, (4) feeding inadequate volumes of colostrum, (5) delayed colostrum harvesting, (6) pooling of colostrum, (7) failing to objectively assess colostrum quality or relying on visual assessment and (8) storing colostrum for a prolonged periods of time at ambient temperatures.Conclusion
The results from this survey highlight the need for greater awareness of industry standards for colostrum management and feeding hygiene.2.
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SUMMARY: During 1988, 2 farmers in the Bega district agisted pregnant cattle in the Hunter Valley of New South Wales. On return to the district to calve, 54% of calves from herd 1 and 30% of calves from herd 2 were affected with congenital arthrogryposls or hydranencephaly caused by Akabane virus infection. Field observations and laboratory findings from this outbreak are presented, illustrating the danger of moving immunologlcally naive animals into areas where Akabane virus is endemic. 相似文献
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Heidrun Gehlen PD Dr Med Vet Dipl ECEIM Till Sundermann Dr Med Vet Karl Rohn Dr Med Vet Peter Stadler Prof Dr Med Vet 《Journal of Veterinary Cardiology》2007,9(2):99-101
ObjectivesThis study measured plasma atrial natriuretic peptide (ANP) concentration in horses with heart valve regurgitations (HVR) with and without atrial and ventricular dilatation.BackgroundIn humans and small animals, plasma ANP concentration is increased in heart disease and correlates with the severity of clinical signs and heart enlargement.Animals, materials and methodsTen healthy horses (control) and 36 horses with HVR were evaluated by auscultation, electrocardiography, echocardiography, and determination of plasma ANP.ResultsControl horses demonstrated mean plasma ANP concentration of 21 ± 5.4 pg/mL. Of the 36 horses with HVR, 17 horses possessed normal echocardiographic heart size (group 1), 10 horses had a left atrial dilatation (group 2) and 9 horses had both left atrial and ventricular dilatation (group 3). Mean plasma ANP concentration of groups 1, 2 and 3 was 20.1 ± 5.6 pg/mL, 22.9 ± 11.0 pg/mL and 27.6 ± 17.4 pg/mL, respectively. The plasma ANP concentrations of HVR and control horses were not significantly different. The highest ANP concentrations were observed in horses with atrial and ventricular dilatation. No correlation between left atrial or ventricular size, weight, or sex and the plasma ANP concentration was found.ConclusionsNo significant differences in plasma ANP concentration was observed between groups. Further study, especially in horses with clinical signs of heart failure is needed. 相似文献
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GWENDOLYN L. CARROLL MS DVM Diplomate ACVA R. NEIL HOOPER DVM Diplomate ACVS MARGARET R. SLATER DVM PhD SANDEE M. HARTSFIELD DVM MS Diplomate ACVA NORA S. MATTHEWS DVM Diplomate ACVA 《Veterinary surgery : VS》1998,27(1):75-82
Objective—To determine the safety and efficacy of propofol, after detomidine-butorphanol premedication, for induction and anesthetic maintenance for carotid artery translocation and castration or ovariectomy in goats. Study Design—Case series. Animals—Nine 4-month-old Spanish goats (17.1 ± 2.6 kg) were used to evaluate propofol anesthesia for carotid artery translocation and castration or ovariectomy. Methods—Goats were premedicated with detomidine (10 μg/kg intramuscularly [IM]) and butorphanol (0.1 mg/kg IM) and induced with an initial bolus of propofol (3 to 4 mg/kg intravenously [IV]). If necessary for intubation, additional propofol was given in 5-mg (IV) increments. Propofol infusion (0.3 mg/kg/min IV) was used to maintain anesthesia, and oxygen was insufflated (5 L/min). The infusion rate was adjusted to maintain an acceptable anesthetic plane as determined by movement, muscle relaxation, ocular signs, response to surgery, and cardiopulmonary responses. Systolic (SAP), mean (MAP) and diastolic (DAP) arterial pressures, heart rate (HR), ECG, respiratory rate (RR), Spo2, and rectal temperature (T) were recorded every 5 minutes postinduction; arterial blood gas samples were collected every 15 minutes. Normally distributed data are represented as mean ± SD; other data are medians (range). Results—Propofol (4.3 ± 0.9 mg/kg IV) produced smooth, rapid (15.2 ± 6 sec) sternal recumbency. Propofol infusion (0.52 ± 0.11 mg/kg/min IV) maintained anesthesia. Mean anesthesia time was 83 ± 15 minutes. Muscle relaxation was good; eye signs indicated surgical anesthesia; two goats moved before surgery began; one goat moved twice during laparotomy. Means are reported over the course of the data collection period. Means during the anesthesia for pHa (arterial PH), Paco2, Pao2, HCO3, and BE (base excess) ranged from 7.233 ± 0.067 to 7.319 ± 0.026, 54.1 ± 4.6 to 65.3 ± 12.0 mm Hg, 133.1 ± 45.4 to 183.8 ± 75.1 mm Hg, 26.9 ± 2.6 to 28.2 ± 2.1 mEq/L, and -0.8 ± 2.9 to 1.4 ± 2.2 mEq/L. Means over time for MAP were 53 ± 12 to 85 ± 21 mm Hg. Mean HR varied over time from 81 ± 6 to 91 ± 11 beats/minute; mean RR, from 9 ± 8 to 15 ± 5 breaths/minute; Spo2, from 97 ± 3% to 98 ± 3%; mean T, from 36.0 ± 0.6±C to 39.1 ± 0.7±C. Over time, Spo2 and Sao2 did not change significantly; HR, RR, T, and Paco2 decreased significantly; SAP, DAP, MAP, pHa, Pao2, and BE increased significantly. HCO3 concentrations increased significantly, peaking at 45 minutes. Recoveries were smooth and rapid; the time from the end of propofol infusion to extubation was 7.3 ± 3 minutes, to sternal was 9.2 ± 5 minutes, and to standing was 17.7 ± 4 minutes. Median number of attempts to stand was two (range of one to four). Postoperative pain was mild to moderate. Conclusions—Detomidine-butorphanol-propofol provided good anesthesia for carotid artery translocation and neutering in goats. Clinical Relevance—Detomidine-butorphanol-propofol anesthesia with oxygen insufflation may be safely used for surgical intervention in healthy goats. 相似文献
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GM Alvarez SA Morado MP Soto GC Dalvit PD Cetica 《Reproduction in domestic animals》2015,50(2):200-205
The aim of this study was to examine the effect of varying intracellular reactive oxygen species (ROS) levels during oocyte in vitro maturation with enzymatic ROS production systems (xanthine + xanthine oxidase or xanthine + xanthine oxidase + catalase), scavenger systems (catalase or superoxide dismutase + catalase) or cysteine on porcine oocyte maturation. Oocyte ROS levels showed an increase when H2O2 or O2?‐ production systems were added to the culture medium (p < 0.05). On the other hand, the presence of ROS scavengers in the maturation medium did not modify oocyte ROS levels compared with the control after 48 h of maturation, but the addition of cysteine induced a decrease in oocyte ROS levels (p < 0.05). The ROS production systems used in this work did not modified the percentage of oocyte nuclear maturation, but increased the decondensation of sperm head (p < 0.05) and decreased the pronuclear formation (p < 0.05). In turn, the addition of O2?‐ and H2O2 scavenging systems during in vitro maturation did not modify the percentage of oocytes reaching metaphase II nor the oocytes with decondensed sperm head or pronuclei after fertilization. However, both parameters increased in the presence of cysteine (p < 0.05). The exogenous generation of O2?‐ and H2O2 during oocyte in vitro maturation would not affect nuclear maturation or later sperm penetration, but most of the spermatozoa cannot progress to form the pronuclei after fusion with the oocyte. The decrease in endogenous ROS levels by the addition of cysteine would improve pronuclear formation after sperm penetration. 相似文献