Catheterisation of the jugular vein of 12-day-old suckling piglets group-housed with littermates and the sow

D. De Leonardis , C.C. Metges , A. Vernunft
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Abstract

Collection of blood samples by venipuncture requires isolation, restraint and immobilisation, which is stressful for piglets and may result in unreliable readings. A jugular vein catheter allows frequent blood sampling with minimal stress to the piglets. Techniques for jugular vein catheter implantation in older pigs have been described, but less information is available for suckling piglets. This report describes the procedure of catheter implantation into an external jugular vein for longer-term frequent blood sampling in 48 12-day (d)-old suckling German Landrace piglets with a mean BW of 3.4 ± 0.7 kg. Catheterisation was performed either under general anaesthesia by injection of azaperone and ketamine (a/k) or by inhalation of isoflurane (IsoF). To determine the optimal incision site in the sulcus jugularis, the centre between the caudal edge of the mandibula, cranial shoulder and sternum was identified. After a small incision of the skin, the jugular vein was bluntly dissected and a catheter was inserted. The tip of the catheter was placed near the beginning of the right atrium. After wound closure, the surgical area was secured by disinfection and bandages. The piglets were returned to their littermates in the farrowing pen immediately after full recovery from anaesthesia, which was 5–7 h in a/k and 0.75 h in IsoF anaesthetised piglets after the onset of the surgery, respectively. The catheter was flushed daily with 0.9% NaCl-0.1% sodium citrate solution. To demonstrate the longer-term benefits of the catheter, on d 4 after surgery, a series of frequent blood sampling were performed after an oral xylose bolus. In total, 10 samples of 0.5 mL were taken before and every 30 min after the oral xylose bolus for 5 h; the blood volume was replaced with 0.9% NaCl solution. On d 4 after surgery, 41 of 48 implanted catheters were considered fully functional (90% of desired samples collected), three as partially functional, and four as non-functional, whereas two catheters were non-functional already from d 1 after surgery. The catheterised animals remained clinically healthy but showed less daily BW gain from age d 12 (day of surgery) to d 15 than non-catheterised control animals (0.12 ± 0.01 vs 0.23 ± 0.01 kg; n = 46; P < 0.05). In conclusion, the catheter implanted into an external jugular vein in 12-d-old suckling piglets remaining with the sow was patent for 4 d after surgery and allowed frequent blood sampling with minimal stress for the piglets.

对与同窝仔猪和母猪同群饲养的 12 日龄哺乳仔猪颈静脉进行导管插入术
通过静脉穿刺采集血样需要隔离、束缚和固定,这对仔猪造成压力,并可能导致读数不可靠。使用颈静脉导管可以频繁采血,并将对仔猪的压力降至最低。对老龄猪颈静脉导管植入技术已有描述,但关于哺乳仔猪的信息较少。本报告描述了将导管植入颈外静脉的过程,以便对 48 头 12 天(d)龄的德国兰德良种哺乳仔猪进行长期频繁的血液采样,这些仔猪的平均体重为 3.4 ± 0.7 千克。导管插入是在注射氮丙酮和氯胺酮(a/k)或吸入异氟醚(IsoF)的全身麻醉下进行的。为了确定颈静脉沟的最佳切口位置,确定了下颌骨尾缘、颅肩和胸骨之间的中心点。皮肤小切口后,钝性剥离颈静脉并插入导管。导管顶端置于右心房起始处附近。伤口缝合后,用消毒剂和绷带固定手术区域。在麻醉完全恢复后,立即将仔猪送回产仔栏中的同窝仔猪处,a/k 和 IsoF 麻醉仔猪的恢复时间分别为手术开始后 5-7 小时和 0.75 小时。每天用 0.9% 氯化钠-0.1% 柠檬酸钠溶液冲洗导管。为了证明导管的长期效益,手术后第 4 天,在口服木糖栓剂后进行了一系列频繁的血液采样。在口服木糖栓剂之前和之后的 5 小时内,每隔 30 分钟共采集 10 次 0.5 mL 的血样;血容量由 0.9% 氯化钠溶液代替。术后第 4 天,48 个植入导管中有 41 个完全正常(收集到 90% 的所需样本),3 个部分正常,4 个不正常,而有两个导管从术后第 1 天起就不正常。植入导管的动物在临床上保持健康,但与未植入导管的对照组动物相比,植入导管的动物从第 12 d(手术当天)到第 15 d 的日体重增加较少(0.12 ± 0.01 vs 0.23 ± 0.01 kg; n = 46; P < 0.05)。总之,将导管植入12日龄哺乳仔猪的颈外静脉,使其与母猪呆在一起,手术后4天内导管仍保持通畅,并可频繁采血,同时将仔猪的应激降至最低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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