原文：https://pubmed.ncbi.nlm.nih.gov/10476710/

发表于：1999

溴鼠灵 (Brodifacoum) 又名溴联苯鼠隆、大隆。为第二代抗凝血杀鼠剂，是抗凝血剂中毒性最大的一种，具有急性和慢性杀鼠剂的双重优点。适口性好，不会产生拒食作用，可杀死对第一代抗凝血剂产生抗性的鼠类。对家畜、家禽等剧毒，对鱼类有微毒。防治田间野鼠，每亩投饵10-15堆，每堆5一7克。或沿田埂、地垅设置毒饵，每5米布一饵点，每个饵点投药5克。防治达乌尔黄鼠、家鼠等，可投于洞谤，每洞投药7－10克。

1 摘要

摄入抗凝剂灭鼠剂导致的出血可能在任何创伤部位或任何体腔中都很明显。对于临床医生来说，在进行常规心包穿刺术之前，将凝血病纳入心包积液的鉴别诊断中，并评估凝血功能非常重要。

Hemorrhage resulting from ingestion of anticoagulant rodenticides may be evident at any traumatized site or in any body cavity. It is important for clinicians to include coagulopathies among the differential diagnoses for pericardial effusion and to evaluate clotting function before routine pericardiocentesis is performed.

2 正文

一只 7 岁的 33.6 公斤（74-1b）绝育雌性德国 L Wirehaired Pointer 被转诊到我们的兽医教学医院进行紧急评估和治疗。这只狗在进入我们设施前的 2 天内多次倒下并出现呼吸急促。转诊兽医在入院当天早些时候进行的胸 X 线摄影显示全身性心脏肥大和斑片状肺泡模式。在转诊兽医进行的其他检查中，全血细胞计数显示白细胞增多可归因于成熟的中性粒细胞增多症，但血清生化分析结果无明显异常，检测心丝虫抗原的检测结果为阳性。

体格检查显示，这只狗昏昏欲睡，粘膜苍白、发粘。呼吸费力且急促（60 次呼吸/分钟）。听诊发现双侧湿啰音和喘息音，心音模糊。股动脉搏动微弱且不规则，未检测到颈静脉搏动。未见小出血或瘀斑性出血的证据。

最初的诊断工作包括心电图，显示窦性心动过速，心率为160次/分钟，但我们没有检测到异位搏动或复杂振幅或硬度异常。超声心动图评估转诊兽医拍摄的 X 线片上明显的汽车萎缩，显示严重的心包积液导致薄壁右心房塌陷（即心包填塞）。心肌功能被认为是正常的，而提示血管肉瘤或血管瘤是积液原因的肿块并不明显。

A 7-year-old 33.6-kg (74-1b) spayed female German L Wirehaired Pointer was referred to our veterinary medical teaching hospital for emergency evaluation and treatment. The dog had collapsed repeatedly and was tachypneic during the 2 days preceding admission to our facility. Thoracic radiography performed by the referring veterinarian earlier on the day of admission revealed generalized cardiomegaly and a patchy alveolar pattern. In other testing performed by the referring veterinarian, a CBC revealed leukocytosis attributable to mature neutrophilia, but results of serum biochemical analyses were unremarkable, and results of a test to detect heartworm antigens were positive.

Physical examination revealed the dog was lethargic and had pale, tacky mucous membranes. Breathing was labored and rapid (60 breaths/min). Auscultation revealed crackles and wheezes bilaterally, and heart sounds were muffled. Femoral pulses were weak and irregular, and jugular pulses were not detected. Evidence of petechiation or ecchymotic hemorrhages was not seen.

Initial diagnostic efforts consisted of electrocardi-ography, which revealed sinus tachycardia with a heart rate of 160 beats/min, but we did not detect ectopic beats or abnormalities of complex amplitude or dura-tion. Echocardiography performed to evaluate the car-diomegaly evident on the radiographs taken by the referring veterinarian revealed severe pericardial effusion causing collapse of the thin-walled right atrium (ie, cardiac tamponade). Myocardial function was considered to be normal, and masses that would have suggested hemangiosarcoma or chemodectoma as the cause of the effusion were not evident.

确定需要心包穿刺术来降低心包压并增加心脏充盈和输出量。由于该狗在检测心丝虫抗原的测试中呈阳性结果，因此弥散性血管内凝血 （DIC） 被认为是心包积液的可能原因。活化凝血时间延长（267秒;参考范围，<120秒）。入院时PCV为36%，而一天前为52%。为了调查活化凝血时间延长的原因，进行了凝血功能测试。一级凝血酶原时间（OSPT）为32.7秒（混合血浆对照样品的值为7.4秒），活化部分凝血活酶时间（APTT）为36.0秒（对照样品，11.3秒），纤维蛋白降解产物（FDP）浓度为10至40 ug/ml（参考范围，<10 g/ml），纤维蛋白原浓度为420 mg/dl（对照样品，157 mg/di）。血涂片检查显示血小板数量充足。

在将初步实验室结果传达给主人后，对狗的环境进行了灭鼠剂搜索。在业主的车库里发现了一盒部分食用的含有活性成分brodifa-coum的抗凝血灭鼠剂。

初始治疗包括给予维生素 K1（2.5 mg/kg [1.1 mg/lb] 体重，SC）和静脉给予乳酸林格溶液和 1 U 新鲜全血。给予新鲜全血以恢复血容量并立即补充凝血因子，因为在肠胃外给予维生素 K 后需要 6 至 12 小时，然后才能合成临床上大量的凝血因子。输血后，狗的昏昏欲睡较少，但它仍然出现呼吸困难和呼吸急促，尽管心率在参考范围内。

狗的状况在一夜之间保持稳定，并在第二天早上重复进行凝血测试。入院后约 12 小时，OSPT 为 13 秒，APTT 为 21.5 秒。

由于心包填塞仍然明显，因此进行了心包穿刺术。心包囊的渗透导致液体渗出到胸膜腔中;未取回心包液进行细胞学 IC 分析。心包穿刺术后进行的胸 X 线摄影显示胸膜裂线与流入胸膜腔的心包液一致。轻度心脏扩大和支气管间质模式与肺出血或误吸相符也很明显。

心包穿刺术后，心电图显示短暂性二度房室传导阻滞，随后出现阵发性室性心动过速。给予2%盐酸利多卡因溶液后室性心动过速消退（2.2 mg/kg（1 mg/lbl，静脉注射，一次）;然而，随后出现心房颤动。给狗服用奎尼丁（12 mg/kg （5.4 mg/b），PO，每 8 小时一次），并在奎尼丁给药后 2 小时将心房颤动转化为窦性心律。在接下来的 48 小时内连续进行心电图检查，但未检测到其他心律失常。

It was determined that pericardiocentesis was needed to decrease intrapericardial pressure and increase cardiac filling and output. Because the dog had positive results on a test to detect heartworm antigen, disseminated intravascular coagulation (DIC) was considered a possible cause of the pericardial effusion. Activated clotting time was prolonged (267 seconds; reference range, < 120 seconds). The PCV was 36% at the time of admission, compared with 52% one day earlier. To investigate the reason for the prolonged activated clotting time, coagulation profile testing was performed. One-stage prothrombin time (OSPT) was 32.7 seconds (value for pooled plasma control sample, 7.4 seconds), activated partial thromboplastin time (APTT) was 36.0 seconds (control sample, 11.3 seconds), concentration of fibrin degradation products (FDP) was between 10 and 40 ug/ml (reference range, < 10 g/ml), and fibrinogen concentration was 420 mg/dl (control sample, 157 mg/di). Examination of a blood smear revealed that there was an adequate number of platelets.

After initial laboratory results were conveyed to the owners, the dog's environment was searched for rodenticides. A partially eaten box of an anticoagulant rodenticide containing the active ingredient brodifa-coum was discovered in the owners' garage.

Initial treatment consisted of administration of vitamin K1 (2.5 mg/kg [1.1 mg/lb] of body weight, SC) and IV administration of lactated Ringer solution and 1 U of fresh whole blood. Fresh whole blood was administered to restore blood volume and immediately replace clotting factors, because it requires 6 to 12 hours after parenteral administration of vitamin K, before clinically substantial amounts of clotting factors are synthesized.' After the transfusion, the dog was less lethargic, but it was still dyspneic and tachypneic, although heart rate was within the reference range.

The dog's condition remained stable overnight, and coagulation tests were repeated on the subsequent morning. Approximately 12 hours after admission, OSPT was 13 seconds and APTT was 21.5 seconds.

Because cardiac tamponade was still evident, peri-cardiocentesis was performed. Penetration of the pericardial sac resulted in exudation of fluid into the pleural space; pericardial fluid was not retrieved for cytolog-ic analysis. Thoracic radiography performed after peri-cardiocentesis revealed pleural fissure lines consistent with pericardial fluid that had drained into the pleural space. Mild cardiomegaly and a bronchointerstitial pattern consistent with pulmonary hemorrhage or aspiration also were evident.

After pericardiocentesis, electrocardiography revealed transient second-degree atrioventricular block followed by paroxysmal ventricular tachycardia. Ventricular tachycardia resolved after administration of a 2% solution of lidocaine hydrochloride' (2.2 mg/kg (1 mg/lbl, IV, once); however, atrial fibrillation then developed. The dog was given quinidine (12 mg/kg (5.4 mg/b], PO, q 8 h), and the atrial fibrillation converted to sinus rhythm 2 hours after quinidine admin-istration. Electrocardiography was performed continuously for the next 48 hours, but additional arrhythmias were not detected.