健康犬服用小剂量阿司匹林时环氧化酶表达和血小板功能的变化。
Cyclooxygenase expression and platelet function in healthy dogs receiving low-dose aspirin.
机构信息
Department of Clinical Sciences, College of Veterinary Medicine, Mississippi State University, Mississippi State, MS 39762-6100, USA.
出版信息
J Vet Intern Med. 2013 Jan-Feb;27(1):141-9. doi: 10.1111/jvim.12022. Epub 2012 Dec 26.
BACKGROUND
Low-dose aspirin is used to prevent thromboembolic complications in dogs, but some animals are nonresponsive to the antiplatelet effects of aspirin ("aspirin resistance").
HYPOTHESIS/OBJECTIVES: That low-dose aspirin would inhibit platelet function, decrease thromboxane synthesis, and alter platelet cyclooxygenase (COX) expression.
ANIMALS
Twenty-four healthy dogs.
METHODS
A repeated measures study. Platelet function (PFA-100 closure time, collagen/epinephrine), platelet COX-1 and COX-2 expression, and urine 11-dehydro-thromboxane B(2) (11-dTXB(2)) were evaluated before and during aspirin administration (1 mg/kg Q24 hours PO, 10 days). Based on prolongation of closure times after aspirin administration, dogs were divided into categories according to aspirin responsiveness: responders, nonresponders, and inconsistent responders.
RESULTS
Low-dose aspirin increased closure times significantly (62% by Day 10, P < .001), with an equal distribution among aspirin responsiveness categories, 8 dogs per group. Platelet COX-1 mean fluorescent intensity (MFI) increased significantly during treatment, 13% on Day 3 (range, -29.7-136.1%) (P = .047) and 72% on Day 10 (range, -0.37-210%) (P < .001). Platelet COX-2 MFI increased significantly by 34% (range, -29.2-270%) on Day 3 (P = .003) and 74% (range, -19.7-226%) on Day 10 (P < .001). Urinary 11-dTXB(2) concentrations significantly (P = .005, P < .001) decreased at both time points. There was no difference between aspirin responsiveness and either platelet COX expression or thromboxane production.
CONCLUSIONS AND CLINICAL IMPORTANCE
Low-dose aspirin consistently inhibits platelet function in approximately one-third of healthy dogs, despite decreased thromboxane synthesis and increased platelet COX expression in most dogs. COX isoform expression before treatment did not predict aspirin resistance.
背景
小剂量阿司匹林用于预防犬血栓栓塞并发症,但有些动物对阿司匹林的抗血小板作用无反应(“阿司匹林抵抗”)。
假设/目的:小剂量阿司匹林可抑制血小板功能,减少血栓素合成,并改变血小板环氧化酶(COX)表达。
动物
24 只健康犬。
方法
这是一项重复测量研究。在阿司匹林给药前和给药期间(1 毫克/千克,每日 2 次口服,共 10 天)评估血小板功能(PFA-100 闭合时间、胶原/肾上腺素)、血小板 COX-1 和 COX-2 表达以及尿液 11-脱氢血栓烷 B(2)(11-dTXB(2))。根据阿司匹林给药后闭合时间的延长,将犬分为阿司匹林反应类别:反应者、无反应者和反应不一致者。
结果
小剂量阿司匹林显著延长闭合时间(第 10 天增加 62%,P<.001),阿司匹林反应类别之间分布均匀,每组 8 只犬。血小板 COX-1 平均荧光强度(MFI)在治疗过程中显著增加,第 3 天增加 13%(范围,-29.7%至 136.1%)(P=.047),第 10 天增加 72%(范围,-0.37%至 210%)(P<.001)。血小板 COX-2 MFI 第 3 天增加 34%(范围,-29.2%至 270%)(P=.003),第 10 天增加 74%(范围,-19.7%至 226%)(P<.001)。尿液 11-dTXB(2)浓度在两个时间点均显著降低(P=.005,P<.001)。阿司匹林反应与血小板 COX 表达或血栓素生成之间无差异。
结论和临床意义
尽管大多数犬的血栓素合成减少和血小板 COX 表达增加,但小剂量阿司匹林仍能持续抑制约三分之一健康犬的血小板功能。治疗前 COX 同工酶表达不能预测阿司匹林抵抗。
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