在健康狗身上建立 ClotPro 血栓弹性测量仪的参考区间。

Samantha K Day, Katherine J Nash, Mark J Midwinter, Sarah L Purcell, Wendy A Goodwin
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引用次数: 0

摘要

目的使用一种新型护理点血栓弹性测定仪,为狗的外源性活化试验(EX-test)、内源性活化试验(IN-test)、纤维蛋白聚合试验(FIB-test)、依卡林试验(ECA-test)和组织纤溶酶原激活剂试验(TPA-test)建立参考区间,并研究储存时间对结果的影响:环境:大学教学医院:地点:大学教学医院:48只健康的私人或大学饲养的狗被纳入前瞻性研究,这些狗的体格检查和基线实验室结果(全血细胞计数、生化指标、凝血酶原时间和活化部分凝血活酶时间[aPTT])均正常:储存 30 分钟后,对枸橼酸血样进行 EX 试验、IN 试验、FIB 试验、ECA 试验和 TPA 试验。为了确定储存时间的影响,在样本采集 90 分钟和 150 分钟后,对 11 份样本重复进行了 EX 测试、FIB 测试和 IN 测试:每项测试都评估了 10 个血栓弹性测量参数。参数数据采用稳健法计算参考区间,非参数数据采用稳健的箱-考克斯转换法或非参数法计算参考区间。储存时间越长,低凝描记越多。IN 测试和 aPTT 之间存在相关性(r = 0.62,P 结论和临床重要性):血栓弹性测定仪参考区间的开发有助于该技术的临床应用。在样本储存时间超过 30 分钟后进行分析可能会导致错误的结果。血细胞比容或血小板计数异常也会影响结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The establishment of reference intervals for the ClotPro thromboelastometry device in healthy dogs.

Objective: To establish reference intervals using a new point-of-care thromboelastometry device in dogs for the extrinsically activated test (EX-test), intrinsically activated test (IN-test), fibrin polymerization test (FIB-test), ecarin test (ECA-test), and tissue plasminogen activator test (TPA-test) and to investigate the effects of storage time on the results.

Design: Prospective clinical study in 2022.

Setting: University teaching hospital.

Animals: Forty-eight healthy privately or university-owned dogs were prospectively enrolled and included on the basis of normal physical examination and normal baseline laboratory results (CBC, biochemistry profile, prothrombin time, and activated partial thromboplastin time [aPTT]).

Interventions: After a 30-minute storage time, the EX-test, IN-test, FIB-test, ECA-test, and TPA-test were performed on citrated blood samples. To determine the effect of storage time, 11 samples had the EX-test, FIB-test, and IN-test repeated 90 and 150 minutes after sample collection.

Measurements and main results: Ten thromboelastometry parameters were evaluated for each test. Reference intervals were calculated using the robust method for parametric data, and the robust Box-Cox transformed or nonparametric methods were used for nonparametric data. Increasing storage time resulted in more hypocoagulable tracings. A correlation was found between the IN-test and aPTT (r = 0.62, P < 0.0001). Other weak to moderate correlations were seen between thromboelastometry parameters and platelet count and hematocrit.

Conclusions and clinical importance: The development of reference intervals for the thromboelastometry device allows for the clinical use of this technology. Analyzing samples after a prolonged storage time of more than 30 minutes may result in erroneous results. Results may also be affected by an abnormal hematocrit or platelet count.

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