Day Samantha K, Nash Katherine J, Midwinter Mark J, Purcell Sarah L, Goodwin Wendy A
School of Veterinary Science, The University of Queensland, Gatton, Queensland, Australia.
School of Biomedical Sciences, The University of Queensland, Gatton, Queensland, Australia.
J Vet Emerg Crit Care (San Antonio). 2024 Nov-Dec;34(6):560-569. doi: 10.1111/vec.13426. Epub 2024 Nov 18.
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.
Prospective clinical study in 2022.
University teaching hospital.
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]).
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.
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.
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.
使用一种新型即时检验血栓弹力图仪为犬建立外在激活试验(EX试验)、内在激活试验(IN试验)、纤维蛋白聚合试验(FIB试验)、蛇毒试验(ECA试验)和组织纤溶酶原激活剂试验(TPA试验)的参考区间,并研究储存时间对结果的影响。
2022年的前瞻性临床研究。
大学教学医院。
48只健康的私人或大学所有的犬被前瞻性纳入,纳入标准为体格检查正常且基线实验室检查结果正常(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])。
在储存30分钟后,对枸橼酸盐抗凝血液样本进行EX试验、IN试验、FIB试验、ECA试验和TPA试验。为确定储存时间的影响,11份样本在采集后90分钟和150分钟重复进行EX试验、FIB试验和IN试验。
对每项试验评估10个血栓弹力图参数。使用参数数据的稳健方法计算参考区间,非参数数据使用稳健的Box-Cox变换或非参数方法。储存时间延长导致凝血曲线更偏向低凝。发现IN试验与aPTT之间存在相关性(r = 0.62,P < 0.0001)。在血栓弹力图参数与血小板计数和血细胞比容之间还观察到其他弱至中度的相关性。
血栓弹力图仪参考区间的建立使该技术可用于临床。储存时间超过30分钟后分析样本可能会导致错误结果。结果也可能受到异常血细胞比容或血小板计数的影响。
