Effects of temperature on partial thromboplastin time in heparinized plasma in vitro

M. Felfernig; A. Blaicher; S. C. Kettner; D. Felfernig; S. Acimovic; S. A. Kozek-Langenecker

doi:10.1046/j.1365-2346.2001.00869.x

Abstract

Background and objective Perioperative hypothermia has been found to impair the coagulation cascade and to increase blood loss and transfusion requirements. The effect of concomitant in vitro heparinization on coagulation during hypo- and hyperthermic conditions has not been well defined.

Methods In the present study, activated partial thromboplastin time was examined in vitro at 33°C, 35°C, 37°C, 39°C and 41°C in normal human plasma in response to unfractionated heparin.

Results Hypothermia ≤ 35°C prolonged activated partial thromboplastin time by 10% compared with test temperatures at 37°C (P < 0.05). Hyperthermia alone had no effect. Unfractionated heparin (0.1–0.4 IU mL−1) increased activated partial thromboplastin time in a dose-dependent manner (by 189% at 0.4 IU mL−1, P < 0.05). Test temperatures of 33°C and 41°C increased heparin-induced prolongation of activated partial thromboplastin time. At a heparin concentration of 0.4 IU mL−1, hypothermia (33°C) and hyperthermia (41°C) prolonged partial thromboplastin time by 12% and 22%, respectively, compared with normothermic test temperature of 37°C within the heparin group (P < 0.05).

Conclusions These observations suggest that both hypo- and hyperthermia increase the response to heparin in vitro. Further studies are needed to identify the effect of patient’s body temperature on heparin activity and bleeding tendency in vivo.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Doufas, Anthony G 2003. Consequences of inadvertent perioperative hypothermia. Best Practice & Research Clinical Anaesthesiology, Vol. 17, Issue. 4, p. 535.

Kettner, S. C. Sitzwohl, C. Zimpfer, M. Kozek, S. A. Holzer, A. Spiss, C. K. and Illievich, U. M. 2003. The Effect of Graded Hypothermia (36??C???32??C) on Hemostasis in Anesthetized Patients Without Surgical Trauma. Anesthesia & Analgesia, p. 1772.

Scharbert, Gisela Kalb, Madeleine Marschalek, Corinna and Kozek-Langenecker, Sibylle A. 2006. The Effects of Test Temperature and Storage Temperature on Platelet Aggregation: A Whole Blood In Vitro Study. Anesthesia & Analgesia, Vol. 102, Issue. 4, p. 1280.

Felfernig, M. Kubricht, V. Zimpfer, M. Kozek, S. Hoerauf, K. and Blaicher, A. M. 2006. Hypothermia and hyperthermia decrease the anticoagulant potency of low molecular weight heparin measured with thrombelastgraphy. European Surgery, Vol. 38, Issue. 3, p. 213.

Koh, Younsuck and Lim, Chae-Man 2008. Mechanical Ventilation. p. 51.

Reynolds, Luke Beckmann, James and Kurz, Andrea 2008. Perioperative complications of hypothermia. Best Practice & Research Clinical Anaesthesiology, Vol. 22, Issue. 4, p. 645.

Gertler, Ralph and Andropoulos, Dean B. 2009. A Practice of Anesthesia for Infants and Children. p. 397.

Varon, Joseph and Acosta, Pilar 2009. Coagulopathy during therapeutic hypothermia: Where are the data?. Resuscitation, Vol. 80, Issue. 7, p. 726.

Scharbert, G. Kalb, M. L. Essmeister, R. and Kozek-Langenecker, S. A. 2010. Mild and moderate hypothermia increases platelet aggregation induced by various agonists: a whole bloodin vitrostudy. Platelets, Vol. 21, Issue. 1, p. 44.

Maegdefessel, Lars Linde, Torsten Krapiec, Franziska Hamilton, Kathrin Steinseifer, Ulrich van Ryn, Joanne Raaz, Uwe Buerke, Michael Werdan, Karl and Schlitt, Axel 2010. In vitro comparison of dabigatran, unfractionated heparin, and low-molecular-weight heparin in preventing thrombus formation on mechanical heart valves. Thrombosis Research, Vol. 126, Issue. 3, p. e196.

Differding, Jerome A. Underwood, Samantha J. Van, Philbert Y. Khaki, Rakan A. Spoerke, Nicholas J. and Schreiber, Martin A. 2011. Trauma induces a hypercoagulable state that is resistant to hypothermia as measured by thrombelastogram. The American Journal of Surgery, Vol. 201, Issue. 5, p. 587.

Kwon, Mi Hee and Byeon, Young Soon 2013. Factors Influencing Body Temperature in Elderly Surgical Patients. Journal of Korean Academy of Fundamentals of Nursing, Vol. 20, Issue. 2, p. 108.

Petrone, Patrizio Asensio, Juan A. and Marini, Corrado P. 2014. Management of accidental hypothermia and cold injury. Current Problems in Surgery, Vol. 51, Issue. 10, p. 417.

Levy, Jerrold H. Szlam, Fania Wolberg, Alisa S. and Winkler, Anne 2014. Clinical Use of the Activated Partial Thromboplastin Time and Prothrombin Time for Screening. Clinics in Laboratory Medicine, Vol. 34, Issue. 3, p. 453.

Raft, Julien Guerci, Philippe Harter, Valentin Fuchs-Buder, Thomas and Meistelman, Claude 2015. Biological evaluation of the effect of sugammadex on hemostasis and bleeding. Korean Journal of Anesthesiology, Vol. 68, Issue. 1, p. 17.

Yie, Kilsoo Chon, Soon-Ho Daniel and Na, Chan-Young 2016. Activated clotting time test alone is inadequate to optimize therapeutic heparin dosage adjustment during post-cardiopulmonary resuscitational extracorporeal membrane oxygenation (e-CPR). Perfusion, Vol. 31, Issue. 4, p. 307.

Nam, Jeonghun Choi, Hyunjoo Kim, Jae Young Jang, Woongsik and Lim, Chae Seung 2018. Lamb wave-based blood coagulation test. Sensors and Actuators B: Chemical, Vol. 263, Issue. , p. 190.

Gertler, Ralph Gottlieb, Erin A. and Andropoulos, Dean B. 2019. A Practice of Anesthesia for Infants and Children. p. 458.

Sessler, Daniel I Pei, Lijian Li, Kai Cui, Shusen Chan, Matthew T V Huang, Yuguang Wu, Jingxiang He, Xuemei Bajracharya, Gausan R Rivas, Eva Lam, Carmen K M Li, Kai Cui, Shusen Zhang, Yaozhong Sun, Hai Hu, Zhouting Li, Wangyu Han, Yangdong Han, Wei Zhao, Pengcheng Ye, Hong Chen, Peng Zhu, Zhihua Dai, Weisong Jin, Lei Bian, Wenchao Liu, Yan Chan, Matthew T V Fung, Beaker B Y Lee, Eva Hui, Ka Yan Choi, Gordon Y S Wong, Wai Tat Chan, Chee Sam Pei, Lijian Huang, Yuguang Xiao, Yi Wu, Bin Kang, Weiming Lan, Ling Sun, Chen Wu, Jingxiang Qiu, Yuwei Tang, Wei Zhang, Yunyun Huang, Qi Lu, Xiaofei Li, Tingting Yu, Qimeng Yu, Jie He, Xuemei Wang, Rurong Chang, Hong Zuo, Yunxia Sun, Zhirong Hou, Wenting Pan, Congxia Liu, Xi Zhang, Xue Wang, Sheng Kang, Yin Ma, Zhengliang Gu, Xiaoping Miao, Changhong Sessler, Daniel I Rivas, Eva Bajracharya, Gausan R Bravo, Mauro Kurz, Andrea Turan, Alparslan Ruetzler, Kurt Maheshwari, Kamal Mao, Guangmei Han, Yanyan Yamak Altinpulluk, Ece Montalvo Compana, Mateo Almonacid-Cardenas, Federico Leung, Steve M Hanline, CeCelia K Chelnick, David M Tanios, Marianne Walters, Michael Rosen, Michael J Ezoke, Stephanie Mascha, Edward J Lam, Carmen K M Cheng, Benny C P Yip, Renee P L and Devereaux, P J 2022. Aggressive intraoperative warming versus routine thermal management during non-cardiac surgery (PROTECT): a multicentre, parallel group, superiority trial. The Lancet, Vol. 399, Issue. 10337, p. 1799.

Ivkin, A. A. Balakhnin, D. G. Borisenko, D. V. and Grigoriev, E. V. 2023. Opportunities of cerebroprotection in children in cardiac surgery (review of literature). Messenger of ANESTHESIOLOGY AND RESUSCITATION, Vol. 20, Issue. 1, p. 89.

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Effects of temperature on partial thromboplastin time in heparinized plasma in vitro

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Effects of temperature on partial thromboplastin time in heparinized plasma in vitro

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