BACKGROUND: Anticoagulation protocols used during mechanical circulatory support call for titration of antiplatelet agents. We compared the precision and reliability of 5 platelet function tests in healthy volunteers and donors on daily antiplatelet therapy to distinguish their efficacy for titrating antiplatelet therapy. METHODS: We assessed arachidonic acid-induced platelet function by light transmission aggregometry (LTA), Multiplate impedance aggregometry, VerifyNow, and platelet mapping by thromboelastography (TEG PM). We assessed ADP-induced platelet function by the same methods and flow cytometry. Forty healthy volunteers and 10-13 volunteers on daily aspirin and/or clopidogrel therapy were evaluated. We compared tests for intraassay precision, interassay precision (samples from 2 separate blood draws), and reliability coefficient. RESULTS: For arachidonic acid-induced platelet aggregation in healthy volunteers, intra- and interassay CVs were ≤ 10% for all methods. Intra- and interassay precision among donors on daily aspirin was ≤ 30% for all methods except LTA (38% interassay CV) and TEG PM (95% intraassay and 104% interassay CV). For ADP-induced platelet function, intra- and interassay precision was ≤ 10% and ≤ 30% for all methods. Only Multiplate demonstrated moderate or greater (R > 0.40) reliability coefficients for arachidonic acid-induced platelet function among all subjects. All methods of ADP-induced platelet function, except TEG PM, demonstrated substantial or greater (R > 0.60) reliability among all subjects. CONCLUSIONS: TEG PM is least suited to monitor effects of antiplatelet agents. Multiplate impedance aggregometry was the only method to demonstrate an acceptable reliability coefficient among healthy volunteers and donors on both aspirin and clopidogrel therapy.
BACKGROUND: Anticoagulation protocols used during mechanical circulatory support call for titration of antiplatelet agents. We compared the precision and reliability of 5 platelet function tests in healthy volunteers and donors on daily antiplatelet therapy to distinguish their efficacy for titrating antiplatelet therapy. METHODS: We assessed arachidonic acid-induced platelet function by light transmission aggregometry (LTA), Multiplate impedance aggregometry, VerifyNow, and platelet mapping by thromboelastography (TEG PM). We assessed ADP-induced platelet function by the same methods and flow cytometry. Forty healthy volunteers and 10-13 volunteers on daily aspirin and/or clopidogrel therapy were evaluated. We compared tests for intraassay precision, interassay precision (samples from 2 separate blood draws), and reliability coefficient. RESULTS: For arachidonic acid-induced platelet aggregation in healthy volunteers, intra- and interassay CVs were ≤ 10% for all methods. Intra- and interassay precision among donors on daily aspirin was ≤ 30% for all methods except LTA (38% interassay CV) and TEG PM (95% intraassay and 104% interassay CV). For ADP-induced platelet function, intra- and interassay precision was ≤ 10% and ≤ 30% for all methods. Only Multiplate demonstrated moderate or greater (R > 0.40) reliability coefficients for arachidonic acid-induced platelet function among all subjects. All methods of ADP-induced platelet function, except TEG PM, demonstrated substantial or greater (R > 0.60) reliability among all subjects. CONCLUSIONS: TEG PM is least suited to monitor effects of antiplatelet agents. Multiplate impedance aggregometry was the only method to demonstrate an acceptable reliability coefficient among healthy volunteers and donors on both aspirin and clopidogrel therapy.
Authors: Kui-Peng Tian; Jie Guan; Li-Li Cai; Yu-Ru Li; Xin-Li Deng; Qing-Yan Liu; Ben-Xian Zheng; Yu-Long Cong Journal: Nan Fang Yi Ke Da Xue Xue Bao Date: 2016-04-20
Authors: Mirja M Wirtz; Clemens M Schirmer; Oded Goren; Christian O Bohan; Shamsher Dalal; Gregory Weiner; Paul M Foreman; Christoph J Griessenauer Journal: Interv Neuroradiol Date: 2019-12-19 Impact factor: 1.610
Authors: J Wagner; J F Lock; V Luber; U A Dietz; S Lichthardt; N Matthes; K Krajinovic; C-T Germer; S Knop; A Wiegering Journal: Chirurg Date: 2018-02 Impact factor: 0.955
Authors: Mate Petricevic; Davor Milicic; Alexandra White; Marko Boban; Martina Zrno Mihaljevic; Dragan Piljic; Ante Rotim; Ante Buca; Mario Mihalj; Bojan Biocina Journal: J Thromb Thrombolysis Date: 2015-10 Impact factor: 2.300
Authors: Mitchell J George; Kevin R Aroom; Max A Skibber; Tushar Sharma; Charles E Wade; Charles S Cox; Brijesh S Gill Journal: ASAIO J Date: 2018 Jul/Aug Impact factor: 2.872
Authors: Marianne E Nellis; Kenneth E Remy; Jacques Lacroix; Jill M Cholette; Melania M Bembea; Robert T Russell; Marie E Steiner; Susan M Goobie; Adam M Vogel; Gemma Crighton; Stacey L Valentine; Meghan Delaney; Robert I Parker Journal: Pediatr Crit Care Med Date: 2022-01-01 Impact factor: 3.971
Authors: Adam Cuker; Holleh Husseinzadeh; Tatiana Lebedeva; Joseph E Marturano; Walter Massefski; Thomas J Lowery; Michele P Lambert; Charles S Abrams; John W Weisel; Douglas B Cines Journal: Am J Clin Pathol Date: 2016-12-27 Impact factor: 2.493