Veterinary Medicine and Science (May 2024)

Evaluation of the use of a heparin dose‐response test in dogs to determine the optimal heparin dose during intravascular procedures and assessment of the in vitro heparin response in healthy dogs

  • A. Hellemans,
  • N. Devriendt,
  • L. Duchateau,
  • K. M. J. Devreese,
  • F. De Somer,
  • T. Bosmans,
  • G. Mampaey,
  • P. Smets

DOI
https://doi.org/10.1002/vms3.1326
Journal volume & issue
Vol. 10, no. 3
pp. n/a – n/a

Abstract

Read online

Abstract Background No guidelines for administering and monitoring anticoagulants intraprocedurally are currently available in dogs, despite the prevalence of procedures necessitating systemic anticoagulation with heparin. Objectives To evaluate an activated clotting time (ACT)‐based heparin dose‐response (HDR) test to predict the individual required heparin dose in dogs during intravascular procedures, and to investigate both the in vitro heparin – ACT and in vitro heparin – factor anti‐Xa activity (anti‐Xa) relationships in dogs. Methods Blood was collected from eight healthy beagles undergoing a cardiac procedure and utilised to establish baseline ACT and for in vitro evaluation. Subsequently, 100 IU/kg heparin was administered intravenously (IV) and ACT was remeasured (HDR test). The required heparin dose for an ACT target response ≥300 s was calculated for each individual and ACT was remeasured after administration of this dose. For in vitro testing, a serial heparin blood dilution (0‐0.5‐1‐2‐4 international unit (IU)/mL) was prepared and ACT and anti‐Xa were determined using whole blood and frozen plasma, respectively. Results The HDR test overestimated the required heparin dose in 3/7 dogs. In vitro, ACT and anti‐Xa increased significantly with increasing blood heparin concentration. Heparin – ACT was nonlinear in 4/8 dogs at heparin concentrations >2 IU/mL, whereas heparin – anti‐Xa remained linear throughout the tested range. Conclusions The HDR test poorly estimated the required heparin dose in dogs. This is most likely attributed to a nonlinear heparin – ACT relationship, as observed in vitro. Anti‐Xa is a promising alternative for ACT; however, unavailability as a point‐of‐care test and lack of in vivo target values restrict its current use.

Keywords