Thromb Haemost 1986; 56(01): 080-085
DOI: 10.1055/s-0038-1661607
Original Article
Schattauer GmbH Stuttgart

Effect of Indomethacin and Dazoxiben on Intravascular Platelet Aggregation in the Anaesthetized Rabbit

A C Honey
Searle Research & Development, High Wycombe, Buckinghamshire, UK
,
N Lad
Searle Research & Development, High Wycombe, Buckinghamshire, UK
,
D P Tuffin
Searle Research & Development, High Wycombe, Buckinghamshire, UK
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Publikationsverlauf

Received 07. Februar 1986

Accepted after revision 03. Juni 1986

Publikationsdatum:
13. Juli 2018 (online)

Summary

Collagen (10-40 μg kg−1), thrombin (1-10 units kg−1), adenosine diphosphate (ADP; 3-300 pμ kg−1), 1-0-hexadecyl Paf-acether and 1-0-octadecyl Paf-acether (1-300 ng kg−1) administered by bolus intravenous injection each caused dose-dependent thrombocytopoenia accompanied by marked hypotension in anaesthetized rabbits. Responses to ADP and the Paf-acether derivatives were transient in nature (3-8 min) whereas those induced by collagen and thrombin were always of longer duration (5-20 min) and frequently fatal at high doses. Responses to collagen, thrombin, and the Paf-acether derivatives were invariably accompanied by substantial, dose-related increases in plasma levels of thromboxane B2 in samples obtained 30 s after agonist administration, whereas following ADP, no change in plasma thromboxane B2 was detected at any dose level. Indomethacin (3.0 mg kg−1 by infusion) had no effect on responses to thrombin or Paf-acether, partially inhibited collagen-induced thrombocytopenia, and potentiated responses to ADP. In contrast, dazoxiben (10 mg kg−1 by infusion) partially but significantly inhibited responses to thrombin, whereas those induced by collagen, Paf-acether or ADP were unchanged. These results indicate that in this model of intravascular aggregation, whilst platelet responses to collagen and thrombin appear partially dependent on intact cyclic endoperoxide and thromboxane A2 synthetic capacity respectively, responses to ADP and Paf-acether are independent of arachidonate metabolism via cyclo-oxygenase despite measurably increased TXB2 formation in the latter case.

 
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