New methodological approach for coagulation assays using chicken plasma intrinsic properties


Publication type
Article
Language
English
Access rights
Restricted access
Appears in Collections:
Abstract
Background: Sensitivity of classical coagulation assays by using mammalian plasmas to pro‐ and anticoagulant compounds includ ing venom or toxins occurs on a microscale level (micrograms). Al though it improves responses to agonists, recalcification triggers a relatively fast thrombin formation process. The Recalcification Time (RT) of factor XII- deficient Chicken Plasma (CP) is comparatively long (≥1800 seconds) when compared to human plasma or others. Our objective was to compare its sensitivity with that presented by human plasma samples to Unfractionated Heparin (UH), a pro totype anticoagulant compound, under similar conditions through rotational thromboelastometry. Methods: To find doses of UH sufficient enough to prolong the Clotting Time (CT) parameter of these activated plasmas to values within their normal RT ranges. Results: In total, 0.0065±0.0009 IU of UH (n=6) was detected in 260µL of CP samples, but only 0.125±0.012 IU of UH was sufficient to induce a similar effect in activated human plasma samples. Conclusion: The higher sensitivity of CP to anticoagulants could be useful for (a) detection of anticoagulant compounds in substanc es of unknown origin; (b) purification procedures of anticoagulant toxins from crude animal venoms and (c) determination of relative potencies of agonists and their selective antagonists such as phar maceutical agents, antivenoms or natural inhibitors of venom tox ins with a better result in kinetic clothing parameters
Description
Sensitivity of classical coagulation assays by using mammalian plasmas to pro‐ and anticoagulant compounds includ ing venom or toxins occurs on a microscale level (micrograms). Al though it improves responses to agonists, recalcification triggers a relatively fast thrombin formation process. The Recalcification Time (RT) of factor XII- deficient Chicken Plasma (CP) is comparatively long (≥1800 seconds) when compared to human plasma or others. Our objective was to compare its sensitivity with that presented by human plasma samples to Unfractionated Heparin (UH), a pro totype anticoagulant compound, under similar conditions through rotational thromboelastometry. To find doses of UH sufficient enough to prolong the Clotting Time (CT) parameter of these activated plasmas to values within their normal RT ranges. In total, 0.0065±0.0009 IU of UH (n=6) was detected in 260µL of CP samples, but only 0.125±0.012 IU of UH was sufficient to induce a similar effect in activated human plasma samples. Conclusion: The higher sensitivity of CP to anticoagulants could be useful for (a) detection of anticoagulant compounds in substanc es of unknown origin; (b) purification procedures of anticoagulant toxins from crude animal venoms and (c) determination of relative potencies of agonists and their selective antagonists such as phar maceutical agents, antivenoms or natural inhibitors of venom tox ins with a better result in kinetic clothing parameters
Link to cite this reference
https://repositorio.butantan.gov.br/handle/butantan/5371
Issue Date
2023

Show full item record

The access to the publications deposited in this repository respects the licenses from journals and publishers.