Shir Gilor scite author profile

For TEM of canine blood samples, coagulation time was primarily a function of coagulation factor concentrations, whereas other variables were dependent on platelet and fibrinogen concentrations. Sample Hct strongly influenced the results of TEM, likely because RBCs act as a diluent for plasma coagulation factors. Thromboelastometry appeared to be affected by abnormalities of coagulation factors, platelet concentrations, and RBC mass. In samples from anemic patients, results of TEM indicative of hypercoagulability may be artifactual because of low RBC mass.

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Clot formation in canine whole blood as measured by rotational thromboelastometry is influenced by sample handling and coagulation activator

Smith¹,

McMichael

Galligan

et al. 2010

108

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The objective of the present study was to systematically evaluate the impact of methodology on thromboelastometry with canine whole blood. Thromboelastometry was performed on citrated blood using a variety of combinations of clotting activators [ex-tem (tissue factor or TF), in-tem (ellagic acid), diluted TF from Innovin, or Ca (recalcification only)] and storage times. Thromboelastometry was also performed using diluted TF from Innovin on blood collected into a contact inhibitor. Ex-vivo contact activation was compared between canine and human blood. Clotting activator had a marked impact on coagulation time, a minor impact on alpha angle, and no impact on clot formation time or maximum clot firmness. When ex-tem or in-tem was the clotting activator, sample storage up to 30 min did not affect results. With diluted TF from Innovin or Ca, sample storage was associated with the development of increased coagulability (as indicated by shorter coagulation time and clot formation time and higher alpha angle) due to ex-vivo contact activation. Canine blood underwent markedly more ex-vivo contact activation than did human blood. Canine blood undergoes significant ex-vivo contact activation during and after collection, which influences thromboelastometry results when a weak clotting activator (such as low TF or recalcification) is used. Thromboelastometry with a strong activator (such as ex-tem or in-tem) is less influenced by ex-vivo changes, and, therefore, likely to be more reflective of in-vivo hemostatic capabilities and to provide consistently interpretable and comparable results.

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The GLP-1 mimetic exenatide potentiates insulin secretion in healthy cats

Gilor

Graves

Gilor

et al. 2011

Domestic Animal Endocrinology

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Common Laboratory Artifacts Caused by Inappropriate Sample Collection and Transport: How to Get the Most out of a Sample

Gilor¹,

Gilor²

2011

Topics in Companion Animal Medicine

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The incretin effect in cats: comparison between oral glucose, lipids, and amino acids

Gilor

Graves

Gilor

et al. 2011

Domestic Animal Endocrinology

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Shir Gilor

Correlation of hematocrit, platelet concentration, and plasma coagulation factors with results of thromboelastometry in canine whole blood samples

Clot formation in canine whole blood as measured by rotational thromboelastometry is influenced by sample handling and coagulation activator

The GLP-1 mimetic exenatide potentiates insulin secretion in healthy cats

Common Laboratory Artifacts Caused by Inappropriate Sample Collection and Transport: How to Get the Most out of a Sample

The incretin effect in cats: comparison between oral glucose, lipids, and amino acids

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