Biological variation data and analytical specification goal estimates of the thrombin generation assay with and without thrombomodulin in healthy individuals

Background Evaluation of an individual’s thrombin‐generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect the clotting function of blood. However, the lack of standardization still hampers the use in routine clinical practice. Methods Nin...

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Published inInternational journal of laboratory hematology Vol. 43; no. 3; pp. 450 - 457
Main Authors Mairesse, Antoine, Bayart, Jean‐Louis, Desmet, Sandrine, Lopes Dos Santos, Helder, Saussoy, Pascale, Defour, Jean‐Philippe, Eeckhoudt, Stéphane, Dievoet, Marie‐Astrid
Format Journal Article
LanguageEnglish
Published England Wiley Subscription Services, Inc 01.06.2021
Subjects
biological variation
calibrated automated thrombogram
Clotting
platelet poor plasma
reference change value
Standardization
Thrombin
thrombin generation assay
Thrombomodulin
Variance analysis
Variation
thrombin generation assay
platelet poor plasma
biological variation
reference change value
calibrated automated thrombogram
Online AccessGet full text
ISSN1751-5521
1751-553X
1751-553X
DOI10.1111/ijlh.13388

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Abstract Background Evaluation of an individual’s thrombin‐generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect the clotting function of blood. However, the lack of standardization still hampers the use in routine clinical practice. Methods Nineteen healthy subjects were sampled once a week for 5 consecutive weeks. Thrombin generation assay (TGA) was performed in duplicate by calibrated automated thrombogram (CAT) on platelet poor plasma with and without thrombomodulin. After exclusion of outliers, a nested analysis of variance (ANOVA) was performed to evaluate the biological variability (BV) results. Analytical variation (CVA), within‐individual variation (CVI), between‐individual variation (CVG), index of individuality (II), and reference change value (RCV) were calculated. Results All parameters taken together, the CVA, CVI, and CVG without TM, ranged from 2.8% to 6.5%, from 4.1% to 13.3% and from 10.4% to 28.4%, respectively. For TG with TM, CVI and CVG were higher and ranged from 5.0% to 18.1% and from 14.9% to 35.3%, respectively. For endogenous thrombin potential (ETP), a CVI of 4.1% and CVG of 10.4% were obtained without addition of thrombomodulin (TM). With addition of TM, both CVI and CVG were higher: 14.0% and 34.8%, respectively. The II was low and the RCV ranged from 17.2% to 50.4%. Conclusion CAT parameters are highly individualized and population‐based reference values could be called into question. The assessment of BV and RCV for thrombin generation assays could optimize interpretation of serial patient results and guide setting of analytical specification goals.
AbstractList Evaluation of an individual's thrombin-generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect the clotting function of blood. However, the lack of standardization still hampers the use in routine clinical practice. Nineteen healthy subjects were sampled once a week for 5 consecutive weeks. Thrombin generation assay (TGA) was performed in duplicate by calibrated automated thrombogram (CAT) on platelet poor plasma with and without thrombomodulin. After exclusion of outliers, a nested analysis of variance (ANOVA) was performed to evaluate the biological variability (BV) results. Analytical variation (CV ), within-individual variation (CV ), between-individual variation (CV ), index of individuality (II), and reference change value (RCV) were calculated. All parameters taken together, the CV CV , and CV without TM, ranged from 2.8% to 6.5%, from 4.1% to 13.3% and from 10.4% to 28.4%, respectively. For TG with TM, CV and CV were higher and ranged from 5.0% to 18.1% and from 14.9% to 35.3%, respectively. For endogenous thrombin potential (ETP), a CV of 4.1% and CV of 10.4% were obtained without addition of thrombomodulin (TM). With addition of TM, both CV and CV were higher: 14.0% and 34.8%, respectively. The II was low and the RCV ranged from 17.2% to 50.4%. CAT parameters are highly individualized and population-based reference values could be called into question. The assessment of BV and RCV for thrombin generation assays could optimize interpretation of serial patient results and guide setting of analytical specification goals.
Evaluation of an individual's thrombin-generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect the clotting function of blood. However, the lack of standardization still hampers the use in routine clinical practice.BACKGROUNDEvaluation of an individual's thrombin-generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect the clotting function of blood. However, the lack of standardization still hampers the use in routine clinical practice.Nineteen healthy subjects were sampled once a week for 5 consecutive weeks. Thrombin generation assay (TGA) was performed in duplicate by calibrated automated thrombogram (CAT) on platelet poor plasma with and without thrombomodulin. After exclusion of outliers, a nested analysis of variance (ANOVA) was performed to evaluate the biological variability (BV) results. Analytical variation (CVA ), within-individual variation (CVI ), between-individual variation (CVG ), index of individuality (II), and reference change value (RCV) were calculated.METHODSNineteen healthy subjects were sampled once a week for 5 consecutive weeks. Thrombin generation assay (TGA) was performed in duplicate by calibrated automated thrombogram (CAT) on platelet poor plasma with and without thrombomodulin. After exclusion of outliers, a nested analysis of variance (ANOVA) was performed to evaluate the biological variability (BV) results. Analytical variation (CVA ), within-individual variation (CVI ), between-individual variation (CVG ), index of individuality (II), and reference change value (RCV) were calculated.All parameters taken together, the CVA, CVI , and CVG without TM, ranged from 2.8% to 6.5%, from 4.1% to 13.3% and from 10.4% to 28.4%, respectively. For TG with TM, CVI and CVG were higher and ranged from 5.0% to 18.1% and from 14.9% to 35.3%, respectively. For endogenous thrombin potential (ETP), a CVI of 4.1% and CVG of 10.4% were obtained without addition of thrombomodulin (TM). With addition of TM, both CVI and CVG were higher: 14.0% and 34.8%, respectively. The II was low and the RCV ranged from 17.2% to 50.4%.RESULTSAll parameters taken together, the CVA, CVI , and CVG without TM, ranged from 2.8% to 6.5%, from 4.1% to 13.3% and from 10.4% to 28.4%, respectively. For TG with TM, CVI and CVG were higher and ranged from 5.0% to 18.1% and from 14.9% to 35.3%, respectively. For endogenous thrombin potential (ETP), a CVI of 4.1% and CVG of 10.4% were obtained without addition of thrombomodulin (TM). With addition of TM, both CVI and CVG were higher: 14.0% and 34.8%, respectively. The II was low and the RCV ranged from 17.2% to 50.4%.CAT parameters are highly individualized and population-based reference values could be called into question. The assessment of BV and RCV for thrombin generation assays could optimize interpretation of serial patient results and guide setting of analytical specification goals.CONCLUSIONCAT parameters are highly individualized and population-based reference values could be called into question. The assessment of BV and RCV for thrombin generation assays could optimize interpretation of serial patient results and guide setting of analytical specification goals.
BackgroundEvaluation of an individual’s thrombin‐generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect the clotting function of blood. However, the lack of standardization still hampers the use in routine clinical practice.MethodsNineteen healthy subjects were sampled once a week for 5 consecutive weeks. Thrombin generation assay (TGA) was performed in duplicate by calibrated automated thrombogram (CAT) on platelet poor plasma with and without thrombomodulin. After exclusion of outliers, a nested analysis of variance (ANOVA) was performed to evaluate the biological variability (BV) results. Analytical variation (CVA), within‐individual variation (CVI), between‐individual variation (CVG), index of individuality (II), and reference change value (RCV) were calculated.ResultsAll parameters taken together, the CVA, CVI, and CVG without TM, ranged from 2.8% to 6.5%, from 4.1% to 13.3% and from 10.4% to 28.4%, respectively. For TG with TM, CVI and CVG were higher and ranged from 5.0% to 18.1% and from 14.9% to 35.3%, respectively. For endogenous thrombin potential (ETP), a CVI of 4.1% and CVG of 10.4% were obtained without addition of thrombomodulin (TM). With addition of TM, both CVI and CVG were higher: 14.0% and 34.8%, respectively. The II was low and the RCV ranged from 17.2% to 50.4%.ConclusionCAT parameters are highly individualized and population‐based reference values could be called into question. The assessment of BV and RCV for thrombin generation assays could optimize interpretation of serial patient results and guide setting of analytical specification goals.
Background Evaluation of an individual’s thrombin‐generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect the clotting function of blood. However, the lack of standardization still hampers the use in routine clinical practice. Methods Nineteen healthy subjects were sampled once a week for 5 consecutive weeks. Thrombin generation assay (TGA) was performed in duplicate by calibrated automated thrombogram (CAT) on platelet poor plasma with and without thrombomodulin. After exclusion of outliers, a nested analysis of variance (ANOVA) was performed to evaluate the biological variability (BV) results. Analytical variation (CVA), within‐individual variation (CVI), between‐individual variation (CVG), index of individuality (II), and reference change value (RCV) were calculated. Results All parameters taken together, the CVA, CVI, and CVG without TM, ranged from 2.8% to 6.5%, from 4.1% to 13.3% and from 10.4% to 28.4%, respectively. For TG with TM, CVI and CVG were higher and ranged from 5.0% to 18.1% and from 14.9% to 35.3%, respectively. For endogenous thrombin potential (ETP), a CVI of 4.1% and CVG of 10.4% were obtained without addition of thrombomodulin (TM). With addition of TM, both CVI and CVG were higher: 14.0% and 34.8%, respectively. The II was low and the RCV ranged from 17.2% to 50.4%. Conclusion CAT parameters are highly individualized and population‐based reference values could be called into question. The assessment of BV and RCV for thrombin generation assays could optimize interpretation of serial patient results and guide setting of analytical specification goals.
Author Dievoet, Marie‐Astrid
Desmet, Sandrine
Mairesse, Antoine
Lopes Dos Santos, Helder
Defour, Jean‐Philippe
Saussoy, Pascale
Eeckhoudt, Stéphane
Bayart, Jean‐Louis
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  email: marieastridvandievoet@hotmail.com
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Keywords thrombin generation assay
platelet poor plasma
biological variation
reference change value
calibrated automated thrombogram
Language English
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Snippet Background Evaluation of an individual’s thrombin‐generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better...
Evaluation of an individual's thrombin-generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better reflect...
BackgroundEvaluation of an individual’s thrombin‐generating capacity enables a global assessment of the coagulation cascade and is therefore thought to better...
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StartPage 450
SubjectTerms biological variation
calibrated automated thrombogram
Clotting
platelet poor plasma
reference change value
Standardization
Thrombin
thrombin generation assay
Thrombomodulin
Variance analysis
Variation
Title Biological variation data and analytical specification goal estimates of the thrombin generation assay with and without thrombomodulin in healthy individuals
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fijlh.13388
https://www.ncbi.nlm.nih.gov/pubmed/33185328
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