Investigation of patients with unclassified bleeding disorder and abnormal thrombin generation for physiological coagulation inhibitors reveals multiple abnormalities and a subset of patients with increased tissue factor pathway inhibitor activity

Introduction We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). Aims: To investigate haemostatic abnormalities in patients with UBD that had abnormal thrombin generation on at least one occasion. Methods Investigation of 13 known UBD patient...

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Published inInternational journal of laboratory hematology Vol. 42; no. 3; pp. 246 - 255
Main Authors MacDonald, Stephen, White, Danielle, Langdown, Jon, Downes, Kate, Thomas, Will
Format Journal Article
LanguageEnglish
Published England Wiley Subscription Services, Inc 01.06.2020
Subjects
Adult
Aged
Bleeding
Blood Coagulation Disorders - blood
Blood Coagulation Factor Inhibitors - blood
Coagulation
Coagulation factors
Female
Fibrinogen
Humans
Lipoproteins - blood
Male
Middle Aged
Patients
Phenotypes
Thrombin
Thrombin - metabolism
Thrombomodulin
Tissue factor
Trypsin
Online AccessGet full text
ISSN1751-5521
1751-553X
1751-553X
DOI10.1111/ijlh.13155

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Abstract Introduction We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). Aims: To investigate haemostatic abnormalities in patients with UBD that had abnormal thrombin generation on at least one occasion. Methods Investigation of 13 known UBD patients with thrombin generation and detailed haemostatic testing was undertaken including TFPI assays but also thrombomodulin and fibrinogen‐γ. Results 12 females and 1 male were included. No patient had a platelet function disorder or coagulation factor deficiency that explained the bleeding phenotype, though 2 patients had factor deficiencies; a factor X of 0.41 IU/mL and a factor XI of 0.51 IU/mL. ThromboGenomics revealed variants for these factors but no other abnormalities. Patients were included who previously had either prolonged lag time or decreased endogenous thrombin potential (ETP) via high dose tissue factor (5 pmol/L) or low dose tissue factor (1.5 pmol/L) with corn trypsin inhibitor (CTI). Tissue factor pathway inhibitor (TFPI) activity was significantly increased (P < .001; increased in 8 patients) compared with controls and abnormalities in soluble thrombomodulin (2 patients), fibrinogen‐γ (1 patient) and tPA (4 patients for each) were seen. Total and free TFPI levels were not increased. Mixing studies of patient plasma with 50:50 normal plasma for thrombin generation via low dose tissue factor failed to correct the ETP consistent with ongoing inhibition. Addition of an anti‐TFPI antibody partially corrected thrombin generation to normal levels. TFPI sequencing was unremarkable. Conclusion TFPI activity may be increased in a subset of UBD patients. Further research studies are warranted in UBD patients for coagulation inhibitor abnormalities.
AbstractList Introduction We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). Aims: To investigate haemostatic abnormalities in patients with UBD that had abnormal thrombin generation on at least one occasion. Methods Investigation of 13 known UBD patients with thrombin generation and detailed haemostatic testing was undertaken including TFPI assays but also thrombomodulin and fibrinogen‐γ. Results 12 females and 1 male were included. No patient had a platelet function disorder or coagulation factor deficiency that explained the bleeding phenotype, though 2 patients had factor deficiencies; a factor X of 0.41 IU/mL and a factor XI of 0.51 IU/mL. ThromboGenomics revealed variants for these factors but no other abnormalities. Patients were included who previously had either prolonged lag time or decreased endogenous thrombin potential (ETP) via high dose tissue factor (5 pmol/L) or low dose tissue factor (1.5 pmol/L) with corn trypsin inhibitor (CTI). Tissue factor pathway inhibitor (TFPI) activity was significantly increased (P < .001; increased in 8 patients) compared with controls and abnormalities in soluble thrombomodulin (2 patients), fibrinogen‐γ (1 patient) and tPA (4 patients for each) were seen. Total and free TFPI levels were not increased. Mixing studies of patient plasma with 50:50 normal plasma for thrombin generation via low dose tissue factor failed to correct the ETP consistent with ongoing inhibition. Addition of an anti‐TFPI antibody partially corrected thrombin generation to normal levels. TFPI sequencing was unremarkable. Conclusion TFPI activity may be increased in a subset of UBD patients. Further research studies are warranted in UBD patients for coagulation inhibitor abnormalities.
We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD).INTRODUCTIONWe have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD).To investigate haemostatic abnormalities in patients with UBD that had abnormal thrombin generation on at least one occasion.AIMSTo investigate haemostatic abnormalities in patients with UBD that had abnormal thrombin generation on at least one occasion.Investigation of 13 known UBD patients with thrombin generation and detailed haemostatic testing was undertaken including TFPI assays but also thrombomodulin and fibrinogen-γ.METHODSInvestigation of 13 known UBD patients with thrombin generation and detailed haemostatic testing was undertaken including TFPI assays but also thrombomodulin and fibrinogen-γ.12 females and 1 male were included. No patient had a platelet function disorder or coagulation factor deficiency that explained the bleeding phenotype, though 2 patients had factor deficiencies; a factor X of 0.41 IU/mL and a factor XI of 0.51 IU/mL. ThromboGenomics revealed variants for these factors but no other abnormalities. Patients were included who previously had either prolonged lag time or decreased endogenous thrombin potential (ETP) via high dose tissue factor (5 pmol/L) or low dose tissue factor (1.5 pmol/L) with corn trypsin inhibitor (CTI). Tissue factor pathway inhibitor (TFPI) activity was significantly increased (P < .001; increased in 8 patients) compared with controls and abnormalities in soluble thrombomodulin (2 patients), fibrinogen-γ (1 patient) and tPA (4 patients for each) were seen. Total and free TFPI levels were not increased. Mixing studies of patient plasma with 50:50 normal plasma for thrombin generation via low dose tissue factor failed to correct the ETP consistent with ongoing inhibition. Addition of an anti-TFPI antibody partially corrected thrombin generation to normal levels. TFPI sequencing was unremarkable.RESULTS12 females and 1 male were included. No patient had a platelet function disorder or coagulation factor deficiency that explained the bleeding phenotype, though 2 patients had factor deficiencies; a factor X of 0.41 IU/mL and a factor XI of 0.51 IU/mL. ThromboGenomics revealed variants for these factors but no other abnormalities. Patients were included who previously had either prolonged lag time or decreased endogenous thrombin potential (ETP) via high dose tissue factor (5 pmol/L) or low dose tissue factor (1.5 pmol/L) with corn trypsin inhibitor (CTI). Tissue factor pathway inhibitor (TFPI) activity was significantly increased (P < .001; increased in 8 patients) compared with controls and abnormalities in soluble thrombomodulin (2 patients), fibrinogen-γ (1 patient) and tPA (4 patients for each) were seen. Total and free TFPI levels were not increased. Mixing studies of patient plasma with 50:50 normal plasma for thrombin generation via low dose tissue factor failed to correct the ETP consistent with ongoing inhibition. Addition of an anti-TFPI antibody partially corrected thrombin generation to normal levels. TFPI sequencing was unremarkable.TFPI activity may be increased in a subset of UBD patients. Further research studies are warranted in UBD patients for coagulation inhibitor abnormalities.CONCLUSIONTFPI activity may be increased in a subset of UBD patients. Further research studies are warranted in UBD patients for coagulation inhibitor abnormalities.
IntroductionWe have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). Aims: To investigate haemostatic abnormalities in patients with UBD that had abnormal thrombin generation on at least one occasion.MethodsInvestigation of 13 known UBD patients with thrombin generation and detailed haemostatic testing was undertaken including TFPI assays but also thrombomodulin and fibrinogen‐γ.Results12 females and 1 male were included. No patient had a platelet function disorder or coagulation factor deficiency that explained the bleeding phenotype, though 2 patients had factor deficiencies; a factor X of 0.41 IU/mL and a factor XI of 0.51 IU/mL. ThromboGenomics revealed variants for these factors but no other abnormalities. Patients were included who previously had either prolonged lag time or decreased endogenous thrombin potential (ETP) via high dose tissue factor (5 pmol/L) or low dose tissue factor (1.5 pmol/L) with corn trypsin inhibitor (CTI). Tissue factor pathway inhibitor (TFPI) activity was significantly increased (P < .001; increased in 8 patients) compared with controls and abnormalities in soluble thrombomodulin (2 patients), fibrinogen‐γ (1 patient) and tPA (4 patients for each) were seen. Total and free TFPI levels were not increased. Mixing studies of patient plasma with 50:50 normal plasma for thrombin generation via low dose tissue factor failed to correct the ETP consistent with ongoing inhibition. Addition of an anti‐TFPI antibody partially corrected thrombin generation to normal levels. TFPI sequencing was unremarkable.ConclusionTFPI activity may be increased in a subset of UBD patients. Further research studies are warranted in UBD patients for coagulation inhibitor abnormalities.
We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). To investigate haemostatic abnormalities in patients with UBD that had abnormal thrombin generation on at least one occasion. Investigation of 13 known UBD patients with thrombin generation and detailed haemostatic testing was undertaken including TFPI assays but also thrombomodulin and fibrinogen-γ. 12 females and 1 male were included. No patient had a platelet function disorder or coagulation factor deficiency that explained the bleeding phenotype, though 2 patients had factor deficiencies; a factor X of 0.41 IU/mL and a factor XI of 0.51 IU/mL. ThromboGenomics revealed variants for these factors but no other abnormalities. Patients were included who previously had either prolonged lag time or decreased endogenous thrombin potential (ETP) via high dose tissue factor (5 pmol/L) or low dose tissue factor (1.5 pmol/L) with corn trypsin inhibitor (CTI). Tissue factor pathway inhibitor (TFPI) activity was significantly increased (P < .001; increased in 8 patients) compared with controls and abnormalities in soluble thrombomodulin (2 patients), fibrinogen-γ (1 patient) and tPA (4 patients for each) were seen. Total and free TFPI levels were not increased. Mixing studies of patient plasma with 50:50 normal plasma for thrombin generation via low dose tissue factor failed to correct the ETP consistent with ongoing inhibition. Addition of an anti-TFPI antibody partially corrected thrombin generation to normal levels. TFPI sequencing was unremarkable. TFPI activity may be increased in a subset of UBD patients. Further research studies are warranted in UBD patients for coagulation inhibitor abnormalities.
Author Downes, Kate
MacDonald, Stephen
Thomas, Will
White, Danielle
Langdown, Jon
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Snippet Introduction We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). Aims: To investigate haemostatic...
We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). To investigate haemostatic abnormalities in...
IntroductionWe have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD). Aims: To investigate haemostatic...
We have routinely used thrombin generation to investigate patients with unclassified bleeding disorder (UBD).INTRODUCTIONWe have routinely used thrombin...
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wiley
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StartPage 246
SubjectTerms Adult
Aged
Bleeding
Blood Coagulation Disorders - blood
Blood Coagulation Factor Inhibitors - blood
Coagulation
Coagulation factors
Female
Fibrinogen
Humans
Lipoproteins - blood
Male
Middle Aged
Patients
Phenotypes
Thrombin
Thrombin - metabolism
Thrombomodulin
Tissue factor
Trypsin
Title Investigation of patients with unclassified bleeding disorder and abnormal thrombin generation for physiological coagulation inhibitors reveals multiple abnormalities and a subset of patients with increased tissue factor pathway inhibitor activity
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fijlh.13155
https://www.ncbi.nlm.nih.gov/pubmed/32003946
https://www.proquest.com/docview/2403247816
https://www.proquest.com/docview/2350088260
Volume 42
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