Roxana Carmona scite author profile

Roxana Carmona

4Publications

88Citation Statements Received

117Citation Statements Given

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114

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Children's Hospital of Los Angeles, Children's Center, University of Southern California

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Failure of corn trypsin inhibitor to affect the thrombin generation assay in plasma from severe hemophiliacs

Mohammed

Martin

Salinas

et al. 2014

Journal of Thrombosis and Haemostasis

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Summary Background The thrombin generation assay (TGA) is an important global coagulation assay; however, it suffers from the lack of preanalytical standardization. The addition of corn trypsin inhibitor (CTI) to blood collection tubes before TGA has been previously advocated to block the contact activation pathway. Emerging data, however, suggest that CTI may only be necessary when minimal tissue factor (TF) concentrations < 1 pmol are used. Objectives To determine whether blood collection tubes containing CTI influenced TGA parameters. Methods This cross‐sectional, observational study performed the TGA using TF 1 pmol L–1 in 15 healthy volunteers, 14 severely factor VIII (FVIII)‐deficient patients, and 15 severely FVIII‐deficient patients with documented FVIII inhibitors. TGA was conducted using blood tubes that contained CTI 33 μg mL−1 and no CTI. Results CTI markedly reduced peak thrombin (P = 0.002) and endogenous thrombin potential (P < 0.001) in the healthy volunteers but had no significant effect on TGA parameters in severely FVIII‐deficient patients or those with inhibitors. Conclusions This lack of effect raises additional questions regarding the need for CTI as a preanalytical addition to blood collection tubes during TGA in severe hemophiliacs, particularly when activating samples with TF 1 pmol L–1.

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Determining the approximate factor VIII level of patients with severe haemophilia A on emicizumab using in vivo global haemostasis assays

et al. 2021

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Introduction Emicizumab is a recombinant, humanized bispecific monoclonal antibody that mimics the function of factor VIII (FVIII) which results in a significant reduction in the annualized bleeding rate in patients with haemophilia A (HA), however, the degree with which emicizumab corrects the coagulation defect remains unclear. The objective of this study was to predict the approximate FVIII level in severe haemophilia A patients with inhibitors on emicizumab using global haemostasis assays. Materials and methods Patients with moderate and mild HA in the non‐bleeding state and healthy controls had FVIII levels and thrombin generation assessed. Linear regression was utilized to model the FVIII levels as a function of the thrombin generation assay parameters and to make a calibration curve of FVIII levels versus peak thrombin and endogenous thrombin potential. Patients with severe haemophilia A with inhibitors on emicizumab had thrombin generation performed in the same manner and their peak thrombin and endogenous thrombin potential results were placed on the calibration curve to calculate their FVIII Equivalency of Emicizumab by Thrombin Generation (F8EmT). Results All patients with severe HA with inhibitors on emicizumab had F8EmT >10%, suggesting they had been converted to a mild haemophilia phenotype. The patient's weight was inversely correlated to their F8EmT. Conclusion The results from this study suggest that the F8EmT in patients with severe HA on emicizumab falls within the range of mild haemophilia which is consistent with the data noted in the emicizumab clinical trials and in vivo studies in animals.

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Comparison of bypassing agents in patients on emicizumab using global hemostasis assays

et al. 2020

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Introduction Emicizumab is a humanized bispecific monoclonal antibody licensed for patients with severe haemophilia A with and without inhibitors. Management of breakthrough bleeding in patients with inhibitors on emicizumab involves episodic treatment with bypassing agents (BPA), activated prothrombin complex concentrate (aPCC) or recombinant activated factor VII (rFVIIa). Thrombotic events and thrombotic microangiopathy were reported when patients on emicizumab received concomitant aPCC at relatively high doses yet such events were not reported with rFVIIa. We studied the effect of spiking various concentrations of BPA on plasma taken from patients on emicizumab. Material and Methods Eleven patients with severe haemophilia A with inhibitors who are on emicizumab were recruited to participate. Blood samples drawn from patients were spiked in vitro with varying concentrations of aPCC and rFVIIa. All samples were tested utilizing global haemostasis assays, thromboelastography and thrombin generation assay. Results Thrombin generation increased with higher concentrations of spiked BPA with a normalized endogenous thrombin potential at a concentration of 0.05 IU/ml and 4 mcg/ml for aPCC and rFVIIa, respectively. Concentrations of aPCC in the range of licensed dosing led to excessive thrombin generation. Thromboelastography was not sufficiently sensitive. Conclusion Due to the known thrombotic complications when emicizumab is used in conjunction with aPCC, there has been a large‐scale abandonment of the use of aPCC in patients on emicizumab. However, it is possible that aPCC can be used safely with emicizumab albeit with lower doses than are typically prescribed. It would be important to test this hypothesis in a clinical study.

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Thromboelastography and thrombin generation assay in inherited afibrinogenemia

2018

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Fibrinogen is a glycoprotein with a crucial role in blood coagulation. Upon enzymatic cleavage by thrombin, fibrinogen is converted from its soluble form to insoluble fibrin which is key structural protein of a clot. It also participates in platelet aggregation by binding to GPIIb/IIIa. Genetic alterations can lead to either complete or partial, quantitative or qualitative defects of fibrinogen. Inherited afibrinogenemia is a rare bleeding disorder with autosomal recessive inheritance due to a complete absence of fibrinogen. The primary aim of this study was to determine whether 70 mg/kg of human fibrinogen concentrate (HFC) is an adequate dose in subjects with inherited afibrinogenemia to reach normal levels of plasmatic fibrinogen (1.5‐2 g/L). Secondary aims included assessing changes in thromboelastography (TEG) and thrombin generation assay (TGA) before and after a dose of HFC. Four patients were included, and each underwent pre‐and post (one time‐point) HFC dose laboratory testing. Two patients needed dose adjustments to reach a normal post‐dose fibrinogen level. In addition, we noted that the TEG parameter maximum amplitude (MA) improved in accordance with correction of the fibrinogen levels. TGA results were normal in all subjects. Our results suggest that individualized dosing based on fibrinogen levels may be necessary.

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Roxana Carmona

Failure of corn trypsin inhibitor to affect the thrombin generation assay in plasma from severe hemophiliacs

Determining the approximate factor VIII level of patients with severe haemophilia A on emicizumab using in vivo global haemostasis assays

Comparison of bypassing agents in patients on emicizumab using global hemostasis assays

Thromboelastography and thrombin generation assay in inherited afibrinogenemia

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