Current Therapeutic Approach to Acute Myocardial Infarction in Patients with Congenital Hemophilia

Management of patients with congenital bleeding disorders and cardiac indications for antithrombotic therapy

AIMS

Cardiologists have only had rare exposure to haemophilia patients and patients with other congenital bleeding disorders during the last decades, as these patients had a reduced life expectancy and were partly protected against thrombosis due to the bleeding disorder. With the availability of effective and safe replacement therapies of clotting factors, the average life expectancy in these populations of patients has significantly increased, and thrombotic complications may occur.

METHODS AND RESULTS

The European Society of Cardiology Working Group on Thrombosis has taken the initiative to broaden the spectrum of these haematological conditions to include patients with a larger variety of congenital bleeding disorders with concomitant cardiac conditions as compared to a recent position paper by the European Haematology Association in collaboration with other societies (ISTH, European Association for Haemophilia and Allied Disorders, and ESO). Management of antithrombotic therapy or thromboprophylaxis in these individuals is challenging due to the wide phenotypes encompassed by congenital bleeding disorders. These include abnormalities in both primary haemostasis (involving von Willebrand factor and platelet function) and secondary haemostasis (related to coagulation factors and fibrinogen). Bleeding disorders range from mild to very severe. Based on existing literature, we provide clinical consensus statements on optimizing antithrombotic treatment strategies for patients with congenital bleeding disorders and highlight the current gaps in knowledge in these complex clinical settings.

CONCLUSION

Of importance, an individualized approach to antithrombotic therapy is warranted to properly balance the two risks of thrombosis and bleeding. Adoption of the safest interventional techniques, reduction of the intensity and/or duration of antithrombotic therapies, and attention to the safe levels of clotting factors is generally advised.

Evaluating Factor VIII Concentrates Using Clot Waveform Analysis

Background/Objectives: FVIII reagent activity varies across different assays, as well as activated partial thromboplastin time (APTT) reagents. The hemostatic ability of various FVIII reagents was examined via clot waveform analysis (CWA). Methods: APTT was measured using 12 APTT reagents, a small amount of tissue factor-induced FIX activation (sTF/FIXa) and a small amount of thrombin time (sTT) in order to examine 10 FVIII reagents and reference plasma (RP) using CWA. FVIII activity was measured using CWA-APTT, a chromogenic assay, or CWA-sTT. Results: Although the peak time (PT) and peak height (PH) of the CWA-APTT were markedly different in different FVIII reagents using several APTT reagents, the PTs of CWA-APTT were generally normal or shortened and the PHs of CWA-APTT were generally lower than those of RP. The FVIII activity varied, as evaluated using APTT, and was higher when using the CWA-sTT method than the APTT or chromogenic methods. CWA-sTT showed an elevated second peak of first DPH in all FVIII reagents, and both CWA-sTF/FIXa and CWA-sTT were enhanced using APTT reagents. Conclusions: Our evaluation of the hemostatic ability of FVIII reagents varied among APTT reagents. CWA-sTT can be used to further evaluate the hemostatic ability of an FVIII concentrate based on thrombin burst.

Haemophilia and cardiovascular disease in Japan: Low incidence rates from ADVANCE Japan baseline data

INTRODUCTION

With the increasing life expectancy of people with haemophilia, the risk of cardiovascular disease (CVD) and thrombotic events has become a growing concern. Longitudinal studies on the incidence and risk factors of CVD in this population are limited, and optimal prevention and treatment strategies are yet to be established.

AIM

This study aimed to present the baseline data of a prospective longitudinal study focusing on a subset of Japanese patients with haemophilia, specifically investigated the incidence, risk factors and treatment modalities for CVD and thrombotic diseases in people aged 40 years in Japan over 10 years through the ADVANCE Japan study.

METHODS

The ADVANCE Japan study is a prospective multicentre cohort study involving 600 adult individuals with haemophilia A/B aged 40 years in Japan. The primary endpoint was the incidence of CVD, with secondary endpoints encompassing anticoagulant use, mortality rates, and comparison with the general population.

RESULTS

Baseline data from the 600 participants revealed that thrombotic events occurred in 13 individuals (2.2%), mostly in those with haemophilia A. Atrial fibrillation was observed in 11 participants (1.8%). Hypertension and dyslipidaemia were identified as the prevalent risk factors. Various prophylactic treatments were employed, and no severe bleeding events were observed during the study period.

CONCLUSION

This study provides vital baseline data for a 10-year prospective investigation of CVD and thrombotic disease risk in people with haemophilia. These findings will contribute to refining prevention and treatment approaches and improving patients' quality of life.

The Evaluation of Clot Waveform Analyses for Assessing Hypercoagulability in Patients Treated with Factor VIII Concentrate

BACKGROUND

Regular prophylactic therapy has become an increasingly common treatment for severe hemophilia. Therefore, hypercoagulability-a potential risk factor of thrombosis-is a cause for concern in hemophilic patients treated with a high dose of FVIII concentrate. In clot waveform analysis (CWA)-thrombin time (TT), a small amount of thrombin activates clotting factor VIII (FVIII) instead of fibrinogen, resulting in FVIII measurements using CWA-TT with a small amount of thrombin.

METHODS

The coagulation ability of patients treated with FVIII concentrate or emicizumab was evaluated using activated partial thromboplastin time (APTT), TT and a small amount of tissue factor-induced FIX activation assay (sTF/FIXa) using CWA.

RESULTS

The FVIII activity based on CWA-TT was significantly greater than that based on the CWA-APTT or chromogenic assay. FVIII or FVIII-like activities based on the three assays in plasma without emicizumab were closely correlated; those in plasma with emicizumab based on CWA-TT and chromogenic assays were also closely correlated. CWA-APTT and CWA-TT showed different patterns in patients treated with FVIII concentrates compared to those treated with emicizumab. In particular, CWA-TT in patients treated with FVIII concentrate showed markedly higher peaks in platelet-rich plasma than in platelet-poor plasma. CWA-APTT showed lower coagulability in hemophilic patients treated with FVIII concentrate than in healthy volunteers, whereas CWA-sTF/FIXa did not. In contrast, CWA-TT showed hypercoagulability in hemophilic patients treated with FVIII concentrate.

CONCLUSIONS

CWA-TT can be used to evaluate the thrombin bursts that cause hypercoagulability in patients treated with emicizumab. Although routine APTT evaluations demonstrated low coagulation ability in patients treated with FVIII concentrate, CWA-TT showed hypercoagulability in these patients, suggesting that the evaluation of coagulation ability may be useful when using multiple assays.

Cardiac patches made of brown adipose-derived stem cell sheets and conductive electrospun nanofibers restore infarcted heart for ischemic myocardial infarction

Cell sheet engineering has been proven to be a promising strategy for cardiac remodeling post-myocardial infarction. However, insufficient mechanical strength and low cell retention lead to limited therapeutic efficiency. The thickness and area of artificial cardiac patches also affect their therapeutic efficiency. Cardiac patches prepared by combining cell sheets with electrospun nanofibers, which can be transplanted and sutured to the surface of the infarcted heart, promise to solve this problem. Here, we fabricated a novel cardiac patch by stacking brown adipose-derived stem cells (BADSCs) sheet layer by layer, and then they were combined with multi-walled carbon nanotubes (CNTs)-containing electrospun polycaprolactone/silk fibroin nanofibers (CPSN). The results demonstrated that BADSCs tended to generate myocardium-like structures seeded on CPSN. Compared with BADSCs suspension-containing electrospun nanofibers, the transplantation of the CPSN-BADSCs sheets (CNBS) cardiac patches exhibited accelerated angiogenesis and decreased inflammation in a rat myocardial infarction model. In addition, the CNBS cardiac patches could regulate macrophage polarization and promote gap junction remodeling, thus restoring cardiac functions. Overall, the hybrid cardiac patches made of electrospun nanofibers and cell sheets provide a novel solution to cardiac remodeling after ischemic myocardial infarction.

Friend or Foe: Factor XII Deficiency Discovered Incidentally during Management of NSTEMI

Factor XII (FXII) deficiency is a rare coagulopathy that typically goes undiagnosed due to the lack of abnormal bleeding or thrombosis. However, the accompanying prolonged activated partial thromboplastin time (aPTT) can create difficulties with maintaining therapeutic anticoagulation in the setting of acute coronary syndrome (ACS). Here, we present the case of a 52-year-old man presenting with chest pain and diagnosed with an NSTEMI but also found with a prolonged baseline aPTT ultimately secondary to FXII deficiency. Here, we discuss the diagnostic work-up of an isolated prolonged aPTT to identify possible etiologies, such as FXII deficiency, and ultimately inform ACS management.

Cell-Based and Selected Cell-Free Therapies for Myocardial Infarction: How Do They Compare to the Current Treatment Options?

Because of cardiomyocyte death or dysfunction frequently caused by myocardial infarction (MI), heart failure is a leading cause of morbidity and mortality in modern society. Paradoxically, only limited and non-curative therapies for heart failure or MI are currently available. As a result, over the past two decades research has focused on developing cell-based approaches promoting the regeneration of infarcted tissue. Cell-based therapies for myocardial regeneration include powerful candidates, such as multipotent stem cells (mesenchymal stem cells (MSCs), bone-marrow-derived stem cells, endothelial progenitor cells, and hematopoietic stem cells) and induced pluripotent stem cells (iPSCs). These possess unique properties, such as potency to differentiate into desired cell types, proliferation capacity, and patient specificity. Preclinical and clinical studies have demonstrated modest improvement in the myocardial regeneration and reduced infarcted areas upon transplantation of pluripotent or multipotent stem cells. Another cell population that need to be considered as a potential source for cardiac regeneration are telocytes found in different organs, including the heart. Their therapeutic effect has been studied in various heart pathologies, such as MI, arrhythmias, or atrial amyloidosis. The most recent cell-free therapeutic tool relies on the cardioprotective effect of complex cargo carried by small membrane-bound vesicles-exosomes-released from stem cells via exocytosis. The MSC/iPSC-derived exosomes could be considered a novel exosome-based therapy for cardiovascular diseases thanks to their unique content. There are also other cell-free approaches, e.g., gene therapy, or acellular cardiac patches. Therefore, our review provides the most recent insights into the novel strategies for myocardial repair based on the regenerative potential of different cell types and cell-free approaches.