Cardiac failure 30 years after treatment containing anthracycline for childhood acute lymphoblastic leukemia

Anti-cancer Therapy Leads to Increased Cardiovascular Susceptibility to COVID-19

Anti-cancer treatment regimens can lead to both acute- and long-term myocardial injury due to off-target effects. Besides, cancer patients and survivors are severely immunocompromised due to the harsh effect of anti-cancer therapy targeting the bone marrow cells. Cancer patients and survivors can therefore be potentially extremely clinically vulnerable and at risk from infectious diseases. The recent global outbreak of the novel coronavirus severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and its infection called coronavirus disease 2019 (COVID-19) has rapidly become a worldwide health emergency, and on March 11, 2020, COVID-19 was declared a global pandemic by the World Health Organization (WHO). A high fatality rate has been reported in COVID-19 patients suffering from underlying cardiovascular diseases. This highlights the critical and crucial aspect of monitoring cancer patients and survivors for potential cardiovascular complications during this unprecedented health crisis involving the progressive worldwide spread of COVID-19. COVID-19 is primarily a respiratory disease; however, COVID-19 has shown cardiac injury symptoms similar to the cardiotoxicity associated with anti-cancer therapy, including arrhythmia, myocardial injury and infarction, and heart failure. Due to the significant prevalence of micro- and macro-emboli and damaged vessels, clinicians worldwide have begun to consider whether COVID-19 may in fact be as much a vascular disease as a respiratory disease. However, the underlying mechanisms and pathways facilitating the COVID-19-induced cardiac injury in cancer and non-cancer patients remain unclear. Investigations into whether COVID-19 cardiac injury and anti-cancer drug-induced cardiac injury in cancer patients and survivors might synergistically increase the cardiovascular complications and comorbidity risk through a “two-hit” model are needed. Identification of cardiac injury mechanisms and pathways associated with COVID-19 development overlapping with anti-cancer therapy could help clinicians to allow a more optimized prognosis and treatment of cancer survivors suffering from COVID-19. The following review will focus on summarizing the harmful cardiovascular risk of COVID-19 in cancer patients and survivors treated with an anti-cancer drug. This review will improve the knowledge of COVID-19 impact in the field of cardio-oncology and potentially improve the outcome of patients.

The Utility of Cardiac Reserve for the Early Detection of Cancer Treatment-Related Cardiac Dysfunction: A Comprehensive Overview

With progressive advancements in cancer detection and treatment, cancer-specific survival has improved dramatically over the past decades. Consequently, long-term health outcomes are increasingly defined by comorbidities such as cardiovascular disease. Importantly, a number of well-established and emerging cancer treatments have been associated with varying degrees of cardiovascular injury that may not emerge until years following the completion of cancer treatment. Of particular concern is the development of cancer treatment related cardiac dysfunction (CTRCD) which is associated with an increased risk of heart failure and high risk of morbidity and mortality. Early detection of CTRCD appears critical for preventing long-term cardiovascular morbidity in cancer survivors. However, current clinical standards for the identification of CTRCD rely on assessments of cardiac function in the resting state. This provides incomplete information about the heart's reserve capacity and may reduce the sensitivity for detecting sub-clinical myocardial injury. Advances in non-invasive imaging techniques have enabled cardiac function to be quantified during exercise thereby providing a novel means of identifying early cardiac dysfunction that has proved useful in several cardiovascular pathologies. The purpose of this narrative review is (1) to discuss the different non-invasive imaging techniques that can be used for quantifying different aspects of cardiac reserve; (2) discuss the findings from studies of cancer patients that have measured cardiac reserve as a marker of CTRCD; and (3) highlight the future directions important knowledge gaps that need to be addressed for cardiac reserve to be effectively integrated into routine monitoring for cancer patients exposed to cardiotoxic therapies.

Phase I study of non-pegylated liposomal doxorubicin in children with recurrent/refractory high-grade glioma

PURPOSE

To determine the maximum recommended dose (RD) and pharmacokinetics of Myocet®, a non-pegylated liposomal doxorubicin, in children.

METHODS

Eligible patients were children with refractory high-grade glioma who had received prior chemotherapy and radiotherapy but no anthracyclines. Cohorts of at least three patients each received escalating doses of Myocet® starting at 60 mg/m(2) at 3-week intervals, administered intravenously over 1 h, and then doses were escalated to 75 mg/m(2) corresponding to the adult RD. Periodic blood samples were collected, and plasma doxorubicin and doxorubicinol concentrations were quantified to characterise the pharmacokinetics of Myocet®.

RESULTS

Between October 2010 and January 2013, 13 children aged 6-17 years were treated. In total, 27 courses were administered, at the 60 mg/m(2) dose level in seven patients without dose-limiting toxicity (DLT), and at 75 mg/m(2) in six patients of whom two experienced DLT (grade 4 neutropenia). The most common grade 3-4 toxicities reported for all courses were neutropenia (35 and 38 %, respectively), thrombocytopenia (12 and 4 %, respectively); and grade 3 vomiting, nausea, mucositis, and fever (4 % each). Mean estimates of central volume of distribution at steady state, clearance, and elimination half-life of doxorubicin were 24.8 L, 15 L/h/m(2), and 34.8 h, respectively, with a large interpatient variability.

CONCLUSION

The RD of Myocet® administered every 3 weeks to paediatric patients was 60 mg/m(2). The efficacy of Myocet® in paediatric patients with high-grade glioma remains to be determined and should be studied in Phase II trials.

Serum biomarkers for the detection of cardiac toxicity after chemotherapy and radiation therapy in breast cancer patients

Multi-modality cancer treatments that include chemotherapy, radiation therapy, and targeted agents are highly effective therapies. Their use, especially in combination, is limited by the risk of significant cardiac toxicity. The current paradigm for minimizing cardiac morbidity, based on serial cardiac function monitoring, is suboptimal. An alternative approach based on biomarker testing, has emerged as a promising adjunct and a potential substitute to routine echocardiography. Biomarkers, most prominently cardiac troponins and natriuretic peptides, have been evaluated for their ability to describe the risk of potential cardiac dysfunction in clinically asymptomatic patients. Early rises in cardiac troponin concentrations have consistently predicted the risk and severity of significant cardiac events in patients treated with anthracycline-based chemotherapy. Biomarkers represent a novel, efficient, and robust clinical decision tool for the management of cancer therapy-induced cardiotoxicity. This article aims to review the clinical evidence that supports the use of established biomarkers such as cardiac troponins and natriuretic peptides, as well as emerging data on proposed biomarkers.

Colorectal carcinoma in first decade of life: our experience

INTRODUCTION

Though the lifetime risk of colorectal carcinoma (CRC) in general population is 5-6 %, it is uncommon in pediatric age group. Here, we are reporting our experience of CRC in the first decade of life.

METHODS

From January 2010 to December 2013, seven patients with histopathologically confirmed colorectal carcinoma were treated in the Department of Pediatric Surgery, Chittagong Medical College and hospital. Age, sex, presenting symptoms, location of the primary tumor, serum CEA level, treatment modalities and outcomes were evaluated.

RESULTS

There were four male and three female patients and age ranged from 6.5 to 10.5 years. Rectum (3 patients) and rectosigmoid (2 patients) were the most common primary sites. Serum carcinoembryonic antigen level was obtained in six patients and in only one patient the level was raised markedly (137 ng/ml). Two patients of familial adenomatous polyposis had localized disease and others presented in an advanced stage. Histopathologically, poorly differentiated adenocarcinoma was noted in five patients with one signet ring cell type and well differentiated in rest of the two patients. Only one patient was surviving at the last follow up.

CONCLUSION

Advanced stage at diagnosis, aggressive histologic subtype and poor survival are the hallmarks of pediatric CRC.

Why multidisciplinary clinics should be the standard for treating chronic kidney disease

In adults, strong evidence indicates that slowing progression of chronic kidney disease (CKD) requires an integrated, multidisciplinary approach. In children, however, this approach has not been studied. This editorial commentary to the study by Ajarmeh et al in this volume of Pediatric Nephrology highlights how a dedicated, multidisciplinary team of physicians, nurses, pharmacists, dieticians, social workders and clinic data managers slowed the progression of CKD in children to a remarkable degree. We discuss the strengths and limitations of the study and its cost implications, as well as the issue of determining the optional complement of physicians and allied health care professionals in such clinics. Our calculations indicate that the additional costs of such clinics would be recovered in one year, even if the progession of CKD were to be delayed by 1 year in only 2% of affected children. Here, we call on the international pediatric nephrology community to establish guidelines for forming multidisciplinary clinics throughout the world.