Truncus arteriosus with aortic arch interruption: cardiovascular magnetic resonance findings in the unrepaired adult

Truncus arteriosus (TA) is a rare congenital condition defined as a single arterial vessel arising from the heart that gives origin to the systemic, pulmonary and coronary circulations. We discuss the unique case of a 28 year-old female patient with unrepaired TA and interruption of the aortic arch who underwent cardiovascular magnetic resonance (CMR)

Multi-Modality Imaging in the Assessment of Cardiovascular Toxicity in the Cancer Patient

Cancer therapy can be associated with both cardiac and vascular toxicity. Advanced multi-modality imaging can be used to stratify patient risk, identify cardiovascular injury during and after therapy, and forecast recovery. Echocardiography continues to be the mainstay in the evaluation of cardiac toxicity. Particularly, echocardiography-based strain imaging is useful for risk stratification of patients at baseline, and detection of subclinical left ventricle (LV) dysfunction during therapy. Cardiac magnetic resonance (CMR) serves a complementary role in the patient with poor echocardiographic or equilibrium radionuclide angiographic image quality or in situations where a more accurate and precise LV ejection fraction measurement is needed to inform decisions regarding discontinuation of chemotherapy. New CMR techniques like T1 and T2 mapping and positron emission tomography (PET) imaging will help us better understand the structural, pathological, and metabolic myocardial changes associated with ventricular dysfunction or release of serum biomarkers. CMR may also be helpful in the evaluation of vascular complications of cancer therapy. Stress echocardiography, stress CMR, computed tomography, and PET are excellent imaging options in the evaluation of ischemia in patients receiving therapies that could potentially cause vasospasm or accelerated atherosclerosis

A new classification of cardio-oncology syndromes

Abstract Increasing evidence suggests a multifaceted relationship exists between cancer and cardiovascular disease (CVD). Here, we introduce a 5-tier classification system to categorize cardio-oncology syndromes (COS) that represent the aspects of the relationship between cancer and CVD. COS Type I is characterized by mechanisms whereby the abrupt onset or progression of cancer can lead to cardiovascular dysfunction. COS Type II includes the mechanisms by which cancer therapies can result in acute or chronic CVD. COS Type III is characterized by the pro-oncogenic environment created by the release of cardiokines and high oxidative stress in patients with cardiovascular dysfunction. COS Type IV is comprised of CVD therapies and diagnostic procedures which have been associated with promoting or unmasking cancer. COS Type V is characterized by factors causing systemic and genetic predisposition to both CVD and cancer. The development of this framework may allow for an increased facilitation of cancer care while optimizing cardiovascular health through focused treatment targeting the COS type