Chemotherapy-Induced Takotsubo Syndrome

Takotsubo syndrome as an acute cardiac complication following combined chemotherapy

Background

Acute cardiac complications post-chemotherapy is rare. Stress cardiomyopathy, one of these complications, should be considered in differential diagnoses as its symptoms closely resemble those of acute myocardial infarction and can lead to mortality.

Objective

The objective of this paper is to describe Takotsubo syndrome (TTS) as an acute complication following combined chemotherapy in a patient with significant thromboembolic burden and metastatic cervical cancer.

Case

A 61-year-old female patient with a diagnosis of metastatic cervical cancer experienced acute chest pain. Elevated troponin levels and abnormalities in the electrocardiogram initially suggested an acute myocardial infarction, occurring after a chemotherapy session involving Carboplatin and Paclitaxel infusion. Although initial treatment targeted myocardial infarction, further diagnostic evaluations including coronary angiography and cardiac magnetic resonance imaging revealed no coronary artery disease but identified features consistent with stress cardiomyopathy, indicative of Takotsubo syndrome (TTS). This diagnosis led to an improvement in symptoms and a resolution of the acute changes observed.

Conclusion

Stress cardiomyopathy, particularly TTS, is being increasingly recognized as an acute complication associated with combined chemotherapy regimens. The potential cardiotoxic effects of these chemotherapy agents demand careful monitoring and evaluation in patients undergoing oncological treatment, underscoring the importance of integrating cardioprotective strategies into the management of these patients.

The simultaneous occurrence of paraganglioma, Takotsubo syndrome, and Markis type I coronary artery ectasia in the same patient is a rare, high-risk clinical syndrome: a case report

BACKGROUND

Population-wide, paraganglioma (PGL) is uncommon. The incidence of Takotsubo syndrome (TTS) ranges from 0.5% to 0.9% and also is an exceedingly rare manifestation of PGL. Coronary artery ectasia (CAE) is also uncommon, with an incidence ranging from 1.2% to 4.9%. Herein, we present a case of PGL, TTS, and Markis type I CAE that occured in the same patient.

CASE PRESENTATION

A man in his early 40s was admitted to our hospital with a 16-hour history of abdominal colic. Computed tomography and laboratory examination led to the diagnosis of PGL, coronary angiography led to the diagnosis of Markis type I or Chinese type III CAE, and two echocardiographic examinations led to the diagnosis of TTS. When the patient was treated by phenoxybenzamine instead of surgery for the PGL, his blood pressure and glucose level gradually returned to normal. The CAE was treated by thrombolysis, antiplatelet medications, atorvastatin, and myocardial protection therapies. No symptoms of PGL, CAE, or TTS were seen during a 6-month follow-up, and the patient had an excellent quality of life. We confirmed that phenoxybenzamine was the cause of the TTS because paradoxical systolic motion of the apex, inferior wall, left ventricular anterior wall, and interventricular septum were similarly recovered when the PGL was treated by phenoxybenzamine.

CONCLUSIONS

To raise awareness of this illness and prevent misdiagnosis, we have herein presented a case of TTS that was brought on by PGL with Markis type I CAE for clinicians' reference. In addition, in clinical practice, we should consider the possibility of a concomitant coronary artery disease even if the TTS is caused by a PGL-induced catecholamine surge.

Cancer Treatment-Related Cardiovascular Toxicity in Gynecologic Malignancies: JACC: CardioOncology State-of-the-Art Review

Improvements in early detection and treatment of gynecologic malignancies have led to an increasing number of survivors who are at risk of long-term cardiac complications from cancer treatment. Multimodality therapies for gynecologic malignancies, including conventional chemotherapy, targeted therapeutics, and hormonal agents, place patients at risk of cancer therapy-related cardiovascular toxicity during and following treatment. Although the cardiotoxicity associated with some female predominant cancers (eg, breast cancer) have been well recognized, there has been less recognition of the potential adverse cardiovascular effects of anticancer therapies used to treat gynecologic malignancies. In this review, the authors provide a comprehensive overview of the cancer therapeutic agents used in gynecologic malignancies, associated cardiovascular toxicities, risk factors for cardiotoxicity, cardiac imaging, and prevention strategies.

Drugs as Possible Triggers of Takotsubo Cardiomyopathy- Update 2022: Systematic Review

BACKGROUND

A list of drugs that can induce takotsubo cardiomyopathy (TCM) was published in 2011 and 2016. The aim of the present review was to update this list.

METHODS

Similar to the 2011 and 2016 reviews, from April 2015 to May 2022 case reports of druginduced TCM were identified by a comprehensive search in Medline/PubMed database. The search terms were: takotsubo cardiomyopathy, tako-tsubo cardiomyopathy, stress cardiomyopathy, transientleft- ventricular ballooning syndrome, apical ballooning syndrome, ampulla cardiomyopathy OR broken heart syndrome; together with "iatrogenic", "induced by" OR "drug-induced". Registers published in English or Spanish, in humans, and with full texts were retrieved. Articles that recognized any drug associated with the development of TCM were selected.

RESULTS

Overall, 184 manuscripts were identified by the search. A total of 39 articles were included after an exhaustive revision. Eighteen drugs as possible triggers of TCM were identified in the current update. Of them, 3 (16.7%) have been previously identified, and 15 (83.3%) are different from the previous reports. Thus, the list of drugs as possible triggers of TCM updated in 2022 includes 72 drugs.

CONCLUSION

There are new case reports that link drugs with the development of TCM. The current list is principally made up of drugs that generate sympathetic overstimulation. However, some of the listed drugs do not have a clear link with sympathetic activation.

Brain-heart communication in health and diseases

Tight connections between the brain and heart have attracted a considerable amount of attention. This review focuses on the anatomical (extrinsic cardiac autonomic nervous system and intrinsic cardiac autonomic nervous system) and functional (neuroendocrine-heart axis and neuroimmune-heart axis) connections between the brain and heart, the linkage between central nervous system diseases and cardiovascular diseases, the harm of sympathetic hyperactivity to the heart, and current neuromodulation therapies. Depression is a comorbidity of cardiovascular diseases, and the two are causally related. This review summarizes the mechanisms and treatment of depression and cardiovascular diseases, providing theoretical evidence for basic research and clinical studies to improve treatment options.

Takotsubo Syndrome: Translational Implications and Pathomechanisms

Takotsubo syndrome (TTS) is identified as an acute severe ventricular systolic dysfunction, which is usually characterized by reversible and transient akinesia of walls of the ventricle in the absence of a significant obstructive coronary artery disease (CAD). Patients present with chest pain, ST-segment elevation or ischemia signs on ECG and increased troponin, similar to myocardial infarction. Currently, the known mechanisms associated with the development of TTS include elevated levels of circulating plasma catecholamines and their metabolites, coronary microvascular dysfunction, sympathetic hyperexcitability, inflammation, estrogen deficiency, spasm of the epicardial coronary vessels, genetic predisposition and thyroidal dysfunction. However, the real etiologic link remains unclear and seems to be multifactorial. Currently, the elusive pathogenesis of TTS and the lack of optimal treatment leads to the necessity of the application of experimental models or platforms for studying TTS. Excessive catecholamines can cause weakened ventricular wall motion at the apex and increased basal motion due to the apicobasal adrenoceptor gradient. The use of beta-blockers does not seem to impact the outcome of TTS patients, suggesting that signaling other than the beta-adrenoceptor-associated pathway is also involved and that the pathogenesis may be more complex than it was expected. Herein, we review the pathophysiological mechanisms related to TTS; preclinical TTS models and platforms such as animal models, human-induced pluripotent stem cell-derived cardiomyocyte (hiPSC-CM) models and their usefulness for TTS studies, including exploring and improving the understanding of the pathomechanism of the disease. This might be helpful to provide novel insights on the exact pathophysiological mechanisms and may offer more information for experimental and clinical research on TTS.

Primary Takotsubo Syndrome as a Complication of Bladder Cancer Treatment in a 62-Year-Old Woman

BACKGROUND The main causes for takotsubo syndrome (TS) in oncological patients are stress related to cancer diagnosis and treatment, pain in the course of the disease, treatment complications, and paraneoplastic syndromes. CASE REPORT An obese 62-year-old female patient, with a 3-day history of chest pain, was admitted to the hospital with a suspected acute coronary event. She had been diagnosed with high-grade bladder cancer 6 months before. After the transurethral electroresection of the tumor 5 months before and subsequent chemotherapy (gemcitabine and cisplatin), the patient was qualified for the next cancer surgery. On admission, the patient remained without chest pain. The ECG record demonstrated inverted T waves in the leads from above the anterior and lateral wall. The coronarography demonstrated minor atherosclerotic changes in the coronary arteries. The left ventriculography presented akinesis of the apex and the apical and mid-segment of the anterior wall, and the ejection fraction (EF) was 38%. Takotsubo syndrome was diagnosed. Laboratory testing revealed elevated concentration of troponin and N-terminal pro-B-type natriuretic peptide. The subsequent ECG records demonstrated deeply inverted T waves and numerous ventricular premature beats and increased QTc (528 ms). A control echocardiography showed improved left ventricular contractive function (EF - 47%). On the 4th day of hospitalization, the patient was discharged and referred for further oncological treatment. CONCLUSIONS The diagnosis of TS in oncology patients is difficult, especially in the presence of atherosclerotic lesions in coronary arteries. Takotsubo syndrome in cancer patients delays the next stages of oncological treatment, which worsens the prognosis of these patients.

Role of cardiovascular magnetic resonance imaging in cardio-oncology

Advances in cancer therapy have led to significantly longer cancer-free survival times over the last 40 years. Improved survivorship coupled with increasing recognition of an expanding range of adverse cardiovascular effects of many established and novel cancer therapies has highlighted the impact of cardiovascular disease in this population. This has led to the emergence of dedicated cardio-oncology services that can provide pre-treatment risk stratification, surveillance, diagnosis, and monitoring of cardiotoxicity during cancer therapies, and late effects screening following completion of treatment. Cardiovascular imaging and the development of imaging biomarkers that can accurately and reliably detect pre-clinical disease and enhance our understanding of the underlying pathophysiology of cancer treatment-related cardiotoxicity are becoming increasingly important. Multi-parametric cardiovascular magnetic resonance (CMR) is able to assess cardiac structure, function, and provide myocardial tissue characterization, and hence can be used to address a variety of important clinical questions in the emerging field of cardio-oncology. In this review, we discuss the current and potential future applications of CMR in the investigation and management of cancer patients.

Takotsubo syndrome: an overview of pathophysiology, diagnosis and treatment with emphasis on cancer patients

Takotsubo syndrome is a disease of great clinical importance that remains underdiagnosed. It is a form of acute heart failure characterized by a transient wall motion abnormality of the left ventricular apex typically triggered by emotional or physical stress. Takotsubo syndrome is commonly associated with cancer and results in poor outcomes. Therefore, early recognition and prompt therapy are essential to improve prognosis. The aim of this manuscript is to review the consequences of the association between cancer and Takotsubo to summarize the available evidence to guide physicians to improve the management of these patients.