Sex-Based Mechanisms of Cardiac Development and Function: Applications for Induced-Pluripotent Stem Cell Derived-Cardiomyocytes.

Males and females exhibit intrinsic differences in the structure and function of the heart, while the prevalence and severity of cardiovascular disease vary in the two sexes. However, the mechanisms of this sex-based dimorphism are yet to be elucidated. Sex chromosomes and sex hormones are the main contributors to sex-based differences in cardiac physiology and pathophysiology. In recent years, the advances in induced pluripotent stem cell-derived cardiac models and multi-omic approaches have enabled a more comprehensive understanding of the sex-specific differences in the human heart. Here, we provide an overview of the roles of these two factors throughout cardiac development and explore the sex hormone signaling pathways involved. We will also discuss how the employment of stem cell-based cardiac models and single-cell RNA sequencing help us further investigate sex differences in healthy and diseased hearts.

Cardiovascular utility of single cell RNA-Seq.

PURPOSE OF REVIEW: Cardiovascular diseases remain the leading causes of morbidity and mortality globally. Single-cell RNA sequencing has the potential to improve diagnostics, risk stratification, and provide novel therapeutic targets that have the potential to improve patient outcomes. RECENT FINDINGS: Here, we provide an overview of the basic processes underlying single-cell RNA sequencing, including library preparation, data processing, and downstream analyses. We briefly discuss how the technique has been adapted to related medical disciplines, including hematology and oncology, with short term translational impact. We discuss potential applications of this technology within cardiology as well as recent innovative research within the field. We also discuss future directions to translate this technology to other high impact clinical areas. SUMMARY: The use of single-cell RNA sequencing technology has made significant advancements in the field of cardiology, with ongoing growth in terms of applications and uptake. Most of the current research has focused on structural or atherosclerotic heart disease. Future areas that stand to benefit from this technology include cardiac electrophysiology and cardio-oncology.

Patient experiences of implantable cardiac monitoring in hypertrophic cardiomyopathy: an exploratory study.

AIMS: Hypertrophic cardiomyopathy (HCM) is the most common inherited heart disease. Insertable cardiac monitors (ICMs) are increasingly used in this population to provide closer monitoring, with the potential for notification systems. However, little is known regarding the psychological impact this information may have on patients. The Abbott Confirm Rx™ ICM has the capability of connecting to the patient's smartphone to enable active participation in their care, as well as two-way communication between the patient and their care providers. This study aimed to explore individuals' experiences of having a smartphone-enabled ICM to monitor for arrhythmias in HCM. METHODS AND RESULTS: Semi-structured interviews were conducted with 10 participants. Utilizing a grounded theory approach, the interview guide was modified based on emerging themes throughout the study. Reflexive thematic analysis was applied to categorize interview data into codes and overacting themes, with each interview independently coded by two study members. Analysis revealed three key themes: (i) psychological impact, (ii) educational needs, and (iii) technology expectations. Participants reported that receiving feedback from ICM transmissions resulted in improved symptom clarity, providing reassurance, and aiding implantable cardioverter defibrillator decision-making. Some participants reported uncertainty regarding when to send manual transmissions. Lastly, participants reported the app interface did not meet expectations with regard to the amount of data available for patients. CONCLUSION: Overall, utilizing a smartphone app to facilitate two-way communication of ICM transmissions was well accepted. Future directions include addressing gaps in educational needs and improvements in the patient interface with increased access to data.

The role of hypoxia-associated miRNAs in acquired sensorineural hearing loss.

Introduction: Sensorineural hearing loss (SNHL) is a prevalent sensory deficit presenting commonly as age-related hearing loss. Other forms of SNHL include noise-induced and sudden SNHL. Recent evidence has pointed to oxidative stress as a common pathogenic pathway in most subtypes of acquired SNHL. MicroRNAs (miRNAs) are small non-coding RNA sequences that suppress target mRNA expression and affect downstream processes. Many studies have shown that miRNAs are integral biomolecules in hypoxia-adaptive responses. They also promote apoptosis in response to oxidative stress resulting in SNHL. Our hypothesis is that miRNAs are involved in the pathophysiological responses to hypoxia and oxidative stress that result in SNHL. This study reviews the evidence for hypoxia-adaptive miRNAs (hypoxamiRs) in different types of acquired SNHL and focuses on miRNAs involved in hypoxia driven SNHL. Methods: Electronic bibliographic databases PubMed, Ovid MEDLINE, Ovid EMBASE, and Web of Science Core Collection were searched independently by two investigators for articles published in English from the inception of individual databases to the end of July 2020. The text word or medical subject heading searches of all fields, titles, abstracts, or subject headings depending on the database were undertaken with combinations of the words "microRNAs", "hypoxia", "hypoxamiRs", "oxidative stress", "ischemia" and "hearing loss". The reference lists of studies meeting the inclusion criteria were searched to identify additional relevant studies. The inclusion criteria included relevant clinical studies with human subjects, animals, and in vitro experiments. The risk of bias was assessed using the Cochrane risk of bias assessment tool for human studies and the Systematic Review Center for Laboratory animal Experimentation (SYRCLE) a risk of bias assessment tool for animal model and in vitro studies. Results: A total of 15 primary articles were selected for full text screening after excluding duplicates, reviews, retracted articles, and articles not published in English. All nine articles meeting the study inclusion criteria were from animal or in vitro model studies and were assessed to be at low risk of bias. miRNAs miR-34a and miR-29b were reported to be involved in SNHL in inner ear cell models exposed to oxidative stress. Signaling pathways Sirtuin 1/peroxisome proliferator-activated receptor gamma coactivator-1-alpha (SIRT1/PGC-1α), SIRT1/p53, and SIRT1/hypoxia-inducible factor 1-alpha (HIF-1α) were identified as underlying pathways involved in acquired SNHL. Conclusion: There is evidence that miR-34a and -29b are involved in hypoxia-driven and other causes of oxidative stress-related acquired SNHL. Further studies are required to determine if these findings are clinically applicable.

Arrhythmic Sudden Cardiac Death in Heart Failure With Preserved Ejection Fraction: Mechanisms, Genetics, and Future Directions.

Heart failure with preserved ejection fraction (HFpEF) is an increasingly recognized disorder. Many clinical trials have failed to demonstrate benefit in patients with HFpEF but have recognized alarming rates of sudden cardiac death (SCD). Genetic testing has become standard in the workup of patients with otherwise unexplained cardiac arrest, but the genetic architecture of HFpEF, and the overlap of a genetic predisposition to HFpEF and arrhythmias, is poorly understood. An understanding of the genetics of HFpEF and related SCD has the potential to redefine and generate novel diagnostic, prognostic, and therapeutic tools. In this review, we examine recent pathophysiological and clinical advancements in our understanding of HFpEF, which reinforce the heterogeneity of the condition. We also discuss data describing SCD events in patients with HFpEF and review the current literature on genetic underpinnings of HFpEF. Mechanisms of arrhythmogenesis which may lead to SCD in this population are also explored. Lastly, we outline several areas of promise for experimentation and clinical trials that have the potential to further advance our understanding of and contribute to improved clinical care of this patient population.

L'insuffisance cardiaque à fraction d'éjection préservée (ICFEP) est une anomalie de plus en plus reconnue. De nombreux essais cliniques n'ont pas permis de démontrer les avantages chez les patients atteints d'ICFEP, mais ont permis de reconnaître les taux alarmants de mort subite d'origine cardiaque (MSC). Le dépistage génétique est désormais un examen qui fait partie du bilan de santé des patients qui subissent un arrêt cardiaque inexpliqué autrement, mais l'architecture génétique de l'ICFEP et le chevauchement entre la prédisposition génétique à l'ICFEP et la prédisposition aux arythmies demeurent mal compris. La compréhension de la génétique de l'ICFEP et de la MSC associée a le potentiel de redéfinir et de générer de nouveaux outils de diagnostic, de pronostic et de traitement. Dans la présente revue, nous nous sommes penchés sur les récentes avancées physiopathologiques et cliniques dans notre compréhension de l'ICFEP, qui renforcent l'hétérogénéité de cette maladie. Nous nous sommes aussi intéressés aux données qui décrivent les événements de MSC chez les patients atteints d'ICFEP et passons en revue la littérature actuelle sur les fondements génétiques de l'ICFEP. Les mécanismes de l'arythmogenèse qui peuvent mener à la MSC au sein de cette population sont aussi abordés. Enfin, nous présentons plusieurs domaines d'expérimentation prometteurs et les essais cliniques qui ont le potentiel de faire progresser notre compréhension et de contribuer à l'amélioration des soins cliniques au sein de cette population de patients.

The role of phosphorylation in atrial fibrillation: a focus on mass spectrometry approaches.

Atrial fibrillation (AF) is the most common arrhythmia worldwide. It is associated with significant increases in morbidity in the form of stroke and heart failure, and a doubling in all-cause mortality. The pathophysiology of AF is incompletely understood, and this has contributed to a lack of effective treatments and disease-modifying therapies. An important cellular process that may explain how risk factors give rise to AF includes post-translational modification of proteins. As the most commonly occurring post-translational modification, protein phosphorylation is especially relevant. Although many methods exist for studying protein phosphorylation, a common and highly resolute technique is mass spectrometry (MS). This review will discuss recent evidence surrounding the role of protein phosphorylation in the pathogenesis of AF. MS-based technology to study phosphorylation and uses of MS in other areas of medicine such as oncology will also be presented. Based on these data, future goals and experiments will be outlined that utilize MS technology to better understand the role of phosphorylation in AF and elucidate its role in AF pathophysiology. This may ultimately allow for the development of more effective AF therapies.

Isolating Nuclei From Frozen Human Heart Tissue for Single-Nucleus RNA Sequencing.

Heart disease is the leading cause of global morbidity and mortality. This is in part because, despite an abundance of animal and in vitro models, it has been a challenge to date to study human heart tissue with sufficient depth and resolution to develop disease-modifying therapies for common cardiac conditions. Single-nucleus RNA sequencing (snRNA-seq) has emerged as a powerful tool capable of analyzing cellular function and signaling in health and disease, and has already contributed to significant advances in areas such as oncology and hematology. Employing snRNA-seq technology on flash-frozen human tissue has the potential to unlock novel disease mechanisms and pathways in any organ. Studying the human heart using snRNA-seq is a key priority for the field of cardiovascular sciences; however, progress to date has been slowed by numerous barriers. One key challenge is the fact that the human heart is very resistant to shearing and stress, making tissue dissociation and nuclear isolation difficult. Here, we describe a tissue dissociation method allowing the efficient and cost-effective isolation of high-quality nuclei from flash-frozen human heart tissue collected in surgical operating rooms. Our protocol addresses the challenge of nuclear isolation from human hearts, enables snRNA-seq of the human heart, and paves the way for an improved understanding of the human heart in health and disease. Ultimately, this will be key to uncovering signaling pathways and networks amenable to therapeutic intervention and the development of novel biomarkers and disease-modifying therapies. © 2022 Wiley Periodicals LLC. Basic Protocol: Human heart tissue dissociation and nuclear isolation for snRNA-seq.

Bluetooth-Enabled Implantable Cardiac Monitors and Two-Way Smartphone Communication for Patients With Hypertrophic Cardiomyopathy.

Background: Sudden cardiac death (SCD) risk stratification in hypertrophic cardiomyopathy (HCM) currently relies on arrhythmic burden quantification by 24 or 48-hour Holter monitoring. Whether this approach adequately captures arrhythmic burden, compared with longer-term continuous monitoring, is unclear. We sought to assess the long-term incidence of nonsustained ventricular tachycardia (NSVT) in HCM patients at low or moderate SCD risk, using implantable cardiac monitors (ICMs) paired with a novel Bluetooth-enabled 2-way communication platform. Methods: This prospective, single-arm, observational study enrolled 33 HCM patients. Patients were implanted with an Abbott (Chicago, IL) Confirm Rx ICM and monitored using a protocolized care pathway. Results: A total of 20 patients (60.6%) had ≥ 1 episode of NSVT recorded on the ICM, the majority of whom had previous Holter monitors that did not identify NSVT (60%, n = 12). A total of 71 episodes of NSVT were detected. Median time to first NSVT detection was 76.5 days (range: 0-553 days). A total of 19 patients underwent primary prevention implantable cardioverter defibrillator implantation during an average follow-up of 544 days (range: 42-925 days). A total of 172,112 automatic transmissions were received, and 65 (0.04%) required clinical follow-up. A total of 325 manual transmissions were received and managed. A total of 14 manual transmissions (4.3%) required follow-up, whereas 311 (95.7%) were managed solely with a text message. Conclusions: Surveillance and reporting systems utilizing 2-way communication enabled by novel ICMs are feasible and allow remote management of patients with HCM. Prolonged monitoring with ICMs identified more patients with nonsustained arrythmias than did standard Holter monitoring. In many cases, this information impacted both SCD risk stratification and patient management.

Contexte: La stratification du risque de mort cardiaque subite (MCS) dans la cardiomyopathie hypertrophique (CMH) dépend actuellement de la quantification de la charge arythmique par une surveillance Holter de 24 ou 48 heures. Il n'est pas clair si cette approche permet d'évaluer adéquatement la charge arythmique, comparativement à une surveillance continue à plus long terme. Nous avons cherché à évaluer la fréquence à long terme de la tachycardie ventriculaire non soutenue (TVNS) chez des patients atteints de CMH à risque faible ou modéré de MCS, au moyen de moniteurs cardiaques implantables (MCI) couplés à une nouvelle plate-forme de communication bidirectionnelle utilisable avec Bluetooth. Méthodologie: Cette étude par observation prospective comportant un seul groupe a été menée auprès de 33 patients atteints de CMH. Les patients ont reçu un MCI Confirm Rx d'Abbott (Chicago, États-Unis) et ont été surveillés dans le cadre d'un parcours de soins reposant sur un protocole. Résultats: Au total, 20 patients (60,6 %) ont eu au moins un épisode de TVNS enregistré par le MCI. La majorité de ces patients portaient déjà un moniteur Holter qui n'a pas décelé de TVNS (60 %, n = 12). Au total, 71 épisodes de TVNS ont été détectés. Le temps médian écoulé avant la première détection de TVNS était de 76,5 jours (fourchette : 0-553 jours). Au total, 19 patients se sont fait poser un défibrillateur cardioverteur implantable en prévention primaire pendant un suivi moyen de 544 jours (fourchette : 42-925 jours). En tout, 172 112 transmissions automatiques ont été reçues, et 65 (0,04 %) ont nécessité un suivi clinique. Par ailleurs, 325 transmissions manuelles ont été reçues et traitées. De ce nombre, 14 transmissions (4,3 %) ont nécessité un suivi, tandis que 311 (95,7 %) ont été traitées uniquement au moyen d'un message texte. Conclusions: Les systèmes de surveillance et de signalement utilisant une communication bidirectionnelle rendue possible grâce aux nouveaux MCI sont réalisables et permettent une prise en charge à distance des patients atteints d'un CMH. La surveillance prolongée par un MCI a permis de déceler plus d'arythmies non soutenues que la surveillance Holter type. Dans de nombreux cas, ces renseignements ont eu un effet positif tant sur la stratification du risque de MCS que sur la prise en charge des patients.

Exercise Testing With Flecainide Demonstrates Provocable Brugada Syndrome.

A young man with baseline early repolarization was initiated on flecainide and diltiazem for symptomatic atrial arrhythmias. A treadmill stress test induced a type 1 Brugada electrocardiogram pattern at higher heart rates. Flecainide was discontinued. Genetic testing revealed no SCN5A mutations, and a 3-generation pedigree revealed no events of concern. In this case report, we review the use-dependent properties of flecainide. We also discuss how this property can be exploited during exercise stress testing to provoke the diagnostic type 1 Brugada pattern at higher heart rates.

Chez un jeune homme présentant au départ une repolarisation précoce, un traitement à base de flécaïnide et de diltiazem a été instauré pour lutter contre les arythmies auriculaires symptomatiques. Une épreuve d'effort sur tapis roulant a permis d'obtenir un électrocardiogramme caractéristique d'un syndrome de Brugada de type 1 à des fréquences cardiaques plus élevées. Le traitement par le flécaïnide a été arrêté. Des analyses génétiques ont mis en évidence un résultat négatif pour les mutations du gène SCN5A, et un examen de l'arbre généalogique sur 3 générations n'a révélé aucun événement préoccupant. Dans cette étude de cas, nous analysons la propriété du flécaïnide d'avoir une efficacité proportionnelle à son utilisation. Nous évoquons également la possibilité d'exploiter cette propriété lors des épreuves d'effort afin de provoquer l'apparition du profil d'ECG du syndrome de Brugada de type 1 à des fréquences cardiaques plus élevées.