Your search keyword '"SINOATRIAL node"' showing total 3,187 results

1. A United CNN-LSTM Algorithm Combining RR Wave Signals to Detect Arrhythmia in the 5G-Enabled Medical Internet of Things

Author

Xiaomiao Ye, Yanwen Hang, Jun Jiang, Ping Guan, Peng Zhang, Wei Hu, and Jiancheng Tan

Subjects

Tachycardia, Heartbeat, Computer Networks and Communications, Computer science, Sinoatrial node, business.industry, Deep learning, Pattern recognition, Convolutional neural network, Sudden death, Computer Science Applications, medicine.anatomical_structure, Hardware and Architecture, Signal Processing, cardiovascular system, medicine, Heart rate variability, Spectrogram, cardiovascular diseases, Artificial intelligence, medicine.symptom, business, Information Systems

Abstract

Arrhythmia is the defective origin and conduction of heart activity leading to an abnormal frequency and rhythm of heartbeats. Arrhythmia can cause chest tightness, weakness, sinoatrial node blockages, tachycardia and even sudden death. Arrhythmia therefore seriously affects the safety of human life. An electrocardiogram (ECG) can record the changes in electrical activity produced in each heartbeat cycle. Due to its simplicity and noninvasiveness, ECGs are used clinically to diagnose arrhythmias. However, the diagnosis of arrhythmia by experts is an inefficient diagnostic method. Heart rate variability (HRV) analysis is a common method for analyzing heart-related diseases, especially for the automatic diagnosis of arrhythmia based on RR intervals. In this paper, we extracted the linear and nonlinear characteristics collected from the 5G-enabled medical Internet of Things to construct a time-frequency spectrogram from HRV sequences and used a deep learning model based on the combination of a deep convolutional neural network (CNN) and a long short-term memory (LSTM) network in order to classify normal sinus intervals and arrhythmia intervals. The average accuracy, sensitivity and specificity of this model were 99.06%, 98.29% and 99.73%, respectively, using a tenfold cross validation strategy. The united CNN-LSTM model can accurately detect arrhythmia and has potential value in clinical applications.

Published

2022

2. The Role of Ivabradine in Managing Symptomatic Patients with Chronic Coronary Syndromes: A Clinically Oriented Approach

Author

Gowdak, Luis Henrique W.

Subjects

Bradycardia, medicine.medical_specialty, Heart rate, Diastole, Chronic coronary syndromes, Symptomatic, Angina, Internal medicine, medicine, Case Series, Ivabradine, Sinoatrial node, business.industry, Coronary flow reserve, medicine.disease, Treatment, medicine.anatomical_structure, Tolerability, Cardiology, medicine.symptom, Cardiology and Cardiovascular Medicine, business, medicine.drug

Abstract

Angina is a significant contributor to disability and impairment in quality of life in patients with chronic coronary syndromes (CCS). An elevated heart rate (HR) may trigger myocardial ischemia by increasing oxygen consumption and decreasing the diastolic time, compromising the coronary flow. HR-lowering strategies offer symptom control and prevent cardiovascular events in subgroups of patients with CCS. However, the best therapeutic approach to achieve the desired HR in patients with CCS can be challenging based on efficacy and tolerability. Guidelines usually propose β-blockers and/or non-dihydropyridine calcium channel blockers (CCB) for angina patients with elevated HR. Nonetheless, there is no clear evidence of greater antianginal efficacy of this strategy versus an alternative HR-lowering agent. Ivabradine reduces the HR by blocking the If current in the sinoatrial node without affecting myocardial contractility or vascular tone. The magnitude of the HR reduction by ivabradine is proportional to the initial HR, which decreases the risk of significant bradycardia. Ivabradine increases the diastolic time and the coronary flow reserve to a greater extent than β-blockers and favors collateralization, improving the regional blood flow. We present two clinical cases of patients with symptomatic CCS in whom HR control with ivabradine was fundamental for symptom control and improvement in left ventricular (LV) function. An earlier combination of ivabradine plus β-blockers would have provided more rapid symptom control and improved LV function in the first case. In the second case, the primary mechanism responsible for angina was most likely a coronary vasomotor abnormality, in which the use of β-blockers aggravated the discomfort. The combination of a dihydropyridine CCB plus ivabradine was highly influential in symptom control. Due to its effects beyond HR reduction and good tolerability, ivabradine should be considered an essential ally in managing patients with angina and high HR with or without LV dysfunction.

Published

2021

3. Sinus Node Dysfunction

Author

Neeraj Sathnur, Emanuel Ebin, and David G. Benditt

Subjects

Bradycardia, medicine.medical_specialty, Heart disease, Disease, Syncope, Atrial septal defects, Sick sinus syndrome, Electrocardiography, Fibrosis, Tachycardia, Physiology (medical), Internal medicine, medicine, Humans, Sinus (anatomy), Aged, Sinoatrial Node, Sick Sinus Syndrome, business.industry, medicine.disease, medicine.anatomical_structure, Great arteries, Cardiology, medicine.symptom, Cardiology and Cardiovascular Medicine, business

Abstract

Sinus node dysfunction (SND) encompasses a broad array of disturbances of sinus node or sinoatrial (SA) function that result in chronic or intermittent periods of slow or fast heart beating. Sinus node dysfunction may be the result of conditions that directly alter sinus node or SA structure, such as ischemic changes, fibrosis or infiltrative diseases, or extrinsic factors, such as drugs or autoimmune disturbances. In children and young adults, intrinsic SA disease has been most commonly associated with presumed direct sinus node damage due to previous atrial surgery, such as closure of atrial septal defects (ASDs), and most importantly, after atrial switch procedures for transposition of the great arteries. However, SND has been observed in patients with unoperated congenital heart disease and even in apparently normal children and adolescents. Thromboembolism is the single most important cause of mortality in SND. Its incidence ranges from 15% to 38%. Regarding therapy of SND, pacemaker therapy may be appropriate in some cases, drug suppression of arrhythmias in others, and both strategies may be required in many individuals. Anticoagulation is critical for treatment of many individuals with SND, particularly those with paroxysmal or persistent atrial fibrillation. In general, pacemaker therapy is indicated and has proven to be highly effective in patients with SND when bradyarrhythmia has been demonstrated to account for symptoms.

Published

2021

4. Genetic Abnormalities of the Sinoatrial Node and Atrioventricular Conduction

Author

Silvia G. Priori and Andreu Porta-Sánchez

Subjects

Conduction disorders, business.industry, Sinoatrial node, Atrioventricular conduction, Enfermedad cardiovascular, Fisiología humana, Genética, Atrioventricular node, Arritmias cardíacas, Clinical Practice, medicine.anatomical_structure, Heart Conduction System, Clinical evidence, Physiology (medical), Clinical diagnosis, medicine, Humans, Electrical conduction system of the heart, Cardiology and Cardiovascular Medicine, business, Neuroscience, Sinoatrial Node

Abstract

The peculiar electrophysiological properties of the sinoatrial node and the cardiac conduction system are key components of the normal physiology of cardiac impulse generation and propagation. Multiple genes and transcription factors and metabolic proteins are involved in their development and regulation. In this review, we have summarized the genetic underlying causes, key clinical findings, and the latest available clinical evidence. We will discuss clinical diagnosis and management of the genetic conditions associated with conduction disorders that are more prevalent in clinical practice, for this reason, very rare genetic diseases presenting sinus node or cardiac conduction system abnormalities are not discussed. Sin financiación No data JCR 2021 0.422 SJR (2021) Q3, 200/356 Cardiology and Cardiovascular Medicine No data IDR 2021 UEM

Published

2021

5. Regulation of sinus node pacemaking and atrioventricular node conduction by HCN channels in health and disease

Author

Sunil Jit R.J. Logantha, James O. Tellez, Mark R. Boyett, Eman S.H. Abd Allah, Cali Anderson, P. Mesirca, Natalie Chandler, Matthew K. Lancaster, Matteo E. Mangoni, Joseph Yanni, George Hart, Jonathan P. Ariyaratnam, Matthew Smith, Henggui Zhang, Robert S. Stephenson, Luke Stuart, Gwilym M. Morris, Claire Wilson, Xue Cai, Rudi Billeter, Alicia D'Souza, Annalisa Bucchi, Sandra C. Jones, Oliver J. Monfredi, Carol T. Bussey, Shu Nakao, and IT University of Copenhagen

Subjects

Cardiac arrhythmias, Biophysics, Action Potentials, Heart failure, Disease, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, [SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, Heart Rate, Atrial Fibrillation, medicine, Humans, Circadian rhythm, Cardiac conduction system, Molecular Biology, Transcription factor, ComputingMilieux_MISCELLANEOUS, Sinoatrial Node, 030304 developmental biology, 0303 health sciences, business.industry, Atrial fibrillation, medicine.disease, Atrioventricular node, Athletic training, Ageing, Autonomic nervous system, medicine.anatomical_structure, Atrioventricular Node, Electrical conduction system of the heart, business, Neuroscience

Abstract

The funny current, I f, was first recorded in the heart 40 or more years ago by Dario DiFrancesco and others. Since then, we have learnt that I f plays an important role in pacemaking in the sinus node, the innate pacemaker of the heart, and more recently evidence has accumulated to show that I f may play an important role in action potential conduction through the atrioventricular (AV) node. Evidence has also accumulated to show that regulation of the transcription and translation of the underlying Hcn genes plays an important role in the regulation of sinus node pacemaking and AV node conduction under normal physiological conditions - in athletes, during the circadian rhythm, in pregnancy, and during postnatal development - as well as pathological states - ageing, heart failure, pulmonary hypertension, diabetes and atrial fibrillation. There may be yet more pathological conditions involving changes in the expression of the Hcn genes. Here, we review the role of I f and the underlying HCN channels in physiological and pathological changes of the sinus and AV nodes and we begin to explore the signalling pathways (microRNAs, transcription factors, GIRK4, the autonomic nervous system and inflammation) involved in this regulation. This review is dedicated to Dario DiFrancesco on his retirement.

Published

2021

6. Impacts of frailty on heart rate variability in aging mice: Roles of the autonomic nervous system and sinoatrial node

Author

Hailey J. Jansen, Motahareh Moghtadaei, K. Lockhart Jamieson, Robert A. Rose, and Tristan W. Dorey

Subjects

Male, Aging, medicine.medical_specialty, Frailty Index, Autonomic Nervous System, Mice, Heart Rate, Physiology (medical), Internal medicine, Heart rate, Animals, Medicine, Heart rate variability, Sinoatrial Node, Balance (ability), Frailty, business.industry, Sinoatrial node, Blockade, Mice, Inbred C57BL, Autonomic nervous system, medicine.anatomical_structure, Cardiology, Poincaré plot, Female, Cardiology and Cardiovascular Medicine, business, circulatory and respiratory physiology

Abstract

Background Heart rate variability (HRV) is determined by intrinsic sinoatrial node (SAN) activity and the autonomic nervous system (ANS). HRV is reduced in aging; however, aging is heterogeneous. Frailty, which can be measured using a frailty index (FI), can quantify health status in aging separately from chronological age. Objective The purpose of this study was to investigate the impacts of age and frailty on HRV in mice. Methods Frailty was measured in aging mice between 10 and 130 weeks of age. HRV was assessed using time domain, frequency domain, and Poincare plot analyses in anesthetized mice at baseline and after ANS blockade, as well as in isolated atrial preparations. Results HRV was reduced in aged mice (90–130 weeks and 50–80 weeks old) compared to younger mice (10–30 weeks old); however, there was substantial variability within age groups. In contrast, HRV was strongly correlated with FI score regardless of chronological age. ANS blockade resulted in reductions in heart rate that were largest in 90- to 130-week-old mice and were correlated with FI score. HRV after ANS blockade or in isolated atrial preparations was increased in aged mice but again showed high variability among age groups. HRV was correlated with FI score after ANS blockade and in isolated atrial preparations. Conclusion HRV is reduced in aging mice in association with a shift in sympathovagal balance and increased intrinsic SAN beating variability; however, HRV is highly variable within age groups. HRV was strongly correlated with frailty, which was able to detect differences in HRV separately from chronological age.

Published

2021

7. Role of indole derivative SS-68 in increasing the frequency range of cardiac rhythm control (reflex stimulation of the sinoatrial node)

Author

Polina D. Maslova, Alexander S. Dukhanin, Pavel A. Galenko-Yaroshevsky, Vadim V. Shneivais, Valeria V. Seletskaya, Saida K. Ahedzhak-Naguse, Konstantin F. Suzdalev, Anatoly A. Nechepurenko, Valery G. Abushkevich, Anait V. Zelenskaya, Nikolai L. Shimonovsky, Tatiana G. Pokrovskaya, Natalia M. Makhnova, and Konstantin G. Korotkov

Subjects

Pharmacology, Indole test, Range (particle radiation), visualization of excitation in the brain, Sinoatrial node, business.industry, Rhythm control, Stimulation, RM1-950, Derivative, medicine.anatomical_structure, reflex cardiostimulation, medicine, Biophysics, Reflex, Pharmacology (medical), Therapeutics. Pharmacology, SS-68 substance, business

Abstract

Introduction: Cardiac pacing is indicated for sick sinus syndrome. It is performed with a pacemaker via electrodes implanted in the heart. This technique has several disadvantages. The search for alternative methods of cardiac pacing is underway. One of them is control of heart rhythm through stimulation of the tragus. Objective: To perform the reflex stimulation of the sinoatrial node and to study the influence of the SS-68 substance on it. Materials and methods: Two electrodes were fixed in the reflexogenic zone of rabbits’ auricles, volleys of electrical impulses from an electrical stimulator were applied to the electrodes, and the synchronization range of volley frequency and cardiac contractions was recorded. This range was re-recorded again after injecting the SS-68 substance (2-phenyl-1-(3-pyrrolidine-1-cyclopropyl)-1H-indole hydrochloride) intravenously at a dose of 50 µg/kg. In other experiments on frogs in a high-frequency electromagnetic field, the process of excitation of the area of the medulla oblongata associated with the heart rhythm was visualized. After the application of SS-68 (50 μM) to the surface of this zone, the process of its excitation was recorded. Results and discussion: Stimulation of the auricular reflexogenic zone of rabbits produced a synchronization of volley frequency and heart rate in the range from 173.5 ± 2.0 to 214.0 ± 1.8 per minute. SS-68 extended this range from 168.2 ± 1.9 to 219.4 ± 1.5 per minute. In the frog’s medulla oblongata, an area synchronous to the heart rhythm glowed in the high-frequency electromagnetic field. SS-68 increased the area of glow by 131.0%. Conclusion: The substance SS-68 increases the frequency range of heart rhythm control by activating reflex stimulation of the sinoatrial node. The main point of application of SS-68 is the medulla oblongata. Glow in the high-frequency electromagnetic field reflects the process of neuron excitation. The increase in the glow zone under the influence of SS-68 indicates synchronously excited neurons, which leads to the assimilation of the central heart rhythm generation by the sinoatrial node.

Published

2021

8. A Case of Premature Ventricular Contractions-Related Cardiomyopathy

Author

Sara Young, Michael A Chen, and Enoch Chung

Subjects

medicine.medical_specialty, Holter monitor, Ejection fraction, medicine.diagnostic_test, business.industry, Sinoatrial node, medicine.medical_treatment, Cardiomyopathy, General Medicine, medicine.disease, Chest pain, Ablation, Education, medicine.anatomical_structure, Heart failure, Internal medicine, cardiovascular system, medicine, Cardiology, cardiovascular diseases, medicine.symptom, Transthoracic echocardiogram, business

Abstract

Premature ventricular contractions (PVCs) are heart beats initiated in the ventricles instead of in the sinoatrial node. A high burden of PVCs can lead to a cardiomyopathy, characterised by reduced left ventricular (LV) systolic dysfunction. We present a case of PVC-related cardiomyopathy where the 65-year-old male was initially seen by his primary care provider for recent onset chest pain and dizziness. His transthoracic echocardiogram showed mild concentric LV hypertrophy and mildly reduced systolic function (LV ejection fraction 43%). There was also mild right ventricular (RV) systolic dysfunction. He was started on a beta-blocker and an angiotensin-converting enzyme inhibitor. A 24-hour Holter monitor showed a very high burden of PVCs (32% of all beats). He continued to have frequent PVCs and his echocardiogram did not improve. He was eventually referred for a PVC ablation. Following the ablation, a repeat Holter monitor showed a marked reduction in PVC burden (

Published

2021

9. Altered microRNA and mRNA profiles during heart failure in the human sinoatrial node

Author

Paul M.L. Janssen, Nahush A. Mokadam, Esthela J. Artiga, Maciej Pietrzak, Brian J. Hansen, Bryan A. Whitson, Vadim V. Fedorov, Halina Dobrzynski, Peter J. Mohler, Amy Webb, Anuradha Kalyanasundaram, Ning Li, Brandon J. Biesiadecki, and John D. Hummel

Subjects

Adult, Male, Bioinformatics, Science, Article, Transcriptome, Young Adult, Neurotransmitter receptor, Fibrosis, microRNA, medicine, Humans, RNA, Messenger, Receptor, Aged, Sinoatrial Node, Heart Failure, Multidisciplinary, Molecular medicine, Sinoatrial node, business.industry, Gene Expression Profiling, Arrhythmias, Cardiac, Middle Aged, Translational research, medicine.disease, High-Throughput Screening Assays, MicroRNAs, medicine.anatomical_structure, Cardiovascular diseases, Heart failure, Cancer research, Medicine, Female, Signal transduction, business

Abstract

Heart failure (HF) is frequently accompanied with the sinoatrial node (SAN) dysfunction, which causes tachy-brady arrhythmias and increased mortality. MicroRNA (miR) alterations are associated with HF progression. However, the transcriptome of HF human SAN, and its role in HF-associated remodeling of ion channels, transporters, and receptors responsible for SAN automaticity and conduction impairments is unknown. We conducted comprehensive high-throughput transcriptomic analysis of pure human SAN primary pacemaker tissue and neighboring right atrial tissue from human transplanted HF hearts (n = 10) and non-failing (nHF) donor hearts (n = 9), using next-generation sequencing. Overall, 47 miRs and 832 mRNAs related to multiple signaling pathways, including cardiac diseases, tachy-brady arrhythmias and fibrosis, were significantly altered in HF SAN. Of the altered miRs, 27 are predicted to regulate mRNAs of major ion channels and neurotransmitter receptors which are involved in SAN automaticity (e.g. HCN1, HCN4, SLC8A1) and intranodal conduction (e.g. SCN5A, SCN8A) or both (e.g. KCNJ3, KCNJ5). Luciferase reporter assays were used to validate interactions of miRs with predicted mRNA targets. In conclusion, our study provides a profile of altered miRs in HF human SAN, and a novel transcriptome blueprint to identify molecular targets for SAN dysfunction and arrhythmia treatments in HF.

Published

2021

10. Early Signs of Sinoatrial Reinnervation in the Transplanted Heart

Author

J. Philip Saul, Kari Nytrøen, Lars Gullestad, Anders Haugom Christensen, Sissel Nygaard, Katrine Rolid, Erik Thaulow, Gaute Døhlen, Arnt E. Fiane, and Vegard Bruun Wyller

Subjects

Adult, Male, Tachycardia, Bradycardia, medicine.medical_specialty, Sympathetic Nervous System, Time Factors, Valsalva Maneuver, medicine.medical_treatment, Blood Pressure, Pressoreceptors, 030230 surgery, Baroreflex, Dizziness, 03 medical and health sciences, 0302 clinical medicine, Heart Rate, Parasympathetic Nervous System, Internal medicine, Heart rate, medicine, Valsalva maneuver, Humans, Heart rate variability, Prospective Studies, Sinoatrial Node, Transplantation, Sinoatrial node, business.industry, Middle Aged, Nerve Regeneration, Treatment Outcome, medicine.anatomical_structure, Case-Control Studies, Cardiology, Heart Transplantation, Female, 030211 gastroenterology & hepatology, medicine.symptom, business, Reinnervation

Abstract

Background Heart transplantation (HTx) surgically transects all connections to the heart, including the autonomic nerves. We prospectively examined signs, timing and consequences of early sympathetic and parasympathetic sinoatrial reinnervation, as well as explored indirect evidence of afferent cardiopulmonary reinnervation. Methods Fifty HTx recipients were assessed at 2.5, 6 and 12 months after HTx. For comparison, 50 healthy controls were examined once. Continuous, noninvasive recordings of hemodynamic variables and heart rate variability indices were carried out at supine rest, 0.2 Hz controlled breathing, 60 degrees head-up-tilt, during the Valsalva maneuver and during handgrip isometric exercise. Results In HTx recipients, supine low-frequency heart rate variability gradually increased; supine high-frequency variability did not change; heart rate variability indices during controlled breathing remained unaltered; heart rate responses during tilt and isometric exercise gradually increased; the tachycardia response during Valsalva maneuver increased while the bradycardia response remained unchanged; and indices of baroreflex sensitivity improved. Responses remained low compared to healthy controls. A negative correlation between indices of preload and heart rate response during head-up tilt emerged at 12 months. Conclusions Results suggest that sympathetic reinnervation of the sinoatrial node starts within 6 months after HTx and strengthens during the first year. No evidence of early parasympathetic reinnervation was found. Indirect signs of afferent reinnervation of cardiopulmonary low-pressure baroreceptors emerged at 12 months. Better sympathetic sinoatrial control improved heart rate responsiveness to orthostatic challenge and isometric exercise, as well as heart rate buffering of blood pressure fluctuations.

Published

2021

11. ESC working group on cardiac cellular electrophysiology position paper: relevance, opportunities, and limitations of experimental models for cardiac electrophysiology research

Author

Dierk Thomas, Milan Stengl, Dobromir Dobrev, Matteo E. Mangoni, Jordi Heijman, Carol Ann Remme, Larissa Fabritz, Katja E. Odening, Godfrey L. Smith, Cristina E. Molina, Leonardo Sacconi, A.M. Gomez, Antonio Zaza, Frank R. Heinzel, Cardiologie, RS: Carim - H01 Clinical atrial fibrillation, RS: Carim - H04 Arrhythmogenesis and cardiogenetics, Cardiology, ACS - Heart failure & arrhythmias, APH - Methodology, University of Bern, Odening, K, Gomez, A, Dobrev, D, Fabritz, L, Heinzel, F, Mangoni, M, Molina, C, Sacconi, L, Smith, G, Stengl, M, Thomas, D, Zaza, A, Remme, C, and Heijman, J

Subjects

0301 basic medicine, TORSADE-DE-POINTES, Cardiac electrophysiology, Medizin, Cardiomyopathy, Arrhythmias, 030204 cardiovascular system & hematology, 0302 clinical medicine, BIO/09 - FISIOLOGIA, Mechanisms, Position paper, Induced pluripotent stem cell, LEFT-VENTRICULAR WALL, SINOATRIAL NODE, Atrial fibrillation, Animal models, 3. Good health, PRESERVED EJECTION FRACTION, Ion channels, cardiovascular system, HEART-FAILURE, Mechanism, Ion channel, Electrophysiologic Techniques, Cardiac, Cardiology and Cardiovascular Medicine, Experimental models, PLURIPOTENT STEM-CELLS, Arrhythmia, Myocarditis, Cellular electrophysiology, LONG-QT SYNDROME, 03 medical and health sciences, [SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, Physiology (medical), SINUS NODE DYSFUNCTION, medicine, Animals, Humans, Animal model, Experimental model, business.industry, TRANSGENIC RABBIT MODEL, Cardiac arrhythmia, Models, Theoretical, medicine.disease, Electrophysiological Phenomena, 030104 developmental biology, Heart failure, ATRIAL-FIBRILLATION, business, Neuroscience

Abstract

Cardiac arrhythmias are a major cause of death and disability. A large number of experimental cell and animal models have been developed to study arrhythmogenic diseases. These models have provided important insights into the underlying arrhythmia mechanisms and translational options for their therapeutic management. This position paper from the ESC Working Group on Cardiac Cellular Electrophysiology provides an overview of (i) currently available in vitro, ex vivo, and in vivo electrophysiological research methodologies, (ii) the most commonly used experimental (cellular and animal) models for cardiac arrhythmias including relevant species differences, (iii) the use of human cardiac tissue, induced pluripotent stem cell (hiPSC)-derived and in silico models to study cardiac arrhythmias, and (iv) the availability, relevance, limitations, and opportunities of these cellular and animal models to recapitulate specific acquired and inherited arrhythmogenic diseases, including atrial fibrillation, heart failure, cardiomyopathy, myocarditis, sinus node, and conduction disorders and channelopathies. By promoting a better understanding of these models and their limitations, this position paper aims to improve the quality of basic research in cardiac electrophysiology, with the ultimate goal to facilitate the clinical translation and application of basic electrophysiological research findings on arrhythmia mechanisms and therapies.

Published

2021

12. Impaired regulation of heart rate and sinoatrial node function by the parasympathetic nervous system in type 2 diabetic mice

Author

Oleg Bogachev, Robert A. Rose, Hailey J. Jansen, Pooja S. Krishnaswamy, and Yingjie Liu

Subjects

0301 basic medicine, Agonist, Male, medicine.medical_specialty, Carbachol, medicine.drug_class, Science, Mice, Transgenic, 030204 cardiovascular system & hematology, Cholinergic Agonists, Arrhythmias, Article, 03 medical and health sciences, Parasympathetic nervous system, Mice, 0302 clinical medicine, Diabetic Neuropathies, Heart Rate, Parasympathetic Nervous System, Internal medicine, Heart rate, Medicine, Myocyte, Animals, Humans, Myocytes, Cardiac, Sinoatrial Node, Multidisciplinary, business.industry, Sinoatrial node, Diastolic depolarization, Autonomic nervous system, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Cardiovascular diseases, Diabetes Mellitus, Type 2, Female, business, RGS Proteins, medicine.drug

Abstract

Heart rate (HR) and sinoatrial node (SAN) function are modulated by the autonomic nervous system. HR regulation by the parasympathetic nervous system (PNS) is impaired in diabetes mellitus (DM), which is denoted cardiovascular autonomic neuropathy. Whether blunted PNS effects on HR in type 2 DM are related to impaired responsiveness of the SAN to PNS agonists is unknown. This was investigated in type 2 diabetic db/db mice in vivo and in isolated SAN myocytes. The PNS agonist carbachol (CCh) had a smaller inhibitory effect on HR, while HR recovery time after CCh removal was accelerated in db/db mice. In isolated SAN myocytes CCh reduced spontaneous action potential firing frequency but this effect was reduced in db/db mice due to blunted effects on diastolic depolarization slope and maximum diastolic potential. Impaired effects of CCh occurred due to enhanced desensitization of the acetylcholine-activated K+ current (IKACh) and faster IKACh deactivation. IKACh alterations were reversed by inhibition of regulator of G-protein signaling 4 (RGS4) and by the phospholipid PIP3. SAN expression of RGS4 was increased in db/db mice. Impaired PNS regulation of HR in db/db mice occurs due to reduced responsiveness of SAN myocytes to PNS agonists in association with enhanced RGS4 activity.

Published

2021

13. Effect of ivabradine on left ventricular diastolic function of patients with heart failure with preserved ejection fraction -IVA-PEF study

Author

Hidekazu Tanaka, Yuki Yamauchi, Junichi Imanishi, Yutaka Hatani, Takatoshi Hayashi, and Ken-ichi Hirata

Subjects

medicine.medical_specialty, Left ventricular diastolic function, Heart rate, Diastole, Heart failure, 030204 cardiovascular system & hematology, Ventricular Function, Left, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Humans, Sinus rhythm, Ivabradine, Prospective Studies, 030212 general & internal medicine, Ejection fraction, Sinoatrial node, business.industry, Stroke Volume, medicine.disease, medicine.anatomical_structure, Cardiology, Cardiology and Cardiovascular Medicine, business, Heart failure with preserved ejection fraction, medicine.drug

Abstract

Background High resting heart rate (HR) is a known marker of cardiovascular outcomes for heart failure (HF) patients. Ivabradine is a new class of HR lowering drug and a specific inhibitor of the If current in the sinoatrial node. Ivabradine substantially and significantly reduces major risks associated with HF when added to guideline-based treatment for left ventricular (LV) ejection fraction ≤35% and HR ≥70 bpm in sinus rhythm. On the other hand, HF with preserved ejection fraction (HFpEF) currently accounts for roughly half of all HF cases and usually presents as LV diastolic dysfunction. However, the association between HR reduction and LV diastolic function for HFpEF patients remains uncertain. Methods/design This investigation into the effect of IVAbradine on left ventricular diastolic function of patients with heart failure with Preserved Ejection Fraction (IVA-PEF) is a multicenter, prospective, uncontrolled, open-label, single assignment, and an interventional single-arm study to investigate the effect of ivabradine on LV diastolic function of HFpEF patients. The key inclusion criterion is HFpEF with resting HR ≥75bpm in sinus rhythm. After completed informed consent forms are obtained, patients will be given 5 mg/day of ivabradine during the study. LV diastolic function is assessed in terms of mitral inflow E and mitral e’ annular velocities (E/e’). The primary endpoint will be defined as a change in E/e′ between baseline and 3 months after the start of administration of ivabradine. Conclusion The findings of our trial may provide a new perspective on ivabradine for the treatment of HFpEF.

Published

2021

14. Genetic predictors of sick sinus syndrome

Author

Timur R. Nasibullin, Vladimir V. Plechev, Ildus Sagitov, Yanina Timasheva, L. Z. Akhmadishina, Marat Rifkatovich Badykov, Elena Badykova, Naufal Zagidullin, and Alfiya Pushkareva

Subjects

0301 basic medicine, medicine.medical_specialty, CLCNKA, biology, Sinoatrial node, Sinoatrial block, business.industry, General Medicine, medicine.disease, Sick sinus syndrome, SSS, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Internal medicine, Genetic model, Genetics, medicine, biology.protein, Prospective cohort study, business, Molecular Biology, Genotyping

Abstract

Sick sinus syndrome (SSS) encompasses a group of conduction disorders characterized by the inability of sinoatrial node to perform its pacemaker function. Our aim was to identify genetic predictors of SSS in a prospective cohort of patients admitted to the clinic for pacemaker implantation using single-locus and multilocus approaches. We performed genotyping for polymorphic markers of CLCNKA (rs10927887), SCN10A (rs6795970), FNDC3B (rs9647379), MIR146A (rs2910164), SYT10 (rs7980799), MYH6 (rs365990), and KCNE1 (rs1805127) genes in the group of 284 patients with SSS and 243 healthy individuals. Associations between the studied loci and SSS were tested using logistic regression under recessive genetic model using sex and age as covariates. Multilocus analysis was performed using Markov chain Monte Carlo method implemented in the APSampler program. Correction for multiple testing was performed using Benjamini–Hochberg procedure. We detected an individual association between KCNE1 rs1805127*A allele and SSS in the total study group (OR 0.43, PFDR = 0.028) and in the subgroup of patients with 2nd or 3rd degree sinoatrial block (OR 0.17, PFDR = 0.033), and identified seven allelic patterns associated with the disease. SCN10A rs6795970*T and MIR146A rs2910164*C alleles were present in all seven combinations associated with SSS. The highest risk of SSS was conferred by the combination SCN10A rs6795970*T+FNDC3B rs9647379*C+MIR146A rs2910164*C+SYT10 rs7980799*C+KCNE1 rs1805127*G (OR 2.98, CI 1.77–5.00, P = 1.27 × 10–5, PFDR = 0.022). Our findings suggest that KCNE1 rs1805127 polymorphism may play a role in susceptibility to sinoatrial node dysfunction, particularly presenting as 2nd or 3rd degree sinoatrial block, and the risk-modifying effect of other studied loci is better detected using multilocus approach.

Published

2021

15. Dual-Chamber Pacemaker After Sinus Node Dysfunction and Enlarged Right Atrium

Author

Álvaro Montes-Muñiz, Carlos Álvarez-Ortega, and Emilio Arbas-Redondo

Subjects

Male, Dual Chamber Pacemaker, medicine.medical_specialty, business.industry, Node (networking), Cardiac Pacing, Artificial, Middle Aged, Enlarged right atrium, medicine.anatomical_structure, Physiology (medical), Internal medicine, medicine, Cardiology, Humans, Heart Atria, Cardiology and Cardiovascular Medicine, business, Sinus (anatomy), Sinoatrial Node

Published

2021

16. Distinct circadian mechanisms govern cardiac rhythms and susceptibility to arrhythmia

Author

Elena Crooks, Sophie M T Wehrens, Hans P. A. Van Dongen, Luigi Venetucci, Shobhan Gaddameedhi, Timothy M. Brown, John S. O’ Neill, Debra J. Skene, Andrew W. Trafford, Edward A. Hayter, Nichola J Barron, David A. Bechtold, Alessandra Stangherlin, Hayter, Edward A [0000-0001-9996-7198], Wehrens, Sophie MT [0000-0001-7523-1514], Van Dongen, Hans PA [0000-0002-4678-2971], Stangherlin, Alessandra [0000-0001-7296-1183], O'Neill, John S [0000-0003-2204-6096], Trafford, Andrew W [0000-0002-2770-445X], Bechtold, David A [0000-0001-8676-8704], and Apollo - University of Cambridge Repository

Subjects

Male, Circadian clock, General Physics and Astronomy, 030204 cardiovascular system & hematology, Arrhythmias, Sleep/physiology, Electrocardiography, Mice, 0302 clinical medicine, Heart Rate, Medicine, Myocytes, Cardiac, Arrhythmias, Cardiac/genetics, Atrioventricular Node/metabolism, Sinoatrial Node, Multidisciplinary, medicine.diagnostic_test, ARNTL Transcription Factors, Autonomic Nervous System/physiology, Myocytes, Cardiac/metabolism, Middle Aged, Cardiovascular physiology, Circadian Rhythm, Sleep deprivation, Atrioventricular Node, cardiovascular system, Circadian Rhythm/physiology, Female, Electrical conduction system of the heart, medicine.symptom, Heart Rate/physiology, Cardiac function curve, Adult, Sinoatrial Node/metabolism, Science, ARNTL Transcription Factors/genetics, Mice, Transgenic, Autonomic Nervous System, Gene Expression Regulation/genetics, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Circadian Clocks, Animals, Humans, Circadian rhythm, cardiovascular diseases, Author Correction, business.industry, Arrhythmias, Cardiac, General Chemistry, Circadian Clocks/physiology, Autonomic nervous system, Gene Expression Regulation, Circadian regulation, business, Sleep, Neuroscience, 030217 neurology & neurosurgery

Abstract

Electrical activity in the heart exhibits 24-hour rhythmicity, and potentially fatal arrhythmias are more likely to occur at specific times of day. Here, we demonstrate that circadian clocks within the brain and heart set daily rhythms in sinoatrial (SA) and atrioventricular (AV) node activity, and impose a time-of–day dependent susceptibility to ventricular arrhythmia. Critically, the balance of circadian inputs from the autonomic nervous system and cardiomyocyte clock to the SA and AV nodes differ, and this renders the cardiac conduction system sensitive to decoupling during abrupt shifts in behavioural routine and sleep-wake timing. Our findings reveal a functional segregation of circadian control across the heart’s conduction system and inherent susceptibility to arrhythmia., Cardiac function fluctuates greatly across the day and night, but this is not simply a consequence of our changing behaviour. The authors highlight the role of the body’s circadian clock in regulating the heart electrical activity, including a time-of-day dependent susceptibility to cardiac arrhythmias.

Published

2021

17. Regularly irregular atrial rhythm after superior vena cava isolation: Another manifestation of sinoatrial node injury?

Author

Masaru Nagase, Gen Tanabe, Takehiro Yamada, Shigekiyo Takahashi, Taro Shibahara, Takahisa Ido, Keita Suzuki, Daiju Ono, Makoto Yamaura, Takashi Nakashima, and Takuma Aoyama

Subjects

Male, medicine.medical_specialty, Vena Cava, Superior, Isolation (health care), Clinical manifestation, Electrocardiography, Rhythm, Recurrence, Superior vena cava, Internal medicine, Atrial Fibrillation, medicine, Humans, cardiovascular diseases, Sinoatrial Node, Aged, 80 and over, Sinoatrial node, business.industry, Cardiac Pacing, Artificial, Atrial fibrillation, General Medicine, medicine.disease, medicine.anatomical_structure, Pulmonary Veins, Catheter Ablation, cardiovascular system, Cardiology, Electrophysiologic Techniques, Cardiac, Cardiology and Cardiovascular Medicine, business, Complication

Abstract

The present case described an unusual clinical manifestation of the sinoatrial node (or sinoatrial junction) injury during superior vena cava isolation.

Published

2021

18. Heart Rate, Hibernation, and the Power Law

Author

Jaclyn A. Brennan and Igor R. Efimov

Subjects

Hibernation, medicine.medical_specialty, medicine.anatomical_structure, business.industry, Sinoatrial node, Internal medicine, Heart rate, Cardiology, Medicine, business, Thermogenesis

Published

2021

19. An anatomical approach to determine the location of the sinoatrial node during catheter ablation

Author

Tsukasa Kamakura, Kenichiro Yamagata, Keiko Shimamoto, Kengo Kusano, Koji Miyamoto, Satoshi Nagase, Yuko Inoue, Kenzaburo Nakajima, Mitsuru Wada, and Takashi Noda

Subjects

Vena Cava, Superior, Intracardiac echocardiography, medicine.medical_treatment, Catheter ablation, Right superior pulmonary vein, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, Superior vena cava, Interquartile range, Physiology (medical), Atrial Fibrillation, Heart rate, medicine, Humans, Sinus rhythm, 030212 general & internal medicine, Sinoatrial Node, Sinoatrial node, business.industry, medicine.anatomical_structure, Pulmonary Veins, Catheter Ablation, Cardiology and Cardiovascular Medicine, Nuclear medicine, business, Crista terminalis

Abstract

INTRODUCTION The sinoatrial node (SAN) should be identified before superior vena cava (SVC) isolation to avoid SAN injury. However, its location cannot be identified without restoring sinus rhythm. This study evaluated the usefulness of the anatomically defined SAN by comparing it with the electrically confirmed SAN (e-SAN) to predict the top-most position of e-SAN and thus establish a safe and more efficient anatomical reference for SVC isolation than the previously reported reference of the right superior pulmonary vein (RSPV) roof. METHODS AND RESULTS The e-SAN was identified as the earliest activation site in the electroanatomical map obtained during sinus rhythm. The anatomically defined SAN, the cranial edge of the crista terminalis (CT) visualized with intracardiac echocardiography (CT top), and the RSPV roof, which was obtained from the overlaid electroanatomical image of SVC and RSPV, were tagged on one map. The distance from the e-SAN to each reference was measured. Among 77 patients, the height of the e-SAN from the CT top was a median (interquartile range) of -2.0 (-8.0 to 4.0) mm. The e-SAN existed from 10 mm above the CT top or lower in 74 (96%) patients and from the RSPV roof or below in 73 (95%) patients. The reference of 10 mm above the CT top is more proximal to the right atrium than the RSPV roof and can provide longer isolatable SVC sleeves (30.0 [20.0-35.0] vs. 24.0 [18.0-30.0] mm, p

Published

2021

20. Respiratory variability of sinus node activation in humans: insights from ultra-high-density mapping

Author

A Moustfa, B Enache, D G Laţcu, G. Garret, Sok-Sithikun Bun, Nadir Saoudi, and K Hasni

Subjects

medicine.medical_specialty, business.industry, Sinoatrial node, 030204 cardiovascular system & hematology, 03 medical and health sciences, Ostium, 0302 clinical medicine, medicine.anatomical_structure, Superior vena cava, Physiology (medical), Internal medicine, Heart rate, Cardiology, Medicine, Sinus rhythm, 030212 general & internal medicine, Expiration, Respiratory system, Cardiology and Cardiovascular Medicine, business, Sinus (anatomy)

Abstract

Experimental data suggest that shifts in the site of origin of the sinus node (SN) correlate with changes in heart rate and P wave morphology. The direct visualization of the effect of respiration on SN electrical activation has not yet been reported in humans. We aimed to measure the respiratory shifting of the SN activation using ultra-high-density mapping. Sequential right atrial (RA) activation mapping during sinus rhythm (SR) was performed. Three maps were acquired for each patient: basal end-expiratory (Ex), end-inspiratory (Ins), and end-expiratory under isoproterenol (Iso). The earliest activation site (EAS) was defined as the earliest unipolar electrograms (EGM) with a QS pattern and was localized with respect to the ostium of the superior vena cava (SVC; negative values if EAS inside the SVC). In 20 patients, 49 maps in SR were acquired (20 Ex, 19 Ins, and 10 Iso). Expiratory (944 ± 227 ms) and inspiratory (946 ± 227 ms) SR cycle lengths were similar, but shortened under isoproterenol (752 ± 302 ms). Activation was unicentric in 33 maps and multicentric in 16: 4 during Ins, 10 during Ex, and 2 Iso. EAS location was significantly more cranial in expiration than in inspiration (0.27 ± 12.1 vs 5 ± 11.51 mm, p = 0.01). Iso infusion tends to induce a supplemental cranial shift (−4.07 ± 15.83 vs 0.27 ± 12.7 mm, p = 0.21). EAS were found in SVC in 22.7% of maps (30% Ex, 21% Ins, and 8% Iso). Inspiration induces a significant caudal shift of the earliest sinus activation. In one-third of the cases, sinus rhythm earliest activation is inside the SVC.

Published

2021

21. Anomalous atrium associated with persistent left superior vena cava

Author

Fumihiro Shutoh, Tetsuya Sasaki, Yosuke Takei, and Tomoyuki Masuda

Subjects

medicine.medical_specialty, Vena Cava, Superior, Population, Dissection (medical), 03 medical and health sciences, Persistent Left Superior Vena Cava, Cadaver, Internal medicine, medicine, Humans, Heart Atria, cardiovascular diseases, Persistent left superior vena cava, education, Coronary sinus, Aged, 030304 developmental biology, 0303 health sciences, education.field_of_study, Atrium (architecture), Sinoatrial node, business.industry, Coronary Sinus, General Medicine, medicine.disease, medicine.anatomical_structure, 030301 anatomy & morphology, cardiovascular system, Cardiology, Gross anatomy, Female, Anatomy, business

Abstract

Persistent left superior vena cava (PLSVC) is the most common venous anomaly with an incidence of 0.3–0.5% in the general population. Here, we report a rare case of PLSVC with anomalous atrium in a cadaver during the student′s dissection session at the University of Tsukuba. In this case, the coronary sinus had merged with the right atrium to form an enlarged sac-like structure and received systemic venous flow including inflow from the PLSVC. The roof of the coronary sinus with the right atrium was thicker than that of the control cases. We further found that the distance between the sinoatrial node and the opening of the coronary sinus was slightly more than half of that in control cases. This variant appears interesting and is worth reporting for developmental and clinical consideration., Published online 24 January 2021.

Published

2021

22. Ivabradine in Cardiovascular Disease Management Revisited: a Review

Author

Christopher Chen, Sripal Bangalore, Doralisa Morrone, Puja K. Mehta, Lucas C. Godoy, Gurleen Kaur, and Mandeep S. Sidhu

Subjects

0301 basic medicine, medicine.medical_specialty, Myocardial Ischemia, Heart failure, Disease, 030204 cardiovascular system & hematology, law.invention, 03 medical and health sciences, 0302 clinical medicine, Randomized controlled trial, law, Tachycardia, Internal medicine, Heart rate, Humans, Medicine, Ivabradine, Pharmacology (medical), Prospective Studies, Sinus, Randomized Controlled Trials as Topic, Pharmacology, Ejection fraction, business.industry, Sinoatrial node, Inappropriate sinus tachycardia, Stable ischemic heart disease, Cardiovascular Agents, Cardiovascular Diseases, Stroke Volume, Tachycardia, Sinus, General Medicine, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, Cardiology, Cardiology and Cardiovascular Medicine, business, medicine.drug

Abstract

Ivabradine is a unique agent that is distinct from beta-blockers and calcium channel blockers as it reduces heart rate without affecting myocardial contractility or vascular tone. Ivabradine is a use-dependent inhibitor targeting the sinoatrial node. It is approved for use in the United States as an adjunct therapy for heart rate reduction in patients with heart failure with reduced ejection fraction. In this scenario, ivabradine has demonstrated improved clinical outcomes due to reduction in heart failure readmissions. However, there has been conflicting evidence from prospective studies and randomized controlled trials for its use in stable ischemic heart disease regarding efficacy in symptom reduction and mortality benefit. Ivabradine may also play a role in the treatment of patients with inappropriate sinus tachycardia, who often cannot tolerate beta-blockers and/or calcium channel blockers. In this review, we highlight the evidence for the nuances of using ivabradine in heart failure, stable ischemic heart disease, and inappropriate sinus tachycardia to raise awareness for its vital role in the treatment of select populations.

Published

2021

23. Fragmented sinoatrial dynamics in the prediction of atrial fibrillation: the Multi-Ethnic Study of Atherosclerosis

Author

Susan R. Heckbert, Madalena D. Costa, Ary L. Goldberger, Elsayed Z. Soliman, and Susan Redline

Subjects

Male, Sleep Wake Disorders, medicine.medical_specialty, Physiology, Action Potentials, Blood Pressure, 030204 cardiovascular system & hematology, Autonomic Nervous System, Independent predictor, Risk Assessment, Electrocardiography, 03 medical and health sciences, 0302 clinical medicine, Heart Rate, Predictive Value of Tests, Physiology (medical), Internal medicine, Atrial Fibrillation, Natriuretic Peptide, Brain, Heart rate, Prevalence, medicine, Humans, Heart rate variability, Antihypertensive Agents, Aged, Sinoatrial Node, Aged, 80 and over, business.industry, Incidence, Age Factors, Fragmentation (computing), Atrial fibrillation, Middle Aged, medicine.disease, Peptide Fragments, United States, Autonomic nervous system, Heart Disease Risk Factors, Hypertension, Cardiology, Female, Sleep, Cardiology and Cardiovascular Medicine, business, Biomarkers, 030217 neurology & neurosurgery, Research Article

Abstract

Heart rate fragmentation (HRF), a marker of abnormal sinoatrial dynamics, was shown to be associated with incident cardiovascular events in the Multi-Ethnic Study of Atherosclerosis (MESA). Here, we test the hypothesis that HRF is also associated with incident atrial fibrillation (AF) in the MESA cohort of participants who underwent in-home polysomnography (PSG) and in two high-risk subgroups: those ≥70 yr taking antihypertensive medication and those with serum concentrations of NH(2)-terminal prohormone B-type natriuretic peptide (NT-proBNP) >125 pg/ml (top quartile). Heart rate time series (n = 1,858) derived from the ECG channel of the PSG were analyzed using newly developed HRF metrics, traditional heart rate variability (HRV) indices and two widely used nonlinear measures. Eighty-three participants developed AF over a mean follow-up period of 3.83 ± 0.87 yr. A one-standard deviation increase in HRF was associated with a 31% (95% CI: 3–66%) increase in risk of incident AF, in Cox models adjusted for age, height, NT-proBNP, and frequent premature supraventricular complexes. Furthermore, HRF added value to the Cohorts for Heart and Aging Research in Genomic Epidemiology (CHARGE)-AF models. Traditional HRV and nonlinear indices were not significantly associated with incident AF. In the two high-risk subgroups defined above, HRF was also significantly associated with incident AF in unadjusted and adjusted models. These findings support the translational utility of HRF metrics for short-term (∼4-yr) prediction of AF. In addition, they support broadening the concept of atrial remodeling to include electrodynamical remodeling, a term used to refer to pathophysiological alterations in sinus interbeat interval dynamics. NEW & NOTEWORTHY This study is the first demonstration that heart rate fragmentation (HRF), a marker of anomalous sinoatrial dynamics, is an independent predictor of atrial fibrillation (AF). Traditional measures of heart rate variability and two widely used nonlinear measures were not associated with incident AF in the Multi-Ethnic Study of Atherosclerosis. Fragmentation measures added value to the strongest contemporary predictors of AF, including ECG-derived parameters, coronary calcification score, serum concentrations of NH(2)-terminal prohormone B-type natriuretic peptide, and supraventricular ectopy. The computational algorithms for quantification of HRF could be readily incorporated into wearable ECG monitoring devices.

Published

2021

24. Atrial Conduction Disorders

Author

Adrian Baranchuk, Manuel Martínez-Sellés, Gary Tse, and Bryce Alexander

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Coronary Artery Disease, Article, Coronary artery disease, Electrocardiography, 03 medical and health sciences, atrial conduction abnormalities, 0302 clinical medicine, Internal medicine, Humans, Medicine, Heart Atria, cardiovascular diseases, P-wave indices, Stroke, interatrial block, P-wave axis, Hexaxial reference system, Framingham Risk Score, business.industry, Sinoatrial node, Morphology-Voltage-P-Wave Duration Score, Interatrial Block, Atrial fibrillation, General Medicine, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Heart failure, cardiovascular system, Cardiology, Female, Cardiology and Cardiovascular Medicine, business

Abstract

Atrial conduction disorders result from impaired propagation of cardiac impulses from the sinoatrial node through the atrial conduction pathways. Disorders affecting interatrial conduction alter P-wave characteristics on the surface electrocardiogram. A variety of P-wave indices reflecting derangements in atrial conduction have been described and have been associated with an increased risk of atrial fibrillation (AF) and stroke. Interatrial block (IAB) is the most well-known of the different P-wave indices and is important clinically due to its ability to predict patients who are at risk of the development of AF and other supraventricular tachycardias. P-Wave Axis is a measure of the net direction of atrial depolarization and is determined by calculating the net vector of the P-wave electrical activation in the six limb-leads using the hexaxial reference system. It has been associated with stroke and it has been proposed that this variable be added to the existing CHA2DS2-VASc score to create a P2-CHA2DS2-VASc score to improve stroke prediction. P-Terminal Force in V1 is thought to be an epiphenomenon of advanced atrial fibrotic disease and has been shown to be associated with a higher risk of death, cardiac death, and congestive heart failure as well as an increased risk of AF. P-wave Dispersion is defined as the difference between the shortest and longest P-wave duration recorded on multiple concurrent surface ECG leads on a standard 12-lead ECG and has also been associated with the development of AF and AF recurrence. Pwave voltage in lead I (PVL1) is thought to be an electrocardiographic representation of cardiac conductive properties and, therefore, the extent of atrial fibrosis relative to myocardial mass. Reduced PVL1 has been demonstrated to be associated with new-onset AF in patients with coronary artery disease and may be useful for predicting AF. Recently a risk score (the MVP risk score) has been developed using IAB and PVL1 to predict atrial fibrillation and has shown a good predictive ability to determine patients at high risk of developing atrial fibrillation. The MVP risk score is currently undergoing validation in other populations. This section reviews the different P-wave indices in-depth, reflecting atrial conduction abnormalities.

Published

2021

25. cAMP-dependent regulation of HCN4 controls the tonic entrainment process in sinoatrial node pacemaker cells

Author

Xiangang Zong, Jaclyn A. Brennan, Igor R. Efimov, Verena F. Brox, Christian Kupatt, Carsten T. Wotjak, Audrys G. Pauža, Andreas Scharr, Rai Zhang, Rasmus Gönner, René D. Rötzer, Konstantin Hennis, Christian Wahl-Schott, Henggui Zhang, Christian Gruner, Martin Biel, Tilman Ziegler, Markus Moser, Verena Mehlfeld, Elvir Becirovic, and Stefanie Fenske

Subjects

0301 basic medicine, General Physics and Astronomy, Action Potentials, Blood Pressure, 030204 cardiovascular system & hematology, Arrhythmias, Tonic (physiology), Electrocardiography, 0302 clinical medicine, Cyclic nucleotide-gated cation channels, Heart Rate, Cyclic AMP, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels, lcsh:Science, Sinoatrial Node, Multidisciplinary, medicine.diagnostic_test, Heart, Vagus Nerve, medicine.anatomical_structure, Female, medicine.drug, Science, Cardiology, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, In vivo, Biological Clocks, Heart rate, medicine, Bradycardia, Autonomic nervous system, Animals, Humans, Sinoatrial node, business.industry, HEK 293 cells, Reproducibility of Results, Arrhythmias, Cardiac, General Chemistry, Adenosine, Mice, Inbred C57BL, Protein Subunits, 030104 developmental biology, HEK293 Cells, lcsh:Q, Carbachol, business, Neuroscience

Abstract

It is highly debated how cyclic adenosine monophosphate-dependent regulation (CDR) of the major pacemaker channel HCN4 in the sinoatrial node (SAN) is involved in heart rate regulation by the autonomic nervous system. We addressed this question using a knockin mouse line expressing cyclic adenosine monophosphate-insensitive HCN4 channels. This mouse line displayed a complex cardiac phenotype characterized by sinus dysrhythmia, severe sinus bradycardia, sinus pauses and chronotropic incompetence. Furthermore, the absence of CDR leads to inappropriately enhanced heart rate responses of the SAN to vagal nerve activity in vivo. The mechanism underlying these symptoms can be explained by the presence of nonfiring pacemaker cells. We provide evidence that a tonic and mutual interaction process (tonic entrainment) between firing and nonfiring cells slows down the overall rhythm of the SAN. Most importantly, we show that the proportion of firing cells can be increased by CDR of HCN4 to efficiently oppose enhanced responses to vagal activity. In conclusion, we provide evidence for a novel role of CDR of HCN4 for the central pacemaker process in the sinoatrial node., The involvement of cAMP-dependent regulation of HCN4 in the chronotropic heart rate response is a matter of debate. Here the authors use a knockin mouse model expressing cAMP-insensitive HCN4 channels to discover an inhibitory nonfiring cell pool in the sinoatrial node and a tonic and mutual interaction between firing and nonfiring pacemaker cells that is controlled by cAMP-dependent regulation of HCN4, with implications in chronotropic heart rate responses.

Published

2020

26. Sinoatrial nodal artery injury in thoracoscopic epicardial ablation for atrial fibrillation

Author

Jianyu Qu, Heng Zhang, Yitong Yu, Bin Lu, Lihui Zheng, Zhe Zheng, Sheng Liu, Haojie Li, and Chenfei Rao

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, medicine.medical_treatment, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine.artery, medicine, Thoracoscopy, Sinus rhythm, 030212 general & internal medicine, Sinoatrial nodal artery, Sinus (anatomy), medicine.diagnostic_test, Sinoatrial node, business.industry, Hazard ratio, Atrial fibrillation, General Medicine, Ablation, medicine.disease, medicine.anatomical_structure, Cardiology, Surgery, Cardiology and Cardiovascular Medicine, business

Abstract

OBJECTIVES This study aimed to clarify the incidence of sinoatrial nodal artery (SANa) injury in thoracoscopic epicardial surgical ablation for atrial fibrillation (AF) and its impact on postoperative outcomes, which have not been previously elucidated. METHODS We enrolled 103 consecutively patients with AF who underwent thoracoscopic epicardial ablation at our institution. In these patients, we evaluated the postoperative incidence of SANa injury by using enhanced cardiac computed tomography. For patients with confirmed SANa injury, 3-day continuous electrocardiographic monitoring and exercise stress tests were performed to assess the sinus rhythm maintenance and sinus node function. RESULTS Thirteen patients (12.6%) had a confirmed SANa injury (left anterior type in 6 patients, left posterior type in 2 patients and double-branch type in 5 patients). After a median follow-up of 24 months, the patients with SANa injury were not found to be associated with lower sinus rhythm maintenance (hazard ratio 1.09, 95% confidential interval 0.36–3.31) as compared with those without SANa injury after adjustment for patient characteristics. Sinus node function was evaluated in 7 patients with SANa injury who remained in sinus rhythm after the procedure, and no sinus node dysfunction was confirmed in the 3-day electrocardiographic monitoring and exercise stress tests at a median follow-up of 12 months. CONCLUSIONS The prevalence of SANa injury in the patients who underwent thoracoscopic epicardial ablation for AF was relatively low, and the incidence of SANa injury was not associated with postoperative restoration of sinus rhythm and sinoatrial node dysfunction. More studies are required to better understand SANa injury.

Published

2020

27. How to consider target heart rate in patients with systolic heart failure

Author

Teruhiko Imamura, Toshihide Izumida, Koichiro Kinugawa, Makiko Nakamura, and Nobuyuki Fukuda

Subjects

Male, medicine.medical_specialty, Cardiac output, 030204 cardiovascular system & hematology, Doppler echocardiography, 03 medical and health sciences, 0302 clinical medicine, Heart Rate, Internal medicine, Linear regression, Heart rate, medicine, Humans, Diseases of the circulatory (Cardiovascular) system, Ivabradine, 030212 general & internal medicine, Aged, Ejection fraction, medicine.diagnostic_test, Sinoatrial node, business.industry, medicine.disease, Prognosis, Corrigenda, Echocardiography, Doppler, medicine.anatomical_structure, Echocardiography, Heart failure, RC666-701, Cardiology, Deceleration time, Cardiology and Cardiovascular Medicine, business, Corrigendum, medicine.drug, Heart Failure, Systolic

Abstract

Aims Heart rate reduction therapy using ivabradine, a selective inhibitor of the funny current of the sinoatrial node, is widely used in the systolic heart failure cohort. However, the optimal target of heart rate remains controversial. The association between heart rate and ‘overlap’ between E‐wave and A‐wave in the pulse wave transmitral flow Doppler echocardiography might be a key to find the ideal heart rate in each individual. Methods and results We performed transthoracic echocardiography in patients with systolic heart failure, and the association between heart rate, deceleration time, and overlap length between E‐wave and A‐wave was assessed. In total, 368 patients with systolic heart failure (median 76 years old, 190 men, median ejection fraction 40%) were included. The measured overlap length was 35 (−72, 115) ms. Given the results of multiple linear regression analyses, we constructed a formula: estimated overlap length (ms) = −589 + 6.2 × heart rate (bpm) + 0.81 × deceleration time (ms), which had a good agreement with actually measured one (r = 0.62). The ideal heart rate, at which the overlap length is ‘zero’ and probably cardiac output is maximized, is calculated as follows: ideal heart rate (bpm) = 93 – 0.13 × deceleration time (ms). Conclusions We proposed a novel formula using deceleration time to estimate ideal heart rate that achieves a zero overlap between E‐wave and A‐wave in patients with systolic heart failure. Prognostic impact of the formula‐guided heart rate optimization should be studied.

Published

2020

28. Long-term outcomes of sinus node modification in patients with severely symptomatic drug-refractory inappropriate sinus tachycardia: a single-center experience

Author

Nikhil Malhotra, Ihab Hassanieh, Karim Diab, Fernand Bteich, Rayan Jo Rachwan, Ghassan Daher, and Ali Mehdirad

Subjects

Bradycardia, medicine.medical_specialty, 030204 cardiovascular system & hematology, Single Center, 03 medical and health sciences, Pericarditis, 0302 clinical medicine, Refractory, Physiology (medical), medicine, Humans, 030212 general & internal medicine, Sinus (anatomy), Retrospective Studies, Sinoatrial Node, business.industry, medicine.disease, Inappropriate sinus tachycardia, Symptomatic relief, Surgery, Tachycardia, Sinus, medicine.anatomical_structure, Pharmaceutical Preparations, Cohort, Catheter Ablation, medicine.symptom, Cardiology and Cardiovascular Medicine, business

Abstract

The purpose of the study was to evaluate the long-term outcomes of sinus node modification (SNM) in treating patients with severely symptomatic drug-refractory inappropriate sinus tachycardia (IST). The study included 39 patients with symptomatic drug-refractory IST who have undergone SNM at Saint Louis University Hospital. Data was reviewed retrospectively. Recurrence of symptoms was assessed at 3–6-month follow-up intervals. The mean age of our cohort was 31.5 ± 11. The mean HR at diagnosis was 135 ± 25.4 beats per minute (BPM). Thirty-seven of 39 (94.8%) patients had complete resolution of symptoms. Of these 37 patients, 16 required 1 SNM, 17 patients required 2 SNM, and 4 patients required 3 SNM in order to achieve complete symptom resolution. Mean HR post-procedure was 78.6 ± 12.3 BPM. Thirteen of 39 patients required rate control medication post-procedure, all of whom were prescribed beta-blockers. Patients were followed every 3 to 6 months with a mean follow-up duration of 62.3 ± 42.9 months from the patient’s last SNM procedure. Thirteen of those 37 patients (35.1%) developed intermittent symptomatic bradycardia requiring permanent pacemaker implantation. Two of the 39 patients had phrenic nerve injury, and 6 patients had post-procedure pericarditis. This study provides additional information to the limited dataset available in the literature and shows that SNM might provide patients with long-term symptomatic relief bearing in mind the potential increased risk for the need for permanent pacing.

Published

2020

29. Dissecting the Cardiac Conduction System: Is It Worthwhile?

Author

Steven White, Nicoleta C. Arva, Serena Y. Tan, and Michael K. Fritsch

Subjects

Male, medicine.medical_specialty, Adolescent, 030204 cardiovascular system & hematology, Sudden death, Bundle of His, Pathology and Forensic Medicine, Cohort Studies, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Channelopathy, Heart Conduction System, Cause of Death, Internal medicine, Humans, Medicine, Child, business.industry, Sinoatrial node, Infant, Newborn, Infant, Arrhythmias, Cardiac, General Medicine, medicine.disease, Atrioventricular node, Death, Sudden, Cardiac, medicine.anatomical_structure, Child, Preschool, 030220 oncology & carcinogenesis, Pediatrics, Perinatology and Child Health, Cardiology, Female, Electrical conduction system of the heart, business, Value (mathematics)

Abstract

Background Pathologic examination of conduction system (CS) is not routinely performed, and histologic changes are mostly reported in forensic practice. Methods We studied the value of dissecting the CS in a cohort of pediatric patients with unexplained sudden death or severe, inexplicable arrhythmias. Histopathologic changes present in CS components were recorded and correlated with findings noted in other cardiac structures. Results Twenty-one subjects (11 unexplained sudden deaths and 10 life-threatening arrhythmias) were identified; 18 (86%) had CS pathologic abnormalities. In 13 patients (62%), the CS findings mirrored those found in other cardiac sections (inflammation, allograft vasculopathy, vascular fibromuscular dysplasia, cardiomyopathy-related changes, and tumor/tumor-like conditions). Five cases (24%) had abnormalities restricted to CS (bundle of His [BH] with fibrotic scar and patch material following ventricular septal defect repair, inflammation, BH with fibrosis and calcifications, and intimal fibroplasia of sinoatrial node artery). Conclusions Pathologic changes within the CS are present in a high number of pediatric patients presenting with unexplained sudden death or life-threatening arrhythmias. Frequently, the findings mirror those observed in other cardiac structures. However, in a significant number of cases (24%), the changes are restricted to CS and likely explain the patients’ symptoms or cause of death, suggesting that systematic dissection of CS unveils valuable information.

Published

2020

30. The Use of the ECG in the Poisoned Patient

Author

Heather A. Borek and Lewis S. Hardison

Subjects

Bradycardia, medicine.medical_specialty, medicine.anatomical_structure, Sinoatrial node, medicine.drug_class, business.industry, Internal medicine, Cardiac myocyte, medicine, Cardiology, medicine.symptom, business, Beta blocker

Published

2020

31. Synchronized Cardiac Impulses Emerge From Heterogeneous Local Calcium Signals Within and Among Cells of Pacemaker Tissue

Author

Victor A. Maltsev, Magdalena Juhaszova, Michael D. Stern, Kenta Tsutsui, Rostislav Bychkov, Edward G. Lakatta, and Christopher E. Coletta

Subjects

Novel technique, Pacemaker, Artificial, 2019-20 coronavirus outbreak, Cell type, Action Potentials, chemistry.chemical_element, 030204 cardiovascular system & hematology, Calcium, Mice, 03 medical and health sciences, Immunolabeling, 0302 clinical medicine, medicine, Animals, Myocytes, Cardiac, 030212 general & internal medicine, Sinoatrial Node, High magnification, Sinoatrial node, business.industry, Cardiac impulses, medicine.anatomical_structure, chemistry, business, Neuroscience

Abstract

Objectives This study sought to identify subcellular Ca2+ signals within and among cells comprising the sinoatrial node (SAN) tissue. Background The current paradigm of SAN impulse generation: 1) is that full-scale action potentials (APs) of a common frequency are initiated at 1 site and are conducted within the SAN along smooth isochrones; and 2) does not feature fine details of Ca2+ signaling present in isolated SAN cells, in which small subcellular, subthreshold local Ca2+ releases (LCRs) self-organize to generate cell-wide APs. Methods Immunolabeling was combined with a novel technique to detect the occurrence of LCRs and AP-induced Ca2+ transients (APCTs) in individual pixels (chronopix) across the entire mouse SAN images. Results At high magnification, Ca2+ signals appeared markedly heterogeneous in space, amplitude, frequency, and phase among cells comprising an HCN4+/CX43− cell meshwork. The signaling exhibited several distinguishable patterns of LCR/APCT interactions within and among cells. Rhythmic APCTs that were apparently conducted within the meshwork were transferred to a truly conducting HCN4−/CX43+ network of striated cells via narrow functional interfaces where different cell types intertwine, that is, the SAN anatomic/functional unit. At low magnification, the earliest APCT of each cycle occurred within a small area of the HCN4 meshwork, and subsequent APCT appearance throughout SAN pixels was discontinuous and asynchronous. Conclusions The study has discovered a novel, microscopic Ca2+ signaling paradigm of SAN operation that has escaped detection using low-resolution, macroscopic tissue isochrones employed in prior studies: synchronized APs emerge from heterogeneous subcellular subthreshold Ca2+ signals, resembling multiscale complex processes of impulse generation within clusters of neurons in neuronal networks.

Published

2020

32. Bradycardia and pacemakers

Author

Mohammed Sohail Ahmed and Tahir Shaheen

Subjects

Bradycardia, medicine.medical_specialty, Sinoatrial node, business.industry, Atrioventricular conduction, Primary care, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Rhythm, Internal medicine, medicine, Cardiology, 030212 general & internal medicine, medicine.symptom, Presentation (obstetrics), business

Abstract

Bradyarrhythmias are frequently encountered in primary care; they comprise various rhythm disturbances including sinoatrial node and atrioventricular conduction disorders. Clinical presentation varies from a wide range of symptomatic presentations including dizziness, syncope, dyspnoea, fatigue and heart failure symptoms to the asymptomatic, incidental finding. Diagnosing patients correctly including a symptom–rhythm correlation is important, especially as some carry a risk of sudden death. In this article we will discuss disease states, diagnosis, referral and an essential guide to cardiac pacemakers, the primary lifelong treatment option for selected patients without reversible causes.

Published

2020

33. In vivo recordings from the human vagus nerve using ultrasound‐guided microneurography

Author

Matteo Maria Ottaviani, Tye Dawood, Leah Wright, and Vaughan G. Macefield

Subjects

0301 basic medicine, Larynx, Physiology, Somatosensory system, 03 medical and health sciences, Parasympathetic nervous system, 0302 clinical medicine, Jugular vein, Heart rate, medicine, Animals, Humans, Ultrasonography, Interventional, Neurons, business.industry, Sinoatrial node, Vagus Nerve, Anatomy, Microneurography, Axons, Vagus nerve, 030104 developmental biology, medicine.anatomical_structure, nervous system, business, Microelectrodes, 030217 neurology & neurosurgery

Abstract

Key points The vagus nerve is the largest cranial nerve and innervates many structures in the neck, thorax and abdomen. Although single-unit recordings from the vagus nerve have been performed in experimental animals for several decades, no recordings have ever been made from the human vagus nerve. The vagus nerve is routinely stimulated clinically, yet we know little of its physiology in humans. We describe the methodology and provide preliminary results of the first intraneural single-unit recordings from the cervical vagus in awake humans, using tungsten microelectrodes inserted into the nerve through ultrasound guidance. Abstract Intraneural microelectrodes have been used extensively to record from single somatosensory axons supplying muscle, tendons, joints and skin, as well as to record from postganglionic sympathetic axons supplying muscle and skin, in accessible peripheral nerves in awake humans. However, the vagus nerve has never been targeted, probably because of its close proximity to the carotid artery and jugular vein in the neck. Here, we report the first unitary recordings from the human cervical vagus nerve, obtained using ultrasound-guided insertion of tungsten microelectrodes into fascicles of the nerve. We identified tonically-active neurones in which firing rates were inversely related to heart rate (and directly related to the cardiac interval), which we classified as putative preganglionic parasympathetic axons directed to the sinoatrial node of the heart. We also recorded from tonically-active presumed sensory axons from the airways and presumed motor axons to the larynx. This new methodology opens exciting new opportunities for studying the physiology of the human vagus nerve in health and disease.

Published

2020

34. Peculiarities of Autonomic Regulation of the Heart in Experimental Normobaric Hypoxia of Different Genesis

Author

I O Osipov, V. N. Kotelnikov, B. I. Geltser, and Yu. V. Zayats

Subjects

Male, 0301 basic medicine, Bradycardia, Tachycardia, medicine.medical_specialty, Sympathetic Nervous System, Hemodynamics, Blood Pressure, General Biochemistry, Genetics and Molecular Biology, Autonomic regulation, 03 medical and health sciences, 0302 clinical medicine, Heart Rate, Internal medicine, medicine, Animals, Heart rate variability, Rats, Wistar, Hypoxia, Denervation, Normobaric hypoxia, Sinoatrial node, business.industry, General Medicine, Rats, 030104 developmental biology, medicine.anatomical_structure, Cardiology, Hypotension, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

We compared autonomic regulation of the heart in Wistar rats with acute exogenous hypoxic and chronic normobaric hypoxia against the background of experimental chronic obstructive pulmonary disease. In animals subjected to normobaric hypoxia, dysfunction of the autonomic regulation of the heart developed; it manifested in a significant limitation of the effects of the parasympathetic and sympathetic nervous systems on the pacemaker activity of the sinoatrial node. Disturbances in autonomic regulation of the heart in acute exogenous hypoxic normobaric hypoxia were characterized by "rigid" heart rhythm and bradycardia in the presence of systolic-diastolic arterial hypotension. Centralization of heart rhythm control did not provide compensation for hemodynamic disturbances. In case of chronic normobaric hypoxia, an increase in arterial hypoxemia was associated with protective "denervation" of the heart against the background of increased activity of the humoral regulation, which manifested in tachycardia, isolated systolic arterial hypertension, and overstrain of regulatory systems.

Published

2020

35. Smart Baroreceptor Activation Therapy Strikingly Attenuates Blood Pressure Variability in Hypertensive Rats With Impaired Baroreceptor

Author

Hiroyuki Tsutsui, Takeshi Tohyama, Yasuhiro Oga, Keita Saku, Kenji Sunagawa, and Kazuya Hosokawa

Subjects

medicine.medical_specialty, Baroreceptor, Blood Pressure, Pressoreceptors, Stimulation, 030204 cardiovascular system & hematology, Baroreflex, 03 medical and health sciences, 0302 clinical medicine, Rats, Inbred SHR, Internal medicine, Autonomic Denervation, Internal Medicine, medicine, Animals, Telemetry, 030212 general & internal medicine, Surgical preparation, Sinoatrial Node, Feedback, Physiological, Denervation, Reflex, Abnormal, business.industry, Pressure feedback, Electric Stimulation, Electrodes, Implanted, Rats, Autonomic nervous system, Blood pressure, Hypertension, Cardiology, business

Abstract

Increased blood pressure (BP) variability (BPV) is an independent risk factor of cardiovascular events among hypertensive patients. The arterial baroreceptor reflex is a powerful regulator of BP and attenuates BPV via a sympathetic negative feedback control. Conventional baroreceptor activation therapy (cBAT) electrically stimulates the carotid baroreceptors with constant stimulation parameters. While cBAT lowers BP, it does not mount a pressure feedback mechanism. We hypothesized that baroreceptor activation therapy with a pressure feedback system (smart BAT [sBAT]) is able to reduce BPV as well as lower BP. We developed sBAT that electrically stimulated baroreceptors at a frequency proportional to the difference between instantaneous BP and a preset reference pressure, and compared its performance with cBAT. In 14-week-old spontaneously hypertensive rats (n=6), we implanted BP telemeter and created impaired arterial baroreceptors by modified sino-aortic denervation. One week after surgical preparation, we administered sBAT, cBAT or no stimulation (sham) for 15 minutes and compared BP and BPV under freely moving condition. Both cBAT and sBAT significantly lowered mean BP (sham, 141.3±12.8; cBAT, 114.3±11.4; and sBAT, 112.0±7.3 mm Hg). Conventional BAT did not affect BPV at all, while sBAT significantly reduced BPV (sham, 15.4±2.6; cBAT, 16.0±5.2; and sBAT, 9.7±3.3 mm Hg). sBAT also prevented transient excessive BP rise and fall. In conclusion, sBAT was capable of reducing BP and attenuating BPV in hypertensive rats with impaired baroreceptor. sBAT is a novel treatment option for hypertensive patients with increased BPV.

Published

2020

36. Intraoperative localization of cardiac conduction tissue regions using real-time fibre-optic confocal microscopy: first in human trial

Author

Abhijit Mondal, Robert W. Hitchcock, Aditya K. Kaza, Frank B. Sachse, and Breanna L. Piekarski

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Septum secundum, Pilot Projects, 030204 cardiovascular system & hematology, Heart Septal Defects, Atrial, Congenital, 03 medical and health sciences, 0302 clinical medicine, Cardiac conduction, Medical imaging, Humans, Medicine, Cardiac Surgical Procedures, Elective surgery, Child, 030304 developmental biology, 0303 health sciences, Microscopy, Confocal, business.industry, Sinoatrial node, Reproducibility of Results, Heart, General Medicine, Atrioventricular node, Cardiac surgery, medicine.anatomical_structure, Ventricle, Surgery, Radiology, Cardiology and Cardiovascular Medicine, business

Abstract

OBJECTIVES The aim of this study was to evaluate the feasibility and safety of fibre-optic confocal microscopy (FCM) using fluorescein sodium dye for the intraoperative location of conduction tissue regions during paediatric heart surgery. METHODS The pilot study included 6 patients undergoing elective surgery for the closure of isolated secundum atrial septal defect aged 30 days to 21 years. FCM imaging was integrated within the normal intraoperative protocol for atrial septal defect repair. Fluorescein sodium dye was applied on the arrested heart. FCM images were acquired at the atrioventricular node region, sinus node region and right ventricle (RV). Total imaging time was limited to 3 min. Any adverse events related to the study were recorded and analysed. Subjects received standard postoperative care. Trained reviewers (n = 9) classified, de-identified and randomized FCM images (n = 60) recorded from the patients as presenting striated, reticulated or indistinguishable microstructures. The reliability of reviewer agreement was assessed using Fleiss’ kappa. RESULTS The FCM imaging instruments were integrated effectively into the cardiac surgery operating room. All adverse events found in the study were deemed expected and not related to FCM imaging. Reticulated myocardial microstructures were found during FCM imaging at atrioventricular node and sinus node regions, while striated microstructures were observed in RV. Reliability of agreement of reviewers classifying the FCM images was high (Fleiss’ kappa: 0.822). CONCLUSIONS FCM using fluorescein sodium dye was found to be safe for use during paediatric heart surgery. The study demonstrates the potential for FCM to be effective in identifying conduction tissue regions during congenital heart surgery. Clinical trial registration number NCT03189134.

Published

2020

37. Heart Rate Control during Experimental Sepsis in Mice

Author

Geneviève Derumeaux, Armand Mekontso Dessap, Serge Adnot, Guillaume Voiriot, Julien Ternacle, Elisabeth Marcos, and Alexandre Bedet

Subjects

Tachycardia, Cardiac output, medicine.medical_specialty, Sinus tachycardia, Sinoatrial node, business.industry, 030208 emergency & critical care medicine, 030204 cardiovascular system & hematology, medicine.disease, Atenolol, Sepsis, 03 medical and health sciences, 0302 clinical medicine, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Internal medicine, Heart rate, medicine, Cardiology, medicine.symptom, business, Ivabradine, medicine.drug

Abstract

Editor’s Perspective What We Already Know about This Topic What This Article Tells Us That Is New Background Tachycardia is a hallmark of sepsis. An elevated heart rate could impair ventricular filling and increase myocardial oxygen demand. β-Blockers and ivabradine (a selective inhibitor of If channels in the sinoatrial node) are both able to control sinus tachycardia, with the latter drug being devoid of negative inotropic effect. This work aimed at assessing the hemodynamic effects of ivabradine as compared with a β-blocker (atenolol) during murine peritonitis. Methods Ivabradine (3 μg/g), atenolol (3 μg/g), or placebo was administered intraperitoneally 2 h after induction of peritonitis (cecal ligation and puncture) in male C57BL6 mice. The authors used invasive (left ventricular catheterization) and noninvasive (transthoracic echocardiography) monitoring to assess hemodynamics 20 h after surgery, including heart rate, blood pressure, left ventricular systolic, and diastolic function (n = 10 mice/group). The authors also assessed overall mortality 30 and 60 h after surgery in a distinct subset of animals (n = 20 mice/group). Descriptive data are presented as median (25th to 75th percentile). Results As compared with placebo (601 beats/min [547 to 612]), ivabradine (447 beats/min [430 to 496]) and atenolol (482 beats/min [412 to 505]) blunted sepsis-induced tachycardia assessed by transthoracic echocardiography in awake animals (P < 0.001 and P = 0.004, respectively). Unlike ivabradine, atenolol reduced cardiac output, systolic blood pressure, and left ventricular systolic function (as assessed by ejection fraction, maximal left ventricular pressure rise, and anterior wall strain rate) as compared with septic mice receiving placebo. There was no difference in survival 60 h after sepsis induction with ivabradine (6 of 20, 30%) or atenolol (7 of 20, 35%), as compared with placebo (5 of 20, 25%; P = 0.224). Conclusions Heart rate control could be similarly achieved by ivabradine or atenolol, with preservation of blood pressure, cardiac output, and left ventricular systolic function with the former drug.

Published

2020

38. In silico study of the effects of anti-arrhythmic drug treatment on sinoatrial node function for patients with atrial fibrillation

Author

Yaosheng Lu, Henggui Zhang, and Jieyun Bai

Subjects

0301 basic medicine, medicine.medical_specialty, In silico, Amiodarone, lcsh:Medicine, 030204 cardiovascular system & hematology, Models, Biological, Article, Membrane Potentials, 03 medical and health sciences, Drug treatment, 0302 clinical medicine, Heart Rate, Internal medicine, Atrial Fibrillation, Receptors, Adrenergic, beta, Heart rate, medicine, Humans, Sinus rhythm, General, lcsh:Science, Sinoatrial Node, Multidisciplinary, Sinoatrial node, business.industry, lcsh:R, Isoproterenol, Atrial fibrillation, medicine.disease, Acetylcholine, 030104 developmental biology, medicine.anatomical_structure, Cardiology, lcsh:Q, business, Disopyramide, Anti-Arrhythmia Agents, medicine.drug

Abstract

Sinus node dysfunction (SND) is often associated with atrial fibrillation (AF). Amiodarone is the most frequently used agent for maintaining sinus rhythm in patients with AF, but it impairs the sinoatrial node (SAN) function in one-third of AF patients. This study aims to gain mechanistic insights into the effects of the antiarrhythmic agents in the setting of AF-induced SND. We have adapted a human SAN model to characterize the SND conditions by incorporating experimental data on AF-induced electrical remodelling, and then integrated actions of drugs into the modified model to assess their efficacy. Reductions in pacing rate upon the implementation of AF-induced electrical remodelling associated with SND agreed with the clinical observations. And the simulated results showed the reduced funny current (If) in these remodelled targets mainly contributed to the heart rate reduction. Computational drug treatment simulations predicted a further reduction in heart rate during amiodarone administration, indicating that the reduction was the result of actions of amiodarone on INa, IKur, ICaL, ICaT, If and beta-adrenergic receptors. However, the heart rate was increased in the presence of disopyramide. We concluded that disopyramide may be a desirable choice in reversing the AF-induced SND phenotype.

Published

2020

39. Towards chamber specific heart-on-a-chip for drug testing applications

Author

Milica Radisic, Benjamin F.L. Lai, Yimu Zhao, Erika Yan Wang, Qinghua Wu, Naimeh Rafatian, Houman Savoji, and Rick Xing Ze Lu

Subjects

Purkinje fibers, Induced Pluripotent Stem Cells, Pharmaceutical Science, 02 engineering and technology, Disease, Organ-on-a-chip, Article, 03 medical and health sciences, Lab-On-A-Chip Devices, Drug Discovery, medicine, Humans, Myocytes, Cardiac, Induced pluripotent stem cell, 030304 developmental biology, 0303 health sciences, Tissue Engineering, Drug discovery, Sinoatrial node, business.industry, Heart, 021001 nanoscience & nanotechnology, Atrioventricular node, medicine.anatomical_structure, Microtechnology, 0210 nano-technology, business, Neuroscience, Biofabrication

Abstract

Modelling of human organs has long been a task for scientists in order to lower the costs of therapeutic development and understand the pathological onset of human disease. For decades, despite marked differences in genetics and etiology, animal models remained the norm for drug discovery and disease modelling. Innovative biofabrication techniques have facilitated the development of organ-on-a-chip technology that has great potential to complement conventional animal models. However, human organ as a whole, more specifically the human heart, is difficult to regenerate in vitro, in terms of its chamber specific orientation and its electrical functional complexity. Recent progress with the development of induced pluripotent stem cell differentiation protocols, made recapitulating the complexity of the human heart possible through the generation of cells representative of atrial & ventricular tissue, the sinoatrial node, atrioventricular node and Purkinje fibers. Current heart-on-a-chip approaches incorporate biological, electrical, mechanical, and topographical cues to facilitate tissue maturation, therefore improving the predictive power for the chamber-specific therapeutic effects targeting adult human. In this review, we will give a summary of current advances in heart-on-a-chip technology and provide a comprehensive outlook on the challenges involved in the development of human physiologically relevant heart-on-a-chip.

Published

2020

40. The Heart’s Little Brain

Author

Neil Herring and David J. Paterson

Subjects

Adrenergic Neurons, Male, Swine, Physiology, Vesicular Acetylcholine Transport Proteins, media_common.quotation_subject, Autonomic Nervous System, Article, Ventricular Function, Left, Pleasure, law.invention, law, Medical Illustration, Animals, Humans, Medicine, Heart Atria, Ganglia, Autonomic, Sinoatrial Node, media_common, business.industry, Coronary Vessels, Myocardial Contraction, Cholinergic Neurons, Phenotype, Synapses, Atrioventricular Node, CLARITY, Swine, Miniature, Female, Cardiology and Cardiovascular Medicine, business, Biomarkers, Cognitive psychology

Abstract

[Figure: see text].

Published

2021

41. Depolarization of the Atrial Subepicardium in Rats with Experimentally Induced Pulmonary Hypertension

Author

I M Roshchevskaya and S. L. Smirnova

Subjects

0301 basic medicine, medicine.medical_specialty, Sinoatrial node, Experimental model, business.industry, Left atrium, Depolarization, General Medicine, Atrial arrhythmias, medicine.disease, Pulmonary hypertension, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Atrial depolarization, Internal medicine, cardiovascular system, medicine, Cardiology, cardiovascular diseases, Early activation, business, 030217 neurology & neurosurgery

Abstract

Using an experimental model of pulmonary hypertension in rats (monocrotaline in a dose of 60 mg/kg), we revealed an additional focus of early excitation in the zone where the pulmonary veins enter the left atrium, in addition to the main focus in the sinoatrial node. Pulmonary hypertension leads to the formation of regions of early activation in the right and left atria and a significant change in the sequence of atrial depolarization. Propagation of independent excitation waves in the right and left atria increases heterogeneity of depolarization and leads to the formation of atrial arrhythmias.

Published

2021

42. Making Heads or Tails of the Large Mammalian Sinoatrial Node Micro-Organization

Author

Sarah Zeigler, Sergey Yechikov, Nipavan Chiamvimonvat, James W. Chan, Hillary K.J. Kao, Regan L. Smithers, Deborah K. Lieu, and Jan A. Nolta

Subjects

Sinoatrial node, business.industry, Sus scrofa, Action Potentials, Heart, Article, Cell biology, medicine.anatomical_structure, Troponin T, Biological Clocks, Physiology (medical), medicine, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels, Myocyte, Animals, Vimentin, Myocytes, Cardiac, Cardiology and Cardiovascular Medicine, business, Biomarkers, Sinoatrial Node

Published

2021

43. Sinus node dysfunction in heart failure is characterized by reduced CaMKII signaling

Author

Susana Gomez, Jian-Bin Xue, Jean-Pierre Benitah, Almudena Val-Blasco, Moran Davoodi, Yael Yaniv, and A.M. Gomez

Subjects

Bradycardia, medicine.medical_specialty, business.industry, Sinoatrial node, Ryanodine receptor, Physiology, medicine.disease, Sudden cardiac death, Phospholamban, Autonomic nervous system, medicine.anatomical_structure, Internal medicine, Ca2+/calmodulin-dependent protein kinase, Heart failure, medicine, Cardiology, cardiovascular system, medicine.symptom, business

Abstract

Heart failure (HF) is a complex syndrome in which death rates are >50%. The main causes of death among HF patients are pump failure and ventricular arrhythmias, but severe bradycardia is also a common cause of sudden cardiac death, pointing to sinoatrial node (SAN) dysfunction. SAN pacemaker activity is regulated by voltage-clock and Ca2+-clock mechanisms and, although voltage-clock dysfunction in SAN has been largely proved in HF, Ca2+-clock dysfunction mechanisms in SAN remains unraveled. Here, we used an HF model in mice with transverse aortic constriction (TAC) and, using telemetry, saw slower heart rhythm under autonomic nervous system blockade. Then, by confocal microscopy, we analyzed Ca2+ handling in HF SAN tissue and found that intracellular Ca2+ transients rate were slower together with less frequency of Ca2+ sparks than in SHAM SAN tissue. Next, we studied protein expression of key excitation–contraction coupling proteins and found reduced expression of the Na+/Ca2+ exchanger and reduced phosphorylated status of ryanodine receptor and phospholamban in the CaMKII sites for the SAN in TAC mice. Finally, the application of the CaMKII inhibitor, KN93, caused less effect in slowing the Ca2+ transient rates in HF SAN tissue, confirming the reduced CaMKII activation. In conclusion, our data demonstrates a reduction in CaMKII activation in the Ca2+-clock function of the SAN tissue in a mouse model of HF.

Published

2021

44. Digenic heterozygous mutations of KCNH2 and SCN5A induced young and early‐onset long QT syndrome and sinoatrial node dysfunction

Author

Xiufang Lin, Yuting Ma, Yubi Lin, Jiana Huang, Jianzhong Xian, Zhe Yang, Yin Huang, Feng Wang, Wenliang Zhu, Linbo Wu, and Liang Chen

Subjects

Proband, ERG1 Potassium Channel, congenital, hereditary, and neonatal diseases and abnormalities, Candidate gene, medicine.medical_specialty, Long QT syndrome, Torsades de pointes, NAV1.5 Voltage-Gated Sodium Channel, Electrocardiography, symbols.namesake, Channelopathy, Physiology (medical), Internal medicine, medicine, Diseases of the circulatory (Cardiovascular) system, Humans, KCNH2, cardiovascular diseases, SCN5A, Exome sequencing, Sinoatrial Node, Sanger sequencing, business.industry, Original Articles, General Medicine, medicine.disease, ion channelopathy, Ether-A-Go-Go Potassium Channels, Long QT Syndrome, RC666-701, KCNQ1 Potassium Channel, Mutation, Ventricular fibrillation, Cardiology, symbols, Original Article, whole‐exome sequencing, Female, Cardiology and Cardiovascular Medicine, business

Abstract

Introduction Long QT syndrome (LQTS) is a life‐threatening inherited channelopathy, and prolonged QT intervals easily trigger malignant arrhythmias, especially torsades de pointes and ventricular fibrillation. Materials and methods The proband with overlapped phenotypes of LQTS and sinoatrial node dysfunction underwent some necessary examinations, including echocardiography, electrocardiogram (ECG), and Holter monitoring. Next, whole‐exome sequencing was performed, and candidate genes were validated by Sanger sequencing. RNA secondary structure and protein physical‐chemical parameter analyses were used to predict the possible structural change of the proteins induced by the mutations. Results We identified the digenic heterozygous mutations of KCNH2 p.307_308del (NM_001204798, c.921_923del) and SCN5A p.R1865H (NM_001160160, c.G5594A) in the female and young proband (II: 1) of LQTS and ventricular fibrillation with repeat syncope at rest. Subsequently, she occurred with obvious sinus arrest with persistent ventricular pacing of implantable cardioverter‐defibrillator. The heterozygous SCN5Ap.R1865H was carried by her father and sister but not carried by I:2. II:1 carried with KCNH2 p.307_308del as a de novo mutation, but not existed in other family members. RNA secondary structure of KCNH2 p.307_308del showed a false regional double helix, and its amino acids' hydrophobicity was significantly weakened. For the Nav1.5 protein property, SCN5A p.R1865H slightly increased the molecular weight and aliphatic index but reduced the instability index. Conclusions The digenic heterozygous KCNH2 and SCN5A mutations were associated with young early‐onset long QT syndrome and sinoatrial node dysfunction.

Published

2021

45. Distinct Effects of Ibrutinib and Acalabrutinib on Mouse Atrial and Sinoatrial Node Electrophysiology and Arrhythmogenesis

Author

Jari M. Tuomi, Douglas L. Jones, Robert A. Rose, Yingjie Liu, Hailey J. Jansen, Loryn J. Bohne, and Tristan W. Dorey

Subjects

sinoatrial node, Lymphoproliferative disorders, Action Potentials, Arrhythmias, chemistry.chemical_compound, Mice, Piperidines, ibrutinib, Atrial Fibrillation, medicine, Bruton's tyrosine kinase, Diseases of the circulatory (Cardiovascular) system, Animals, Arrhythmia and Electrophysiology, Myocytes, Cardiac, cardiovascular diseases, Ion channel, Original Research, biology, Sinoatrial node, business.industry, acalabrutinib, Adenine, ion channels, Atrial fibrillation, Arrhythmias, Cardiac, medicine.disease, Electrophysiology, medicine.anatomical_structure, chemistry, Ibrutinib, RC666-701, Pyrazines, Benzamides, Cancer research, biology.protein, cardiovascular system, Acalabrutinib, Cardiac Electrophysiology, Cardiology and Cardiovascular Medicine, business

Abstract

Background Ibrutinib and acalabrutinib are Bruton tyrosine kinase inhibitors used in the treatment of B‐cell lymphoproliferative disorders. Ibrutinib is associated with new‐onset atrial fibrillation. Cases of sinus bradycardia and sinus arrest have also been reported following ibrutinib treatment. Conversely, acalabrutinib is less arrhythmogenic. The basis for these different effects is unclear. Methods and Results The effects of ibrutinib and acalabrutinib on atrial electrophysiology were investigated in anesthetized mice using intracardiac electrophysiology, in isolated atrial preparations using high‐resolution optical mapping, and in isolated atrial and sinoatrial node (SAN) myocytes using patch‐clamping. Acute delivery of acalabrutinib did not affect atrial fibrillation susceptibility or other measures of atrial electrophysiology in mice in vivo. Optical mapping demonstrates that ibrutinib dose‐dependently impaired atrial and SAN conduction and slowed beating rate. Acalabrutinib had no effect on atrial and SAN conduction or beating rate. In isolated atrial myocytes, ibrutinib reduced action potential upstroke velocity and Na + current. In contrast, acalabrutinib had no effects on atrial myocyte upstroke velocity or Na + current. Both drugs increased action potential duration, but these effects were smaller for acalabrutinib compared with ibrutinib and occurred by different mechanisms. In SAN myocytes, ibrutinib impaired spontaneous action potential firing by inhibiting the delayed rectifier K + current, while acalabrutinib had no effects on SAN myocyte action potential firing. Conclusions Ibrutinib and acalabrutinib have distinct effects on atrial electrophysiology and ion channel function that provide insight into the basis for increased atrial fibrillation susceptibility and SAN dysfunction with ibrutinib, but not with acalabrutinib.

Published

2021

46. Hypoglycaemia combined with mild hypokalaemia reduces the heart rate and causes abnormal pacemaker activity in a computational model of a human sinoatrial cell

Author

Alan Bernjak, Richard H. Clayton, Ahmed Iqbal, and Simon Heller

Subjects

Bradycardia, medicine.medical_specialty, Cell, Biomedical Engineering, Biophysics, Action Potentials, Hypokalemia, Bioengineering, Stimulus (physiology), bradycardia, Biochemistry, Sudden cardiac death, Biomaterials, Heart Rate, Diabetes mellitus, Internal medicine, Heart rate, medicine, Humans, Life Sciences–Engineering interface, Research Articles, Sinoatrial Node, business.industry, Sinoatrial node, nutritional and metabolic diseases, hypokalaemia, medicine.disease, Hypoglycemia, human sinoatrial node, computational model, medicine.anatomical_structure, Blood potassium, Cardiology, medicine.symptom, business, hypoglycaemia, Biotechnology

Abstract

Low blood glucose, hypoglycaemia, has been implicated as a possible contributing factor to sudden cardiac death (SCD) in people with diabetes but it is challenging to investigate in clinical studies. We hypothesized the effects of hypoglycaemia on the sinoatrial node (SAN) in the heart to be a candidate mechanism and adapted a computational model of the human SAN action potential developed by Fabbri et al. , to investigate the effects of hypoglycaemia on the pacemaker rate. Using Latin hypercube sampling, we combined the effects of low glucose (LG) on the human ether-a-go-go-related gene channel with reduced blood potassium, hypokalaemia, and added sympathetic and parasympathetic stimulus. We showed that hypoglycaemia on its own causes a small decrease in heart rate but there was also a marked decrease in heart rate when combined with hypokalaemia. The effect of the sympathetic stimulus was diminished, causing a smaller increase in heart rate, with LG and hypokalaemia compared to normoglycaemia. By contrast, the effect of the parasympathetic stimulus was enhanced, causing a greater decrease in heart rate. We therefore demonstrate a potential mechanistic explanation for hypoglycaemia-induced bradycardia and show that sinus arrest is a plausible mechanism for SCD in people with diabetes.

Published

2021

47. Implementing Biological Pacemakers: Design Criteria for Successful Transition From Concept to Clinic

Author

Brenda M. Ogle, David Wolfson, Michael Bressan, Hee Cheol Cho, and Elizabeth R. Komosa

Subjects

Heartbeat, Sinoatrial node, business.industry, Cellular differentiation, Endoplasmic reticulum, Connexin, Extracellular matrix, medicine.anatomical_structure, Physiology (medical), Heart rate, medicine, Electrical impulse, Cardiology and Cardiovascular Medicine, business, Neuroscience

Abstract

Each heartbeat that pumps blood throughout the body is initiated by an electrical impulse generated in the sinoatrial node (SAN). However, a number of disease conditions can hamper the ability of the SAN′s pacemaker cells to generate consistent action potentials and maintain an orderly conduction path, leading to arrhythmias. For symptomatic patients, current treatments rely on implantation of an electronic pacing device. However, complications inherent to the indwelling hardware give pause to categorical use of device therapy for a subset of populations, including pediatric patients or those with temporary pacing needs. Cellular-based biological pacemakers, derived in vitro or in situ, could function as a therapeutic alternative to current electronic pacemakers. Understanding how biological pacemakers measure up to the SAN would facilitate defining and demonstrating its advantages over current treatments. In this review, we discuss recent approaches to creating biological pacemakers and delineate design criteria to guide future progress based on insights from basic biology of the SAN. We emphasize the need for long-term efficacy in vivo via maintenance of relevant proteins, source-sink balance, a niche reflective of the native SAN microenvironment, and chronotropic competence. With a focus on such criteria, combined with delivery methods tailored for disease indications, clinical implementation will be attainable.

Published

2021

48. Treatment of inappropriate sinus tachycardia: Still a long way to go

Author

Riccardo Cappato

Subjects

medicine.medical_specialty, business.industry, medicine.disease, Calcium blockers, Inappropriate sinus tachycardia, Tachycardia, Sinus, Physiology (medical), Internal medicine, medicine, Cardiology, Humans, Ivabradine, Cardiology and Cardiovascular Medicine, business, Sinoatrial Node, medicine.drug

Published

2021

49. Analysis of Heart Rate Variability and Implication of Different Factors on Heart Rate Variability

Author

Punit Kumar, Reena Tiwari, Tilak Raj, Sujata Malik, and Ravindra Kumar

Subjects

0301 basic medicine, Nervous system, medicine.medical_specialty, Stimulus (physiology), Autonomic Nervous System, 03 medical and health sciences, Parasympathetic nervous system, 0302 clinical medicine, Heart Rate, Internal medicine, Heart rate, medicine, Humans, Heart rate variability, Sinoatrial node, business.industry, Heart, General Medicine, Vagus nerve, Autonomic nervous system, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cardiology, Cardiology and Cardiovascular Medicine, business

Abstract

Background: The heart is the central organ of the circulatory system which maintains the flow of blood along with the transport of nutrients to different cells and tissues. A well-functioning cardiac state is a complicated mode of changeability. A healthy heart is not only about oscillation as the rhythmometer is not the same in every circumstance. Heart rate shows variations so that it can be regulated according to psychophysiological conditions to maintain the effect of the internal-external stimulus. Objective: The main objective of this review is to provide a piece of all-inclusive information about heart rate variability (HRV) and different variables affecting HRV. The direct interconnection among factors and so that HRV can be used in clinical practices. Methods: This review article contains a detailed survey of literature about HRV available in different online sources such as; Google Scholar, Science Direct, PubMed, and Web of Science, etc. In this review, the authors have focused on the role of the autonomic nervous system in the regulation of HRV and the role of various factors affecting HRV. Results: The variation in the time between two heartbeats is termed as HRV. It is one of the indicators of many pathological conditions related to cardiovascular health. It provided reliable information about the interaction of the sympathetic and parasympathetic nervous systems. The analysis of the variation of heart rate is a well-known non-invasive technique to identify the functioning of the autonomic nervous system. The autonomic nervous system (ANS) depends on the sympathetic and parasympathetic nervous system for transferring information. The cardio-accelerating center, lungs, and non-striated muscles are innervated by cardiac sympathetic nerves. This division of ANS latches upon the heart accordingly via the cervicothoracic ganglion and vagus nerve. It is found that cardiac normal variability depends upon this stimulation towards the sinoatrial node (pacemaker) which can be evaluated by analyzing the HRV. In human- based studies, it has been found that low level of HRV is one of the main causes of death rate among adults. Hence, HRV helps in identifying the risk of cardiac diseases and the state of ANS. Conclusion: The heart plays a vital role in the human body and the well-functioning of the cardiac system is the need for a healthy life. The heart contains its nervous system termed as neurocardio system in which ANS plays a key role in which the sympathetic and parasympathetic system interplay to regulate HRV. High HRV is associated with healthy condition while low HRV is associated with pathological conditions. The HRV is influenced by various variables such as; pathological, physiological, psychological, environmental factors, lifestyle factors, and genetic factors, etc.

Published

2021

50. Epicardial ablation of recurrent left atrial macroreentrant tachycardia from Bachmann's bundle region after endocardial ablation

Author

Burak Sezenöz, Kudret Aytemir, and Hikmet Yorgun

Subjects

Epicardial Mapping, Tachycardia, medicine.medical_specialty, medicine.medical_treatment, Epicardial ablation, Electrocardiography, Recurrence, Risk Factors, Left atrial, Internal medicine, Tachycardia, Supraventricular, medicine, Humans, Bachmann's bundle, Aged, Sinoatrial Node, business.industry, General Medicine, Ablation, medicine.anatomical_structure, Pulmonary Veins, Catheter Ablation, Cardiology, Female, medicine.symptom, Cardiology and Cardiovascular Medicine, business

Published

2021