Your search keyword '"Sherif, Nabil"' showing total 32 results

1. Acquired Long QT Syndrome and Electrophysiology of Torsade de Pointes

Author

El-Sherif, Nabil, Turitto, Gioia, Boutjdir, Mohamed, and El-Sherif, Nabil, editor

Published

2020

2. Electrophysiological basis of cardiac arrhythmia in a mouse model of myotonic dystrophy type 1.

Author

Murthy Ginjupalli, Vamsi Krishna, Cupelli, Michael, Reisqs, Jean-Baptiste, Sleiman, Yvonne, El-Sherif, Nabil, Gourdon, Genevieve, Puymirat, Jack, Chahine, Mohamed, and Boutjdir, Mohamed

Subjects

ARRHYTHMIA, MYOTONIA atrophica, LABORATORY mice, ATRIAL arrhythmias, ACTION potentials

Abstract

Introduction: Myotonic dystrophy type 1 (DM1) is a multisystemic genetic disorder caused by the increased number of CTG repeats in 3' UTR of Dystrophia Myotonia Protein Kinase (DMPK) gene. DM1 patients experience conduction abnormalities as well as atrial and ventricular arrhythmias with increased susceptibility to sudden cardiac death. The ionic basis of these electrical abnormalities is poorly understood. Methods: We evaluated the surface electrocardiogram (ECG) and key ion currents underlying the action potential (AP) in a mouse model of DM1, DMSXL, which express over 1000 CTG repeats. Sodium current (INa), L-type calcium current (ICaL), transient outward potassium current (Ito), and APs were recorded using the patchclamp technique. Results: Arrhythmic events on the ECG including sinus bradycardia, conduction defects, and premature ventricular and atrial arrhythmias were observed in DMSXL homozygous mice but not in WT mice. PR interval shortening was observed in homozygous mice while ECG parameters such as QRS duration, and QTc did not change. Further, flecainide prolonged PR, QRS, and QTc visually in DMSXL homozygous mice. At the single ventricular myocyte level, we observed a reduced current density for Ito and ICaL with a positive shift in steady state activation of L-type calcium channels carrying ICaL in DMSXL homozygous mice compared with WT mice. INa densities and action potential duration did not change between DMSXL and WT mice. Conclusion: The reduced current densities of Ito, and ICaL and alterations in gating properties in L-type calcium channels may contribute to the ECG abnormalities in the DMSXL mouse model of DM1. These findings open new avenues for novel targeted therapeutics. [ABSTRACT FROM AUTHOR]

Published

2023

3. Interleukin-6 inhibition of hERG underlies risk for acquired long QT in cardiac and systemic inflammation.

Author

Aromolaran, Ademuyiwa S., Srivastava, Ujala, Alí, Alessandra, Chahine, Mohamed, Lazaro, Deana, El-Sherif, Nabil, Capecchi, Pier Leopoldo, Laghi-Pasini, Franco, Lazzerini, Pietro Enea, and Boutjdir, Mohamed

Subjects

INTERLEUKIN-6, TACHYCARDIA, ARRHYTHMIA, ELECTROPHYSIOLOGY, BIOPHYSICS

Abstract

Increased proinflammatory interleukin-6 (IL-6) levels are associated with acquired long QT-syndrome (LQTS) in patients with systemic inflammation, leading to higher risks for life-threatening polymorphic ventricular tachycardia such as Torsades de Pointes. However, the functional and molecular mechanisms of this association are not known. In most cases of acquired LQTS, the target ion channel is the human ether-á-go-go-related gene (hERG) encoding the rapid component of the delayed rectifier K current, IKr, which plays a critical role in cardiac repolarization. Here, we tested the hypothesis that IL-6 may cause QT prolongation by suppressing IKr. Electrophysiological and biochemical assays were used to assess the impact of IL-6 on the functional expression of IKr in HEK293 cells and adult guinea-pig ventricular myocytes (AGPVM). In HEK293 cells, IL-6 alone or in combination with the soluble IL-6 receptor (IL-6R), produced a significant depression of IKr peak and tail current densities. Block of IL-6R or Janus kinase (JAK) reversed the inhibitory effects of IL-6 on IKr. In AGPVM, IL-6 prolonged action potential duration (APD) which was further prolonged in the presence of IL-6R. Similar to heterologous cells, IL-6 reduced endogenous guinea pig ERG channel mRNA and protein expression. The data are first to demonstrate that IL-6 inhibition of IKr and the resulting prolongation of APD is mediated via IL-6R and JAK pathway activation and forms the basis for the observed clinical QT interval prolongation. These novel findings may guide the development of targeted anti-arrhythmic therapeutic interventions in patients with LQTS and inflammatory disorders. [ABSTRACT FROM AUTHOR]

Published

2018

4. Acquired long QT syndrome and torsade de pointes.

Author

El‐Sherif, Nabil, Turitto, Gioia, and Boutjdir, Mohamed

Subjects

*LONG QT syndrome treatment, *ELECTROCARDIOGRAPHY, *ELECTROPHYSIOLOGY, *VENTRICULAR tachycardia, *LONG QT syndrome, *SYMPTOMS

Abstract

Abstract: Since its initial description by Jervell and Lange‐Nielsen in 1957, the congenital long QT syndrome (LQTS) has been the most investigated cardiac ion channelopathy. Although congenital LQTS continues to remain the domain of cardiologists, cardiac electrophysiologists, and specialized centers, the by far more frequent acquired drug‐induced LQTS is the domain of all physicians and other members of the health care team who are required to make therapeutic decisions. This report will review the electrophysiological mechanisms of LQTS and torsade de pointes, electrocardiographic characteristics of acquired LQTS, its clinical presentation, management, and future directions in the field. [ABSTRACT FROM AUTHOR]

Published

2018

5. Improved Activation Time Assignment of Unipolar Electrograms from Ischemic Canine Epicardium.

Author

CAREF, EDWARD B., NDREPEPA, GJIN, TURITTO, GIOIA, RESTIVO, MARK, and EL‐SHERIF, NABIL

Subjects

BODY surface mapping, ALGORITHMS, ANALYSIS of variance, ANIMAL experimentation, BIOPHYSICS, CORONARY disease, DOGS, ELECTRIC stimulation, ELECTROPHYSIOLOGY, PERICARDIUM, REGRESSION analysis, RESEARCH funding, SCIENTIFIC method, TIME, DATA analysis software

Abstract

Aims: The present study attempts to develop an objective, statistically based set of criteria for activation time determination from unipolar electrograms (U-EGMs) using a standard of activation related to biophysical theory. Methods: A high-resolution assembly of U-EGMs obtained from the epicardial surface of the canine postinfarction heart were analyzed in order to achieve the best prediction of local versus distant activation. An activation time standard (ATS) consisted of three properties: (1) propagation of activation, evidenced by a linear temporal shift of waveforms from closely spaced U-EGMs with little or no decay in amplitude; (2) cycle length-dependent changes of those propagating waveforms; and (3) evidence of electrotonic deflections, seen as nonpropagating potentials having decaying amplitude with distance. Results: A number of U-EGM features were calculated and subjected to analysis by comparing their occurrence with the ATS. A discriminant function analysis incorporating multiple features (Voltage, −dV/dt and Ratio) of major U-EGM deflections improved prediction of activation time of complex fractionated EMGs from ischemic canine epicardium to 90%. Conclusion: A unique discriminant function based on sound biophysical principles markedly improved prediction of activation time of complex U-EGMs from ischemic canine epicardium. A computerized version of the algorithm could be developed to provide more accurate activation maps for both basic and clinical use. (PACE 2011; 34:1105-1115) [ABSTRACT FROM AUTHOR]

Published

2011

6. His Bundle Extrasystoles Revisited: The Great Electrocardiographic Masquerader.

Author

AMEEN, ABDUL, DHARAWAT, AMITA, KHAN, ABDULLAH, TURITTO, GIOIA, and EL‐SHERIF, NABIL

Subjects

CARDIAC pacemakers, ELECTROCARDIOGRAPHY, ELECTROPHYSIOLOGY, HEART block, HEART conduction system, HIS bundle, MYOCARDIAL depressants, PHARMACODYNAMICS

Abstract

A 74-year-old man with past history of near syncope presented with frequent periods of second-degree atrioventricular block (2° AVB). An electrophysiological study revealed prolonged atrial-His and His-ventricular (HV) intervals and frequent His bundle (H) extrasystoles. The latter manifested in the surface electrocardiogram as premature atrial, junctional, or ventricular beats, as well as 2° AVB that mimicked Wenckebach or Mobitz II block. Procainamide markedly suppressed H extrasystole. However, because of the presence of prolonged HV interval and history of presyncope, a permanent pacemaker was inserted. The case illustrates the varied manifestation of H extrasystole and presents guidelines for management. (PACE 2010; 1-4) [ABSTRACT FROM AUTHOR]

Published

2011

7. Paroxysmal atrioventricular block: Are phase 3 and phase 4 block mechanisms or misnomers?

Author

El-Sherif, Nabil and Jalife, José

Published

2009

8. Sudden Cardiac Death and Coronary Artery Disease —Pathophysiology and Risk Stratification.

Author

EI-Sherif, Nabil, Khan, Abdullah, Savarese, Joseph, and Turitto, Gioia

Subjects

CORONARY heart disease risk factors, CARDIAC arrest, PATHOLOGICAL physiology, HEART failure, MYOCARDIAL infarction, PROTEOMICS, HYPERTROPHY, AUTONOMIC nervous system diseases

Abstract

Management of Sudden Cardiac Death (SCD) is undergoing a radical change in direction. It is becoming increasingly appreciated that besides depressed left ventricular systolic function and the conventional risk stratification tools, new markers for plaque vulnerability, enhanced thrombogenesis, specific genetic alterations of the autonomic nervous system, cardiac sarcolemmal and contractile proteins, and familial clustering may better segregate patients with atherosclerotic coronary artery disease who are at high risk for SCD from those who may suffer from nonfatal ischemic events. Better understanding of pathophysiological processes, such as postmyocardial infarction remodeling, the transition from compensated hypertrophy to heart failure, and the increased cardiovascular risk of coronary artery disease in the presence of diabetes or even a prediabetic state will help to improve both risk stratification and management. The rapidly developing fields of microchips technology and proteomics may allow rapid and cost-effective mass screening of multiple risk factors for SCD. The ultimate goal is to identify novel methods for risk stratification, risk modification, and prevention of SCD that could be applied to the general public at large. [Copyright &y& Elsevier]

Published

2009

9. Mechanisms of enhanced arrhythmogenicity of regional ischemia in the hypertrophied heart.

Author

Kozhevnikov, D., Caref, Edward B., and El-Sherif, Nabil

Abstract

Background: The coexistence of cardiac hypertrophy (H) and ischemia (I) can create a particularly arrhythmogenic substrate. Most studies investigate the effects of global I on H. However, global I is not a good surrogate model of the clinical situation. Objective: The purpose of this study was to investigate the electrophysiological effects of regional I superimposed on H using optical mapping of membrane voltage. Methods: We investigated the guinea pig model of left ventricular H (LVH) induced by suprarenal banding of abdominal aorta. Twelve hearts with or without LVH were mounted in a Langendorff preparation, and regional I was induced by 20 minutes of ligation of the left anterior descending artery. Results: Left ventricle epicardial action potential duration (APD) was significantly prolonged in the LVH group compared with controls. I significantly shortened APD in the I risk zone in both groups, but the percentages of APD shortening (28% vs. 40%) and the magnitudes of shortening (57 ± 18 vs. 105 ± 32 ms) were greater in the LVH group. The greater dispersion of repolarization (DR) across the border of the I zone resulted in arcs of functional conduction block and circulating wave fronts. Tachycardia-dependent APD alternans developed more often in the LVH group, and the area of alternans versus the area of the I zone was significantly larger. Ventricular tachyarrhythmias (VTs) developed in all 12 hearts with LVH including six non-self-terminating VTs, compared with four control hearts with self-terminating VT. Conclusion: Regional I superimposed on LVH resulted in greater DR at the border between the I and non-I zones as well as in a greater tendency to develop APD alternans. Both arrhythmogenic mechanisms correlated with an increased incidence of VT. [Copyright &y& Elsevier]

Published

2009

10. Impaired Ca2+ homeostasis is associated with atrial fibrillation in the α1D L-type Ca2+ channel KO mouse.

Author

Mancarella, Salvatore, Yue, Yuankun, Karnabi, Eddy, Yongxia Qu, El-Sherif, Nabil, and Boutjdir, Mohamed

Subjects

ELECTRIC properties of hearts, HOMEOSTASIS, MICE, ELECTROPHYSIOLOGY, SARCOPLASMIC reticulum, ATRIAL fibrillation, INTRACELLULAR pathogens

Abstract

Mancarella S, Yue Y, Karnabi E, Qu Y, El-Sherif N, Boutjdir M. Impaired Ca[sup2+] homeostasis is associated with atrial fibrillation in the α1D L-type Ca[sup2+] channel KU mouse. Am J Physiol Heart Circ Physiol 295: H2017-H2024, 2008. First published September 12, 2008; doi: 10.1152/ajpheart.00537.2008.-The novel α1D Ca[sup2+] channel together with α1D Ca[sup2+] channel contribute to the L-type Ca[sup2+] current (I[subCa-L]) in the mouse supraventricular tissue. However, its functional role in the heart is just emerging. We used the α1D gene knockout (KO) mouse to investigate the electrophysiological features, the relative contribution of the α1D Ca[sup2+] channel to the global I[subCa-L], the intracellular Ca[sup2+] transient, the Ca[sup2+] handling by the sarcoplasmic reticulum (SR), and the inducibility of atrial fibrillation (AF). In vivo and ex vivo ECG recordings from α1D KO mice demonstrated significant sinus bradycardia, atrioventricular block, and vulnerability to AF. The wild-type mice showed no ECG abnormalities and no AF. Patch-clamp recordings from isolated α1D KO atrial myocytes revealed a significant reduction of I[subCa-L] (24.5%; P < 0.05). However, there were no changes in other currents such as I[subNa], I[subCa-T], I[subK], If, and I[subf] and no changes in α[subIC] mRNA levels of α1D KO atria. Fura 2-loaded atrial myocytes showed reduced intracellular Ca[sup2+] transient (-40%; P < 0.05) and rapid caffeine application caused a 17% reduction of the SR Ca[sup2+] content (P < 0.05) and a 28% reduction (P < 0.05) of fractional SR Ca[sup2+] release in α1D KO atria. In conclusion, genetic deletion of α1D Ca[sup2+] channel in mice results in atrial electrocardiographic abnormalities and AF vulnerability. The electrical abnormalities in the α1D KO mice were associated with a decrease in the total I[subCa-L] density, a reduction in intracellular Ca[sup2+] transient, and impaired intracellular Ca[sup2+] handling. These findings provide new insights into the mechanism leading to atrial electrical dysfunction in the α1D KO mice. [ABSTRACT FROM AUTHOR]

Published

2008

11. The challenge of cardiac tridimensional mapping.

Author

El-Sherif, Nabil

Subjects

BIOLOGICAL transport, INNERVATION of the heart, HEART conduction system, ACTION potentials, BODY surface mapping, CARDIAC pacing, ELECTROCARDIOGRAPHY, ELECTROPHYSIOLOGY, HEART function tests, PHYSIOLOGY

Published

2007

12. Prolonged Transient Atrial Electrical Silence Following Termination of Chronic Atrial Tachyarrhythmias.

Author

TURITTO, GIOIA, SAPONIERI, CESARE, ONUORA, AFAMEFUNA, and EL‐SHERIF, NABIL

Subjects

ARRHYTHMIA, ELECTROPHYSIOLOGY, NEUROMUSCULAR diseases, TACHYCARDIA, CARDIAC pacemakers, THERAPEUTICS, HEART diseases

Abstract

Introduction: Atrial standstill is a rare heterogeneous arrhythmia characterized by electrical and mechanical standstill and electrical inexcitability. A long-lasting progressive form is seen with cardiac and neuromuscular diseases, and a familial or idiopathic form may have a genetic basis. A transient form was described secondary to drug intoxication, electrolyte imbalance, cardiac inflammation, and ischemia. Methods: We investigated three patients with long-standing atrial tachyarrhythmia (AT) (atrial flutter in two, and focal atrial tachycardia in one). All patients underwent a complete electrophysiological study with mapping of right and left atrial activity and radiofrequency ablation (RF Abl) of AT. Results: Following RF Abl of AT, all three patients manifested transient atrial electrical silence in the absence of known reversible causes. Atrial electrical silence was observed when, following AT termination, an escape atrioventricular (AV) junctional rhythm (in two patients) and an escape VVI pacemaker rhythm (in one patient) showed transient ventriculo-atrial (VA) conduction block (up to 30 seconds). A dominant sinus rhythm was observed to return 30 minutes, 90 minutes, and 12 hours, respectively, in the three patients. Two patients received a dual chamber pacemaker and a decision was made not to upgrade the patient with VVI pacemaker. Discussion and Conclusions: The present report expands the spectrum of the syndrome of atrial standstill and raises interesting questions regarding possible electrophysiologic mechanism(s) of prolonged post overdrive atrial standstill. The report suggests that chronic overdrive of sinus and subsidiary atrial pacemakers may result in calcium overloading of cardiac cells, which is known to cause suppression of pacemaker activity as well as increased intracellular resistance. These mechanisms can possibly result in either prolonged suppression of sinus and atrial pacemaker activity and/or pacemaker exit block. [ABSTRACT FROM AUTHOR]

Published

2007

13. The kinetics of spontaneous calcium oscillations and arrhythmogenesis in the in vivo heart during ischemia/reperfusion.

Author

Lakkireddy, Vikram, Bub, Gil, Baweja, Paramdeep, Syed, Asma, Boutjdir, Mohamed, and El-Sherif, Nabil

Subjects

ISCHEMIA, REPERFUSION, OSCILLATING chemical reactions, BLOOD circulation disorders

Abstract

Background: The correlation between spontaneous calcium oscillations (S-CaOs) and arrhythmogenesis has been investigated in a number of theoretical and experimental in vitro models. There is an obvious lack of studies that directly investigate how the kinetics of S-CaOs correlates with a specific arrhythmia in the in vivo heart. Objectives: The purpose of the study is to investigate the correlation between the kinetics of S-CaOs and arrhythmogenesis in the intact heart using an experimental model of ischemia/reperfusion (I/R). Methods: Perfused Langendorff guinea pig (GP) hearts were subjected to global I/R (10-15 minutes/10-15 minutes). The heart was stained with a voltage-sensitive dye (RH237) and loaded with a Ca2+ indicator (Rhod-2 AM). Membrane voltage (Vm) and intracellular calcium transient (CaiT) were simultaneously recorded with an optical mapping system of two 16 × 16 photodiode arrays. S-CaOs were considered to arise from a localized focal site within the mapped surface when these preceded the associated membrane depolarizations by 2-15 ms. Results: In 135 episodes of ventricular arrhythmias from 28 different GP experiments, 23 were linked to S-CaOs that were considered to arise from or close to the mapped epicardial window. Self-limited or sustained S-CaOs had a cycle length of 130-430 ms and could trigger propagated ventricular depolarizations. Self-limited S-CaOs that followed the basic beat action potential (AP)/CaiT closely resembled phase 3 early afterdepolarizations. Fast S-CaOs could remain confined to a localized site (concealed) or exhibit varying conduction patterns. This could manifest as (1) an isolated premature beat (PB), bigeminal, or trigeminal rhythm; (2) ventricular tachycardia (VT) when a regular 2:1 conduction from the focal site develops; or (3) ventricular fibrillation (VF) when a complex conduction pattern results in wave break and reentrant excitation. Conclusions: The study examined, for the first time in the intact heart, the correlation between the kinetics of focal S-CaOs during I/R and arrhythmogenesis. S-CaOs may remain concealed or manifest as PBs, VT, or VF. A “benign looking” PB during I/R may represent “the tip of the iceberg” of an underlying potentially serious arrhythmic mechanism. [Copyright &y& Elsevier]

Published

2006

14. Electrophysiologic Effects of Carvedilol: Is Carvedilol an Antiarrhythmic Agent?

Author

EL‐SHERIF, NABIL and TURITTO, GIOIA

Subjects

*ARRHYTHMIA, *HEART diseases, *ADRENERGIC beta blockers, *PHARMACOLOGY, *ELECTROPHYSIOLOGY

Abstract

The cardiovascular drug carvedilol is characterized by multiple pharmacological actions, which translate into a wide-spectrum therapeutic potential. Its major molecular targets are membrane adrenoceptors, ion channels, and reactive oxygen species. Carvedilol's favorable hemodynamic effects are due to the fact that the drug competitively blocks β1-, β2-, and α1- adrenoceptors. Several additional properties have been documented and may be clinically important, including antioxidant, antiproliferative/antiatherogenic, anti-ischemic, and antihypertrophic effects. The antiarrhythmic action of carvedilol may be related to a combination of its β-blocking effects with its modulating effects on a variety of ion channels and currents. Several studies suggest that the drug may be useful in reducing cardiac death in high-risk patients with prior myocardial infarction and/or heart failure, as well as for primary and secondary prevention of atrial fibrillation. This article will review experimental data available on the electrophysiologic properties of carvedilol, with a focus on their clinical relevance. [ABSTRACT FROM AUTHOR]

Published

2005

15. Contrasting effects of ischemia on the kinetics of membrane voltage and intracellular calcium transient underlie electrical alternans.

Author

Lakireddy, Vikram, Baweja, Paramdeep, Syed, Asma, Bub, Gil, Boutjdir, Mohamed, and El-Sherif, Nabil

Subjects

ELECTROPHYSIOLOGY, ARRHYTHMIA, OPTICS, HEART diseases, PHYSIOLOGY, HEART beat, ISCHEMIA

Abstract

Repolarization alternans has been considered a strong marker of electrical instability. The objective of this study was to investigate the hypothesis that ischemia-induced contrasting effects on the kinetics of membrane voltage and intracellular calcium transient (CaiT) can explain the vulnerability of the ischemic heart to repolarization alternans. Ischemia-induced changes in action potential (AP) and CaiT resulting in alternans were investigated in perfused Langendorff guinea pig hearts subjected to 10–15 min of global no-flow ischemia followed by 10–15 min of reperfusion. The heart was stained with 100 μl of rhod-2 AM and 25 μl of RH-237, and AP and CaiT were simultaneously recorded with an optical mapping system of two 16 × 16 photodiode arrays. Ischemia was associated with shortening of AP duration (D) but delayed upstroke, broadening of peak, and slowed decay of CaiT resulting in a significant increase of CaiT-D. The changes in APD were spatially heterogeneous in contrast to a more spatially homogeneous lengthening of CaiT-D. CaiT alternans could be consistently induced with the introduction of a shorter cycle when the upstroke of the AP occurred before complete relaxation of the previous CaiT and generated a reduced CaiT. However, alternans of CaiT was not necessarily associated with alternans of APD, and this was correlated with the degree of spatially heterogeneous shortening of APD. Sites with less shortening of APD developed alternans of both CaiT and APD, whereas sites with greater shortening of APD could develop a similar degree of CaiT alternans but slight or no APD alternans. This resulted in significant spatial dispersion of APD. The study shows that the contrasting effects of ischemia on the duration of AP and CaiT anad, in particular, on their spatial distribution explain the vulnerability of ischemic heart to alternans and the increased dispersion of repolarization during alternans. [ABSTRACT FROM AUTHOR]

Published

2005

16. Spatial Dispersion of Repolarization is a Key Factor in the Arrhythmogenicity of Long QT Syndrome.

Author

RESTIVO, MARK, CAREF, EDWARD B., KOZHEVNIKOV, DMITRY O., and EL‐SHERIF, NABIL

Subjects

LONG QT syndrome, ARRHYTHMIA, ELECTROPHYSIOLOGY, ELECTROCARDIOGRAPHY, ELECTRIC properties of hearts

Abstract

Repolarization Distribution in LQT3. Introduction: The occurrence of significant spatial dispersion of repolarization in vivo as it relates to the mechanism of arrhythmia formation in the long QT syndrome (LQTS) continues to be questioned. Methods and Results: We investigated a guinea pig model of LQT3 using anthopleurin-A (AP-A) to study the contribution of rate-dependent spatial dispersion of repolarization in the intact heart to the arrhythmogenicity of LQTS. Optical action potentials were measured using potentiometric fluorescent dye di-4ANEPPS in Langendorff-perfused hearts with induced AV block. AP-A exacerbated the normal uniform epicardial apex-base action potential duration (APD) gradient, resulting in rate-dependent increased APD dispersion and nonuniform APD gradient. Spontaneous focal premature beats induced functional conduction block along boundaries where large nonuniform APD gradient occurred setting the stage for circulating wavefronts and ventricular tachyarrhythmia (VT). Endocardial ablation abolished spontaneous VT, but nonuniform epicardial APD gradient persisted and could be challenged by a stimulated premature stimulus to induce VT. Conclusion: The study shows that in LQT3, spatial variations in steady-state properties result in zones of nonuniform APD gradients. These provide a substrate for functional conduction block and reentrant excitation when challenged by subendocardial “early afterdepolarization-triggered” premature beats. The study emphasizes the key importance of spatial dispersion of repolarization, whether located in epicardial or intramyocardial layers, in arrhythmia formation in LQTS. (J Cardiovasc Electrophysiol, Vol. 15, pp. 323-331, March 2004) [ABSTRACT FROM AUTHOR]

Published

2004

17. Mechanism of Discordant T Wave Alternans in the In Vivo Heart.

Author

Chinushi, Masaomi, Kozhevnikov, Dmitry, Caref, Edward B., Restivo, Mark, and El‐Sherif, Nabil

Subjects

VENTRICULAR tachycardia, ELECTROPHYSIOLOGY, ELECTRIC properties of hearts

Abstract

Introduction: Compared to concordant T wave alternans (CA), discordant T wave alternans (DA) may be associated with an increased dispersion of repolarization (DR) and a greater propensity to develop reentrant ventricular tachyarrhythmias. The electrophysiologic mechanisms of DA in the in vivo heart are not well understood. Methods and Results: The mechanisms of DA were investigated in the canine anthopleurin-A surrogate model of long QT3 syndrome using tridimensional analysis of activation and repolarization patterns from 256 to 384 unipolar electrograms. Cardiac repolarization was evaluated as the activation-recovery interval (ARI) of local electrograms. Two mechanisms for the development of DA were observed. (1) Stepwise shortening of cycle length (CL) superimposed on preexisting DR resulted in different diastolic intervals (DI) at midmyocardial sites compared to epicardial and endocardial sites. The dispersion of DI coupled with different restitution kinetics at those sites induced DA. (2) The dependence of conduction velocity on DI as the CL is abruptly shortened could result in differential conduction delays at mid sites. This enhanced the dispersion of DI between sites and, coupled with the different restitution kinetics, induced DA. The critical step for the development of DA in both mechanisms was the occurrence of short ARI in two consecutive beats either at epicardial sites in the first mechanism or at mid sites in the second mechanism. Sites with DA had significantly more DR compared to sites with concordant T wave alternans, and ventricular tachyarrhythmias developed mainly in the presence of DA. Conclusion: In the in vivo heart, DA developed due to critical interaction between dispersion of DI and differences in restitution kinetics at different myocardial sites. The dispersion of DI could result from preexisting DR or differential conduction delay at a critical short CL. DA is critically linked to the development of malignant tachyarrhythmias. (J... [ABSTRACT FROM AUTHOR]

Published

2003

18. Mechanism of Ventricular Arrhythmias in the Long QT Syndrome: On Hermeneutics.

Author

El-Sherif, Nabil and Rudy, Yoram

Subjects

HEART beat, CARDIAC pacing, ARRHYTHMIA treatment, ELECTRIC stimulation, ELECTRICITY in medicine, ELECTROPHYSIOLOGY, ELECTROTHERAPEUTICS

Abstract

Both the congenital and acquired long QT syndrome are due to abnormalities (intrinsic and/or acquired) of the ionic currents underlying repolarization. The prolongation of repolarization acts as a priming step for the generation of early afterdepolarizations. In the long QT syndrome, it also is associated with increased dispersion of repolarization. Focal early afterdepolarization-induced triggered beat(s) can infringe on the underlying substrate of inhomogeneous repolarization to initiate polymorphic reentrant ventricular tachycardia that sometimes has a characteristic twisting of the QRS axis, referred to as torsades de pointes. [ABSTRACT FROM AUTHOR]

Published

2001

19. Alterations of Sodium Channel Kinetics and Gene Expression in the Postinfarction Remodeled Myocardium.

Author

Huang, Boyu, El-Sherif, Tarek, Gidh-Jain, Madhavi, Qin, Dayi, and El-Sherif, Nabil

Subjects

MYOCARDIAL infarction, HYPERTROPHY, MUSCLE cells, ELECTROPHYSIOLOGY, MYOCARDIUM

Abstract

Introduction: After a myocardial infarction (MI), the heart undergoes a remodeling process that includes hypertrophy of noninfarcted left ventricular myocytes. Alterations in the genetic expression, including reexpression of fetal isogene patterns, can result in electrophysiologic changes that contribute to the arrhythmogenicity of post-MI heart. The present study investigated possible alterations in gene expression of Na+ channel subtypes, as well as the kinetics of the Na+ current (INa), in 3- to 4-week-old post-MI rat remodeled left ventricular myocardium. Methods and Results: Using a macropatch technique, we showed increased Na+ channel bursting activity during sustained depolarization in post-MI remodeled myocytes resulting in a large slow component of the INa decay. A tetrodotoxin-sensitive current contributed 18% to the prolonged APD90 of isolated post-MI myocytes compared with 6% in control myocytes . Our molecular studies revealed that, in addition to the rat heart I (rH I) subtype, thought to be the predominant subtype that encodes a tetrodotoxin-resistant isoform, the brain subtypes NaCh I and NaCh Ia also are expressed in the rat myocytes. Post-MI remodeled myocardium showed increased expression of NaCh I protein with reversion of the NaCh Ia/NaCh I isoform ratio toward the fetal phenotype. Conclusion: Our findings raise the possibility that the increase in the slow component of INa in post-MI remodeled myocytes is secondary to the increased expression of NaCh I. Additional studies are required to address these questions and to characterize the functional role of the NaCh I subtypes in cardiac myocytes. [ABSTRACT FROM AUTHOR]

Published

2001

20. Early Down-Regulation of K+ Channel Genes and Currents in the Postinfarction Heart.

Author

Huang, Boyu, Qin, Dayl, and El-Sherif, Nabil

Subjects

GENE expression, CARDIAC hypertrophy, TACHYARRHYTHMIAS, MUSCLE cells, HYPERTROPHY, ELECTROPHYSIOLOGY

Abstract

Introduction: Down-regulation of key K+ channel subunit gene expression and K+ currents is a universal response to cardiac hypertrophy, whatever the cause, Including the postmyocardial Infarction (post-MI) remodeled heart. Methods and Results: We investigated the hypothesis that down-regulation of K+ channel genes and currents post-MI occurs early and before significant remodeled hypertrophy of the noninfarcted myocardium could be detected. We investigated (1) the Incidence of induced ventricular tachyarrhythmias (VT) in 3-day post-MI rat heart; (2) action potential (AP) characteristics of isolated left ventricular (LV) myocytes from sham-operated and 3-day post-MI head; (3) time course of changes in outward K+ currents Ito-fast(f) and IK in isolated myocytes from 3-day and 4-week post-MI noninfarcted LV and compared the changes with sham-operated animals; and (4) changes in the messenger and protein levels of Kv2.1, Kv4.2, and Kv4.3 In the LV and right ventricle of 3-day post-MI heart. Sustained VT was Induced in 6 of 10 3-day post-MI rats and in none of 8 sham rats. The membrane capacitance of myocytes isolated from 3-day post-MI noninfarcted LV was not significantly different from control, whereas membrane capacitance 4-week post-MI was significantly higher, reflecting the development of hypertrophy. At duration was increased and the density of Ito-f and IK were significantly decreased In 3-day post-MI LV myocytes compared with sham The reduced density of IK, did not significantly differ in 4-week post-MI LV myocytes, whereas the density of IK was decreased further at 4 weeks post-MI. The changes in Ito-f and IK correlated with decreased messenger and protein levels of Kv4.2/Kv4.3 and Kv2.1, respectively. Conclusion: These results support the hypothesis that down-regulation of K+ channel gene expression and current In the post-MI LV occurs early and may be dissociated from the slower time course of post-MI remodeled hypertrophy. These changes may contribute to early arrhythmogenesis of the post-MI head. [ABSTRACT FROM AUTHOR]

Published

2000

21. Unitary Current Analysis of L-type Ca[sup2+] Channels in Human Fetal Ventricular Myocytes.

Author

Long Chen, El-Sherif, Nabil, and Boutjdir, Mohamed

Subjects

CALCIUM channels, ION channels, CELL membranes, MUSCLE cells, ANTIHYPERTENSIVE agents, CALCIUM antagonists, ARRHYTHMIA

Abstract

Introduction: L-type calcium channels were studied in cell-attached patches from ventricular cell membranes of human fetal heart. Methods and Results: Experiments were performed in the presence of 70 mM Ba2+ as the charge carrier at 22°C to 24°C. Unitary current sweeps were evoked by 300-msec depolarizing pulses to 0 mV from a holding potential of -50 mV at 0.5 Hz. Recorded currents were blocked by nisoldipine (1 μM) and stimulated by (-)Bay K 8644 (1 μM). During control, channel activity was seen in 13.9% ± 4.2% of the total 200 sweeps. Ensemble average current amplitude was 0.03 ± 0.01 pA (n = 6) and average conductance was 20.4 ± 0.2 pS (n = 5). Analysis of single channel kinetics showed open time and closed time histograms were best fit by one and two exponentials, respectively. Mean open time was To = 0.99 ± 0.05 msec (n = 6). Mean closed time fast (Tcf) and slow (Tcs) component values were Tcf = 0.85 ± 0.09 msec and Tcs = 8.0 ± 0.94 msec (n = 6), respectively. With intrapipette (-)Bay K 8644 (1 μM), mean open time was best fit by two exponentials, Tcf = 0.9 ± 0.2 msec (n = 10) and Tos = 134 ± 2.6 msec (n = 10); mean close time values were Tcf = 0.6 ± 0.1 msec (n = 10) and Tcs = 9.8 ± 1.9 msec (n = 10), respectively. With (-)Bay K 8644, channel activity was 66.5% ± 7.4%, the ensemble average current was 0.52 ± 0.04 pA (n = 10) and the conductance 20.7 ± 0.5 pS (n = 5). conclusion: (1) the data establishes the characteristics of L-type Ca channels of human fetal hearts and their modulation by dihydropyridines; (2) the open time kinetics differ from those of avian embryonic and rat fetal hearts; and (3) the findings provide new and relevant information for understanding the physiologic behavior of unitary Ca2+ channels in the developing human heart and the baseline comparison for diseases that implicate Ca2+ channels in their etiology, such as autoimmune-associated congenital heart block. [ABSTRACT FROM AUTHOR]

Published

1999

22. Procainamide in the Induction and Perpetuation of Ventricular Tachycardia in Man.

Author

Kang, Pritpal S., Gomes, Joseph Anthony C., and El-Sherif, Nabil

Subjects

TACHYCARDIA, ELECTRIC stimulation, HEART ventricles, ARRHYTHMIA, ELECTROPHYSIOLOGY, DRUG use testing

Abstract

The effects of a single intravenous infusion of 750 mg of procainamide was studied in 12 patients with symptomatic chronic recurrent venlricular tachycardia in whom arrhythmias could reproducibly be initiated and terminated by programmed electrical stimulation of the heart. Sustained ventricular tachycardia was induced in 6 patients and non-sustained tachycardia was induced in the remaining 6 patients during control studies. Following procainamide (plasma level 10.3 ± 3.7 mcg/ml], ventricular tachycardia could be induced in 10/12 patients, sustained in 4 patients and non-sustained in the remaining 6 patients. In 8/12 patients (66%). induction of ventricular tachycardia was facilitated as demonstrated by: (1) tachycardia zone was widened in 4 patients and was unchanged in another 3 patients; (2) non-sustained ventricular tachycardia was changed to sustained ventricular tachycardia in one patient. The ventricular tachycardia had a faster rate and a different QRS morphology; [3] in 4 patients tachycardia was inducible with a lesser number of extrastimuli and/ or by spontaneously occurring ventricular premature depolarization and; (4) increase of the number of induced ventricular responses of non-sustained ventricular tachycardia. In 4/12 patients )(33%), procainamide abolished or modified the induction of ventricular tachycardia as demonstrated by: (1) inability to induce ventricular tachycardia in 2 patients; (2) narrowing of the tachycardia zone and conversion from sustained into non-sustained ventricular tachycardia (one patient) and; (3) decrease in the number of induced ventricular responses in one patient. The response to procainamide could not be predicted from rates of spontaneous ventricular tachycardia, induced ventricular tachycardia during control studies, degree of slowing of ventricular tachycardia or from prolongation of the coupling interval after procainamide. These results suggest that instead of abolishing the arrhythmia, procainamide in frequently employed doses in patients with chronic recurrent ventricular tachycardia can facilitate its initiation sometimes at even faster rates. Patients not responsive to the usual doses of procainamide should undergo acute drug testing trials to determine the optimal dose/drug levels. [ABSTRACT FROM AUTHOR]

Published

1982

23. Electrophysiological Basis of Ventricular Late Potentials.

Author

El-Sherif, Nabil, Cough, William B., Restivo, Mark, Craelius, William, Henkin, Raphael, and Caref, Edward B.

Subjects

ELECTROCARDIOGRAPHY, MYOCARDIAL infarction, ELECTRIC properties of hearts, ELECTROPHYSIOLOGY, CORONARY disease, ELECTRODIAGNOSIS

Abstract

The presence of late potentials on the body surface recording was correlated with ventricular activation maps of reentrant circuits in the postinfarction canine model of reentrant excitation. Late potentials were found to correlate with delayed myocardial activation. However, during a reentrant rhythm complete diastolic activity on the body surface could not be detected if the mass of electrically active cells was too small and/or if very slow conduction in part of the reentrant circuit generated low amplitude extracellular potentials. Myocardial zones responsible for late potentials during a basic rhythm (e.g., sinus rhythm) may not necessarily be part of the critical zone of slow conduction during reentrant activation. Dynamic changes in late potentials are not amenable to temporal signal averaging techniques but could be detected by a high resolution beat-to-beat recording. A thorough understanding of the electrophysiological limitations of late potentials in the signal-averaged ECG could result in better utilization of the technique in clinical practice as well as in the development of new approaches for the detection of the arrhythmogenic substrate. [ABSTRACT FROM AUTHOR]

Published

1990

24. Reentry Revisited.

Author

El-Sherif, Nabil

Subjects

ARRHYTHMIA, EXCITATION (Physiology), ELECTROPHYSIOLOGY, HEART ventricles, HEART

Abstract

Focuses on the importance of reentrant excitation as a mechanism for cardiac arrhythmia. Difficulty of obtaining information on the electrophysiological requirements for reentry; Role of reflection in clinical arrhythmia; Demonstration of the multiple muscular connections between the atrium and ventricle in the human heart.

Published

1988

25. Late Potentials and Arrhythmogenesis.

Author

El-Sherif, Nabil, Gomes, Joseph A. C., Restivo, Mark, and Mehra, Rahul

Subjects

ARRHYTHMIA, ELECTROCARDIOGRAPHY, CORONARY disease, ELECTRIC stimulation, ELECTROPHYSIOLOGY, CARDIAC pacing

Abstract

There are three current prognostic indicators of ventricular electrical instability: (1) categorization and stratification of spontaneous ventricular arrhythmias from standard EGG recordings; (2) programmed electrical stimulation; (3) direct recording of delayed depolarization potentials, usually referred to as late potentials. Of the three, the latter offers a new and promising approach. Late potentials represent delayed activation potentials of diseased myocardial zones and may prove to be a strong independent marker of the propensity to develop reentrant ventricular arrhythmias and sudden cardiac electrical death. The problem in identifying late potentials on the body surface is that the signal is smaller than the electrical noise produced by various sources. Two different techniques have been utilized to improve the signal-to-noise ratio: first, signal averaging, which is applicable to regular repetitive electrocardiographic signals but cannot detect moment-to-moment dynamic changes in the signal; second, low-noise or high-resolution electrocardiography that utilizes spatial averaging techniques as well as other noise-reducing measures to record the late potentials on a heat-to-beat basis. This technique has the potential of directly identifying malignant "reentrant" versus benign "focal" ventricular rhythms. The present report discusses the electrophysiologic basis of late potentials and the clinical results of both signal-averaged and low-noise recordings for evaluation of ventricular electrical instability, particularly in patients with ischemic heart disease. [ABSTRACT FROM AUTHOR]

Published

1985

26. Effects of Azimilide Dihydrochloride on Circus Movement Atrial Flutter in the Canine Sterile Pericarditis Model.

Author

Restivo, Mark, Hegazy, Maha, Caref, Edward B., Avitable, Matthew J., Assadi, Mahshid A., El-Hamami, Moustafa, Hong Yin, Piracha, Muhammad, Brooks, Robert R., and El-Sherif, Nabil

Subjects

ATRIAL flutter, ATRIAL arrhythmias, DOGS, PERICARDITIS, ELECTROPHYSIOLOGY

Abstract

Introduction: The effects of a Class III agent, azimilide dihydrochloride, on atrial flutter circuits were studied in a functional model of single loop reentrant atrial flutter using dogs, 3 to 5 days after production of sterile pericarditis. Methods and Results: A computerized mapping system was used to construct activation maps from 138 to 222 epicardial sites in the right atrium. Doses of 3, 10, and 30 mg/kg IV azimilide dihydrochloride were analyzed in 8 dogs in which sustained atrial flutter lasting more than 30 minutes was induced by burst pacing. Atrial flutter was always due to a single loop circus movement reentry in the lower right atrium. At 3 mg/kg, azimilide dihydrochloride terminated atrial flutter in 2 dogs; however, atrial flutter was reinduced. At 10 mg/kg, atrial flutter was terminated in all 8 dogs but was reinduced in 4 dogs with slower rate. At 30 mg/kg. atrial flutter was terminated in the remaining 4 dogs and could not be reinduced. Atrial flutter cycle length always increased prior to termination. Isochronal activation maps showed that the increase in cycle length was due to additional conduction delays in the slow zone of the reentrant circuit. The site of termination was always located within the slow conduction zone situated in the lower right atrium between the line of functional conduction block and the AV ring. Reflective refractory periods (ERPs) were measured at selected sites in the slow zone and normal zone at twice diastolic threshold for the 10 mg/kg dose. Azimilide preferentially prolonged ERP in the slow zone (42.4 ± 20.1 msec, mean ± SD) compared with the normal zone (23.3 ± 15.4 msec, P < 0.0001). The increase in cycle length corresponded with the increase in ERP in the slow zone. Conclusions: In a functional model of circus movement atrial flutter, azimilide dihydrochloride terminates and prevents reinduction of atrial flutter by a preferential increase in refractoriness leading to further conduction delay and conduction block in the slow zone of the functional reentrant circuit. [ABSTRACT FROM AUTHOR]

Published

1996

27. Activation Time Determination by High--Resolution Unipolar and Bipolar Extracellular Electrograms in the Canine Heart.

Author

Ndrepepa, Gjin, Caref, Edward B., Hong Yin, El-Sherif, Nabil, and Restivo, Mark

Subjects

ELECTROCARDIOGRAPHY, LEFT heart ventricle, ELECTRODES, ELECTROPHYSIOLOGY, HEART conduction system, HEART physiology

Abstract

Introduction: To identify the optimal criteria for activation time (AT) determination of bipolar electrograms from normal hearts, a high-resolution cross electrode array comprising 128 unipolar electrodes of 500-µm spacing was used to record extracellular potentials from the left ventricular epicardium of 12 dog hearts. Methods and Results: Recordings were made during broad wavefront propagation (B wave) and local elliptical wavefront propagation (E wave). Characteristics of 863 bipolar electrograms (1-mm spacing) were constructed from unipolar data standardized for differences in polarity, then clarified morphologically. Features for bipolar AT determination were compared to the time of the negative peak of the first temporal derivative of a unipolar electrogram situated mid-way between the bipoles. During B wave, three distinct morphologies were observed: uniphasic (61%), biphasic (23%), and triphasic (16%). Peak voltage of uniphasic and triphasic signals was the best predictor of AT (error: 0.6 ± 0.6 msec and 0.6 ± 0.8 msec, respectively). During E wave, parallel orientation of the bipoles with respect to the direction of impulse propagation wavefront resulted in uniphasic signals (> 99%), while for perpendicular orientation of the bipoles, electrogram morphology was variable. For parallel orientation of the bipoles, peak negative voltage was the best predictor of AT for both longitudinal and transverse propagation, while for perpendicular bipole orientation, peak negative voltage was a less reliable predictor for propagation along both fiber axes. Increasing interpolar distance resulted in a degradation in AT accuracy for B wave (from 0.6 ± 0.6 msec at 1 mm to 1.1 ± 1.2 msec at 7 mm) and for E wave (from 0.4 ± 0.3 msec at 1 mm to 3.1 ± 2.9 msec at 7 mm). Conclusions: (1) The accuracy of bipolar electrograms is sensitive to wavefront direction, bipole orientation, and interpolar distance; (2) peak negative voltage of uniphasic and triphasic signals is a reliable predictor of AT, but only for B wave; (3) a maximum interpolar distance of 2 mm and bipole orientation parallel to the direction of the impulse wavefront are minimally required for accurate determination of AT during impulse propagation initiated near the recording electrodes; and (4) for impulses initiated near the recording site in normal tissue, a biphasic or triphasic morphology almost certainly indicates that the bipolar electrode is oriented perpendicular to the wavefront direction, irrespective of fiber orientation. [ABSTRACT FROM AUTHOR]

Published

1995

28. Early Afterdepolarizations and Arrhythmogenesis.

Author

El-Sherif, Nabil, Craelius, William, Boutjdir, Mohamed, and Gough, William B.

Subjects

TACHYARRHYTHMIAS, TACHYCARDIA, ARRHYTHMIA, ELECTROPHYSIOLOGY, HEART beat

Abstract

Details the evidence that early afterdepolarizations (EAD) and early afterdepolarization-induced triggered activity play a significant role in the clinical syndrome of long QTU heart wave and polymorphic ventricular tachyarrhythmias. Definition of EAD; Steps required for the manifestation of early afterdepolarization-induced triggered activity; Ionic mechanisms of repolarization;

Published

1990

29. Polymorphic Ventricular Tachycardia and Torsades de Pointes: Beyond Etymology.

Author

El-Sherif, Nabil

Subjects

VENTRICULAR tachycardia, ELECTROPHYSIOLOGY, LONG QT syndrome, ARRHYTHMIA, TACHYCARDIA

Abstract

Comments on a study regarding the electrophysiologic mechanism of polypleomorphic ventricular tachycardia (PVT). Definition of Torsades de pointes (TdP); Significance of the electrophysiologic mechanism for PVT to the proper management of individual patients; Emphasis on the difference of mechanism for transition of the QRS configuration of TdP in long QT syndrome.

Published

2001

30. Catheter Entrapment in the Mitral Valve Apparatus Requiring Surgical Removal: An Unusual Complication of Radiofrequency Ablation.

Author

Mandawat, Mahendra K., Turitto, Gioia, and El-Sherif, Nabil

Subjects

MITRAL valve, CATHETER ablation, WOLFF-Parkinson-White syndrome, ARRHYTHMIA, CATHETERIZATION, ELECTROSURGERY, ELECTROPHYSIOLOGY

Abstract

We describe a patient with Wolff-Parkinson-White syndrome in whom a steerable catheter became entrapped in the mitral valve apparatus, during radiofrequency ablation. Treatment consisted of surgical removal of the catheter. The occurrence of this previously unreported complication stresses the need for on-going monitoring of risk and benefits of electrophysiological interventions. [ABSTRACT FROM AUTHOR]

Published

1998

31. To the Editor:.

Author

Antzelevitch, Charles, El‐Sherif, Nabil, Rosenbaum, David, and Vos, Marc

Subjects

*LETTERS to the editor, *ARRHYTHMIA, *VENTRICULAR fibrillation, *ELECTROPHYSIOLOGY

Abstract

Presents a letter to the editor published in the January 2003 issue of 'Journal of Cardiovascular Electrophysiology,' on an article published in the September 2002 issue. Discussion on cellular mechanism involved in long QT syndrome; Induction of ventricular fibrillation in arrhythmias study.

Published

2003

32. Cardiac Repolarization and Stem Cells: An Emerging Path Toward Precision Medicine

Author

Gnecchi, Massimiliano, Sala, Luca, Schwartz, Peter J., and El-Sherif, Nabil, editor

Published

2020