Your search keyword '"Ng, Ghulam André"' showing total 12 results

1. Mechanical performance, intracellular Ca²⁺ handling and ventricular repolarisation in isolated hearts from rabbits with heart failure

Author

Ng, Ghulam André

Subjects

610, RC Internal medicine

Abstract

In this thesis, a rabbit coronary artery ligation model was used to study the cardiac mechanical performance, Ca2+ handling and ventricular activation/repolarisation in heart failure. Significant cardiac dilatation and contractile dysfunction were demonstrated in vivo on echocardiography 7 weeks after the initial myocardial infarct resulting from the coronary artery ligation procedure. In addition, liver, lung and heart weights were increased indicating significant organ congestion, cardiac remodelling and hypertrophy as seen in the human clinical syndrome of heart failure. Impaired mechanical performance was also demonstrated in vitro in the isolated failing hearts both in the working heart configuration and during Langendorff perfusion, with significant systolic and diastolic dysfunction. The Frank-Starling relationship was attenuated in the failing hearts and there was also a blunted slow response to step increase in pre-load, which may partly explain the findings of the Frank-Starling relationship in the failing hearts. Epicardial Ca2+ transients measured from the isolated failing hearts were found to have a prolonged time course. Impaired relaxation was shown to be associated with the prolonged Ca2+ transient durations in the failing hearts and there was an increased variation of Ca2+ transient durations over the left ventricular epicardial surface in the failing hearts. Monophasic Action Potentials (MAPs) measured from the left ventricular epicardial surface of failing hearts also had a prolonged time course and there was also an increased variation of MAP durations. The prolonged Ca2+ transient durations appeared to be associated with prolonged MAP durations in the failing hearts. Finally, delayed ventricular activation with impaired intraventricular conduction was demonstrated in the failing hearts, which may be an additional contributory factor in the mechanical dysfunction in heart failure.

Published

1998

2. Safety and efficacy of direct oral anticoagulants in bioprosthetic valves: A systematic review and meta-analysis

Author

Bakr, Lubna, primary, Elsayed, Ahmed, additional, Saleh, Omar, additional, Abdalraouf, Mostafa, additional, Ng, Ghulam André, additional, and Ibrahim, Mokhtar, additional

Published

2023

3. Hybrid machine learning to localize atrial flutter substrates using the surface 12-lead electrocardiogram

Author

Luongo, Giorgio, primary, Vacanti, Gaetano, additional, Nitzke, Vincent, additional, Nairn, Deborah, additional, Nagel, Claudia, additional, Kabiri, Diba, additional, Almeida, Tiago P, additional, Soriano, Diogo C, additional, Rivolta, Massimo W, additional, Ng, Ghulam André, additional, Dössel, Olaf, additional, Luik, Armin, additional, Sassi, Roberto, additional, Schmitt, Claus, additional, and Loewe, Axel, additional

Published

2022

4. LifeMap: towards the development of a new technology in sudden cardiac death risk stratification for clinical use

Author

Ng, Ghulam André, primary, Mistry, Amar, additional, Li, Xin, additional, Schlindwein, Fernando S, additional, and Nicolson, William B, additional

Published

2018

5. Comparison of computation time for estimation of dominant frequency of atrial electrograms: Fast fourier transform, blackman tukey, autoregressive and multiple signal classification

Author

Ahmad, Anita, primary, Schlindwein, Fernando Soares, additional, and Ng, Ghulam André, additional

Published

2010

6. Visualizing Intracardiac Atrial Fibrillation Electrograms Using Spectral Analysis.

Author

Salinet Jr., João Loures, Oliveira, Guilherme N., Vanheusden, Frederique Jos, Comba, João Luiz Dihl, Ng, Ghulam André, and Schlindwein, Fernando Soares

Subjects

ATRIAL fibrillation treatment, THREE-dimensional imaging, ARRHYTHMIA, CATHETER ablation, SPECTRAL analysis (Phonetics)

Abstract

Atrial fibrillation is the most common cardiac arrhythmia, and it is associated with increased risk of stroke, heart failure, and mortality. This work describes spectral analysis techniques that are being used in conjunction with visualization algorithms to help guide catheter ablation procedures that aim at treating patients with arrhythmia. [ABSTRACT FROM PUBLISHER]

Published

2013

7. Mechanical performance, intracellular CA²⁺ handling and ventricular repolarisation in isolated hearts from rabbits with heart failure

Author

Ng, Ghulam André and Ng, Ghulam André

Abstract

In this thesis, a rabbit coronary artery ligation model was used to study the cardiac mechanical performance, Ca2+ handling and ventricular activation/repolarisation in heart failure. Significant cardiac dilatation and contractile dysfunction were demonstrated in vivo on echocardiography 7 weeks after the initial myocardial infarct resulting from the coronary artery ligation procedure. In addition, liver, lung and heart weights were increased indicating significant organ congestion, cardiac remodelling and hypertrophy as seen in the human clinical syndrome of heart failure. Impaired mechanical performance was also demonstrated in vitro in the isolated failing hearts both in the working heart configuration and during Langendorff perfusion, with significant systolic and diastolic dysfunction. The Frank-Starling relationship was attenuated in the failing hearts and there was also a blunted slow response to step increase in pre-load, which may partly explain the findings of the Frank-Starling relationship in the failing hearts. Epicardial Ca2+ transients measured from the isolated failing hearts were found to have a prolonged time course. Impaired relaxation was shown to be associated with the prolonged Ca2+ transient durations in the failing hearts and there was an increased variation of Ca2+ transient durations over the left ventricular epicardial surface in the failing hearts. Monophasic Action Potentials (MAPs) measured from the left ventricular epicardial surface of failing hearts also had a prolonged time course and there was also an increased variation of MAP durations. The prolonged Ca2+ transient durations appeared to be associated with prolonged MAP durations in the failing hearts. Finally, delayed ventricular activation with impaired intraventricular conduction was demonstrated in the failing hearts, which may be an additional contributory factor in the mechanical dysfunction in heart failure.

8. Mechanical performance, intracellular CA²⁺ handling and ventricular repolarisation in isolated hearts from rabbits with heart failure

Author

Ng, Ghulam André and Ng, Ghulam André

Abstract

In this thesis, a rabbit coronary artery ligation model was used to study the cardiac mechanical performance, Ca2+ handling and ventricular activation/repolarisation in heart failure. Significant cardiac dilatation and contractile dysfunction were demonstrated in vivo on echocardiography 7 weeks after the initial myocardial infarct resulting from the coronary artery ligation procedure. In addition, liver, lung and heart weights were increased indicating significant organ congestion, cardiac remodelling and hypertrophy as seen in the human clinical syndrome of heart failure. Impaired mechanical performance was also demonstrated in vitro in the isolated failing hearts both in the working heart configuration and during Langendorff perfusion, with significant systolic and diastolic dysfunction. The Frank-Starling relationship was attenuated in the failing hearts and there was also a blunted slow response to step increase in pre-load, which may partly explain the findings of the Frank-Starling relationship in the failing hearts. Epicardial Ca2+ transients measured from the isolated failing hearts were found to have a prolonged time course. Impaired relaxation was shown to be associated with the prolonged Ca2+ transient durations in the failing hearts and there was an increased variation of Ca2+ transient durations over the left ventricular epicardial surface in the failing hearts. Monophasic Action Potentials (MAPs) measured from the left ventricular epicardial surface of failing hearts also had a prolonged time course and there was also an increased variation of MAP durations. The prolonged Ca2+ transient durations appeared to be associated with prolonged MAP durations in the failing hearts. Finally, delayed ventricular activation with impaired intraventricular conduction was demonstrated in the failing hearts, which may be an additional contributory factor in the mechanical dysfunction in heart failure.

9. Mechanical performance, intracellular CA²⁺ handling and ventricular repolarisation in isolated hearts from rabbits with heart failure

Author

Ng, Ghulam André and Ng, Ghulam André

Abstract

In this thesis, a rabbit coronary artery ligation model was used to study the cardiac mechanical performance, Ca2+ handling and ventricular activation/repolarisation in heart failure. Significant cardiac dilatation and contractile dysfunction were demonstrated in vivo on echocardiography 7 weeks after the initial myocardial infarct resulting from the coronary artery ligation procedure. In addition, liver, lung and heart weights were increased indicating significant organ congestion, cardiac remodelling and hypertrophy as seen in the human clinical syndrome of heart failure. Impaired mechanical performance was also demonstrated in vitro in the isolated failing hearts both in the working heart configuration and during Langendorff perfusion, with significant systolic and diastolic dysfunction. The Frank-Starling relationship was attenuated in the failing hearts and there was also a blunted slow response to step increase in pre-load, which may partly explain the findings of the Frank-Starling relationship in the failing hearts. Epicardial Ca2+ transients measured from the isolated failing hearts were found to have a prolonged time course. Impaired relaxation was shown to be associated with the prolonged Ca2+ transient durations in the failing hearts and there was an increased variation of Ca2+ transient durations over the left ventricular epicardial surface in the failing hearts. Monophasic Action Potentials (MAPs) measured from the left ventricular epicardial surface of failing hearts also had a prolonged time course and there was also an increased variation of MAP durations. The prolonged Ca2+ transient durations appeared to be associated with prolonged MAP durations in the failing hearts. Finally, delayed ventricular activation with impaired intraventricular conduction was demonstrated in the failing hearts, which may be an additional contributory factor in the mechanical dysfunction in heart failure.

10. Electrophysiological substrates of atrial fibrillation : a frequency domain study of intra-cardiac electrograms

Author

Tuan, Jiun Haur, Ng, Ghulam André, and Stafford, Peter

Subjects

616.1

Abstract

The mechanisms responsible for maintenance of AF remain poorly understood. This thesis examines the frequency domain characteristics of AF in order to gain further insights into this arrhythmia. Through a series of studies involving patients undergoing catheter ablation for atrial fibrillation, intra-cardiac electrograms of AF were collected and analysed using Fast Fourier Transform to derive frequency domain parameters of dominant frequency (DF) and organization index (OI). It was found that intravenous flecainide reduced DF of AF, but only an associated increase in OI was predictive of successful return to sinus rhythm. In another study of patients having catheter ablation for persistent AF, a higher OI post-ablation was found to be associated with medium-term freedom of AF, suggesting that OI may be a useful guide to determine the extent of radiofrequency ablation needed. The effects of vagal blockade with atropine were also studied and compared with that of catheter ablation using a stepwise strategy of isolating the pulmonary veins, linear ablation and complex fractionated electrogram ablation, without deliberately targeting ganglionated plexi. This showed that atropine reduced DF and increased OI of AF electrograms, while decreasing mean RR intervals, standard deviation of RR intervals and 5th percentile of RR intervals. The directional changes of all the above parameters mirrored that of catheter ablation, suggesting that vagal blockade and catheter ablation not deliberately aimed at autonomic tissue can have similar effects on the frequency spectrum of AF, probably mediated through modulation of the autonomic tone. The relationship of regional DF and electrogram complexity as assessed by automated measurement of complex fractionated electrogram – mean (CFE-mean) were also compared, pre and post-ablation of the left atrium. There appeared to be only a modest correlation between the two and this was further weakened following ablation, suggesting that these are possibly separate substrate entities.

Published

2011

11. Hybrid machine learning to localize atrial flutter substrates using the surface 12-lead electrocardiogram.

Author

Luongo G, Vacanti G, Nitzke V, Nairn D, Nagel C, Kabiri D, Almeida TP, Soriano DC, Rivolta MW, Ng GA, Dössel O, Luik A, Sassi R, Schmitt C, and Loewe A

Subjects

Electrocardiography methods, Heart Conduction System, Humans, Machine Learning, Atrial Flutter diagnosis, Atrial Flutter etiology, Atrial Flutter surgery, Catheter Ablation

Abstract

Aims: Atrial flutter (AFlut) is a common re-entrant atrial tachycardia driven by self-sustainable mechanisms that cause excitations to propagate along pathways different from sinus rhythm. Intra-cardiac electrophysiological mapping and catheter ablation are often performed without detailed prior knowledge of the mechanism perpetuating AFlut, likely prolonging the procedure time of these invasive interventions. We sought to discriminate the AFlut location [cavotricuspid isthmus-dependent (CTI), peri-mitral, and other left atrium (LA) AFlut classes] with a machine learning-based algorithm using only the non-invasive signals from the 12-lead electrocardiogram (ECG)., Methods and Results: Hybrid 12-lead ECG dataset of 1769 signals was used (1424 in silico ECGs, and 345 clinical ECGs from 115 patients-three different ECG segments over time were extracted from each patient corresponding to single AFlut cycles). Seventy-seven features were extracted. A decision tree classifier with a hold-out classification approach was trained, validated, and tested on the dataset randomly split after selecting the most informative features. The clinical test set comprised 38 patients (114 clinical ECGs). The classifier yielded 76.3% accuracy on the clinical test set with a sensitivity of 89.7%, 75.0%, and 64.1% and a positive predictive value of 71.4%, 75.0%, and 86.2% for CTI, peri-mitral, and other LA class, respectively. Considering majority vote of the three segments taken from each patient, the CTI class was correctly classified at 92%., Conclusion: Our results show that a machine learning classifier relying only on non-invasive signals can potentially identify the location of AFlut mechanisms. This method could aid in planning and tailoring patient-specific AFlut treatments., (© The Author(s) 2022. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2022

12. LifeMap: towards the development of a new technology in sudden cardiac death risk stratification for clinical use.

Author

Ng GA, Mistry A, Li X, Schlindwein FS, and Nicolson WB

Subjects

Action Potentials, Animals, Clinical Decision-Making, Death, Sudden, Cardiac prevention & control, Defibrillators, Implantable, Electric Countershock instrumentation, Heart Rate, Humans, Predictive Value of Tests, Prognosis, Risk Assessment, Risk Factors, Ventricular Fibrillation mortality, Ventricular Fibrillation physiopathology, Ventricular Fibrillation therapy, Death, Sudden, Cardiac epidemiology, Decision Support Techniques, Electrocardiography, Ventricular Fibrillation diagnosis

Abstract

Sudden cardiac death (SCD) is a major cause of mortality presenting a significant unmet clinical need. Patients at risk of SCD are implanted with implantable cardioverter-defibrillators (ICDs) according to international guidelines based on clinical trial evidence. Implantable cardioverter-defibrillators are not inexpensive and not without problem in terms of inappropriate shocks and infection risk. Also, only a minority of patients implanted with the ICD ever use the device during its battery lifetime highlighting the fact that methods used for SCD risk stratification are inadequate. Better ways of predicting who is at risk of SCD are needed. In addition, there is no effective prevention due to the lack of understanding of the electrical mechanisms underlying SCD. Our group has been investigating the electrophysiological basis of ventricular fibrillation and have successfully applied our preclinical findings to translational studies in patients with ischaemic cardiomyopathy. We have developed two ECG markers which have been shown to be strong predictors of ventricular arrhythmias and SCD. Ongoing clinical studies are being carried out including a multicentre UK study to consolidate the evidence base. They are being incorporated into the technology, LifeMap, with the aim to develop a successful clinical tool for the assessment of SCD risk. We hereby present the scientific data leading to the technology and the development to date. The information provided here was presented at the European Heart Rhythm Association (EHRA) Europace/Cardiostim conference at which LifeMap won the EHRA Inventors Award 2016.

Published

2018