Your search keyword '"electrical mapping"' showing total 42 results

1. Noninvasive Electrical Mapping Compared with the Paced QRS Complex for Optimizing CRT Programmed Settings and Predicting Multidimensional Response.

Author

Morales, Frances, Bivona, Derek, Abdi, Mohamad, Malhotra, Rohit, Monfredi, Oliver, Darby, Andrew, Mason, Pamela, Mangrum, J, Mazimba, Sula, Stadler, Robert, Epstein, Frederick, Bilchick, Kenneth, and Oomen, Pim

Subjects

Cardiac magnetic resonance, Cardiac resynchronization therapy, Electrical mapping, Heart failure, Right ventricular function, Humans, Cardiac Resynchronization Therapy, Heart Failure, Treatment Outcome, Ventricular Function, Left, Cardiac Resynchronization Therapy Devices, Heart Ventricles

Abstract

The aim was to test the hypothesis that left ventricular (LV) and right ventricular (RV) activation from body surface electrical mapping (CardioInsight 252-electrode vest, Medtronic) identifies optimal cardiac resynchronization therapy (CRT) pacing strategies and outcomes in 30 patients. The LV80, RV80, and BIV80 were defined as the times to 80% LV, RV, or biventricular electrical activation. Smaller differences in the LV80 and RV80 (|LV80-RV80|) with synchronized LV pacing predicted better LV function post-CRT (p = 0.0004) than the LV-paced QRS duration (p = 0.32). Likewise, a lower RV80 was associated with a better pre-CRT RV ejection fraction by CMR (r =  - 0.40, p = 0.04) and predicted post-CRT improvements in myocardial oxygen uptake (p = 0.01) better than the biventricular-paced QRS (p = 0.38), while a lower LV80 with BIV pacing predicted lower post-CRT B-type natriuretic peptide (BNP) (p = 0.02). RV pacing improved LV function with smaller |LV80-RV80| (p = 0.009). In conclusion, 3-D electrical mapping predicted favorable post-CRT outcomes and informed effective pacing strategies.

Published

2023

2. Sevoflurane Improves Ventricular Conduction by Exosomes Derived from Rat Cardiac Fibroblasts After Hypothermic Global Ischemia-Reperfusion Injury

Author

Ma Y, Cao Y, Gao H, Tong R, Yi J, Zhang Z, Chen R, and Pan Z

Subjects

anesthetic, extracellular vesicles, arrhythmia, electrophysiology, electrical mapping, connexin 43 (cx43), Therapeutics. Pharmacology, RM1-950

Abstract

Yanyan Ma,1,* Ying Cao,2,* Hong Gao,3 Rui Tong,1 Jing Yi,3 Zhongwei Zhang,1 Rui Chen,1 Zhijun Pan1 1School of Anesthesia, Guizhou Medical University, Guiyang, People’s Republic of China; 2Department of Anesthesiology, The Second People’s Hospital of Guiyang, Guiyang, People’s Republic of China; 3Department of Anesthesiology, The Affiliated Hospital of Guizhou Medical University, Guiyang, People’s Republic of China*These authors contributed equally to this workCorrespondence: Hong Gao, Department of Anesthesiology, The Affiliated Hospital of Guizhou Medical University, No. 9 Beijing Road, Guiyang, People’s Republic of China, Email 2169617@qq.com; anesth@qq.comPurpose: This study investigated the effect of exosomes derived from sevoflurane-treated cardiac fibroblasts (Sev-CFs-Exo) on reperfusion arrhythmias (RA), ventricular conduction, and myocardial ischemia-reperfusion injury (MIRI).Methods: Primary cardiac fibroblasts (CFs) were isolated from the hearts of neonatal rats and identified by morphology and immunofluorescence. Exosomes were isolated from CFs at passages 2– 3 after they had been treated with 2.5% sevoflurane for an hour and cultivated for 24– 48 hours. The control group was CFs that did not receive any treatment. The hypothermic global ischemia-reperfusion injury model was established using the Langendorff perfusion technique following injection with exosomes through the caudal vein. Multi-electrode array (MEA) mapping was used to investigate the changes in RA and ventricular conduction in isolated hearts. Western blots and immunofluorescence were used to examine the relative expression and location of connexin 43 (Cx43). In addition, the MIRI was evaluated with triphenyl tetrazolium chloride and Hematoxylin-Eosin staining.Results: The primary CFs had a variety of morphologies, no spontaneous pulsation, and were vimentin-positive, which confirmed their successful isolation. Sev-CFs-Exo increased the heart rate (HR) at reperfusion for 15 minutes (T2) and 30 minutes (T3) and lowered the score and duration of RA and the time for restoration of heartbeat in reperfusion. Meanwhile, Sev-CFs-Exo increased conduction velocity (CV), decreased absolute inhomogeneity (P5-95) and inhomogeneity index (P5-95/P50) at T2 and T3, as well as promoted the recovery of HR, CV, P5-95 and P5-95/P50 after hypothermic global ischemia-reperfusion injury. Furthermore, Sev-CFs-Exo raised expression and reduced lateralization of Cx43, and improved myocardial infarct sizes and cellular necrosis. However, while cardiac fibroblast-derived exosomes (CFs-Exo) showed similar cardioprotective effects, the outcomes were not as significant.Conclusion: Sevoflurane reduces the risk of RA and improves ventricular conduction and MIRI by CFs-Exo, and this may be driven by the expression and location of Cx43.Keywords: anesthetic, extracellular vesicles, arrhythmia, electrophysiology, electrical mapping, connexin 43, Cx43

Published

2023

3. Intraoperative augmented reality fiber tractography complements cortical and subcortical mapping

Author

Swathi Chidambaram, Diana Anthony, Tatiana Jansen, Vera Vigo, and Juan C. Fernandez Miranda

Subjects

Fiber tractography, Augmented reality, Electrical mapping, Surgery, RD1-811, Neurology. Diseases of the nervous system, RC346-429

Abstract

Augmented reality (AR) has been found to be advantageous in enhancing visualization of complex neuroanatomy intraoperatively and in neurosurgical education. Another key tool that allows neurosurgeons to have enhanced visualization, namely of white matter tracts, is diffusion tensor imaging (DTI) that is processed with high-definition fiber tractography (HDFT). There remains an enduring challenge in the structural–functional correlation of white matter tracts that centers on the difficulty in clearly assigning function to any given fiber tract when evaluating them through separated as opposed to integrated modalities. Combining the technologies of AR with fiber tractography shows promise in helping to fill in this gap between structural–functional correlation of white matter tracts. This novel study demonstrates through a series of three cases of awake craniotomies for glioma resections a technique that allows the first and most direct evidence of fiber tract stimulation and assignment of function or deficit in vivo through the intraoperative, real-time fusion of electrical cortical stimulation, AR, and HDFT. This novel technique has qualitatively shown to be helpful in guiding intraoperative decision making on extent of resection of gliomas. Future studies could focus on larger, prospective cohorts of glioma patients who undergo this methodology and further correlate the post-operative imaging results to patient functional outcomes.

Published

2023

4. Flexible Electro‐Optical Arrays for Simultaneous Multi‐Site Colocalized Spatiotemporal Cardiac Mapping and Modulation.

Author

Obaid, Sofian N., Chen, Zhiyuan, Madrid, Micah, Lin, Zexu, Tian, Jinbi, Humphreys, Camille, Adams, Jillian, Daza, Nicolas, Balansag, Jade, Efimov, Igor R., and Lu, Luyao

Subjects

*LIGHT emitting diodes, *CARDIAC research, *ANIMAL diseases, *OPTOGENETICS, *HEART diseases

Abstract

Bioelectronic devices that allow simultaneous accurate monitoring and control of the spatiotemporal patterns of cardiac activity provide an effective means to understand the mechanisms and optimize therapeutic strategies for heart disease. Optogenetics is a promising technology for cardiac research due to its advantages such as cell‐type selectivity and high space‐time resolution, but its efficacy is limited by the insufficient number of modulation channels and lack of simultaneous spatiotemporal mapping capabilities in current implantable cardiac optogenetics tools available for in vivo investigations. Here, soft implantable electro‐optical cardiac devices integrating multilayered highly uniform arrays of transparent microelectrodes and multicolor light‐emitting diodes in thin, flexible platforms are designed for mechanically compliant high‐content high‐precision electrical mapping and single‐/multi‐site optogenetics and electrical stimulation without light‐induced artifacts. Systematic benchtop characterizations, together with ex vivo and in vivo evaluations on healthy and diseased small animal hearts and human cardiac slices demonstrate their functionalities in real‐time spatiotemporal mapping and control of cardiac rhythm and function, with broad applications in basic and ultimately clinical cardiology. [ABSTRACT FROM AUTHOR]

Published

2022

5. Intraoperative serosal extracellular mapping of the human distal colon: a feasibility study

Author

Anthony Y. Lin, Chris Varghese, Peng Du, Cameron I. Wells, Niranchan Paskaranandavadivel, Armen A. Gharibans, Jonathan C. Erickson, Ian P. Bissett, and Greg O’Grady

Subjects

Slow-wave, Colonic, High-resolution, Motility, Colonic physiology, Electrical mapping, Medical technology, R855-855.5

Abstract

Abstract Background Cyclic motor patterns (CMP) are the predominant motor pattern in the distal colon, and are important in both health and disease. Their origin, mechanism and relation to bioelectrical slow-waves remain incompletely understood. During abdominal surgery, an increase in the CMP occurs in the distal colon. This study aimed to evaluate the feasibility of detecting propagating slow waves and spike waves in the distal human colon through intraoperative, high-resolution (HR), serosal electrical mapping. Methods HR electrical recordings were obtained from the distal colon using validated flexible PCB arrays (6 × 16 electrodes; 4 mm inter-electrode spacing; 2.4 cm2, 0.3 mm diameter) for up to 15 min. Passive unipolar signals were obtained and analysed. Results Eleven patients (33–71 years; 6 females) undergoing colorectal surgery under general anaesthesia (4 with epidurals) were recruited. After artefact removal and comprehensive manual and automated analytics, events consistent with regular propagating activity between 2 and 6 cpm were not identified in any patient. Intermittent clusters of spike-like activities lasting 10–180 s with frequencies of each cluster ranging between 24 and 42 cpm, and an average amplitude of 0.54 ± 0.37 mV were recorded. Conclusions Intraoperative colonic serosal mapping in humans is feasible, but unlike in the stomach and small bowel, revealed no regular propagating electrical activity. Although sporadic, synchronous spike-wave events were identifiable. Alternative techniques are required to characterise the mechanisms underlying the hyperactive CMP observed in the intra- and post-operative period. New findings The aim of this study was to assess the feasibility of detecting propagating electrical activity that may correlate to the cyclic motor pattern in the distal human colon through intraoperative, high-resolution, serosal electrical mapping. High-resolution electrical mapping of the human colon revealed no regular propagating activity, but does reveal sporadic spike-wave events. These findings indicate that further research into appropriate techniques is required to identify the mechanism of hyperactive cyclic motor pattern observed in the intra- and post-operative period in humans.

Published

2021

6. The long-term effect of thermal-guided second-generation cryoablation in paroxysmal and persistent atrial fibrillation

Author

Rajdip Dulai, Christopher Patrick Uy, Yasmin Kassir, Veniza Anne Maravilla, Nikhil Patel, Stephen Furniss, Neil Sulke, and Rick A. Veasey

Subjects

Cryoablation, Electrical mapping, Atrial fibrillation, Paroxysmal AF, Persistent AF, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background: Second-generation cryoballoon ablation is safe and effective in patients with paroxysmal (PAF) and persistent atrial fibrillation (AF). Objective: This study aimed to assess the long-term clinical outcomes and freedom from AF in patients undergoing thermal-guided cryoablation without the use of an electrical mapping catheter. Methods: All patients who had undergone thermal-guided second-generation cryoablation without electrical mapping between January 2015 and April 2018 at Eastbourne District General Hospital were retrospectively analysed. Success was defined as freedom from atrial arrhythmia lasting >30 s during the follow up period. Results: The study included 234 patients with a mean age of 65.3 ± 10.6 years. There were 134 (57.0%) and 100 (42.7%) patients who had PAF and persistent AF respectively.Arrhythmia recurrence occurred in 38 of 134 (28.4%) PAF and 42 of 100 (42.0%) persistent AF patients after mean follow up of 40 ± 9.2 months. The patients with PAF had a significantly greater freedom from arrhythmia than patients with persistent AF (p = .040). The mean procedure time was 55.5 ± 12.2 min and the mean fluoroscopy time was 10.9 ± 4.8 min 73.5% of patients were discharged on the same day. Conclusion: Thermal-guided cryoablation is feasible, safe and results in freedom from arrhythmia in the majority of paroxysmal and persistent AF patients in the long term. Randomised controlled trials are required to confirm the findings of this study.

Published

2021

7. Non-intrusive Internal Corrosion Characterization using the Potential Drop Technique for Electrical Mapping and Machine Learning.

Author

Pinto, George, Amaral, Jorge, Pinheiro, Gil R. V., Silva, Victor G., and Gomes, José A. C. P.

Subjects

MACHINE learning, CONVOLUTIONAL neural networks, FINITE element method, IMAGE processing, PITTING corrosion

Abstract

This paper describes a non-intrusive method for collecting data about internal corrosion damages in AISI-304 stainless steel plates and classifying them according to severity. The mapping of the electric potential gradient is derived using the potential drop technique, which is then analyzed using image processing techniques including edge enhancement and segmentation. Simulations were run using finite element modeling to produce examples of damaged plates, with four types of defects that can be considered part of pitting corrosion. The image processing stage plays the role of an extractor of features that, when employed as inputs of machine learning algorithms, make it possible to determine the damage severity. With the Gradient Boosting regressor, the maximum absolute error of 0.879 mm was obtained in the estimate of the depth of the defects. Additionally, with the application of a Convolutional Neural Network, an accuracy of 94.84% was achieved to classify of the severity of the damages. [ABSTRACT FROM AUTHOR]

Published

2022

8. Evaluating multisite pacing strategies in cardiac resynchronization therapy in the preclinical settingKey Findings

Author

Luuk I.B. Heckman, MD, Marion Kuiper, BSc, Frederic Anselme, MD, PhD, Filippo Ziglio, MSc, Nicolas Shan, MSc, Markus Jung, MSc, Stef Zeemering, PhD, Kevin Vernooy, MD, PhD, and Frits W. Prinzen, PhD

Subjects

Acute hemodynamics, Cardiac resynchronization therapy, Electrical mapping, Multipoint pacing, Multizone pacing, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background: Multisite pacing strategies that improve response to cardiac resynchronization therapy (CRT) have been proposed. Current available options are pacing 2 electrodes in a multipolar lead in a single vein (multipoint pacing [MPP]) and pacing using 2 leads in separate veins (multizone pacing [MZP]). Objective: The purpose of this study was to compare in a systematic manner the acute hemodynamic response (AHR) and electrophysiological effects of MPP and MZP and compare them with conventional biventricular pacing (BiVP). Methods: Hemodynamic and electrophysiological effects were evaluated in a porcine model of acute left bundle branch block (LBBB) (n = 8). AHR was assessed as LVdP/dtmax. Activation times were measured using >100 electrodes around the epicardium, measuring total activation time (TAT) and left ventricular activation time (LVAT). Results: Compared to LBBB, BiVP, MZP, and MPP reduced TAT by 26% ± 10%, 32% ± 13%, and 32% ± 14%, respectively (P = NS between modes) and LVAT by 4% ± 5%, 11% ± 5%, and 12% ± 5%, respectively (P 5 cm vs

Published

2020

9. Premature atrial stimulation accentuates conduction abnormalities in cardiac surgery patients that develop postoperative atrial fibrillation.

Author

Khan, Muhammad S., Lange, Matthias, Ranjan, Ravi, Sharma, Vikas, Glotzbach, Jason P., Selzman, Craig, and Dosdall, Derek J.

Abstract

Background: postoperative atrial fibrillation (POAF) is a common cardiac surgery complication that is associated with increased complications and negative outcomes, but the association between presurgical atrial conduction abnormalities and POAF has not been investigated clinically during premature atrial S1S2 stimulation. This clinical study sought to examine whether intraoperative premature atrial stimulation reveals increased areas of slowed and/or blocked conduction in patients that develop POAF.Methods: High-density intraoperative epicardial left atrial mapping was conducted in 20 cardiac surgery patients with no prior history of atrial fibrillation (AF). In 20 patients, 6 (30%) developed POAF. A flexible-array of 240-electrodes was placed on the posterior left atrial wall in between the pulmonary veins. Activation maps were generated for sinus and premature atrial S1S2 stimulated beats. The area of conduction block (CB), conduction delay (CD) and the combination of both (CDCB) for conduction velocity < 0.1, 0.1 ≤ x < 0.2 and < 0.2 m/s, respectively were quantified.Results: For a premature atrial S2 beat with shortest cycle length captured, conduction velocity maps revealed a significantly higher area for CD (13.19 ± 6.59 versus 6.06 ± 4.22 mm2, p = 0.028) and CDCB (17.36 ± 8.75 versus 7.41 ± 6.39 mm2, p = 0.034), and a trend toward a larger area for CB (4.17 ± 3.66 versus 1.34 ± 2.86 mm2, p = 0.063) in patients who developed POAF in comparison to those that remained in the sinus. Sinus and S1 paced beats did not show substantial differences in abnormal conduction areas between patients with and without POAF.Conclusion: In comparison to sinus and S1 beats, premature atrial S2 beats accentuate conduction abnormalities in the posterior left atrial wall of cardiac surgery patients that developed POAF. [ABSTRACT FROM AUTHOR]

Published

2021

10. Intraoperative serosal extracellular mapping of the human distal colon: a feasibility study.

Author

Lin, Anthony Y., Varghese, Chris, Du, Peng, Wells, Cameron I., Paskaranandavadivel, Niranchan, Gharibans, Armen A., Erickson, Jonathan C., Bissett, Ian P., and O'Grady, Greg

Subjects

SMALL intestine, POSTOPERATIVE period, COLON (Anatomy), FEASIBILITY studies, ABDOMINAL surgery, PROCTOLOGY

Abstract

Background: Cyclic motor patterns (CMP) are the predominant motor pattern in the distal colon, and are important in both health and disease. Their origin, mechanism and relation to bioelectrical slow-waves remain incompletely understood. During abdominal surgery, an increase in the CMP occurs in the distal colon. This study aimed to evaluate the feasibility of detecting propagating slow waves and spike waves in the distal human colon through intraoperative, high-resolution (HR), serosal electrical mapping.Methods: HR electrical recordings were obtained from the distal colon using validated flexible PCB arrays (6 × 16 electrodes; 4 mm inter-electrode spacing; 2.4 cm2, 0.3 mm diameter) for up to 15 min. Passive unipolar signals were obtained and analysed.Results: Eleven patients (33-71 years; 6 females) undergoing colorectal surgery under general anaesthesia (4 with epidurals) were recruited. After artefact removal and comprehensive manual and automated analytics, events consistent with regular propagating activity between 2 and 6 cpm were not identified in any patient. Intermittent clusters of spike-like activities lasting 10-180 s with frequencies of each cluster ranging between 24 and 42 cpm, and an average amplitude of 0.54 ± 0.37 mV were recorded.Conclusions: Intraoperative colonic serosal mapping in humans is feasible, but unlike in the stomach and small bowel, revealed no regular propagating electrical activity. Although sporadic, synchronous spike-wave events were identifiable. Alternative techniques are required to characterise the mechanisms underlying the hyperactive CMP observed in the intra- and post-operative period.New Findings: The aim of this study was to assess the feasibility of detecting propagating electrical activity that may correlate to the cyclic motor pattern in the distal human colon through intraoperative, high-resolution, serosal electrical mapping. High-resolution electrical mapping of the human colon revealed no regular propagating activity, but does reveal sporadic spike-wave events. These findings indicate that further research into appropriate techniques is required to identify the mechanism of hyperactive cyclic motor pattern observed in the intra- and post-operative period in humans. [ABSTRACT FROM AUTHOR]

Published

2021

11. Left-axis deviation in patients with nonischemic heart failure and left bundle branch block is a purely electrical phenomenon.

Author

Abu-Alrub, Saer, Strik, Marc, Huntjens, Peter, Ramirez, F. Daniel, Potse, Mark, Cochet, Hubert, Marchand, Hugo, Buliard, Samuel, Eschalier, Romain, Haïssaguerre, Michel, Bordachar, Pierre, and Ploux, Sylvain

Abstract

Background: Possible mechanisms of left-axis deviation (LAD) in the setting of left bundle branch block (LBBB) include differences in cardiac electrophysiology, structure, or anatomic axis.Objective: The purpose of this study was to clarify the mechanism(s) responsible for LAD in patients with LBBB.Methods: Twenty-nine patients with nonischemic cardiomyopathies and LBBB underwent noninvasive electrocardiographic imaging (ECGi), cardiac computed tomography, and magnetic resonance imaging in order to define ventricular electrical activation, characterize cardiac structure, and determine the cardiac anatomic axis.Results: Sixteen patients had a normal QRS axis (NA) (mean axis 8° ± 23°), whereas 13 patients had LAD (mean axis -48° ± 13°; P <.001). Total activation times were longer in the LAD group (112 ± 25 ms vs 91 ± 14 ms; P = .01) due to delayed activation of the basal anterolateral region (107 ± 10 ms vs 81 ± 17 ms; P <.001). Left ventricular (LV) activation in patients with LAD was from apex to base, in contrast to a circumferential pattern of activation in patients with NA. Apex-to-base delay was longer in the LA group (95 ± 13 ms vs 64 ± 21 ms; P <.001) and correlated with QRS frontal axis (R2 = 0.67; P <.001). Both groups were comparable with regard to LV end-diastolic volume (295 ± 84 mL vs LAD 310 ± 91 mL; P = .69), LV mass (177 ± 33 g vs LAD 180 ± 37 g; P = .83), and anatomic axis.Conclusion: LAD in LBBB appears to be due to electrophysiological abnormalities rather than structural factors or cardiac anatomic axis. [ABSTRACT FROM AUTHOR]

Published

2021

12. The effect of second-generation cryoablation without electrical mapping in persistent AF using continuous monitoring.

Author

Dulai, Rajdip, Sulke, Neil, Furniss, Stephen, and Veasey, Rick A.

Abstract

Background: Second-generation cryoballoon ablation is safe and effective in patients with persistent atrial fibrillation (AF). The aim of this study is to report the real long-term AF burden and freedom from AF post-cryoablation using continuous monitoring, and to assess whether intraoperative confirmation of pulmonary vein isolation using electrical mapping is necessary. Methods: A total of 33 patients (mean age 75.7 ± 5.6 years, 16 men) with persistent AF who underwent second-generation cryoablation without electrical mapping were reviewed. All patients had a cardiac implantable device and were followed up for a mean of 755 ± 170 days. Results: AF burden significantly decreased from 67.51% ± 34.90% to 18.28% ± 26.65% at 1-year follow-up, and this reduction was maintained at final follow-up (18.26% ± 23.70%, p < 0.001). Continuous monitoring revealed a freedom from AF rate of 33% and 24% at 1-year and full follow-up, respectively. Patients who remained in persistent AF at final follow-up had a trend towards higher pre-ablation AF burden (81.6% ± 29.7% vs 57.3% ± 36.4%, p = 0.08). Conclusion: Second-generation cryoablation without confirming pulmonary vein isolation using electrical mapping is effective leading to significant reductions in AF burden based on continuous beat-to-beat monitoring at 1-year and long-term follow-up. [ABSTRACT FROM AUTHOR]

Published

2021

13. Electrically guided versus imaging-guided implant of the left ventricular lead in cardiac resynchronization therapy: a study protocol for a double-blinded randomized controlled clinical trial (ElectroCRT)

Author

Charlotte Stephansen, Anders Sommer, Mads Brix Kronborg, Jesper Møller Jensen, Kirsten Bouchelouche, and Jens Cosedis Nielsen

Subjects

Heart failure, Cardiac resynchronization therapy, CRT, Left ventricular ejection fraction, LVEF, Electrical mapping, Medicine (General), R5-920

Abstract

Abstract Background Cardiac resynchronization therapy (CRT) is an established treatment in patients with heart failure and prolonged QRS duration where a biventricular pacemaker is implanted to achieve faster activation and more synchronous contraction of the left ventricle (LV). Despite the convincing effect of CRT, 30–40% of patients do not respond. Among the most important correctable causes of non-response to CRT is non-optimal LV lead position. Methods We will enroll 122 patients in this patient-blinded and assessor-blinded, randomized, clinical trial aiming to investigate if implanting the LV lead guided by electrical mapping towards the latest LV activation as compared with imaging-guided implantation, causes an excess increase in left ventricular (LV) ejection fraction (LVEF). The patients are randomly assigned to either the intervention group: preceded by cardiac computed tomography of the cardiac venous anatomy, the LV lead is placed according to the latest LV activation in the coronary sinus (CS) branches identified by systematic electrical mapping of the CS at implantation and post-implant optimization of the interventricular pacing delay; or patients are assigned to the control group: placement of the LV lead guided by cardiac imaging. The LV lead is targeted towards the latest mechanical LV activation as identified by echocardiography and outside myocardial scar as identified by myocardial perfusion (MP) imaging. The primary endpoint is change in LVEF at 6-month follow up (6MFU) as compared with baseline measured by two-dimensional echocardiography. Secondary endpoints include relative percentage reduction in LV end-systolic volume, all-cause mortality, hospitalization for heart failure, and a clinical combined endpoint of response to CRT at 6MFU defined as the patient being alive, not hospitalized for heart failure, and experiencing improvement in NYHA functional class or/and > 10% increase in 6-minute walk test. Discussion We assume an absolute increase in LVEF of 12% in the intervention group versus 8% in the control group. If an excess increase in LVEF can be achieved by LV lead implantation guided by electrical mapping, this study supports the conduct of larger trials investigating the impact of this strategy for LV-lead implantation on clinical outcomes in patients treated with CRT. Trial registration ClinicalTrials.gov, NCT02346097. Registered on 12 January 2015. Patients were enrolled between 16 February 2015 and 13 December 2017.

Published

2018

14. Electrogram‐only guided approach to His bundle pacing with minimal fluoroscopy: A single‐center experience.

Author

Zanon, Francesco, Marcantoni, Lina, Zuin, Marco, Pastore, Gianni, Baracca, Enrico, Tiribello, Antonella, Raffagnato, Paola, Boaretto, Graziano, Roncon, Loris, and Vijayaraman, Pugazhendhi

Subjects

*CARDIAC pacing, *ELECTROCARDIOGRAPHY, *FLUOROSCOPY, *HIS bundle, *IMPLANTABLE cardioverter-defibrillators, *COMPLICATIONS of prosthesis, *DESCRIPTIVE statistics

Abstract

Introduction: His bundle pacing (HBP) is the most physiological pacing. The standard technique based on fluoroscopic approach might be challenging and fluoro consuming. Targeting the His guided exclusively by the electrical signals could enable a precise lead implant, thus reducing fluoroscopy time (FT) and X‐ray dose, desirable both for patients and operators. The aim of the study is to evaluate the feasibility, efficacy, and safety both acutely and at 30 days of the electrogram (EGM)‐guided HBP with minimal or no fluoroscopy. Methods and Results: Between October and December 2018, 41 consecutive patients underwent EGM‐guided HBP. Successful HBP was obtained in 39 (95%) patients, (30 males, 78 ± 10 years). Selective HBP (S‐HBP) was achieved in 23 (59%), nonselective HBP (NS‐HBP) in 16 (41%) patients. The final HBP lead position was reached in 31 (79.4%) patients without fluoroscopy, only guided by electrical signals. In eight patients a minimal fluoroscopy (mean, 8 seconds) has been required. The sheath's cutting and the slack of the lead were routinely performed under fluoroscopy. No difference was observed in FT for HBP lead placement in S‐HBP and NS‐HBP (mean, 8.1 ± 25 vs 7.5 ± 20 seconds, P =.8; median value 0 vs 0 seconds). No differences were observed in FT for the entire procedure, total dose area product and total procedural time in S‐HBP and NS‐HBP. Lead dislodgement occurred in one (2.6%) patient 1 day after the procedure. Conclusions: HBP could be performed safely and efficiently using the EGMs, with minimal or no fluoroscopy. Fluoroscopy was required during sheath removal and atrial lead placement. [ABSTRACT FROM AUTHOR]

Published

2020

15. The Evolving Role of Electrocardiography in Cardiac Resynchronization Therapy.

Author

Noheria, Amit, Sodhi, Sandeep, and Orme, G. Joseph

Abstract

Purpose of review: This study aims to summarize the literature on the role of electrocardiography (ECG) in (i) patient selection for cardiac resynchronization therapy (CRT), (ii) predicting clinical response after CRT system is implanted, and (iii) optimizing CRT programming. Recent findings: Progress has been made in interpreting ECG beyond QRS duration and left bundle branch (LBBB) morphology to select patients for CRT. We now understand a higher chance of response to CRT in patients with atypical right bundle branch block and lower response rates in subgroups with atypical LBBB. QRS area has emerged as a novel marker to quantify baseline electrical dyssynchrony to improve patient selection. After CRT, the resultant QRS narrowing remains the most validated predictor of long-term favorable outcome. There is increasing awareness of prolonged left ventricular pacing latency hindering the desired response to CRT. There is active interest in using ECG beyond minimizing QRS duration to optimize CRT programming for maximal resynchronization. Novel strategies include fusion of paced and/or conducted wavefronts and minimization of paced QRS area. Summary: ECG remains the ubiquitous method for ventricular electrical mapping in context of CRT. The role of ECG in elucidating baseline electrical dyssynchrony to aptly select patients for this treatment continues to evolve, and ECG is increasingly being evaluated as a reliable endpoint for optimal CRT programming. [ABSTRACT FROM AUTHOR]

Published

2019

16. Ablation of typical atrial flutter guided by the paced PR interval on the surface electrocardiogram: a proof of concept study.

Author

Madaffari, Antonio, Krisai, Philipp, Spies, Florian, Knecht, Sven, Schaer, Beat, Kojic, Dejan, Kühne, Michael, Sticherling, Christian, and Osswald, Stefan

Abstract

Aims: We aimed to assess the novel concept of using the paced PR interval (PRI) on the surface electrocardiogram (ECG) to prove trans-isthmus block after cavotricuspid isthmus (CTI) ablation for typical atrial flutter (AFl).Methods and Results: Consecutive patients with AFl underwent linear radiofrequency ablation of the inferior CTI (6 o'clock). After AFl termination and/or presumed completion of the CTI line, CTI block was proven by atrial pacing by the ablation catheter medial (5 o'clock) and lateral to the line (7 and 9 o'clock). Corresponding PRIs were measured on the surface ECG. CTI block was assumed, if a sudden increase in the PRI was observed by moving the pacing site from 5 to 7 o'clock, and if the latter was longer than at 9 o'clock. Afterwards, bidirectional CTI block was confirmed by differential pacing. Thirty-one patients (mean age 67 ± 16 years, 81% male) underwent CTI ablation, and 18/31 (58%) were in AFl at the time of ablation (cycle length 249 ± 31 ms). Successful CTI block as defined by the PRI method was achieved in 31/31 (100%), and the mean PRIs during pacing at 5, 7, and 9 o'clock were 203 ± 56 ms, 329 ± 70 ms, and 296 ± 66 ms, respectively. Cavotricuspid isthmus block was confirmed in all patients (100%) by coronary sinus pacing with a reversal of the local activation sequence lateral to the isthmus line.Conclusion: The method of PRI analysis on the surface ECG to guide CTI ablation is easy to apply and highly accurate in confirming CTI block. This simple technique enables the novel concept of CTI ablation and proof of block with a single catheter. [ABSTRACT FROM AUTHOR]

Published

2019

17. Human Cardiomyocyte Progenitor Cells in Co-culture with Rat Cardiomyocytes Form a Pro-arrhythmic Substrate: Evidence for Two Different Arrhythmogenic Mechanisms

Author

Nicoline W. Smit, Lucia Cócera Ortega, Anna M. D. Végh, Veronique M. F. Meijborg, Anke M. Smits, Mischa Klerk, Anke J. M. Tijsen, Hanno L. Tan, Marie-José H. T. Goumans, Gerard J. J. Boink, and Ruben Coronel

Subjects

cardiomyocytes, progenitor cells, electrical mapping, arrhythmias (mechanisms), paracrine, Physiology, QP1-981

Abstract

Background: Cardiomyocyte progenitor cells (CMPCs) are a promising cell source for regenerative cell therapy to improve cardiac function after myocardial infarction. However, it is unknown whether undifferentiated CMPCs have arrhythmogenic risks. We investigate whether undifferentiated, regionally applied, human fetal CMPCs form a pro-arrhythmic substrate in co-culture with neonatal rat ventricular myocytes (NRVMs).Method: Unipolar extracellular electrograms, derived from micro-electrode arrays (8 × 8 electrodes) containing monolayers of NRVMs (control), or co-cultures of NRVMs and locally seeded CMPCs were used to determine conduction velocity and the incidence of tachy-arrhythmias. Micro-electrodes were used to record action potentials. Conditioned medium (Cme) of CMPCs was used to distinguish between coupling or paracrine effects.Results: Co-cultures demonstrated conduction slowing (5.6 ± 0.3 cm/s, n = 50) compared to control monolayers (13.4 ± 0.4 cm/s, n = 26) and monolayers subjected to Cme (13.7 ± 0.6 cm/s, n = 11, all p < 0.001). Furthermore, co-cultures had a more depolarized resting membrane than control monolayers (−47.3 ± 17.4 vs. −64.8 ± 7.7 mV, p < 0.001) and monolayers subjected to Cme (−64.4 ± 8.1 mV, p < 0.001). Upstroke velocity was significantly decreased in co-cultures and action potential duration was prolonged. The CMPC region was characterized by local ST-elevation in the recorded electrograms. The spontaneous rhythm was faster and tachy-arrhythmias occurred more often in co-cultured monolayers than in control monolayers (42.0 vs. 5.4%, p < 0.001).Conclusion: CMPCs form a pro-arrhythmic substrate when co-cultured with neonatal cardiomyocytes. Electrical coupling between both cell types leads to current flow between a, slowly conducting, depolarized and the normal region leading to local ST-elevations and the occurrence of tachy-arrhythmias originating from the non-depolarized zone.

Published

2017

18. Is non-awake surgery for supratentorial adult low-grade glioma treatment still feasible?

Author

Duffau, Hugues

Subjects

*GLIOMA treatment, *QUALITY of life, *SURGICAL excision, *CRANIOTOMY, *DISEASE mapping

Abstract

In this short review, the author performs a database search, summarizes, and discusses studies that provide information on the need to perform awake surgery to preserve quality of life/return to work of adult patients who undergo resection for a supratentorial low-grade glioma (LGG). Based upon the currently available data, the author concludes that in LGG, patients with no or only mild deficits at diagnosis, non-awake surgery can no longer be achieved. Indeed, awake craniotomy with intrasurgical electrical mapping has resulted in an increase of the extent of resection and overall survival in LGG. Furthermore, in order to resume a normal familial, social, and professional life, LGG patients with a prolonged survival expectancy have to benefit not only from language mapping when the tumor involves the left 'dominant' hemisphere, but also from intraoperative mapping of sensorimotor, visuospatial, higher cognitive, and emotional functions under local anesthesia, even for gliomas situated within presumed 'non-language' areas such as the right 'non-dominant' hemisphere. In other words, the ultimate goal is to map the functional connectome for each patient in order to perform the resection up to the eloquent networks and then to optimize the onco-functional balance of LGG surgery. To this end, an objective neuropsychological assessment has to be achieved in a more systematic manner before and after resection. Early postoperative cognitive rehabilitation is also recommended, whenever needed. [ABSTRACT FROM AUTHOR]

Published

2018

19. Human Cardiomyocyte Progenitor Cells in Co-culture with Rat Cardiomyocytes Form a Pro-arrhythmic Substrate: Evidence for Two Different Arrhythmogenic Mechanisms.

Author

Smit, Nicoline W., Ortega, Lucia Cócera, Végh, Anna M. D., Meijborg, Veronique M. F., Smits, Anke M., Klerk, Mischa, Tijsen, Anke J. M., Tan, Hanno L., Goumans, Marie-José H. T., Boink, Gerard J. J., and Coronel, Ruben

Subjects

PROGENITOR cells, HEART cells, MYOCARDIAL infarction, REGENERATION (Biology), ELECTRONOGRAPHY

Abstract

Background: Cardiomyocyte progenitor cells (CMPCs) are a promising cell source for regenerative cell therapy to improve cardiac function aftermyocardial infarction. However, it is unknown whether undifferentiated CMPCs have arrhythmogenic risks. We investigate whether undifferentiated, regionally applied, human fetal CMPCs form a pro-arrhythmic substrate in co-culture with neonatal rat ventricular myocytes (NRVMs). Method: Unipolar extracellular electrograms, derived from micro-electrode arrays (8 x 8 electrodes) containing monolayers of NRVMs (control), or co-cultures of NRVMs and locally seeded CMPCs were used to determine conduction velocity and the incidence of tachy-arrhythmias. Micro-electrodes were used to record action potentials. Conditioned medium (Cme) of CMPCs was used to distinguish between coupling or paracrine effects. Results: Co-cultures demonstrated conduction slowing (5.6 ± 0.3 cm/s, n = 50) compared to control monolayers (13.4 ± 0.4 cm/s, n = 26) and monolayers subjected to Cme (13.7 ± 0.6 cm/s, n = 11, all p < 0.001). Furthermore, co-cultures had a more depolarized resting membrane than control monolayers (-47.3 ± 17.4 vs. -64.8 ± 7.7mV, p < 0.001) and monolayers subjected to Cme (-64.4 ± 8.1mV, p < 0.001). Upstroke velocity was significantly decreased in co-cultures and action potential duration was prolonged. The CMPC region was characterized by local ST-elevation in the recorded electrograms. The spontaneous rhythm was faster and tachy-arrhythmias occurred more often in co-cultured monolayers than in control monolayers (42.0 vs. 5.4%, p < 0.001). Conclusion: CMPCs form a pro-arrhythmic substrate when co-cultured with neonatal cardiomyocytes. Electrical coupling between both cell types leads to current flow between a, slowly conducting, depolarized and the normal region leading to local ST-elevations and the occurrence of tachy-arrhythmias originating from the non-depolarized zone. [ABSTRACT FROM AUTHOR]

Published

2017

20. Challenging the Myth of Right Nondominant Hemisphere: Lessons from Corticosubcortical Stimulation Mapping in Awake Surgery and Surgical Implications.

Author

Vilasboas, Tatiana, Herbet, Guillaume, and Duffau, Hugues

Subjects

*GLIOMA treatment, *GLIOMAS, *ANESTHESIA, *NEUROPLASTICITY, *DIAGNOSIS, *THERAPEUTICS

Abstract

For many years, the right hemisphere (RH) was considered as nondominant, especially in right-handers. In neurosurgical practice, this dogma resulted in the selection of awake procedure with language mapping only for lesions of the left dominant hemisphere. Conversely, surgery under general anesthesia (possibly with motor mapping) was usually proposed for right lesions. However, when objective neuropsychological assessments were performed, they frequently showed cognitive and behavioral deficits after brain surgery, even in the RH. Therefore, to preserve an optimal quality of life, especially in patients with a long survival expectancy (as in low-grade gliomas), awake surgery with cortical and axonal electrostimulation mapping has recently been proposed for resection of right tumors. Here, we review new insights gained from intraoperative stimulation into the pivotal role of the RH in movement execution and control, visual processes and spatial cognition, language and nonverbal semantic processing, executive functions (e.g., attention), and social cognition (mentalizing and emotion recognition). These original findings, which break with the myth of a nondominant RH, may have important implications in cognitive neurosciences, by improving our knowledge of the functional connectivity of the RH, as well as for the clinical management of patients with a right lesion. In brain surgery, awake mapping should be considered more systematically in the RH. Moreover, neuropsychological examination must be achieved in a more systematic manner before and after surgery within the RH, to optimize care by predicting the likelihood of functional recovery and by elaborating specific programs of rehabilitation. [ABSTRACT FROM AUTHOR]

Published

2017

21. Development of 3-D Intramural and Surface Potentials in the LV: Microstructural Basis of Preferential Transmural Conduction.

Author

CALDWELL, BRYAN J., TREW, MARK L., LEGRICE, IAN J., and SMAILL, BRUCE H.

Subjects

*ACTION potentials, *ANIMAL experimentation, *ANISOTROPY, *ELECTROPHYSIOLOGY, *ENDOCARDIUM, *FLUORIMETRY, *HEART conduction system, *SWINE

Abstract

Orthotropic Intramural Spread of LV Electrical Potentials Introduction Extracellular potentials measured on the heart surfaces are used to infer events that originate deep within the heart wall. We have reconstructed intramural potentials in three dimensions for the first time, and compare these with epicardial and endocardial surface potentials and cardiac microstructure. Methods and Results Extracellular potentials from intramural point stimulation were measured from a high density 3-D electrode array in the in vivo pig LV. MR and extended volume imaging were used to register electrode locations and characterize fiber and laminar orientations throughout the recording volume. Measured potentials were compared with predictions of tissue-specific bidomain computer activation models. Positive potentials recorded in the LV wall preceded the depolarization wavefront as it spread in the fiber direction. Transverse to this, passive and active potentials spread preferentially in the laminar direction (anisotropy ratio ∼1.6:1). Epicardial surface potentials reflect initial intramural propagation at the stimulus location, but endocardial potentials do not, particularly adjacent to papillary muscles. Measured 3-D potentials were consistently better captured by computer models that incorporate three distinct conductivities aligned with local microstructural axes, but the preferential spread of potentials in the laminar direction was not fully predicted. Conclusions This study provides evidence for preferential transmural conduction and raises questions about the extent to which intramural electrical events can be inferred from endocardial potentials. [ABSTRACT FROM AUTHOR]

Published

2017

22. Validation of electromechanical wave imaging in a canine model during pacing and sinus rhythm.

Author

Grondin, Julien, Costet, Alexandre, Bunting, Ethan, Gambhir, Alok, Garan, Hasan, Wan, Elaine, and Konofagou, Elisa E.

Abstract

Background: Accurate determination of regional areas of arrhythmic triggers is of key interest to diagnose arrhythmias and optimize their treatment. Electromechanical wave imaging (EWI) is an ultrasound technique that can image the transient deformation in the myocardium after electrical activation and therefore has the potential to detect and characterize location of triggers of arrhythmias.Objectives: The objectives of this study were to investigate the relationship between the electromechanical and the electrical activation of the left ventricular (LV) endocardial surface during epicardial and endocardial pacing and during sinus rhythm as well as to map the distribution of electromechanical delays.Methods: In this study, 6 canines were investigated. Two external electrodes were sutured onto the epicardial surface of the LV. A 64-electrode basket catheter was inserted through the apex of the LV. Ultrasound channel data were acquired at 2000 frames/s during epicardial and endocardial pacing and during sinus rhythm. Electromechanical and electrical activation maps were synchronously obtained from the ultrasound data and the basket catheter, respectively.Results: The mean correlation coefficient between electromechanical and electrical activation was 0.81 for epicardial anterior pacing, 0.79 for epicardial lateral pacing, 0.69 for endocardial pacing, and 0.56 for sinus rhythm.Conclusion: The electromechanical activation sequence determined by EWI follows the electrical activation sequence and more specifically in the case of pacing. This finding is of key interest in the role that EWI can play in the detection of the anatomical source of arrhythmias and the planning of pacing therapies such as cardiovascular resynchronization therapy. [ABSTRACT FROM AUTHOR]

Published

2016

23. Cardiac Motion Estimation from Intracardiac Electrical Mapping Data: Identifying a Septal Flash in Heart Failure.

Author

Camara, Oscar, Oeltze, Steffen, De Craene, Mathieu, Sebastian, Rafael, Silva, Etel, Tamborero, David, Mont, Lluis, Sitges, Marta, Bijnens, Bart H., and Frangi, Alejandro F.

Abstract

In this paper, we present a methodology to estimate cardiac motion directly from the high resolution temporal data provided by an intra-cavity electrical mapping system (CARTO). These data consist in intracardiac electrical measurements, obtained invasively through the contact of a catheter with the endocardial wall at different locations, with simultaneous recording of the position of the measuring catheter over time. The 3D displacement fields between the different timepoints obtained from the position measurements are projected onto the vector pointing from the CARTO points to the centroid of the CARTO cloud, giving a very intuitive vectorial coarse representation of the diastolic and systolic motion. Furthermore, scalar projection 1D curves can be used to identify specific motion patterns. We have applied the proposed methodology to the CARTO acquisitions of nine candidates to cardiac resynchronization therapy, identifying the specific sequence of motion and deformation (septal flash) found in LBBB, which was confirmed by visual inspection of the corresponding MR and 3D-US images. [ABSTRACT FROM AUTHOR]

Published

2009

24. Periglacial morphogenesis in the Paris basin: insight from geophysical survey and consequences for the fate of soil pollution.

Author

Thiry, Médard, van Oort, Folkert, Thiesson, Julien, and Van Vliet-Lanoe, Brigitte

Subjects

*PERIGLACIAL processes, *MORPHOGENESIS, *GEOPHYSICAL surveys, *SOIL pollution

Abstract

Abstract: Geophysical survey by Automatic Resistivity Profiling (ARP©) system of the Pierrelaye–Bessancourt area revealed remarkable conductive polygon patterns of 20- to 30-m diameter detected between 0.5- and 1.7-m depth. Trenches dug down to the limestone substrate allowed detailing of the pedological and lithological units that compose such polygonal features. The patterns are formed by greenish glauconite and carbonated sand hollows where clay-rich pedological horizons bend downward, forming narrow tongs extending up to 2- to 3-m depth. Such structures were interpreted as a buried polygonal ice-wedge network (thermokarst depressions). Geometrical relationships between the lithological units and consecutive erosional surfaces allowed the identification of successive landscape events and a landscape chronology. The sequence started during the Saalian glaciation with (1) the development of patterned grounds by thermokarstic cryoturbation; (2) the consecutive deflation/erosion during post-permafrost aridity; (3) the loess and eolian sand deposits; (4) the weathering of the former deposits with development of pedogenic horizons during the Eemian interglacial; (5) the recurrent cryoturbation and thermal cracking leading to infolding of the pedogenic horizons during the Pleniglacial optimum (Weichselian); and finally (5) the erosion that levelled the periglacial microreliefs, most probably during the last glacial stage (Weichselian), leading to the modern landscape. In this agricultural area, urban waste water has been spread for more than 100years by flooding irrigation for food crop production and has led to high levels of metal pollution in the surface horizons of the soils. The polygonal cryogenic structures have major impacts on soil hydrology and dispersion/distribution of heavy metals toward the geological substrate. Such structures are essential to consider when conceiving proposals for future soil management of this polluted area. [Copyright &y& Elsevier]

Published

2013

25. The voltage-sensitive dye di-4-ANEPPS slows conduction velocity in isolated guinea pig hearts.

Author

Larsen, Anders Peter, Sciuto, Katie J., Moreno, Alonso P., and Poelzing, Steven

Abstract

Background: Voltage-sensitive dyes are important tools for mapping electrical activity in the heart. However, little is known about the effects of voltage-sensitive dyes on cardiac electrophysiology. Objective: To test the hypothesis that the voltage-sensitive dye di-4-ANEPPS modulates cardiac impulse propagation. Methods: Electrical and optical mapping experiments were performed in isolated Langendorff perfused guinea pig hearts. The effect of di-4-ANEPPS on conduction velocity and anisotropy of propagation was quantified. HeLa cells expressing connexin 43 were used to evaluate the effect of di-4-ANEPPS on gap junctional conductance. Results: In electrical mapping experiments, di-4-ANEPPS (7.5 μM) was found to decrease both longitudinal and transverse conduction velocities significantly compared with control. No change in the anisotropy of propagation was observed. Similar results were obtained in optical mapping experiments. In these experiments, the effect of di-4-ANEPPS was dose dependent. di-4-ANEPPS had no detectable effect on connexin 43–mediated gap junctional conductance in transfected HeLa cells. Conclusion: Our results demonstrate that the voltage-sensitive dye di-4-ANEPPS directly and dose-dependently modulates cardiac impulse propagation. The effect is not likely mediated by connexin 43 inhibition. Our results highlight an important caveat that should be taken into account when interpreting data obtained using di-4-ANEPPS in cardiac preparations. [Copyright &y& Elsevier]

Published

2012

26. Electrical and Mechanical Ventricular Activation During Left Bundle Branch Block and Resynchronization.

Author

Strik, Marc, Regoli, François, Auricchio, Angelo, and Prinzen, Frits

Abstract

Cardiac resynchronization therapy (CRT) aims to treat selected heart failure patients suffering from conduction abnormalities with left bundle branch block (LBBB) as the culprit disease. LBBB remained largely underinvestigated until it became apparent that the amount of response to CRT was heterogeneous and that the therapy and underlying pathology were thus incompletely understood. In this review, current knowledge concerning activation in LBBB and during biventricular pacing will be explored and applied to current CRT practice, highlighting novel ways to better measure and treat the electrical substrate. [ABSTRACT FROM AUTHOR]

Published

2012

27. Electromechanical Wave Imaging of Normal and Ischemic Hearts In Vivo.

Author

Provost, Jean, Wei-Ning Lee, Fujikura, Kana, and Konofagou, Elisa E.

Subjects

*ULTRASONIC imaging, *ECHOCARDIOGRAPHY, *MEDICAL imaging systems, *ELECTROMECHANICAL devices, *ISCHEMIA diagnosis, *CORONARY disease

Abstract

Electromechanical wave imaging (EWI) has recently been introduced as a noninvasive, ultrasound-based imaging modality, which could map the electrical activation of the heart in various echocardiographic planes in mice, dogs, and humans in vivo. By acquiring radio-frequency (RF) frames at very high frame rates (390-520 Hz), the onset of small, localized, transient deformations resulting from the electrical activation of the heart, i.e., generating the electromechanical wave (EMW), can be mapped. The correlation between the EMW and the electrical activation speed and pacing scheme has previously been reported. In this study, we pursue the development of EWI using both displacements and strains and analysis of the EMW properties in dogs in vivo for early detection of ischemia. EWI was performed in normal and ischemic open-chest dogs during sinus rhythm. Ischemia of increasing severity was obtained by gradually obstructing the left-anterior descending (LAD) coronary artery flow. We also introduce the novel method of motion-matching that achieves the reconstruction of the full EWI ciné-loop at very high frame rates even when the ECG may be irregular or unavailable. Incremental displacements were previously used by our group to map the EMW. This paper focuses on the associated incremental strains, which facilitate the interpretation of the EMW by relating it directly to contraction. Moreover, we define the onset of the EMW as the time, at which the incremental strains change sign after the onset of the QRS complex of the ECG. Based on this definition, isochronal representations of the EMW were generated using a semi-automated method. The isochronal representation of the EMW during sinus rhythm was reproducible and shown similar to electrical activation maps previously reported in the literature. After segmentation using a contour-tracking method, the two- and four-chamber views were imaged and displayed in bi-plane views, allowing a 3-D interpretation of the EMW. EWI was shown to be sensitive to the presence of intermediate ischemia. EWI localized the ischemic region when the LAD flow was obstructed at 60% and beyond and was capable of mapping the increase of the ischemic region size as the LAD occlusion level increased. In conclusion, the activation maps and wave patterns obtained with EWI were similar to the electrical equivalents previously reported in the literature. Moreover, EWI was found to be sensitive enough to detect and map intermediate ischemia. Those results indicate that EWI could be used to assess the conduction properties of the myocardium, and detect its ischemic onset and disease progression entirely noninvasively. [ABSTRACT FROM AUTHOR]

Published

2010

28. Intra-operative electrocorticography in lesional epilepsy

Author

Tripathi, M., Garg, A., Gaikwad, S., Bal, C.S., Chitra, Sarkar, Prasad, K., Dash, H.H., Sharma, B.S., and Chandra, P. Sarat.

Subjects

*BRAIN mapping, *HIPPOCAMPUS (Brain), *OCCIPITAL lobe, *HEALTH outcome assessment, *INTRAOPERATIVE monitoring

Abstract

Summary: Intra-operative electrocorticography (ECoG) is useful in epilepsy surgery to delineate margins of epileptogenic zone, guide resection and evaluate completeness of resection in surgically remediable intractable epilepsies. The study evaluated 157 cases (2000–2008). The preoperative evaluation also included ictal SPECT (122) and PET in 32 cases. All were lesional cases, 51% (81) of patients had >1 seizure/day and another 1/3rd (51) had >1/week. Pre and post resection ECoG was performed in all cases. A total of 372 recordings were performed in 157 cases. Second post-operative recordings (42) and third post-operative recordings (16) were also performed. Site of recordings included lateral temporal (61), frontal (39), parietal (37), hippocampal (16) and occipital (4). 129/157 cases (82%) showing improvement on ECoG, 30/42 cases showed improvement in 2nd post resection, 8/16 showed improvement in the 3rd post-operative ECoG. 116/157 (73%) patients had good outcome (Engel I and II) at follow up (12–94 months, mean 18.2 months). Of these, 104 patients (80%) showed improvement on post-operative ECoG. 12 had good outcome despite no improvement on ECoG. The improvement in ECoG correlated significantly with clinical improvement [Sensitivity: 100% (95% CI; 96–100%); specificity: 68.3% (95% CI; 51.8–81.4%); positive predictive value: 89.9% (95% CI, 83.1–94.3%); negative predictive value: 100% (95% CI, 85–100%)]. The level of agreement was 91.72% (kappa: 0.76). Concluding, pre and post resection ECoG correlated with its grade of severity and clinical outcome. [Copyright &y& Elsevier]

Published

2010

29. Can mapping differentiate microreentry from a focus in the ventricle?

Author

Ideker, Raymond E., Rogers, Jack M., Fast, Vladimir, Li, Li, Kay, G. Neal, and Pogwizd, Steven M.

Published

2009

30. Transmural recording of shock potential gradient fields, early postshock activations, and refibrillation episodes associated with external defibrillation of long-duration ventricular fibrillation in swine.

Author

Allred, James D., Killingsworth, Cheryl R., Allison, J. Scott, Dosdall, Derek J., Melnick, Sharon B., Smith, William M., Ideker, Raymond E., and Walcott, Gregory P.

Abstract

Background: Knowledge of the shock potential gradient (∇V) and postshock activation is limited to internal defibrillation of short-duration ventricular fibrillation (SDVF). Objective: The purpose of this study was to determine these variables after external defibrillation of long-duration VF (LDVF). Methods: In six pigs, 115–20 plunge needles with three to six electrodes each were inserted to record throughout both ventricles. After the chest was closed, the biphasic defibrillation threshold (DFT) was determined after 20 seconds of SDVF with external defibrillation pads. After 7 minutes of LDVF, defibrillation shocks that were less than or equal to the SDVF DFT strength were given. Results: For DFT shocks (1632 ± 429 V), the maximum minus minimum ventricular voltage (160 ± 100 V) was 9.8% of the shock voltage. Maximum cardiac ∇V (28.7 ± 17 V/cm) was 4.7 ± 2.0 times the minimum ∇V (6.2 ± 3.5 V/cm). Although LDVF did not increase the DFT in five of the six pigs, it significantly lengthened the time to earliest postshock activation following defibrillation (1.6 ± 2.2 seconds for SDVF and 4.9 ± 4.3 seconds for LDVF). After LDVF, 1.3 ± 0.8 episodes of spontaneous refibrillation occurred per animal, but there was no refibrillation after SDVF. Conclusion: Compared with previous studies of internal defibrillation, during external defibrillation much less of the shock voltage appears across the heart and the shock field is much more even; however, the minimum ∇V is similar. Compared with external defibrillation of SDVF, the biphasic external DFT for LDVF is not increased; however, time to earliest postshock activation triples. Refibrillation is common after LDVF but not after SDVF in these normal hearts, indicating that LDVF by itself can cause refibrillation without requiring preexisting heart disease. [Copyright &y& Elsevier]

Published

2008

31. Mapping slow waves and spikes in chronically instrumented conscious dogs: automated on-line electrogram analysis.

Author

Wim J. E. P., Lammers, Michiels, B., Voeten, J., Ver Donck, L., and Schuurkes, J. A. J.

Subjects

*GASTROINTESTINAL system, *ELECTRODES, *DOGS, *ELECTROPHYSIOLOGY, *ELECTRIC resistors

Abstract

Myoelectric recordings from the gastrointestinal (GI) tract in conscious animals have been limited in duration and site. Recently, we have implanted 24 electrodes and obtained electrograms from these sites simultaneously (200 Hz sampling rate; 1.1 MB/min data stream). An automated electrogram analysis was developed to process this large amount of data. Myoelectrical recordings from the GI tract often consist of slow wave deflections followed by one or more action potentials (=spike deflections) in the same traces. To analyze these signals, a first module separates the signal into one containing only slow waves and a second one containing only spikes. The timings of these waveforms were then detected, in real time, for all 24 electrograms, in a separate slow wave detection module and a separate spike-detection module. Basic statistics such as timing and amplitudes and the number of spikes per slow wave were performed and displayed on-line. In summary, with this online analysis, it is possible to study for long periods of time and under various experimental conditions major components of gastrointestinal motility. [ABSTRACT FROM AUTHOR]

Published

2008

32. The importance of electrical mapping of VT in the approaching era of clinical imaging.

Author

Della Bella, Paolo and Frontera, Antonio

Subjects

*BODY surface mapping, *CATHETER ablation, *ELECTROPHYSIOLOGY, *MAGNETIC resonance imaging, *SERIAL publications, *VENTRICULAR tachycardia, *THREE-dimensional imaging

Abstract

An editorial is presented on the importance of electrical mapping of ventricular tachycardia (VT) in the approaching era of clinical imaging. Topics include the approach to the VT ablation has changed significantly, the initial efforts began in the 1980s has consisted of intra‐operative, and mapping has performed during cardiac surgery with 20‐electrode arrays has placed by hand on the endo‐epicardial surface.

Published

2020

33. Electrical activity in the rectum of anaesthetized dogs.

Author

Lammers, W. J. E. P., Abazer, F. A., Ver Donck, L., Smets, D., Schuurkes, J. A. J., and Coulie, B.

Subjects

*RECTUM, *ELECTROPHYSIOLOGY, *GASTROINTESTINAL system, *LARGE intestine, *PHYSIOLOGICAL effects of electricity

Abstract

There is limited data available on the electrical activity of the rectum. An in vivo canine model was developed to record 240 extracellular electrograms simultaneously from the serosal surface of the rectum thereby enabling an off-line reconstruction of the behaviour of the electrical signals. Serosal rectal electrical activity is characterized by brief bursts of action potentials (=spikes) with a frequency of 22 cycles min−1. High-resolution mapping of these signals revealed predominant propagation of these spikes in the longitudinal direction, originating from any site and conducted for a limited time and length before stopping spontaneously, thereby describing a patch of activity. The dimension of the patches in the longitudinal direction was significantly longer than the transversal width (13.6 vs 2.4 mm; P < 0.001). Spike propagation could occur in the aboral (46% of cases), in the oral (34%) or in both directions (20%). A bolus of betanechol (i.v., 0.5 mg kg−1) increased the frequency of the spikes without affecting size, shape or orientation of the patches. As in other parts of the gastrointestinal system, individual spike propagation in the rectum is limited to small areas or patches. The contractile activity of the organ could possibly reflect this underlying pattern of electrical behaviour. [ABSTRACT FROM AUTHOR]

Published

2006

34. Mapping slow waves and spikes in chronically instrumented conscious dogs: implantation techniques and recordings.

Author

Ver Donck, L., Lammers, W. J. E. P., Moreaux, B., Smets, D., Voeten, J., Vekemans, J., Schuurkes, J. A. J., and Coulie, B.

Subjects

*INTESTINES, *ELECTRIC resistors, *ELECTRODES, *GASTROINTESTINAL system, *DOGS

Abstract

Myoelectric recordings from the intestines in conscious animals have been limited to a few electrode sites with relatively large inter-electrode distances. The aim of this project was to increase the number of recording sites to allow high-resolution reconstruction of the propagation of myoelectrical signals. Sets of six unipolar electrodes, positioned in a 3×2 array, were constructed. A silver ring close to each set served as the reference electrodes. Inter-electrode distances varied from 4 to 8 mm. Electrode sets, to a maximum of 4, were implanted in various configurations allowing recording from 24 sites simultaneously. Four sets of 6 electrodes each were implanted successfully in 11 female Beagles. Implantation sites evaluated were the upper small intestine ( n=10), the lower small intestine ( n=4) and the stomach ( n=3). The implants remained functional for 7.2 months (median; range 1.4–27.3 months). Recorded signals showed slow waves at regular intervals and spike potentials. In addition, when the sets were positioned close together, it was possible to re-construct the propagation of individual slow waves, to determine their direction of propagation and to calculate their propagation velocity. No signs or symptoms of interference with normal GI-function were observed in the tested animals. With this approach, it is possible to implant 24 extracellular electrodes on the serosal surface of the intestines without interfering with its normal physiology. This approach makes it possible to study the electrical activities of the GI system at high resolution in vivo in the conscious animal. [ABSTRACT FROM AUTHOR]

Published

2006

35. Spatial determination of successive spikes in the isolated cat duodenum.

Author

Lammers, W. J. E. P., Faes, C., Stephen, B., Bijnens, L., Donck, L. Ver, and Schuurkes, J. A. J.

Subjects

*DUODENUM, *ELECTRODES, *CAT physiology, *GASTROINTESTINAL motility, CAT anatomy

Abstract

In seven isolated segments of the feline duodenum, the timings of all spikes and the locations of all spike patches that occurred after 12–16 successive slow waves were analysed. Simultaneous recordings were performed during 1-min periods using 240 extracellular electrodes (24 × 10 array; interelectrode distance 2 mm) positioned onto the serosal surface. In all seven preparations, spikes always occurred during the first half of the slow wave cycle. From preparation to preparation, and within 1-min periods in each preparation, there was limited variation in the spike–spike intervals, in the times between the spikes and the preceding slow wave and in the number of spikes at each electrode site. In contrast, the number of electrode sites that recorded spikes and the number of spike patches both showed great variability between preparations and sometimes within a single preparation. In addition, the location of spikes and spike patches was not random but was significantly concentrated in certain areas, often located along the anti-mesenteric border, while other sites showed little or no spike activity. In conclusion, spikes and spike patches tend to occur significantly in some areas and not in others. This spatial heterogeneity will play a role in intestinal motility. [ABSTRACT FROM AUTHOR]

Published

2004

36. Activation sequences following failed atrial defibrillation.

Author

Zheng, Xiangsheng, Huang, Jian, Walcott, Gregory P., Smith, William M., and Ideker, Raymond E.

Subjects

ATRIAL fibrillation, ELECTRODES, HEART diseases, CARDIOVASCULAR diseases

Abstract

Objectives: The purposes of this study were to examine the first activations following atrial defibrillation shocks to help understand how and where atrial fibrillation (AF) relapsed following failed shocks and to assess the difference in postshock activation between failed and successful shocks.Background: While many studies have investigated the mechanism of ventricular defibrillation, much less is known about the mechanisms of AF.Methods: Sustained AF was induced electrically after pericardial infusion of methylcholine in 10 sheep. Biphasic subthreshold shocks were delivered to three configurations: right atrium to distal coronary sinus (RA-CS), sequential shocks with RA-CS as the first pathway followed by proximal CS to superior vena cava as the second pathway (Sequential), and right ventricle to superior vena cava plus can (V-triad). In eight sheep, global atrial mapping was performed with 504 electrodes spaced 3 to 4 mm apart.Results: Earliest postshock activations mostly arose from the left atrium for V-triad but arose from either atrium for RA-CS and Sequential. Preshock AF cycle lengths were significantly shorter at the earliest activation sites than at seven of eight other sites globally distributed over both atria. In all type B successful episodes in which one or more rapid activations occurred after the shock and in 50 of the 72 failed episodes analyzed, activation fronts spread away from the earliest site in a focal pattern, and discrete nonfragmented activation complexes were present in the first derivatives of the electrograms. In the other 22 failed episodes, earliest activation fronts spread in a nonfocal pattern, and earliest postshock electrogram derivatives were fractionated. To better interpret the activation pattern in the fragmented regions, a 504 electrode plaque with 1.5-mm electrode spacing was placed on the right atrial appendage in two additional sheep. In 11 of 108 failed episodes, earliest postshock activation appeared inside the plaque and spread in a focal pattern with nonfragmented electrogram derivatives in 10 episodes and in a reentrant pattern with fragmented electrogram derivatives in the other.Conclusions: (1) The electrode configuration influenced the location of earliest postshock activation. (2) Earliest postshock activation occurred where the preshock AF cycle length was short. (3) Earliest activations following all type B successful and most failed episodes were not fragmented and spread in a focal pattern. (4) The region of earliest postshock activation in the failed episodes without a focal postshock activation pattern exhibited regions of fragmented electrogram derivatives that may represent conduction block and possibly reentry. [ABSTRACT FROM AUTHOR]

Published

2004

37. Epicardial organization of human ventricular fibrillation.

Author

Nanthakumar, Kumaraswamy, Walcott, Gregory P., Melnick, Sharon, Rogers, Jack M., Kay, Matthew W., Smith, William M., Ideker, Raymond E., and Holman, William

Subjects

VENTRICULAR fibrillation, ARRHYTHMIA, CARDIAC arrest, CARDIAC surgery, ACTION potentials, ALGORITHMS, BODY surface mapping, CARDIOPULMONARY bypass, COMPARATIVE studies, HEART ventricles, HEART function tests, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, PERICARDIUM, RESEARCH, TIME, EVALUATION research

Abstract

Objective: The objective of this study was to test the hypothesis that on the epicardium of the in vivo human heart, ventricular fibrillation (VF) consists of chaotic small wavefronts that constantly change paths.Background: Despite the significance of VF to cardiovascular mortality, little is known about the wavefronts that constitute VF in humans.Methods: In 9 patients undergoing cardiac surgery, a single VF episode was induced by rapid pacing immediately after institution of cardiopulmonary bypass while recordings were made from 504 electrodes spaced 2 mm apart in a 20 cm(2) plaque held against the anterior left ventricle epicardium. A total of 26 segments of VF, each 2 s long, were analyzed. A computer algorithm identified individual wavefronts and classified them into groups that followed similar activation sequences.Results: The mean activation rate was 5.8 +/- 1.8 (mean +/- SD) cycles/s. The wavefronts during each epoch were grouped into 9.4 +/- 7.1 different activation pathways, and 8.3 +/- 2.3 wavefronts followed each pathway. Individual wavefronts spread to activate an area of 5.1 +/- 3.0 cm(2) in the mapped region. The majority of the wavefronts propagated into the mapped region and/or propagated out of the mapped region into adjacent tissue, suggesting that the wavefronts were larger than 5.1 cm(2). Reentry was identified in only 16 of the 26 (62%) 2-s segments, always completed <2 cycles, and lasted for 9.5 +/- 6.6% of these 16 epochs, which is 5.8% of the total duration of all the segments analyzed.Conclusion: VF wavefronts on the human epicardium are usually large, repeatedly follow distinct pathways, and only occasionally reenter. If these results for the left ventricular epicardium are representative of those for the entire ventricular mass, they do not support the hypothesis that human VF consists of small, constantly changing wavefronts, but rather suggest that there is significant organization of human VF. [ABSTRACT FROM AUTHOR]

Published

2004

38. Evolution of Action Potential Propagation and Repolarization in Cultured Neonatal Rat Ventricular Myocytes.

Author

Meiry, Gideon, Reisner, Yotam, Feld, Yair, Goldberg, Stanislav, Rosen, Michael, Ziv, Noam, and Binah, Ofer

Subjects

MUSCLE cells, ACTION potentials, GAP junctions (Cell biology), HEART beat, ELECTROPHYSIOLOGY

Abstract

Introduction: Cultured neonatal rat ventricular myocytes (NRVM) reestablish gap junctions as they form synchronously and spontaneously beating monolayers, thus providing a useful model for studying activation and repolarization. Methods and Results: We used the multielectrode array data acquisition system with 60 unipolar electrodes to investigate the functional organization of cultured NRVM, by determining propagation and repolarization patterns. Activation maps were constructed from the local activation times at each electrode. During days 3 to 8 in culture, QRS amplitude and dV/dtmax increased with age. Concomitantly, with the culture maturation, QT interval (representing action potential duration) decreased, and T wave amplitude and slopes of the T wave ascending and descending limbs progressively increased. The changes in conduction velocity were different than those of the electrogram properties, slightly increasing during the first 3 to 5 days and gradually declining toward day 8 in culture. Conclusion: Establishment of uniform activation patterns in spontaneously firing or driven myocytes in monolayer cultures is accompanied by organization of activation and repolarization whose evolution appears in concert with that of a mature connexin43 staining pattern. The experimental techniques developed in this study provide useful tools to investigate the complex relations among gap junctions, conduction velocity, and propagation patterns, as well as a means to learn how gap junctional remodeling under pathophysiologic conditions predisposes the myocardium to arrhythmias. [ABSTRACT FROM AUTHOR]

Published

2001

39. Reentry Site During Fibrillation Induction in Relation to Defibrillation Efficacy for Different Shock Waveforms.

Author

Ideker, Raymond E., Alferness, Clif, and Melnick, Sharon

Subjects

ELECTRIC countershock, VENTRICULAR fibrillation, MEDICAL supplies, MEDICAL equipment, ELECTRIC shock, MEDICAL laboratory equipment

Abstract

Introduction: Unsuccessful defibrillation shocks may reinitiate fibrillation by causing postshock reentry. Methods and Results: To better understand why some waveforms are more efficacious for defibrillation, reentry was induced in six dogs with 1-, 2-, 4-, 8-, and 16-msec monophasic and 1/1- (both phases 1 msec) 2/2-, 4/4-, and 8/8-msec biphasic shocks. Reentry was initiated by 141 ± 15 V shocks delivered from a defibrillator with a 150-μF capacitance during the vulnerable period of paced rhythm (183 ± 12 msec after the last pacing stimulus). The shock potential gradient field was orthogonal to the dispersion of refractoriness. Activation was mapped with 121 electrodes covering 4 İ 4 cm of the right ventricular epicardium, and potential gradient and degree of recovery of excitability were estimated at the sites of reentry. Defibrillation thresholds (DFTs) were estimated by an up-down protocol for the same nine waveforms in eight dogs internally and in nine other dogs externally. DFT voltages for the different waveforms were positively correlated with the magnitude of shock potential gradient and negatively correlated with the recovery interval at the site at which reentry was induced by the waveform during paced rhythm for both internal (DFT = 1719 + 64.5∇V - 11.1RI; R² = 0.93) and external defibrillation (DFT = 3445 + 150∇V - 22RI; R² = 0.93). Conclusion: The defibrillation waveforms with the lowest DFTs were those that induced reentry at sites of low shock potential gradient, indicating efficacious stimulation of myocardium. Additionally, the site of reentry induced by waveforms with the lowest DFTs was in myocardium that was more highly recovered just before the shock, perhaps because this high degree of recovery seldom occurs during defibrillation due to the rapid activation rate during fibrillation. [ABSTRACT FROM AUTHOR]

Published

2001

40. The spatial behaviour of spike patches in the feline gastroduodenal junction in vitro.

Author

Lammers, Slack, Stephen, Pozzan, and Lammers, Wim J. E. P.

Subjects

*CAT diseases, *PYLORUS diseases, *SPATIAL behavior in animals

Abstract

In the isolated feline gastroduodenal region, the spatial propagation of slow waves and of individual spikes was reconstructed. Recordings were performed simultaneously from 240 extracellular electrodes positioned on the serosal surface across the junction. Results from nine experiments (22 slow waves) showed that the slow wave never propagated across the gastroduodenal region and that this block was due to the presence of a zone of quiescence caudal to the pylorus. In contrast, spikes (n=155) were able to propagate into the quiescent zone, either from the antrum (15.4%) or from the duodenum (34.0%) and occasionally, were able to propagate from one organ to the other (10.9%). However, in all cases, spike conduction was self-limited and activated a local area termed a ‘patch’. The length of the patches located in the gastroduodenal region was significantly longer than in the rest of the duodenum (20.2 mm ± 9.7 vs. 9.5 mm ± 3.2; P < 0.001) indicating a possible enhancement of spike propagation in this region. In conclusion, in spite of the total conduction block for slow waves, individual spikes are able to propagate across the gastroduodenal region, albeit in self-limited areas or ‘patches’. These spike patches could form the building blocks for gastroduodenal coordination. [ABSTRACT FROM AUTHOR]

Published

2000

41. The effects of oxytocin on the pattern of electrical propagation in the isolated pregnant uterus of the rat.

Author

Lammers, W. J. E. P., Stephen, Betty, Hamid, Romana, and Harron, Dean W. G.

Abstract

In the isolated pregnant myometrium of the rat, the pattern of propagation was investigated by recording simultaneously from 240 different extracellular sites while the contraction of the tissue was recorded isometrically. Analysis of all recorded electrograms allowed the two-dimensional spread of activity in the myometrium to be reconstructed. From these activation maps, the conduction velocities were measured in the longitudinal, oblique and transversal directions. At low concentrations (10–9 and 5×10–9 M), oxytocin significantly increased the frequency and duration of electrical bursts and the average spike intervals, without affecting the homogeneity of action potential propagation, concomitant with a significant increase in the amplitude of contractions. At high concentrations (10–8 and 5×10–8 M), oxytocin induced conduction blocks and the size of inexcitable areas was increased, concomitantly with an increase in muscle contractures. In contrast, the conduction velocities in the longitudinal, oblique and circular directions were not influenced by oxytocin at any concentrations. [ABSTRACT FROM AUTHOR]

Published

1999

42. Electrically guided versus imaging-guided implant of the left ventricular lead in cardiac resynchronization therapy: a study protocol for a double-blinded randomized controlled clinical trial (ElectroCRT).

Author

Stephansen, Charlotte, Sommer, Anders, Kronborg, Mads Brix, Jensen, Jesper Møller, Bouchelouche, Kirsten, and Nielsen, Jens Cosedis

Subjects

CARDIAC pacing, ARTIFICIAL implants, LEFT heart ventricle diseases, RANDOMIZED controlled trials, ECHOCARDIOGRAPHY, CARDIAC imaging

Abstract

Background: Cardiac resynchronization therapy (CRT) is an established treatment in patients with heart failure and prolonged QRS duration where a biventricular pacemaker is implanted to achieve faster activation and more synchronous contraction of the left ventricle (LV). Despite the convincing effect of CRT, 30-40% of patients do not respond. Among the most important correctable causes of non-response to CRT is non-optimal LV lead position.Methods: We will enroll 122 patients in this patient-blinded and assessor-blinded, randomized, clinical trial aiming to investigate if implanting the LV lead guided by electrical mapping towards the latest LV activation as compared with imaging-guided implantation, causes an excess increase in left ventricular (LV) ejection fraction (LVEF). The patients are randomly assigned to either the intervention group: preceded by cardiac computed tomography of the cardiac venous anatomy, the LV lead is placed according to the latest LV activation in the coronary sinus (CS) branches identified by systematic electrical mapping of the CS at implantation and post-implant optimization of the interventricular pacing delay; or patients are assigned to the control group: placement of the LV lead guided by cardiac imaging. The LV lead is targeted towards the latest mechanical LV activation as identified by echocardiography and outside myocardial scar as identified by myocardial perfusion (MP) imaging. The primary endpoint is change in LVEF at 6-month follow up (6MFU) as compared with baseline measured by two-dimensional echocardiography. Secondary endpoints include relative percentage reduction in LV end-systolic volume, all-cause mortality, hospitalization for heart failure, and a clinical combined endpoint of response to CRT at 6MFU defined as the patient being alive, not hospitalized for heart failure, and experiencing improvement in NYHA functional class or/and > 10% increase in 6-minute walk test.Discussion: We assume an absolute increase in LVEF of 12% in the intervention group versus 8% in the control group. If an excess increase in LVEF can be achieved by LV lead implantation guided by electrical mapping, this study supports the conduct of larger trials investigating the impact of this strategy for LV-lead implantation on clinical outcomes in patients treated with CRT.Trial Registration: ClinicalTrials.gov, NCT02346097 . Registered on 12 January 2015. Patients were enrolled between 16 February 2015 and 13 December 2017. [ABSTRACT FROM AUTHOR]

Published

2018