Filippo Ziglio scite author profile

Filippo Ziglio

5Publications

21Citation Statements Received

108Citation Statements Given

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103

Affiliations

Amplitude Technologies (France), MicroPort Orthopedics (Netherlands), LivaNova (France)

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Evaluating multisite pacing strategies in cardiac resynchronization therapy in the preclinical setting

Heckman

Kuiper

Anselme³

et al. 2020

Heart Rhythm O2

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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 5 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% 6 10%, 32% 6 13%, and 32% 6 14%, respectively (P 5 NS between modes) and LVAT by 4% 6 5%, 11% 6 5%, and 12% 6 5%, respectively (P ,.05 BiVP vs MPP and MZP). On average, BiVP increased LVdP/dtmax by 8% 6 4%, and optimal BiVP increased LVdP/dtmax by 13% 6 4%. The additional improvement in LVdP/ dtmax by MZP and MPP was significant only when its increase during BiVP and decrease in TAT were poor (lower 25% of all sites in 1 subject). The increase in LVdP/dtmax was larger when large interelectrode distances (.5 cm vs ,2.2 cm) were used.CONCLUSION In this animal model of acute LBBB, MPP and MZP create similar degrees of electrical resynchronization and hemodynamic effect, which are larger if interelectrode distance is large. MPP and MZP increase the benefit of CRT only if the left ventricular lead used for BiVP provides poor response.

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Analysis of endocardial acceleration during intraoperative optimization of cardiac resynchronization therapy

Hernández

Ziglio²,

Amblard³

et al. 2013

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Cardiac resynchronization therapy (CRT) is the therapy of choice for selected patients suffering from drug-refractory congestive heart failure and presenting an interventricular desynchronization. CRT is delivered by an implantable biventricular pacemaker, which stimulates the right atrium and both ventricles at specific timings. The optimization and personalization of this therapy requires to quantify both the electrical and the mechanical cardiac functions during the intraoperative and postoperative phases. The objective of this paper is to evaluate the feasibility of the calculation of features extracted from endocardial acceleration (EA) signals and the potential utility of these features for the intraoperative optimization of CRT. Endocardial intraoperative data from one patient are analyzed for 33 different pacing configurations, including changes in the atrio-ventricular and inter-ventricular delays and different ventricular stimulation sites. The main EA features are extracted for each pacing configuration and analyzed so as to estimate the intra-configuration and inter-configuration variability. Results show the feasibility of the proposed approach and suggest the potential utility of EA for intraoperative monitoring of the cardiac function and defining optimal, adaptive pacing configurations.

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Cardiac Hemodynamic Monitoring in the Subcutaneous Space : A pre-clinical proof-of-concept

Alvarez

Joubert

Ziglio

et al. 2018

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Exploring a New Systematic Route for Left Ventricular Pacing in Cardiac Resynchronization Therapy

Anselme

Albatat

Marquié

et al. 2021

Circ J

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Background: Frequency and distribution of left ventricular (LV) venous collaterals were studied in vivo to evaluate the ease and feasibility of implanting a new ultra-thin LV quadripolar microlead for cardiac resynchronization therapy (CRT). Methods and Results: Evaluable venograms were analyzed to define the prevalence of venous collaterals (>0.5 mm diameter) between: (1) different LV segments; and (2) different major LV veins in: unselected patients who underwent CRT from 2008 to 2012 at Rouen Hospital, France (retrospective); and CRT patients from the Axone Acute pilot study in 2018 (prospective). In prospective patients with evaluable venograms, LV microlead implantation was attempted. Thirty-six (21/65 retrospective, 15/20 prospective) patients had evaluable venograms with ≥1 visible venous collaterals. Collaterals were found between LV veins in all CRT patients with evaluable venograms. Regionally, prevalence was highest between: the apical inferior and apical lateral (42%); and mid inferior and mid inferolateral (42%) segments. Collateral connections were most prevalent between: the inferior interventricular vein (IIV) and lateral vein (64% [23/36]); and IIV and infero-lateral vein (36% [13/36]). Cross-vein microlead implantation was possible in 18 patients (90%), and single-vein implantation was conducted in the other 2 patients (10%). Conclusions: Venous collaterals were found in vivo between LV veins in all CRT patients with evaluable venograms, making this network an option for accessing multiple LV sites using a single LV microlead.

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Patient Specific Strategies to Enhance Leadless Pacemaker Lifetime in Synchronized Dual Chamber System

et al. 2020

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Dual chamber leadless pacemakers are multi-unit, battery-driven implants utilized for treating patients with bradyarrhythmias and sino-atrial dysfunctions. Establishing synchronization between the units provides coordination between the atrium and ventricular contraction, and this mechanism depletes battery energy. Due to implant size constraints, reducing the synchronization energy consumed to enhance the lifetime of the implant is crucial. In this paper, a set of strategies are proposed and evaluated to indicate the best strategy to enhance the lifetime of atrial unit based on the patient's heart condition. Beat selective pulse transmission is employed instead of pulse transmission on every beat to reduce energy consumption. The characteristics of interbeat contraction timing of the atrium and ventricle from the patient data is modeled as time series. The designed model is extended to model synchronization strategies with sufficient synchronization accuracy and reduction in energy consumption. It is found that the implant lifetime is dependent on the natural atrial contraction probability, which is patient specific. A relation between the transmission duty-cycle and natural atrial contraction probability is derived for all the strategies, and this analysis is used in a case study to quantify the longevity. The proposed strategies show improved lifetime in comparison to the reference strategy. In the case study, for natural atrial contraction probability of 0.1, longevity is increased by two orders in relation to the reference strategy with the longevity of 4 years. However, there is no one best strategy; instead, the most energy-efficient strategy is determined from patient's natural atrial contraction probability and tolerance to suboptimal coordination. INDEX TERMS Leadless pacemaker synchronization, improved atrial longevity, atrium and ventricle interbeat timing model, energy-efficient synchronization, interbeat time series equation.

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Filippo Ziglio

Evaluating multisite pacing strategies in cardiac resynchronization therapy in the preclinical setting

Analysis of endocardial acceleration during intraoperative optimization of cardiac resynchronization therapy

Cardiac Hemodynamic Monitoring in the Subcutaneous Space : A pre-clinical proof-of-concept

Exploring a New Systematic Route for Left Ventricular Pacing in Cardiac Resynchronization Therapy

Patient Specific Strategies to Enhance Leadless Pacemaker Lifetime in Synchronized Dual Chamber System

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