Leadless Pacing: Therapy, Challenges and Novelties

Nadeev Wijesuriya; Steven Niederer; Christopher Aldo Rinaldi; Jonathan Behar; Felicity De Vere; Vishal Mehta

doi:10.15420/aer.2022.41

Leadless Pacing: Therapy, Challenges and Novelties

Nadeev Wijesuriya, Steven Niederer, Christopher Aldo Rinaldi, Jonathan Behar, Felicity De Vere, Vishal Mehta

Research output: Contribution to journal › Review article › peer-review

5 Citations (Scopus)

Abstract

Leadless pacing is a rapidly growing field. Initially designed to provide right ventricular pacing for those who were contraindicated for conventional devices, the technology is growing to explore the potential benefit of avoiding long-term transvenous leads in any patient who requires pacing. In this review, we first examine the safety and performance of leadless pacing devices. We then review the evidence for their use in special populations, such as patients with high risk of device infection, patients on haemodialysis, and patients with vasovagal syncope who represent a younger population who may wish to avoid transvenous pacing. We also summarise the evidence for leadless cardiac resynchronisation therapy and conduction system pacing and discuss the challenges of managing issues, such as system revisions, end of battery life and extractions. Finally, we discuss future directions in the field, such as completely leadless cardiac resynchronisation therapy-defibrillator devices and whether leadless pacing has the potential to become a first-line therapy in the near future.

Original language	English
Article number	e09
Journal	Arrhythmia and Electrophysiology Review
Volume	12
DOIs	https://doi.org/10.15420/aer.2022.41
Publication status	Published - 10 May 2023

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10.15420/aer.2022.41

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title = "Leadless Pacing: Therapy, Challenges and Novelties",

abstract = "Leadless pacing is a rapidly growing field. Initially designed to provide right ventricular pacing for those who were contraindicated for conventional devices, the technology is growing to explore the potential benefit of avoiding long-term transvenous leads in any patient who requires pacing. In this review, we first examine the safety and performance of leadless pacing devices. We then review the evidence for their use in special populations, such as patients with high risk of device infection, patients on haemodialysis, and patients with vasovagal syncope who represent a younger population who may wish to avoid transvenous pacing. We also summarise the evidence for leadless cardiac resynchronisation therapy and conduction system pacing and discuss the challenges of managing issues, such as system revisions, end of battery life and extractions. Finally, we discuss future directions in the field, such as completely leadless cardiac resynchronisation therapy-defibrillator devices and whether leadless pacing has the potential to become a first-line therapy in the near future.",

author = "Nadeev Wijesuriya and Steven Niederer and Rinaldi, {Christopher Aldo} and Jonathan Behar and {De Vere}, Felicity and Vishal Mehta",

note = "Funding Information: Disclosures: NW receives fellowship funding from the British Heart Foundation (FS/CRTF/22/24362). VM has received fellowship funding from Abbott. SN acknowledges support from the UK Engineering and Physical Sciences Research Council (EP/M012492/1, NS/A000049/1, and EP/P01268X/1), the British Heart Foundation (PG/15/91/31812,PG/13/37/30280, SP/18/6/33805), US National Institutes of Health (NIH R01-HL152256), European Research Council (ERC PREDICT-HF 864055) and Kings Health Partners London National Institute for Health Research (NIHR) Biomedical Research Centre. CAR receives research funding and/or consultation fees from Abbott, Medtronic, Boston Scientific, Spectranetics, EBR Systems and MicroPort outside of the submitted work. JMB recieves research funding and/or consultation fees from Abbott, Siemens Healthcare, EBR Systems and Biosense Webster outside of submitted work. FDV has no conflicts of interest to declare. Funding: The authors are supported by the Wellcome/EPSRC Centre for Medical Engineering (WT203148/Z/16/Z). Received: 17 November 2022 Accepted: 15 February 2023 Citation: Arrhythmia & Electrophysiology Review 2023;12:e09. DOI: https://doi.org/10.15420/aer.2022.41 Correspondence: Nadeev Wijesuriya, School of Biomedical Engineering and Imaging Sciences, Rayne Institute, 4th Floor, Lambeth Wing, St Thomas{\textquoteright} Hospital, Westminster Bridge Rd, London SE1 7EH, UK. E: [email protected] Open Access: This work is open access under the CC-BY-NC 4.0 License which allows users to copy, redistribute and make derivative works for non-commercial purposes, provided the original work is cited correctly. Publisher Copyright: {\textcopyright} 2023 Radcliffe Group Ltd. All rights reserved.",

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AU - Rinaldi, Christopher Aldo

AU - Behar, Jonathan

AU - De Vere, Felicity

AU - Mehta, Vishal

N1 - Funding Information: Disclosures: NW receives fellowship funding from the British Heart Foundation (FS/CRTF/22/24362). VM has received fellowship funding from Abbott. SN acknowledges support from the UK Engineering and Physical Sciences Research Council (EP/M012492/1, NS/A000049/1, and EP/P01268X/1), the British Heart Foundation (PG/15/91/31812,PG/13/37/30280, SP/18/6/33805), US National Institutes of Health (NIH R01-HL152256), European Research Council (ERC PREDICT-HF 864055) and Kings Health Partners London National Institute for Health Research (NIHR) Biomedical Research Centre. CAR receives research funding and/or consultation fees from Abbott, Medtronic, Boston Scientific, Spectranetics, EBR Systems and MicroPort outside of the submitted work. JMB recieves research funding and/or consultation fees from Abbott, Siemens Healthcare, EBR Systems and Biosense Webster outside of submitted work. FDV has no conflicts of interest to declare. Funding: The authors are supported by the Wellcome/EPSRC Centre for Medical Engineering (WT203148/Z/16/Z). Received: 17 November 2022 Accepted: 15 February 2023 Citation: Arrhythmia & Electrophysiology Review 2023;12:e09. DOI: https://doi.org/10.15420/aer.2022.41 Correspondence: Nadeev Wijesuriya, School of Biomedical Engineering and Imaging Sciences, Rayne Institute, 4th Floor, Lambeth Wing, St Thomas’ Hospital, Westminster Bridge Rd, London SE1 7EH, UK. E: [email protected] Open Access: This work is open access under the CC-BY-NC 4.0 License which allows users to copy, redistribute and make derivative works for non-commercial purposes, provided the original work is cited correctly. Publisher Copyright: © 2023 Radcliffe Group Ltd. All rights reserved.

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N2 - Leadless pacing is a rapidly growing field. Initially designed to provide right ventricular pacing for those who were contraindicated for conventional devices, the technology is growing to explore the potential benefit of avoiding long-term transvenous leads in any patient who requires pacing. In this review, we first examine the safety and performance of leadless pacing devices. We then review the evidence for their use in special populations, such as patients with high risk of device infection, patients on haemodialysis, and patients with vasovagal syncope who represent a younger population who may wish to avoid transvenous pacing. We also summarise the evidence for leadless cardiac resynchronisation therapy and conduction system pacing and discuss the challenges of managing issues, such as system revisions, end of battery life and extractions. Finally, we discuss future directions in the field, such as completely leadless cardiac resynchronisation therapy-defibrillator devices and whether leadless pacing has the potential to become a first-line therapy in the near future.

AB - Leadless pacing is a rapidly growing field. Initially designed to provide right ventricular pacing for those who were contraindicated for conventional devices, the technology is growing to explore the potential benefit of avoiding long-term transvenous leads in any patient who requires pacing. In this review, we first examine the safety and performance of leadless pacing devices. We then review the evidence for their use in special populations, such as patients with high risk of device infection, patients on haemodialysis, and patients with vasovagal syncope who represent a younger population who may wish to avoid transvenous pacing. We also summarise the evidence for leadless cardiac resynchronisation therapy and conduction system pacing and discuss the challenges of managing issues, such as system revisions, end of battery life and extractions. Finally, we discuss future directions in the field, such as completely leadless cardiac resynchronisation therapy-defibrillator devices and whether leadless pacing has the potential to become a first-line therapy in the near future.

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DO - 10.15420/aer.2022.41

M3 - Review article

SN - 2050-3369

VL - 12

JO - Arrhythmia and Electrophysiology Review

JF - Arrhythmia and Electrophysiology Review

M1 - e09

ER -

Leadless Pacing: Therapy, Challenges and Novelties

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