Results 101 to 110 of about 1,992 (130)
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Herzschrittmachertherapie + Elektrophysiologie, 2018
Nanostim™ (St. Jude Medical Inc., Saint Paul, MN, USA; now Abbott Medical Inc. Abbott Park, IL, USA) was the first self-contained intracardiac pacemaker to be implanted in a human patient. A total of 1423 Nanostim devices were implanted worldwide between 2013 and 2016 and three clinical trials were initiated.
Johannes, Sperzel +2 more
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Nanostim™ (St. Jude Medical Inc., Saint Paul, MN, USA; now Abbott Medical Inc. Abbott Park, IL, USA) was the first self-contained intracardiac pacemaker to be implanted in a human patient. A total of 1423 Nanostim devices were implanted worldwide between 2013 and 2016 and three clinical trials were initiated.
Johannes, Sperzel +2 more
openaire +2 more sources
JAAPA, 2019
ABSTRACT Smaller leadless pacemakers placed in the right ventricle can reduce the risk of lead fracture or dislodgement and subcutaneous pocket complications, which can occur with traditional transvenous cardiac pacemakers. This article describes new leadless pacemakers and their indications.
Ashley, Groner, Kristen, Grippe
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ABSTRACT Smaller leadless pacemakers placed in the right ventricle can reduce the risk of lead fracture or dislodgement and subcutaneous pocket complications, which can occur with traditional transvenous cardiac pacemakers. This article describes new leadless pacemakers and their indications.
Ashley, Groner, Kristen, Grippe
openaire +2 more sources
Current Opinion in Cardiology, 2018
Pacing technology for many decades has been composed of a generator attached to leads that are usually transvenous. Recently, leadless pacemakers have been studied in clinical settings and now available for use in many countries. This includes the single-component Nanostim Leadless Cardiac Pacemaker and Micra Transcatheter Pacing System, as well as the
Derek S, Chew, Vikas, Kuriachan
openaire +2 more sources
Pacing technology for many decades has been composed of a generator attached to leads that are usually transvenous. Recently, leadless pacemakers have been studied in clinical settings and now available for use in many countries. This includes the single-component Nanostim Leadless Cardiac Pacemaker and Micra Transcatheter Pacing System, as well as the
Derek S, Chew, Vikas, Kuriachan
openaire +2 more sources
A leadless pericardial pacemaker
Heart RhythmCardiac pacemakers have complications related to long pacemaker leads, subcutaneous pockets, and endovascular hardware.We report on the development of a leadless micropacemaker for percutaneous implantation into the pericardial space.Percutaneous implantations of a micropacemaker system were performed in 15 pigs through subxiphoid access to the ...
Yaniv Bar-Cohen +8 more
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Leadless pacemaker: Performance and complications
Trends in Cardiovascular Medicine, 2018Traditional transvenous cardiac pacemakers have pitfalls due to lead- and device pocket-related complications. Leadless pacemakers were developed and introduced into clinical practice to overcome the shortcomings of traditional transvenous pacemakers. In this review, we provide a description of leadless pacemaker devices, and summarize existing data on
Justin Z, Lee +2 more
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An early look at a new leadless pacemaker
Journal of Cardiovascular Electrophysiology, 2023Early product performance issues involving a new leadless pacemaker result in potentially harmful exchanges during device implantation.
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Leadless pacemaker implantation: An unexpected complication
Pacing and Clinical Electrophysiology, 2021AbstractThe leadless pacemaker is an emerging technology with high efficacy and reduced complications rates. However, due to its novel status, some pitfalls remain to be addressed. We report the case of a 91‐year‐old patient undergoing a Micra pacemaker implantation. During the procedure, the maneuvers required for the adequate deployment of the device
Brahim Berdaoui +4 more
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Implantation of a leadless pacemaker in young adults
Journal of Cardiovascular Electrophysiology, 2023AbstractAimsLeadless pacing has emerged as an alternative to conventional transvenous pacemakers to mitigate the risks of pocket‐ and lead‐related complications but its use remains controversial in young adults mostly because experience in this patient population is limited.
Marc Strik +9 more
openaire +2 more sources
JAMA, 2016
A first-of-its-kind pacemaker that regulates heart rate without lead wires has received FDA approval. The Micra Transcatheter Pacing System is a self-contained, 1-inch-long device that is implanted directly into the heart’s right ventricle (http://1.usa.gov/23iwftQ).
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A first-of-its-kind pacemaker that regulates heart rate without lead wires has received FDA approval. The Micra Transcatheter Pacing System is a self-contained, 1-inch-long device that is implanted directly into the heart’s right ventricle (http://1.usa.gov/23iwftQ).
openaire +1 more source
Leadless Pacemaker After Complicated Hematoma
Revista Española de Cardiología (English Edition), 2016En pacientes portadores de protesis mecanicas, la necesidad de anticoagulacion permanente con antagonistas de la vitamina K, cuyo mantenimiento en valores terapeuticos es erratico con mucha frecuencia, aumenta de forma considerable el riesgo de hematomas de la bolsa del generador cuando se implantan dispositivos cardiacos electronicos.
Marta, Pachón +2 more
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