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UnknownNCT03533140

Postoperative Atrial Fibrillation Suppression By Nerve Stimulation

Low Level Transcutaneous Electrical Vagus Nerve Stimulation To Suppress Atrial Fibrillation

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
42 (actual)
Sponsor
Medical University of Vienna · Academic / Other
Sex
All
Age
18 Years – 80 Years
Healthy volunteers
Not accepted

Summary

The current study will evaluate the potential of stimulating the R.auricularis of the vagus nerve located at the Fossa triangularis to ameliorate or suppress AF in the study Population!

Detailed description

Scientific Background Nearly 30% of patients undergoing coronary artery bypass grafting (CABG), 40% of patients undergoing valvular heart surgery and over 50% of patients with combined coronary and valvular procedures develop atrial fibrillation (AF). Postoperative AF occurs mostly due to conditions like chronic kidney diseases, emergency surgery, age \>75 years, cardiopulmonary bypass time \>180 min and due to lacking postoperative application of aldosterone- and beta-blockers. An overview of pre- intra- and postoperative risks for AF is listed in Table 1: Pre-, intra-, postoperative risks for AF. Preoperative High age Male gender Previous cardiac surgery Valvular heart disease Chronic lung disease Chronic renal failure Leſt atrium enlargement Leſt ventricular hypertrophy Withdrawal of beta-blocker medication History of AF Hypertension Obesity Diabetes Metabolic Syndrome Intraoperative Endotracheal tube insertion Intraoperative IABP Leſt ventricular venting Aortic cross-clamp time Extracorporeal circulation Myocardial ischemia Venous cannulation Damage to the atrium Excess inotropic requirements Acute volume change Postoperative Return to intensive care unit Ventilation longer than 24 hours Volume overload Pneumonia Electrolyte imbalances Imbalance of auton. nervous system Atrial extrasystole Increased postop adrenergic status Increased aſterload Inflammation Hypotension Several theories describe the emergence of AF like "multiple-wavelet re-entry", "focal mechanism" and "mother rotor" but the exact underlying mechanisms are still not well understood. Prevention and treatment of postoperative AF are managed with conservative medication therapies including e.g. beta-blockers and other clinical interventions include radio frequency catheter ablation, cardioversion and occlusion of the left atrial appendage. A novel approach for suppression of AF utilizing low-level transcutaneous electrical vagus nerve stimulation has been described recently in the Journal of the American College of Cardiology. The newly developed "DUCEST Neurostimulator V" device (manufactured by Biegler Medizinelektronik GmbH Mauerbach, Austria) offers similar action as in. This Neurostimulator device is designed to emit small direct current electrical pulses (0-1,2mA) to stimulate the R.auricularis of the vagus nerve located at the Fossa triangularis. The target population are patients with de-novo postoperative AF. The stimulation is achieved with the attachment of two needle- electrodes and connection of the electrodes to the Neurostimulator. Following the stimulation of the vagus nerve positive effects were already achieved in chronical wound healing, peripheral artery occlusive disease (PAOD), Claudicatio intermittens (CI) and chronic pain patients.

Conditions

Interventions

TypeNameDescription
DEVICEDUCEST Neurostimulator V Group AThe DUCEST Neurostimulator V needle-electrodes are applied post-operatively to stimulate the R.auricularis of the vagus nerve located at the Fossa triangularis. Connecting the needle-electrode cables to the Neurostimulator V activates the device. (The stimulation intensity can be adjusted from 0,05mA to 1,2mA, default value is 0,4mA). The starting stimulation intensity will be adjusted to 1mA and takes place at 1Hz continuously for 40 minutes, followed by a 20 minute break. The built-in 3V battery lasts for approx. 14 days. After 7 days the electrodes are replaced and applied to the other ear of the patient. A plaster with a plastic mounting clip is attached on the shoulder of the patient. The Neurostimulator is connected to the mounting clip. After 14 days or at hospital discharge of the patient, the device is unmounted and the needle-electrodes are removed.
DEVICEDUCEST Neurostimulator V Group BThe DUCEST Neurostimulator V needle-electrodes are applied post-operatively at the Fossa triangularis. Connecting the needle-electrode cables to the Neurostimulator V activates only the signal lamp but not the device.

Timeline

Start date
2015-10-01
Primary completion
2018-03-01
Completion
2018-05-31
First posted
2018-05-23
Last updated
2018-05-23

Source: ClinicalTrials.gov record NCT03533140. Inclusion in this directory is not an endorsement.