search

Active clinical trials for "Bradycardia"

Results 1-10 of 245

Apnea Treatment in Premature Infants Using an Automatic Vibro-tactile Stimulator Triggered by the...

Apnea of Prematurity

The goal of the SENSITACT system is to activate an adaptive kinesthetic stimulation to treat apnea-bradycardia events on preterm infants, while minimizing deleterious effects, in particular arousals that can be due either to respiratory efforts or to kinesthetic stimulation itself. This novel system will provide an alternative treatment to apnea-bradycardia, with improved patient comfort and autonomy. In particular, it may become a complementary solution for the current treatments (Manual stimulation by caregivers, continuous or intermittent nasal positive pressure ventilation and methylxanthine therapies) that do not appear to be optimal and usually only allow a partial reduction in the number and severity of apneas.

Recruiting16 enrollment criteria

Novel Setup Algorithm for Cardiac Neuromodulation Therapy

HypertensionBradycardia

After meeting all inclusion/exclusion criteria, subjects on standard pacing with the Moderato® Implantable Pulse Generator (IPG) will be subjected to two set-up sessions for the CNT algorithm: at week 4 and at week 6 post implant. At the end of these visits, subjects will undergo a 24 ambulatory blood pressure recording after which CNT will be automatically turned OFF and standard pacing will resume. The ambulatory data will provide the basis for a lasting CNT programming by week 8. Follow up visits will be scheduled after 3, 6, and 12 months.

Recruiting28 enrollment criteria

Oxytocin and Fetal Heart Rate Changes

Fetal Bradycardia Complicating Labor and DeliveryFetal Bradycardia During Labor1 more

The reported risk of nonreassuring fetal heart trace following neuraxial analgesia is 3-23%. This variability may be due to fluid and oxytocin management prior to and during the initiation of neuraxial analgesia. The study hypothesis is that decreasing the oxytocin infusion rate by 50 % prior to initiation of combined spinal epidural analgesia will cause a reduction in the incidence of adverse fetal heart rate changes.

Recruiting9 enrollment criteria

Post Market Clinical Follow-up Study for the Amvia/Solvia Pacemaker Family

BradycardiaHeart Failure

The study is designed as an open-label, prospective, international, multicenter, non-randomized study to determine safety and product performance of the CE-marked Amvia/Solvia pacemaker family, including the aATP, CRT AutoAdapt and Early Check features in the setting of a post-market clinical follow-up study.

Recruiting11 enrollment criteria

Fluoroscopy Reduction or Elimination in CIED Implants

BradycardiaTachycardia2 more

CIED implants require different amounts of fluoroscopy; using 3-D mapping systems, these times could be reduced to near zero fluoroscopy. The investigators aim to describe to what extent fluoroscopy times are reduced on a routine basis on CIED implants

Recruiting3 enrollment criteria

Reduction Or Elimination Of Radiation During Implantation of Cardiac Devices Using Ultrasound

BradycardiaBrady-tachy Syndrome

Specialized equipment is required to put pacemakers in the heart. This requires use of radiation to see the wires or leads being implanted in the heart. Repeated radiation use can result in permanent injury to the patient and to the doctor. The investigators aim to investigate if they can use ultrasound to guide and help in the implantation of leads into the heart. Ultrasound is a safe method and requires only a small handheld probe and a small screen to see different structures in the heart. If ultrasounds proves successful as a tool to reduce radiation then this would be very useful technical breakthrough. It would help develop smaller centres where pacemakers can be implanted without purchasing xray equipment and expensive setups.

Recruiting10 enrollment criteria

"Physiological vs Right Ventricular Pacing Outcome Trial Evaluated for bradyCardia Treatment" (PROTECT-HF)...

BradycardiaPacing3 more

The PROTECT-HF multi-centre randomised controlled trial will compare two different pacing approaches for treating patients with slow heart rates. In it the investigators will compare a long-standing standard approach for pacing; right ventricular pacing, with a new form of pacing, physiological pacing (His and Left bundle area pacing) in 2600 patients. Patients will be allocated at random to receive either right ventricular pacing or physiological pacing. Endpoint measurements will be undertaken at baseline, and at six-monthly intervals post-randomisation. Treatment allocation will be blinded to the endpoint assessor and the patient. Recruitment and pacemaker implantation will be carried out at each participating centre. The primary analysis will be intention to treat. The investigators will also perform an on-treatment analysis. 2048 patients are needed to detect the expected effect size with 85% power. A total of 2600 patients will be recruited to allow for patient drop-out and crossover. 500-patient sub-study will assess within patient, and between groups, echocardiographic changes over a 24-month period to try and improve mechanistic understanding of PICM (Pacing Induced Cardiomyopathy).

Recruiting13 enrollment criteria

Physiological Versus Right Ventricular Outcome Trial Evaluated for Bradycardia Treatment Upgrades...

Pacing-Induced CardiomyopathyHeart Failure

Guidelines for patients having first-time implants advocate that even when heart function is only mildly impaired, modern pacing approaches should be utilised to avoid the potentially damaging effects of RV pacing to preventing symptoms from pacing induced or worsened cardiomyopathy. However, once a traditional (RV) pacemaker is implanted, development of impaired heart function does not prompt a device upgrade. Even at the end of battery life, physicians simply replace it like-for-like. This trial tests whether such patients have better symptoms and quality of life if changed to a modern physiological pacing strategy from the traditional RV pacing approach. In this crossover trial, participants will be upgraded to a physiological pacing strategy. After their procedure, they will have a one-month run-in period to recover from the procedure (their pacemaker will be programmed to continued RV pacing). They will be have 2 one-month blinded time periods, randomised to physiological pacing or right ventricular pacing alternately. They will subsequently undergo two six-month blinded randomised time periods. Patients will document symptoms monthly on a mobile phone application or computer. At the end of each time period, they will have measurements of heart function, a walking test and quality-of-life questionnaires including the SF-36 questionnaire. The investigators hypothesise that upgrading to physiological pacing strategies will improve patients' quality of life.

Recruiting12 enrollment criteria

Pacing Characteristics of a Conventional Bipolar

Symptomatic Bradycardia

Study Title: Pacing characteristics of a conventional bipolar, active fixation pacing lead for left bundle branch area pacing in patients with symptomatic bradycardia Study Objectives: To characterize an approach for left bundle branch area pacing (LBBAP) in patients with bradycardia indications for pacing and to assess implant success rate, safety, and long-term stability with a conventional bipolar, active fixation pacing lead. Methodology: Open-label, prospective, multi-center, non-randomized, single-arm study Study Endpoints: Primary Endpoint: • Implant success rate Secondary Endpoints: Intra-operative procedure time and fluoroscopic exposure time Intra-operative intracardiac electrogram (EGM) changes: paced QRS duration, stimulus to left ventricular (LV) activation time, and LBB potential Post-operative imaging data: posteroanterior, left anterior oblique 30O, right anterior oblique 30O, Left lateral views Serial paced 12-lead electrocardiogram (ECG) and intracardiac EGM changes: QRS duration (QRSd), pacing-QRS interval, and new atrial fibrillation (AF) Serial echocardiography changes: left ventricular ejection fraction (LVEF), left atrial (LA) and LV chamber size, and global longitudinal strain (GLS) of tissue Doppler imaging Serial changes of pacing parameters: capture threshold, impedance, and sensing amplitude for both atrial and ventricular Solia S leads Safety: Immediate (< 24 hours), in-hospital, and chronic (12 months) adverse events

Enrolling by invitation13 enrollment criteria

LEft Bundle branchArea Pacing to Avoid Pacing-induced CARdiomyopathy

BradycardiaHeart Failure5 more

LEAP-CAR will evaluate the benefit of left bundle branch area pacing (LBBAP), comparing to conventional right ventricular pacing (RVP), in preventing pacing-induced cardiomyopathy (PICM) in patients undergoing pacemaker implant for advanced (2° or 3° degree) atrioventricular block, with baseline left ventricular ejection fraction (LVEF) >45%. LEAP-CAR is a randomized, prospective, double blind clinical trial.

Recruiting10 enrollment criteria
12...25

Need Help? Contact our team!


We'll reach out to this number within 24 hrs