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Active clinical trials for "Bradycardia"

Results 41-50 of 245

The Alaska Oculocardiac Reflex Study

BradycardiaStrabismus

Observation study monitoring vital signs and anesthetic variables particularly heart rate during prospective, ocular manipulation and specifically uniform tension on extra ocular muscles during strabismus surgery. *IRB approval from 1992 covered in letter from then IRB chair Dr. Judith Whitcomb, Anchorage, Alaska (letter 10/2020).*

Recruiting2 enrollment criteria

PReventive Effect Of Left Bundle Branch Area Pacing Versus righT vEntricular paCing on All Cause...

BradyarrhythmiaAtrioventricular Block1 more

PROTECT-SYNC study is a multicenter, randomized, controlled trial. A total of 7 medical centers across Republic of Korea will enroll 450 patients during 2 years of enrollment period, and followed for 2 years of follow-up period. The purpose of this study to compare the clinical outcomes of Left Bundle Branch Area Pacing (LBBAP) compared to Right Ventricular Pacing (RVP) in bradyarrhythmia patients who require high burden of ventricular pacing (>40%).

Not yet recruiting12 enrollment criteria

Checklists Resuscitation Emergency Department

Shortness of BreathChest Pain20 more

The study will systematically evaluate how an emergency manual-a collection of checklists and fact sheets-affects the performance of resuscitation teams during the management of priority one patients in an emergency department.

Not yet recruiting2 enrollment criteria

Conduction System Pacing With INGEVITY+

Bradycardia

The study is intended to evaluate the safety and effectiveness of the Boston Scientific INGEVITY+ cardiac pacing lead when implanted in the left bundle branch area (LBBA).

Enrolling by invitation4 enrollment criteria

SALT - Success of Active Versus Passive Lead Fixation of Atrial Pacing/Sensing Electrodes

Bradycardia

Randomised Comparison with regards to complication rate and electrical measurements of atrial leads with different fixation mechnism

Suspended2 enrollment criteria

A Study to Evaluate Accuracy and Validity of the Chang Gung ECG Abnormality Detection Software

Long QT SyndromeSinus Bradycardia8 more

"Chang Gung ECG Abnormality Detection Software" is a is an artificial intelligence medical signal analysis software that detect whether patients have abnormal ECG signals of 14 diseases by static 12-lead ECG. The 14 diseases were Long QT syndrome Sinus bradycardia Sinus Tachycardia Premature atrial complexes Premature ventricular complexes Atrial Flutter, Right bundle branch block Left bundle branch block Left Ventricular hypertrophy Anterior wall Myocardial Infarction Septal wall Myocardial Infarction Lateral wall Myocardial Infarction Inferior wall Myocardial Infarction Posterior wall Myocardial Infarction The main purpose of this study is to verify whether "Chang Gung ECG Abnormality Detection Software" can correctly identify abnormal ECG signals among patients of 14 diseases. The interpretation standard is the consensus of 3 cardiologists. The results of the software analysis will be used to evaluate the performance of the primary and secondary evaluation indicators.

Recruiting9 enrollment criteria

Down Syndrome Autonomic Nervous System Induction Bradycardia

Down SyndromeBradycardia

Children with Down syndrome (DS) often experience dangerously low heart rates on induction of anesthesia for routine procedures and this occurs at 10 times the rate of non-DS patients. Given that the cardiac output of children is heart rate dependent, bradycardia is especially perilous in this population. Historically, individuals with DS were not expected to survive beyond childhood; consequently, correction of congenital anomalies, e.g. cardiac defects, was not frequently offered. Fortunately, today individuals with DS live into adulthood and surgical correction of anomalies is universally offered. Thus, increasing numbers of children with DS are exposed to anesthesia and at risk for this hemodynamic catastrophe. It is medically unacceptable and an autonomic nervous system mechanism will be sought.

Recruiting7 enrollment criteria

Temporary Transvenous Pacemaker Placement by Intracavitary Electrocardiogram Monitoring

Bradycardia; SyncopeBradyarrhythmia4 more

Traditional temporary pacing catheter insertion by intracavitary electrocardiogram (IC-ECG) monitoring which only monitoring tip polar, the negative one. The investigators modified the technique by monitoring both negative and positive polar which will be precisely locating catheter tip and indicating the direction of the catheter tip. Extensively used temporary pacing catheter tip has two electrodes which are about 1 cm apart. Distal electrode is negative (-) and active, proximal electrode is positive (+) and indifferent. Investigators use both distal (-) and proximal (+) electrodes which can be attached to any two of the V leads, record as V(-) and V(+). Monitoring positions of the electrodes by V(-) and V(+) could provide more information about the tip position. Comparing the QRS amplitudes between V(-) and V(+), when catheter tip enters right ventricle chamber: the case of V(-) > V(+) infers tip toward apex ventricle wall ; conversely, the case of V(-)<V(+) indicates tip directs to outflow tract. The investigators hypothesis this monitoring will help precisely placement.

Recruiting2 enrollment criteria

Conduction System Pacing International Registry (CONSPIRE)

BradyarrhythmiaHeart Failure

The purpose of this registry study is to collect information about routine clinical practices with device implantation to treat bradycardia and cardiac systolic dysfunction (heart rhythm disorders) across global centers of excellence in cardiac pacing. In particular, this study will examine the use of conduction system pacing (CSP) in clinical practice. Information collected in the registry will help researchers better characterize strengths and limitations of current technology and treatments.

Recruiting6 enrollment criteria

Pacemaker-based Long-term Monitoring of Sleep Apnea

Bradycardia

This is a prospective, non-interventional cohort study. It tests the hypothesis that Pacemaker-derived monitoring of sleep-related breathing disorders and/or daily physical activity predicts clinical outcome. Autonomic imbalance defined by an increased periodic repolarisation dynamics (PRD) predicts clinical outcome in pacemaker patients. Autonomic imbalance defined by an increased periodic repolarisation dynamics (PRD) predicts the occurrence of AHRE in SR patients implanted with a DDDR pacemaker.

Recruiting10 enrollment criteria
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