View clinical trials related to Cardiac Arrhythmia.
Filter by:The goal of this observational study is to compare the electrocardiogram recording from Holter monitor with textile sensors (in the form of clothing) in patients diagnosed with arrhythmia. The study aims to answer the following questions: - Can the textile sensors provide continuous monitoring and detect arrhythmias? - Do patients prefer to wear textile sensors instead of the Holter? Participants that need Holter monitoring as part of their standard care will be invited to participate in the study. They will simultaneously wear both, the Holter monitor and the textile sensors for the time prescribed by their physician. Participants will also be asked to answer a questionnaire in the initial assessment and at the end of the study.
Ventricular tachycardia (VT) and ventricular fibrillation (VF) are life-threatening conditions that increase in frequency over the years. An electrical storm (ES) is defined as the occurrence of 3 or more continuous ventricular arrhythmia. The sympathetic nervous system has an important role in VA and is the target of treatment. Studies show that stellate ganglion blockade (SGB) can reduce cardiac sympathetic tone and is an alternative bridge therapy in VAs. In our study, the investigators preferred to apply a combination of local anesthetic and steroid in the stellate ganglion blocking method to 10 VA patients who were resistant to medical treatment and had an ICD, and we also planned to examine the 6-month follow-up results of the patients. In our study, USG-guided left stellate ganglion blockade was applied to 10 VA and ES patients with ICD. The 6-month results of the patients were evaluated retrospectively. For blockage, the solution was prepared by adding 8 mg dexamethasone, 40 mg lidocaine, and 10 mg bupivacaine to 10 mL with physiological saline. The success of the procedure was evaluated with the development of Horner's syndrome in the left eye.
To determine the associations among biometric data and previously reported medication changes in the original MAPS study
The objective of this multicentre study is to collect operative data on the related clinical functional outcomes and complications and of market approved Alcis electrophysiology catheters to demonstrate safety and performance of these devices in a real-world setting.
The primary objective is to evaluate the safety and technical performance of the CathVision ECGenius® System. The secondary objective is to benchmark the intracardiac electrogram signal quality compared to commercially available systems in patients undergoing assessment and ablation of cardiac arrhythmias.
Atrial fibrillation (AF) is the most common arrhythmia (irregular heart rhythm), affecting 1-2 million people in the UK. AF significantly increases the risk of an AF-related stroke, heart failure and dementia. A significant proportion of people will have no symptoms, and they may only be found to have AF after suffering an AF-related stroke. An electrocardiogram (ECG) uses sensors placed on the skin to record the heart's electrical activity. A 12-lead ECG uses 10 sensors and is the gold-standard (best available test) to detect any abnormal heart rhythm disturbances. Until recently, a 12-lead ECG showing an irregular heart rhythm was required to make a diagnosis of AF but as AF episodes are often short and unpredictable it may be missed. Therefore, a small device that continuously records heartbeat and heart rhythm could make the diagnosis of arrhythmias and AF much quicker and easier. Accessories such as watches or rings - referred to as wearable devices - have extremely good sensors that measure pulse rate by detecting small changes in skin colour during each heartbeat and can perform a single-lead ECG. Algorithms built in the wearable devices can identify irregular heart rhythms, such as atrial fibrillation. The purpose of this study is to test two new wearable devices - the Skylabs CART-I ring and the Apple Watch - in detecting abnormal heart rhythm recording and recording ECGs. The investigators plan to recruit 500 patients attending Cardiology Departments in several hospitals in the UK and will ask them to wear the Apple Watch and the CART-I and perform 12-lead ECG with each device (two in total). No extra follow-up visits are required. At the end of the study, the investigators will compare interpretation by two cardiologists of the wearable devices' ECGs and the 12-lead ECGs and look at their ability to automatically detect abnormal rhythms.
The primary objective is to evaluate the safety and technical performance of the CathVision Cube® System. The secondary objective is to benchmark the intracardiac electrogram signal quality compared to commercially available systems in patients undergoing assessment and ablation of cardiac arrhythmias.
The aim of this demonstration project is to create an additional access point in the community at local pharmacies for atrial fibrillation screening, detection, and referral to physicians for follow-up and initiation of evidence-based therapy when appropriate.
Smart phone-based applications to identify cardiac implantable electronic devices (CIED) are extremely useful in circumstances where urgent device interrogation is needed and device identification card is not available. Few studies have provided insight regarding the utility of these applications. We have studied two widely available applications i.e., Pacemaker ID app (PMIDa) or Cardiac Rhythm Management Devices-Finder (CRMD-f) to identiy device manufacturers in CIEDs.
- Purpose of the study This study aimed to investigate electrocardiogram measurement and subthreshold low-level autonomic nerve stimulation using external auditory canal electrodes among healthy adult participants - Study design Prospective, single-center, interventional, single-arm design - Study participants A total of 12 healthy adult participants without cardiovascular diseases will be recruited. - Study methods 1. Participant enrollment Study participants will be recruited by advertisement posters announced at the lobby of the hospital 2. Evaluation of electrocardiogram measurement from external auditory canal electrodes Participants are required to attach specially designed external auditory canal electrodes to their both ears to record electrocardiogram. Both electrocardiogram from the precordium and the ear would be simultaneously recorded and compared. 3. Evaluation of low-level autonomic nerve stimulation using external auditory canal Using the electrodes described above, Arnold's nerve will be stimulated with low-level electric impulses using TENS device. During and after the stimulation, heart rate variability will be measured to investigate the impact of nerve stimulation on autonomic function modulation on the heart.