Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.
NOT_YET_RECRUITING
75 participants
OBSERVATIONAL
2025-07-30
2026-07-30
Brief Summary
Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.
Conduction system pacemakers stimulate the heart's electrical system directly producing natural heart beats that are much less disordered. These pacemakers can be challenging to insert with different heart shapes, sizes and scars. This can increase procedure times and time exposed to xray as pacemakers are inserted using x-rays to guide where the lead is implanted.
This study aims to allow conduction system pacemakers to be implanted without the use of normal xray (fluoroscopy).
The investigators will create an anatomical shell of the heart using special plastic (mapping) catheters that is inserted within the heart from the groin. The investigators will use a special heart scanning (echo) catheter to see how the pacemaker wire is inserted into the heart muscle. The investigators will use MRI to confirm that the information we collect is accurate. Using this information the investigators will create a protocol to implant a lead that does not require xray, using only the mapping catheter.
Related Clinical Trials
Explore similar clinical trials based on study characteristics and research focus.
Solutions to the Challenges of Conduction System Pacing
NCT07009834
Cardiovascular and Neurohormonal Effects of Faster Atrial Pacing Rate
NCT00698139
Exploration of Arrhythmia Burden in Cardiac Amyloidosis Using Implantable Loop Recorders
NCT04856267
ConTempoRary Cardiac Stimulation in Clinical practicE: lEft, BivEntriculAr, Right, and conDuction System Pacing
NCT06324682
Tailoring Pacemaker Output to Physiology in Chronic Heart Failure
NCT03781427
Detailed Description
Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.
50 patients with a ventricular pacing indication (high grade atrioventricular block and symptomatic trifasicular or bifasicular block) for pacing will be recruited prospectively. The patients will be divided into two groups; 25 patients in the derivation cohort and 25 patients in the validation cohort. The derivation cohort will undergo a detailed research protocol to determine the optimised work flow and this will be applied prospectively to the validation cohort.
The success rates, procedure times, complication rates and fluoroscopy times will be assessed. The 25 patients undergoing conventional methods of conduction system pacing will be recruited as a control arm to compare these outcomes.
In summary, the 75 patients will be grouped as following; 25 patients in the derivation cohort, 25 patients in the validation cohort and 25 patients in the control arm.
Methodology
Derivation The derivation cohort will comprise of 25 prospectively recruited patients. These patients will undergo the research protocol. In these patients, the investigators will attempt to implant a permanent conduction system pacing lead, in lieu of the RV or LV lead. The lead will be implanted by operators who have implanted more than 40 leads to overcome the learning curve.
Pre-implant Prior to the procedure, patients will undergo a clinically indicated Cardiac MRI. The investigators will use these scans to retrospectively assess for the presence of potential mechanisms which could prevent successful lead implantation, such as the presence of septal fibrosis and chamber dimensions, so that we can assess how these can contribute to challenges at the time of implant. We will also be able to review mechanisms for successful implants. This information will be corroborated with data collected from the electro-anatomical maps.
The MRI scans will also be used to merge the anatomical information using CartoMerge to reduce procedure times by building the anatomical geometry prior to the mapping-catheter collecting this information invasively.
During Implant
The participants will undergo the following procedural steps after written informed consent is gained:
1. A left infraclavicular incision and axillary access for the lead will be gain as per standard clinical protocol.
2. Access from the femoral vein will be sought where a sheath will be placed in the femoral vein to introduce the mapping catheter.
3. Fast anatomical mapping (FAM) of the right atrial and right ventricular anatomy will be made where CartoMerge has not already created this anatomy. This will include the right ventricle, the tricuspid valve and the right ventricular outflow tract. Activation and voltage maps will be then be made of the His-bundle area (including the His cloud), right ventricle, right ventricular outflow tract and right ventricular septum.
This will help determine a few key aspects
1. Level of conduction system block and therefore guide site of lead deployment
2. Anatomy of the right heart and overcome challenges this may propose
3. Evidence of septal fibrosis and/or scar that need to be overcome
4. Activation pattern of the septum in conduction system block
4\. Anatomical FAM maps, voltage maps and activation patterns will be compared against the data collected from the cardiac MRI to assess;
1. Accuracy of anatomy
2. Fibrosis and scar patterns
The CartoMerge module will be used to expedite anatomical mapping using the MRI data collected.
5\. The mapping catheter will be removed and an intracardiac echo (ICE) catheter, will be inserted through the femoral vein.
6\. The conduction system pacing lead will be inserted through the axillary vein. A right atrial lead will be inserted into the right ventricular apex for back up pacing in the instance the conduction system is bumped. The basal-septum, mid-septum, high-septum and anterior walls will be paced to identify electrical markers for optimal implant sites.
7\. The lead will be visualised on the CARTO maps created.
8\. The lead will be deployed at the predetermined target site under direct visualisation using the ICE catheter. Through direct visualisation, three key determinants can be assessed:
1. Lead trajectory through the septum with the goal of achieving perpendicularity
2. Lead septum interaction and whether there is evidence of entanglement preventing lead progression.
3. Relationship between the sheath and lead that can lead to or prevent failure of lead deployment.
9\. Once the conduction system lead is secured the right atrial lead will be pulled back and secured in the right atrium.
10\. The procedure will be completed as per standard clinical implant protocol with routine clinical follow-up thereafter:
The information from echocardiography will be corroborated with the lead-septum interaction visualised on electro-anatomical maps created on CARTO.
In this cohort of patients, the conduction system lead will initially pace the His-bundle then the left bundle in order to collect data for both methods of physiological pacing. The information collected from ICE and electro-anatomical mapping will be used to develop a streamlined workflow that will map targeted areas, where challenging implant sites will be rapidly identified (such as areas of scar), reducing the number of attempted lead deployments and visualise lead-septum interaction, apposition and progression, improving safety parameters.
At the end of the procedure, the lead position will be documented with a very short, single fluoroscopic acquisition. This remains integral for future comparison in the instances of lead complications and in particular lead displacement.
Validation
25 patients will be recruited to the validation cohort.
An optimised work flow will be derived using the information collected from the derivation cohort. Namely, the target areas for FAM and electro-anatomical maps will be determined, and the successful pattern of lead septum interaction on CARTO will be defined.
The streamlined workflow will then be applied to 25 prospective patients. The success rates, procedure time, fluoroscopy time, capture threshold, number of attempted lead deployments and complication rates will be assessed.
Control Arm The control arm will consist of 25 patients undergoing a conduction system pacemaker using conventional pacing methods, with the same pacing indications as the study arm.
Follow-up All 75 patients will have standard clinical follow-up at 6 weeks, 6 months and 1 year. The clinical information at these visits will be used to identify complications rates that will include lead displacement, rise in capture threshold and lead injury, device related infections.
Conditions
See the medical conditions and disease areas that this research is targeting or investigating.
Study Design
Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.
COHORT
PROSPECTIVE
Study Groups
Review each arm or cohort in the study, along with the interventions and objectives associated with them.
Derivation
These patients will undergo the research protocol. In these patients, we will attempt to implant a permanent conduction system pacing lead, in lieu of the RV or LV lead. The lead will be implanted by operators who have implanted more than 40 leads to overcome the learning curve.
No interventions assigned to this group
Validation
An optimised work flow will be derived using the information collected from the derivation cohort. Namely, the target areas for FAM and electro-anatomical maps will be determined, and the successful pattern of lead septum interaction on CARTO will be defined.
The streamlined workflow will then be applied to 25 prospective patients. The success rates, procedure time, fluoroscopy time, capture threshold, number of attempted lead deployments and complication rates will be assessed.
No interventions assigned to this group
Control
The control arm will consist of 25 patients undergoing a conduction system pacemaker using conventional pacing methods, with the same pacing indications as the study arm
No interventions assigned to this group
Eligibility Criteria
Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.
Inclusion Criteria
2. Adults willing to take part (ages 18 - 100 years old)
3. Able to give consent.
Exclusion Criteria
2. Children age \< 18 years and adults \> 100 years old
3. Pregnant patients • As per standard of care, female patients of child-bearing age will have a urine pregnancy test prior to their procedure.
18 Years
100 Years
ALL
No
Sponsors
Meet the organizations funding or collaborating on the study and learn about their roles.
Imperial College London
OTHER
Responsible Party
Identify the individual or organization who holds primary responsibility for the study information submitted to regulators.
Principal Investigators
Learn about the lead researchers overseeing the trial and their institutional affiliations.
Zachary Whinnett, BM.BS
Role: PRINCIPAL_INVESTIGATOR
Imperial College London, Imperial College Healthcare Trust
Central Contacts
Reach out to these primary contacts for questions about participation or study logistics.
Provided Documents
Download supplemental materials such as informed consent forms, study protocols, or participant manuals.
Document Type: Study Protocol
Other Identifiers
Review additional registry numbers or institutional identifiers associated with this trial.
23HH8384
Identifier Type: -
Identifier Source: org_study_id
More Related Trials
Additional clinical trials that may be relevant based on similarity analysis.