Implantable Cardioverter Defibrillators - Improving Risk Stratification
- Conditions
- Sudden Cardiac DeathImplantable Defibrillator UserMyocardial InfarctionArrhythmias, Cardiac
- Registration Number
- NCT01944514
- Lead Sponsor
- University Hospitals, Leicester
- Brief Summary
Worldwide three million people a year die from sudden cardiac death (SCD). In most cases there is no warning and the heart is stopped by a sudden arrhythmia. We know that some people are at high risk of sudden cardiac death and can prevent their deaths with an implantable cardioverter defibrillator (ICD) that is implanted in a minor operation.
However, most people who die from sudden cardiac death are not found to be at high risk by our current risk markers and 40% of the people who have ICDs do not have therapy within the first 4 years after implant. We need new and better ways of identifying people who are at high risk of sudden cardiac death so that we can prevent their deaths with ICDs. Our understanding of the electrical signals in the heart has increased considerably in recent years; in no small part this is due to our Principal Investigator Professor Andre Ng's basic science work. This study aims to take the understanding of action potential duration (APD) restitution gained through our work and other studies in humans and in computer simulations and translate it into a fresh way of assessing risk of sudden cardiac death.
This study will carefully examine electrical activity, using APD restitution, in the hearts of patients who are having ICDs fitted because of their high risk of sudden cardiac death and combine this with a detailed heart scan, assessment of autonomic nervous system and gene expression data. We will then follow these patients up to see who benefits from their ICD. This wide ranging information will give us as complete a picture as possible of the factors that cause sudden cardiac death. We hope to use this to identify better predictors of sudden cardiac death.
The study hypotheses are as follows:
Primary
1. Regional Restitution Instability Index (R2I2) will be significantly higher in patients reaching the endpoint of ventricular endpoint / sudden cardiac death than in those not.
2. An R2I2 cut-off of 1.03 will partition patients into high and low risk groups.
Secondary
3. Peri-infarct zone mass in grams will be significantly higher in patients reaching the endpoint of ventricular endpoint / sudden cardiac death than in those not.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 92
- Attending for ICD implantation under NICE criteria or attending for an ICD box-change procedure or attending for an Electrophysiological test as part of NICE assessment for ICD implantation
- Age >18
- History of ischaemic heart disease or non-ischaemic cardiomyopathy or inherited sudden cardiac death syndrome.
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<28 days since acute coronary syndrome / cardiac surgery
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Unable to give informed consent
-
Women who are pregnant / planning pregnancy
-
Contraindication for defibrillator safety margin test
- Haemodynamic instability
- Severe valvular heart disease
- Symptomatic, severe, coronary artery disease
- Recent stroke
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method Regional Restitution Instability Index 18months - 2years Regional Restitution Instability Index (R2I2) is a measure of electrical instability. R2I2 is calculated as the mean of the standard deviation of the residuals from the mean gradients for each ECG lead across a range of diastolic intervals. An R2I2 cut-off of 1.03 (no units) will partition the study population into high and low risk groups.
- Secondary Outcome Measures
Name Time Method Peri-infarct zone 18months-2 years Peri-infarct zone is calculated from cardiac magnetic resonance imaging scans with late gadolinium enhancement. The full width half maximum technique will be used and Peri-infarct zone assessed using peri-infarct zone mass in grams.