Table of contents

• Trial overview
• Who is being studied
• What the trials measure
• Trial designs and phases
• Key studies involving Atenolol
• Patient-friendly terms

Trial overview

These studies are looking at Atenolol as part of research in several heart-related conditions.^[1] The trials are not all asking the same question: some test heart rate control, some test broader cardiovascular outcomes, and some compare treatment strategies in special patient groups.^[2]

Most of the listed studies are Phase 3 trials, which usually means the treatment is being tested in larger groups to see how well it works in real patient settings.^[1] One study is described as Low Intervention and still examines whether stopping or continuing treatment changes later heart problems.^[2]

Who is being studied

The target groups are very specific and vary from study to study.^{[1][2] One trial includes people with Spontaneous Coronary Artery Dissection (SCAD), which means a tear forms in a heart artery without the usual cause of blocked arteries.[1]}

Another trial includes people with ischemic heart disease who have a resting heart rate above 65 beats per minute and are having a cardiac CT scan for evaluation.^[2] A different study focuses on people with non-ischemic cardiomyopathy who had a strong response to cardiac resynchronization therapy, have negative genetic testing, and do not have significant arrhythmia.^[2]

Other studies include people with type 2 diabetes and no known cardiovascular disease, people with Andersen-Tawil syndrome or multifocal ectopic Purkinje-related premature contractions, and people with unexplained cardiac arrest or idiopathic ventricular fibrillation.^[2][3][2]

What the trials measure

The studies use different primary outcomes, which are the main results the researchers want to measure.^[1] In the SCAD study, the main outcome is a combined clinical endpoint that includes death, myocardial infarction, stroke, coronary revascularization, recurrent dissection, and hospital admission for acute coronary syndrome or heart failure at 1 year.^[1]

In the heart rate study before cardiac CT, the main outcome is the time needed for the average heart rate to drop by 10% from baseline after the study drug is given.^[2] In the non-ischemic cardiomyopathy study, the main outcome is recurrence of left ventricular dysfunction or heart failure at 6 months, measured by changes in left ventricular ejection fraction, left ventricular volume, or heart failure symptoms with raised NT-proBNP.^[2]

Other studies measure a composite cardiovascular endpoint in type 2 diabetes, ventricular ectopy burden per 24 hours in rhythm disorders, and ICD-related events or arrhythmic episodes in idiopathic ventricular fibrillation.^[2][3][2]

Trial designs and phases

All listed studies are interventional, meaning researchers assign treatment strategies and then watch what happens.^[1] Several trials compare Atenolol with other beta-blockers or other medicines rather than testing it alone.^[1][2][3]

The SCAD study includes beta-blockers and antiplatelet agents, while the CT heart rate study compares beta-blockers with ivabradine.^{[1][2] The rhythm studies compare different antiarrhythmic strategies, including beta-blockers, flecainide, verapamil, quinidine, and nadolol, depending on the condition and trial design.[3][2]}

Key studies involving Atenolol

NCT04850417 is a Phase 3 study in 700 people with SCAD. It tests medical therapy with beta-blockers and antiplatelet agents and looks at a 1-year combined clinical endpoint.^[1]

2025-522741-21-00 is a Phase 3 study in 350 people with ischemic heart disease. It asks which medication and dose, including Atenolol, lowers heart rate fastest before cardiac CT in people with a resting heart rate above 65 beats per minute.^[2]

2025-521780-12-00 is a Low Intervention study in 64 people with non-ischemic cardiomyopathy. It tests whether withdrawal of neurohormonal therapy is not worse than continuing treatment for preventing return of heart dysfunction or heart failure symptoms.^[2]

2022-500143-21-01 is a large Phase 3 study in 7,300 people with type 2 diabetes and no known cardiovascular disease. It evaluates whether a CT-based treatment strategy can reduce major cardiovascular events.^[2]

NCT06205550 is a small Phase 3 study in 10 people with Andersen-Tawil syndrome or multifocal ectopic Purkinje-related premature contractions. It measures the number of extra ventricular beats over 24 hours.^[3]

2024-518057-41-00 is a Phase 3 study in 218 people with unexplained cardiac arrest or idiopathic ventricular fibrillation. It uses ICD data and arrhythmic events to study the effect of beta-blocker treatment.^[2]

Patient-friendly terms

Cardiac CT is a heart scan that uses X-rays to make detailed pictures of the heart and blood vessels.^[2] In these trials, it is used to help guide treatment or prepare for the scan itself.^[2][2]

ICD means implantable cardioverter-defibrillator, a device that can detect and treat dangerous heart rhythms.^[2] NT-proBNP is a blood marker that can rise when heart failure is present or getting worse.^[2]

Left ventricular ejection fraction is a measure of how well the heart’s main pumping chamber is working.^[2] Ventricular ectopy burden means how many extra beats from the lower heart chambers happen over a set time, usually 24 hours.^[3]