Clinical Research Directory

Coronary CT-Derived FFR-Guided Strategy Versus Medical Therapy

The overall purpose of ACCURATE II trial is to compare the clinical outcomes of CT-derived FFR guided strategy versus medical therapy in patients with chronic coronary syndrome.

Positron Emission Tomography to Assess the Effect of Camzyos on Ischaemia in HOCM: PEACH Trial

Hypertrophic obstructive cardiomyopathy (HOCM) is a heritable heart condition that leads to the thickening of the heart muscle and causes obstruction of blood flow, impeding it's ejection from the heart (LVOT obstruction). Often individuals with HOCM suffer from chest pain and shortness of breath due to lack of oxygen supply (ischaemia) to the heart muscle in the absence of blockages in the coronary arteries. Despite proven advances in treatment of LVOT obstruction with the novel medication Camzyos (Mavacamten), there is a limited understanding of its effect on myocardial ischaemia. This study, called the PEACH Trial, is designed to assess whether Camzyos also improves blood supply (perfusion) to the heart muscle in patients with HOCM. A specialised imaging technique called Positron Emission Tomography/Computed Tomography (PET-CT), using Rubidium-82 will be used to evaluate blood flow to the heart muscle before and after treatment. Camzyos is part of participants' regular clinical treatment and is not being supplied, administered, or influenced by the study in any way. Participants with HOCM who are starting treatment with Camzyos as part of their clinical care will undergo a baseline PET-CT scan (if not already done), and a second scan after 12 months. The follow-up scan is done solely for research purposes. The scans will allow researchers to evaluate whether the medication improves myocardial perfusion in addition to relieving outflow obstruction. The study is sponsored by the University of Manchester and funded by Bristol Myers Squibb. It will involve up to 75 participants recruited at Manchester University NHS Foundation Trust. The findings could help improve understanding of how Camzyos works and support personalised treatment approaches in HOCM.

Clinical Application Study of Wearable Multi-channel Electrocardiogram Acquisition Equipment in the Diagnosis of Myocardial Ischemia in Patients with Suspected CHD

Backgroud: With the widespread application of artificial intelligence, sensor technology, and wearable technology in clinical and daily life, wearable devices have shown a promising application prospect and tremendous potential. Currently, both domestic and international clinical applications of wearable ECG devices for the diagnosis and treatment of coronary heart disease are mostly single-lead ECG wearable devices or simulated multi-lead wearable ECG monitoring devices, which are widely used in the diagnosis of arrhythmias such as atrial fibrillation. There is a lack of clinical diagnostic efficacy research on myocardial ischemia in coronary heart disease. Aim: To investigate the diagnostic efficacy of wearable multi-channel ECG acquisition devices for myocardial ischemia in suspected CHD patients Methods：Assessing the sensitivity, specificity, and accuracy of wearable multi-channel ECG devices in diagnosing myocardial ischemia in coronary heart disease by comparing with the "gold standard" SPECT-MPI.The target recruitment is 107 suspected coronary heart disease myocardial ischemia patients.If patients do not meet the exclusion criteria, they will wear the wearable multi-channel ECG device for 7 days after enrollment, followed by a myocardial SPECT examination; there is no specific order for these examinations. After enrollment, baseline information of the patients (such as age, gender, height, weight, etc.), comorbidities (such as hypertension, diabetes, hyperlipidemia, chronic kidney disease, etc.), and auxiliary examination data (such as complete blood count, biochemistry, cardiac injury markers, BNP, echocardiography, wearable multi-channel ECG device data, SPECT-related examination data, such as ST-segment, total load score, total rest score, etc.) will be collected. The endpoint of this study is to evaluate the sensitivity, specificity, and accuracy of the wearable multi-channel ECG device in assessing myocardial ischemia in CHD.

SeQuent® SCB "All Comers" Post Market Clinical Follow-up (PMCF)

The aim of the study is to assess continued safety and efficacy of the SeQuent® SCB. The product under investigation will be used in routine clinical practice according to the latest European Society of Cardiology (ESC) guidelines and according to the Instructions for Use (IFU). Those data that are obtained in routine clinical use will be documented in the Case Report Form (CRF).

Implementation of a Standardized Algorithm for Coronary Calcification With Plaque Modification

In this study, the doctors will follow a set of rules that is called an algorithm. An algorithm is a step-by-step approach that doctors use to guide them when making decisions about the best way to treat their patients. Algorithms are useful because they help doctors decide on the best treatment approach based on the patient's individual circumstances and the best medical evidence available. The algorithm that is being used in this study is called a calcium modification algorithm and it will guide doctors when deciding on the best way to modify or break up the calcium in coronary arteries. In this study, we aim to prove that the calcium modification algorithm, described above, safely and effectively guides doctors on the best way to modify calcium in patients' coronary arteries. By doing so, it will help doctors in making decisions about patients' treatment during their procedure. It will also help standardise care for patients, so patients receive the same treatment no matter what hospital they are in or what doctor is treating them.