ATLANTA — Patients with acute coronary syndrome (ACS) who had a myocardial infarction or unstable angina and underwent percutaneous coronary intervention (PCI) had a 76% lower rate of hospital readmission after 6 months if they participated in a remote monitoring protocol compared with similar patients who had standard post-discharge care, results of a new trial suggest.
The TELE-ACS trial showed that at 6 months, telemedicine patients also had statistically significantly lower rates of post-discharge emergency department visits, unplanned coronary revascularizations, and cardiovascular symptoms, such as chest pain, shortness of breath and dizziness. However, the rates of major adverse cardiovascular events (MACE) were similar between the two groups. The protocol included consultation with a cardiologist who reviewed home-monitoring data.
“The team was able to aid in preventing unnecessary presentations and advised the patients to seek emergency care whenever was necessary,” Nasser Alshahrani, MSc, a clinical research fellow at Imperial College London, said while presenting the results at the American College of Cardiology meeting. “The TELE-ACS protocol provided a significant reduction in readmission rates post-ACS and other adverse events.”
The study findings were published online simultaneously in the Journal of the American College of Cardiology.
Telemedicine Protocol
The trial, conducted from January 2022 to April 2023, randomly assigned 337 patients to telemedicine or standard care when they were discharged after PCI and had at least one cardiovascular risk factor. The telemedicine protocol consisted of 12-lead electrocardiogram belt, an automated blood-pressure monitor, and a pulse oximeter.
Patients in the telemedicine arm initiated the remote monitoring protocol if they thought they had cardiac symptoms. The majority (86%) were men with what the study described as “a high preponderance of cardiovascular risk factors.” Average age was 58.1 years.
If a telemedicine patient initiated the protocol, a cardiologist remotely assessed the patient’s symptoms and channeled the patient to the appropriate care pathway, whether reassuring the patient or sending them to a primary care physician or emergency department, or to call emergency services. Patients who didn’t get a call back from the cardiologist within 15 minutes were told to seek care in the standard clinical pathway.
Telemedicine patients were given the telemonitoring package and training in how to use the devices before they were discharged. They also received three follow-up quality control calls in the first two months to ensure they were using the equipment correctly. They kept the telemonitoring equipment for 8 months, but were followed out to 9 months. Six telemedicine patients dropped out while one standard care patient withdrew from the study.
Results showed that at 6 months, telemedicine patients had statistically significantly lower rates of post-discharge emergency department visits (25% vs 37%, P < .001), unplanned coronary revascularizations (3% vs 9%, P < .01) and cardiovascular symptoms, such as chest pain, shortness of breath and dizziness (a 13% to 18% difference for each symptom, P < .01).
MACE rates were similar between the two groups.
At 9 months, 3 months after the protocol ended, 20 telemedicine patients and 50 standard-care patients were readmitted to the hospital, while 52 and 73, respectively, went to the emergency department.
The telemedicine patients also had shorter hospital stays: an average of 0.5 and 1.2 days at 6 and 9 months, respectively, vs 1.5 and 1.8 days in the standard treatment arm (P < .001 for both).
Mr. Alshahrani noted several limitations with the study, namely that 86% of participants were men, and that the intervention was only offered to people who had smartphones. “The high level of support for the telemedicine group, with prompt cardiology responses, may be challenging to replicate outside a trial setting, requiring significant investment and training,” he added.