Grocery store carts set to help diagnose common heart rhythm disorder and prevent stroke
European Society of Cardiology
It could be the shopping trip that saves your life: supermarket trolleys are helping to diagnose atrial fibrillation which can then be treated to prevent disabling or fatal strokes.
The research is presented at ACNAP
2023, a scientific congress of the European Society of Cardiology (ESC).1
"This study shows the potential of taking health checks to the masses without disrupting daily routines," said study author Professor Ian Jones of Liverpool John Moores University, UK.
"Over the course of two months,
we identified 39 patients who were unaware that they had atrial fibrillation.
That's 39 people at greater risk of stroke who received a cardiologist
appointment."
More than 40 million people around the world have atrial fibrillation, the most common heart rhythm disorder.2 Atrial fibrillation increases the risk of stroke by five-fold. These strokes are often fatal or disabling.
Anticoagulation substantially lowers risk, but many people only
discover they have atrial fibrillation after they have a stroke.3 Screening
programmes are therefore needed to identify people with the condition so they
can receive preventive medication.
The SHOPS-AF study investigated whether embedding electrocardiogram (ECG) sensors into the handles of supermarket trolleys could effectively identify shoppers with atrial fibrillation (see photo).4,5 Ten trolleys had a sensor placed in the handle and were used across four supermarkets with pharmacies in Liverpool during the two month study.
Shoppers were asked to use a modified trolley and hold the handlebar for at least 60 seconds. If the sensor did not detect an irregular heartbeat, it lit up green. These participants had a manual pulse check by a researcher to confirm there was no atrial fibrillation.
If an irregular heartbeat was found, the sensor lit up red. The in-store pharmacist then did a manual pulse check and another sensor reading using a standalone bar not attached to a trolley with the participant standing still.
The study cardiologist reviewed the ECG
recordings of participants with a red light and/or irregular pulse.
Participants were informed of the results, which were: 1) no atrial
fibrillation; 2) unclear ECG and an invitation to repeat the measurement; or 3)
atrial fibrillation confirmed and a cardiologist appointment within two weeks.
A total of 2,155 adults used a shopping trolley. ECG data were available for 220 participants who either had a red light on the sensor and/or an irregular pulse, suggesting atrial fibrillation. After ECG review by the study cardiologist, there was no evidence of atrial fibrillation in 115 participants, 46 recordings were unclear, and atrial fibrillation was diagnosed in 59 participants.
The average age of the 59 participants with atrial fibrillation
was 74 years and 43% were women. Of those, 20 already knew they had atrial
fibrillation and 39 were previously undiagnosed.
To assess the accuracy of screening using this method, the researchers conducted three analyses: 1) excluding all 46 unclear ECGs; 2) assuming all unclear ECGs were atrial fibrillation; and 3) assuming all unclear ECGs were not atrial fibrillation.
This showed that the sensor's sensitivity ranged from 0.70 to 0.93 and specificity ranged from 0.15 to 0.97. This resulted in a positive predictive value of 0.24 to 0.56, meaning that only one-quarter to one-half of those found to have atrial fibrillation according to the sensor and/or manual pulse check actually had the condition (i.e. there were a high number of false positives).
The negative predictive value was 0.55 to 1.00, meaning that around
half of actual atrial fibrillation cases would be missed using this method
(i.e. false negatives).
Professor Jones said: "Nearly two-thirds of the shoppers we
approached were happy to use a trolley, and the vast majority of those who
declined were in a rush rather than wary of being monitored. This shows that
the concept is acceptable to most people and worth testing in a larger study.
Before we conduct SHOPS-AF II, some adjustments are needed to make the system
more accurate. For example, having a designated position on the bar to hold
onto, as hand movement interfered with the readings. In addition, ESC
Guidelines require just a 30 second ECG to diagnose atrial fibrillation,2 so
we aim to find a sensor that will halve the time shoppers need to continuously
hold the bar."
He concluded: "Checking for atrial fibrillation while people do their regular shopping holds promise for preventing strokes and saving lives. A crucial aspect is providing immediate access to a health professional who can explain the findings and refer patients on for confirmatory tests and medication if needed."