Utility of smart watches for identifying arrhythmias in children

Aydin Zahedivash; Henry Chubb; Heather Giacone; Nicole K Boramanand; Anne M Dubin; Anthony Trela; Erin Lencioni; Kara S Motonaga; William Goodyer; Brittany Navarre; Vishnu Ravi; Paul Schmiedmayer; Vasiliki Bikia; Oliver Aalami; Xuefeng B Ling; Marco Perez; Scott R Ceresnak

doi:10.1038/s43856-023-00392-9

Utility of smart watches for identifying arrhythmias in children

Commun Med (Lond). 2023 Dec 13;3(1):167. doi: 10.1038/s43856-023-00392-9.

Authors

Aydin Zahedivash¹, Henry Chubb¹, Heather Giacone¹, Nicole K Boramanand¹, Anne M Dubin¹, Anthony Trela¹, Erin Lencioni¹, Kara S Motonaga¹, William Goodyer¹, Brittany Navarre¹, Vishnu Ravi², Paul Schmiedmayer², Vasiliki Bikia², Oliver Aalami², Xuefeng B Ling³, Marco Perez⁴, Scott R Ceresnak⁵

Affiliations

¹ Stanford University, Lucile Packard Children's Hospital, Department of Pediatrics, Pediatric Cardiology, Palo Alto, CA, USA.
² Stanford University, Stanford Byers Center for Biodesign, Palo Alto, CA, USA.
³ Stanford University, Department of Surgery, Palo Alto, CA, USA.
⁴ Stanford University, Cardiovascular Medicine - Electrophysiology, Department of Medicine, Palo Alto, CA, USA.
⁵ Stanford University, Lucile Packard Children's Hospital, Department of Pediatrics, Pediatric Cardiology, Palo Alto, CA, USA. [email protected].

Abstract

Background: Arrhythmia symptoms are frequent complaints in children and often require a pediatric cardiology evaluation. Data regarding the clinical utility of wearable technologies are limited in children. We hypothesize that an Apple Watch can capture arrhythmias in children.

Methods: We present an analysis of patients ≤18 years-of-age who had signs of an arrhythmia documented by an Apple Watch. We include patients evaluated at our center over a 4-year-period and highlight those receiving a formal arrhythmia diagnosis. We evaluate the role of the Apple Watch in arrhythmia diagnosis, the results of other ambulatory cardiac monitoring studies, and findings of any EP studies.

Results: We identify 145 electronic-medical-record identifications of Apple Watch, and find arrhythmias confirmed in 41 patients (28%) [mean age 13.8 ± 3.2 years]. The arrythmias include: 36 SVT (88%), 3 VT (7%), 1 heart block (2.5%) and wide 1 complex tachycardia (2.5%). We show that invasive EP study confirmed diagnosis in 34 of the 36 patients (94%) with SVT (2 non-inducible). We find that the Apple Watch helped prompt a workup resulting in a new arrhythmia diagnosis for 29 patients (71%). We note traditional ambulatory cardiac monitors were worn by 35 patients (85%), which did not detect arrhythmias in 10 patients (29%). In 73 patients who used an Apple Watch for recreational or self-directed heart rate monitoring, 18 (25%) sought care due to device findings without any arrhythmias identified.

Conclusion: We demonstrate that the Apple Watch can record arrhythmia events in children, including events not identified on traditionally used ambulatory monitors.

Plain language summary

Wearable devices, such as smart watches, have become popular for the monitoring of health, particularly for people with heart conditions. Wearable devices have been well-studied in adults, however there is less information available on their effectiveness in monitoring children’s health. We reviewed the heart electrical recordings of a group of children who submitted recordings obtained from their Apple Watches during moments when they felt as though their heart’s rhythm was abnormal. The Apple Watches captured rhythm abnormalities that matched the diagnoses obtained using heart monitors used clinically. This study shows that use of Apple Watches can enable clinicians to identify abnormalities that many traditional at-home monitoring devices do not detect. Thus, wearable devices, such as the Apple Watch, could be used to help identify heart rhythm disorders in children.