Wearable technologies in clinical trials for drug development: trends and emerging opportunities
Summary
Wearable technologies are increasingly being integrated into clinical trials, offering new tools to capture physiological and behavioural endpoints in real-world settings. By enabling continuous, remote, participant-friendly monitoring, wearables address key limitations of traditional trials, such as frequent site visits, sparse sampling and limited ecological validity, while supporting the development of digital biomarkers. To characterize how wearables are used in drug development, we cu
Content
# Wearable technologies in clinical trials for drug development: trends and emerging opportunities
*Published: 2026 Mar 23*
Wearable technologies are increasingly being integrated into clinical trials,
offering new tools to capture physiological and behavioural endpoints in
real-world settings. By enabling continuous, remote, participant-friendly
monitoring, wearables address key limitations of traditional trials, such as
frequent site visits, sparse sampling and limited ecological validity, while
supporting the development of digital biomarkers. To characterize how wearables
are used in drug development, we curated 1,021 interventional trials registered
between 2001 and 2025 that incorporated wearable-derived data into study
protocols. We identified five application archetypes - drug effects, dosing
optimization, adherence, delivery medium and delivery technique optimization -
through which wearables are deployed in trials, underscoring a broadening role
across study objectives. Adhesive patches, largely driven by continuous glucose
monitoring, now dominate trial deployments, with expanding coverage of
physiological domains including sleep, cardiovascular function, motor activity
and brain signals. Despite this progress, formal regulatory qualification of
wearable-derived measures remains rare, with SV95C in Duchenne muscular
dystrophy the only such example to date. Looking ahead, we highlight emerging
biochemical sensing modalities beyond glucose, as well as transdermal
spectroscopy and wearable ultrasound. This Review provides a structured,
forward-looking overview of wearables in trials and supports their responsible,
effective integration into clinical development.
DOI: 10.1038/s41573-026-01403-9