TY - JOUR
T1 - Recommendations for determining the validity of consumer wearable and smartphone step count
T2 - expert statement and checklist of the INTERLIVE network
AU - Johnston, William
AU - Judice, Pedro B
AU - Molina García, Pablo
AU - Mühlen, Jan M
AU - Lykke Skovgaard, Esben
AU - Stang, Julie
AU - Schumann, Moritz
AU - Cheng, Shulin
AU - Bloch, Wilhelm
AU - Brønd, Jan Christian
AU - Ekelund, Ulf
AU - Grøntved, Anders
AU - Caulfield, Brian
AU - Ortega, Francisco B
AU - Sardinha, Luis B
N1 - © Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY. Published by BMJ.
PY - 2021/7
Y1 - 2021/7
N2 - Consumer wearable and smartphone devices provide an accessible means to
objectively measure physical activity (PA) through step counts. With the
increasing proliferation of this technology, consumers, practitioners
and researchers are interested in leveraging these devices as a means to
track and facilitate PA behavioural change. However, while the
acceptance of these devices is increasing, the validity of many consumer
devices have not been rigorously and transparently evaluated. The
Towards Intelligent Health and Well-Being Network of Physical Activity
Assessment (INTERLIVE) is a joint European initiative of six
universities and one industrial partner. The consortium was founded in
2019 and strives to develop best-practice recommendations for evaluating
the validity of consumer wearables and smartphones. This expert
statement presents a best-practice consumer wearable and smartphone step
counter validation protocol. A two-step process was used to aggregate
data and form a scientific foundation for the development of an optimal
and feasible validation protocol: (1) a systematic literature review and
(2) additional searches of the wider literature pertaining to factors
that may introduce bias during the validation of these devices. The
systematic literature review process identified 2897 potential articles,
with 85 articles deemed eligible for the final dataset. From the
synthesised data, we identified a set of six key domains to be
considered during design and reporting of validation studies: target
population, criterion measure, index measure, validation conditions,
data processing and statistical analysis. Based on these six domains, a
set of key variables of interest were identified and a ‘basic’ and
‘advanced’ multistage protocol for the validation of consumer wearable
and smartphone step counters was developed. The INTERLIVE consortium
recommends that the proposed protocol is used when considering the
validation of any consumer wearable or smartphone step counter.
Checklists have been provided to guide validation protocol development
and reporting. The network also provide guidance for future research
activities, highlighting the imminent need for the development of
feasible alternative ‘gold-standard’ criterion measures for free-living
validation. Adherence to these validation and reporting standards will
help ensure methodological and reporting consistency, facilitating
comparison between consumer devices. Ultimately, this will ensure that
as these devices are integrated into standard medical care, consumers,
practitioners, industry and researchers can use this technology safely
and to its full potential.
AB - Consumer wearable and smartphone devices provide an accessible means to
objectively measure physical activity (PA) through step counts. With the
increasing proliferation of this technology, consumers, practitioners
and researchers are interested in leveraging these devices as a means to
track and facilitate PA behavioural change. However, while the
acceptance of these devices is increasing, the validity of many consumer
devices have not been rigorously and transparently evaluated. The
Towards Intelligent Health and Well-Being Network of Physical Activity
Assessment (INTERLIVE) is a joint European initiative of six
universities and one industrial partner. The consortium was founded in
2019 and strives to develop best-practice recommendations for evaluating
the validity of consumer wearables and smartphones. This expert
statement presents a best-practice consumer wearable and smartphone step
counter validation protocol. A two-step process was used to aggregate
data and form a scientific foundation for the development of an optimal
and feasible validation protocol: (1) a systematic literature review and
(2) additional searches of the wider literature pertaining to factors
that may introduce bias during the validation of these devices. The
systematic literature review process identified 2897 potential articles,
with 85 articles deemed eligible for the final dataset. From the
synthesised data, we identified a set of six key domains to be
considered during design and reporting of validation studies: target
population, criterion measure, index measure, validation conditions,
data processing and statistical analysis. Based on these six domains, a
set of key variables of interest were identified and a ‘basic’ and
‘advanced’ multistage protocol for the validation of consumer wearable
and smartphone step counters was developed. The INTERLIVE consortium
recommends that the proposed protocol is used when considering the
validation of any consumer wearable or smartphone step counter.
Checklists have been provided to guide validation protocol development
and reporting. The network also provide guidance for future research
activities, highlighting the imminent need for the development of
feasible alternative ‘gold-standard’ criterion measures for free-living
validation. Adherence to these validation and reporting standards will
help ensure methodological and reporting consistency, facilitating
comparison between consumer devices. Ultimately, this will ensure that
as these devices are integrated into standard medical care, consumers,
practitioners, industry and researchers can use this technology safely
and to its full potential.
KW - accelerometer
KW - consensus statement
KW - physical activity
KW - validity
KW - walking
UR - https://www.mendeley.com/catalogue/71b3142a-c590-3c58-b571-b735f92440b3/
U2 - 10.1136/bjsports-2020-103147
DO - 10.1136/bjsports-2020-103147
M3 - Journal articles
C2 - 33361276
SN - 0306-3674
VL - 55
SP - 780
EP - 793
JO - British journal of sports medicine
JF - British journal of sports medicine
IS - 14
ER -