TY - JOUR
T1 - Validity of multisensor array for measuring energy expenditure of an activity bout in early stroke survivors
AU - Kramer, Sharon Flora
AU - Johnson, Liam
AU - Bernhardt, Julie
AU - Cumming, Toby
N1 - Funding Information:
The first author (Sharon Flora Kramer) is funded by the Australian Government through an Australian Post-Graduate Award (2014–2017). T he second author (Liam Johnson) was supported to conduct this research under Commonwealth Collaborative Research Network funding to Victoria University (2014–2017). The third author (Julie Bernhardt) is funded by an NHMRC Senior Research Fellowship Grant (1058635, 2014–2018). The Florey Institute for Neuroscience and Mental Health acknowledges the support of the Victorian Government via the Operational Infrastructure Support Scheme.
Publisher Copyright:
© 2018 Sharon Flora Kramer et al.
PY - 2018
Y1 - 2018
N2 - Introduction. Stroke survivors use more energy than healthy people during activities such as walking, which has consequences for the way exercise is prescribed for stroke survivors. There is a need for wearable device that can validly measure energy expenditure (EE) of activity to inform exercise prescription early after stroke. We aimed to determine the validity and reliability of the SenseWear-Armband (SWA) to measure EE and step-counts during activity <1 month after stroke. Materials and Methods. EE was measured using the SWA and metabolic cart and steps-counts were measured using the SWA and direct observation. Based on walking ability, participants performed 2x six-minute walks or repeated sit-to-stands. Concurrent validity and test-retest reliability were determined by calculating intraclass and concordance correlation coefficients. Results and Discussion. Thirteen participants walked; nine performed sit-to-stands. Validity of the SWA measuring EE for both activities was poor (ICC/CCC < 0.40). The SWA overestimates EE during walking and underestimated EE during sit-to-stands. Test-retest agreement showed an ICC/CCC of <0.40 and >0.75 for walking and sit-to-stand, respectively. However, agreement levels changed with increasing EE levels (i.e., proportional bias). The SWA did not accurately measure step-counts. Conclusion. The SWA should be used with caution to measure EE of activity of mild to moderate stroke survivors <1 month after stroke.
AB - Introduction. Stroke survivors use more energy than healthy people during activities such as walking, which has consequences for the way exercise is prescribed for stroke survivors. There is a need for wearable device that can validly measure energy expenditure (EE) of activity to inform exercise prescription early after stroke. We aimed to determine the validity and reliability of the SenseWear-Armband (SWA) to measure EE and step-counts during activity <1 month after stroke. Materials and Methods. EE was measured using the SWA and metabolic cart and steps-counts were measured using the SWA and direct observation. Based on walking ability, participants performed 2x six-minute walks or repeated sit-to-stands. Concurrent validity and test-retest reliability were determined by calculating intraclass and concordance correlation coefficients. Results and Discussion. Thirteen participants walked; nine performed sit-to-stands. Validity of the SWA measuring EE for both activities was poor (ICC/CCC < 0.40). The SWA overestimates EE during walking and underestimated EE during sit-to-stands. Test-retest agreement showed an ICC/CCC of <0.40 and >0.75 for walking and sit-to-stand, respectively. However, agreement levels changed with increasing EE levels (i.e., proportional bias). The SWA did not accurately measure step-counts. Conclusion. The SWA should be used with caution to measure EE of activity of mild to moderate stroke survivors <1 month after stroke.
UR - http://www.scopus.com/inward/record.url?scp=85046292310&partnerID=8YFLogxK
U2 - 10.1155/2018/9134547
DO - 10.1155/2018/9134547
M3 - Article
C2 - 29707190
AN - SCOPUS:85046292310
SN - 2090-8105
VL - 2018
JO - Stroke Research and Treatment
JF - Stroke Research and Treatment
M1 - 9134547
ER -