Warning: A non-numeric value encountered in /home/public/export/export_atomxml.php on line 32
Warning: Cannot modify header information - headers already sent by (output started at /home/public/export/export_atomxml.php:32) in /home/public/includes/include.inc.php on line 5344
Warning: Cannot modify header information - headers already sent by (output started at /home/public/export/export_atomxml.php:32) in /home/public/search.php on line 1880 Jason Friedman's literature databaseDisplays records where serial is equal to 1042024-04-26T13:54:45+00:00Jason Friedman's literature databasewrite.to.jason@gmail.comhttps://refbase.nfshost.com/Web Reference Database (http://refbase.sourceforge.net)https://refbase.nfshost.com/img/favicon.icohttps://refbase.nfshost.com/img/logo.pnghttps://refbase.nfshost.com/show.php?where=serial%20%3D%20104&exportType=xml&submit=Export&exportFormat=Atom%20XML111https://refbase.nfshost.com/show.php?record=104
DataSpoon: Validation of an Instrumented Spoon for Assessment of Self-Feeding
Krasovsky, T., Weiss, P. L., Zuckerman, O., Bar, A., Keren-Capelovitch, T., & Friedman, J. (2020). DataSpoon: Validation of an Instrumented Spoon for Assessment of Self-Feeding. Sensors (Basel), 20(7).
Clinically feasible assessment of self-feeding is important for adults and children with motor impairments such as stroke or cerebral palsy. However, no validated assessment tool for self-feeding kinematics exists. This work presents an initial validation of an instrumented spoon (DataSpoon) developed as an evaluation tool for self-feeding kinematics. Ten young, healthy adults (three male; age 27.2 +/- 6.6 years) used DataSpoon at three movement speeds (slow, comfortable, fast) and with three different grips: “natural”, power and rotated power grip. Movement kinematics were recorded concurrently using DataSpoon and a magnetic motion capture system (trakSTAR). Eating events were automatically identified for both systems and kinematic measures were extracted from yaw, pitch and roll (YPR) data as well as from acceleration and tangential velocity profiles. Two-way, mixed model Intraclass correlation coefficients (ICC) and 95% limits of agreement (LOA) were computed to determine agreement between the systems for each kinematic variable. Most variables demonstrated fair to excellent agreement. Agreement for measures of duration, pitch and roll exceeded 0.8 (excellent agreement) for >80% of speed and grip conditions, whereas lower agreement (ICC < 0.46) was measured for tangential velocity and acceleration. A bias of 0.01-0.07 s (95% LOA [-0.54, 0.53] to [-0.63, 0.48]) was calculated for measures of duration. DataSpoon enables automatic detection of self-feeding using simple, affordable movement sensors. Using movement kinematics, variables associated with self-feeding can be identified and aid clinical reasoning for adults and children with motor impairments.
DataSpoon: Validation of an Instrumented Spoon for Assessment of Self-FeedingKrasovsky, T.Weiss, P.L.Zuckerman, O.Bar, A.Keren-Capelovitch, T.Friedman, J.info:doi/10.3390/s20072114info:pmid/32283624openurl:?ctx_ver=Z39.88-2004&rfr_id=info%3Asid%2Fhttps%3A%2F%2Frefbase.nfshost.com%2F&genre=article&atitle=DataSpoon%3A%20Validation%20of%20an%20Instrumented%20Spoon%20for%20Assessment%20of%20Self-Feeding&title=Sensors%20%28Basel%2C%20Switzerland%29&stitle=Sensors%20%28Basel%29&issn=1424-8220&date=2020&volume=20&issue=7&aulast=Krasovsky&aufirst=T.&au=Weiss%2C%20P.L.&au=Zuckerman%2C%20O.&au=Bar%2C%20A.&au=Keren-Capelovitch%2C%20T.&au=Friedman%2C%20J.&id=info%3Adoi%2F10.3390%2Fs20072114&sid=refbase%3AJFcitekey:Krasovsky_etal2020Krasovsky, T., Weiss, P. L., Zuckerman, O., Bar, A., Keren-Capelovitch, T., & Friedman, J. (2020). DataSpoon: Validation of an Instrumented Spoon for Assessment of Self-Feeding. Sensors (Basel), 20(7).2020JournalArticletextconcurrent validityfeasibilitykinematicsoutcome assessmentrehabilitationurl:http://www.ncbi.nlm.nih.gov/pubmed/32283624file:https://refbase.nfshost.com/files/krasovsky/2020/104_Krasovsky_etal2020.pdfEnglish1424-8220Sensors (Basel, Switzerland)2020207