JMIR Formative Research (Oct 2023)

Assessment of Upper Extremity Function in Multiple Sclerosis: Feasibility of a Digital Pinching Test

  • Jennifer S Graves,
  • Marcin Elantkowski,
  • Yan-Ping Zhang,
  • Frank Dondelinger,
  • Florian Lipsmeier,
  • Corrado Bernasconi,
  • Xavier Montalban,
  • Luciana Midaglia,
  • Michael Lindemann

DOI
https://doi.org/10.2196/46521
Journal volume & issue
Vol. 7
p. e46521

Abstract

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BackgroundThe development of touchscreen-based assessments of upper extremity function could benefit people with multiple sclerosis (MS) by allowing convenient, quantitative assessment of their condition. The Pinching Test forms a part of the Floodlight smartphone app (F. Hoffmann-La Roche Ltd, Basel, Switzerland) for people with MS and was designed to capture upper extremity function. ObjectiveThis study aimed to evaluate the Pinching Test as a tool for remotely assessing upper extremity function in people with MS. MethodsUsing data from the 24-week, prospective feasibility study investigating the Floodlight Proof-of-Concept app for remotely assessing MS, we examined 13 pinching, 11 inertial measurement unit (IMU)–based, and 13 fatigability features of the Pinching Test. We assessed the test-retest reliability using intraclass correlation coefficients [second model, first type; ICC(2,1)], age- and sex-adjusted cross-sectional Spearman rank correlation, and known-groups validity (data aggregation: median [all features], SD [fatigability features]). ResultsWe evaluated data from 67 people with MS (mean Expanded Disability Status Scale [EDSS]: 2.4 [SD 1.4]) and 18 healthy controls. In this cohort of early MS, pinching features were reliable [ICC(2,1)=0.54-0.81]; correlated with standard clinical assessments, including the Nine-Hole Peg Test (9HPT) (|r|=0.26-0.54; 10/13 features), EDSS (|r|=0.25-0.36; 7/13 features), and the arm items of the 29-item Multiple Sclerosis Impact Scale (MSIS-29) (|r|=0.31-0.52; 7/13 features); and differentiated people with MS-Normal from people with MS-Abnormal (area under the curve: 0.68-0.78; 8/13 features). IMU-based features showed similar test-retest reliability [ICC(2,1)=0.47-0.84] but showed little correlations with standard clinical assessments. In contrast, fatigability features (SD aggregation) correlated with 9HPT time (|r|=0.26-0.61; 10/13 features), EDSS (|r|=0.26-0.41; 8/13 features), and MSIS-29 arm items (|r|=0.32-0.46; 7/13 features). ConclusionsThe Pinching Test provides a remote, objective, and granular assessment of upper extremity function in people with MS that can potentially complement standard clinical evaluation. Future studies will validate it in more advanced MS. Trial RegistrationClinicalTrials.gov NCT02952911; https://clinicaltrials.gov/study/NCT02952911