Sensitivity of Motor Assessment in MS - a Prospective Cohort Study — MOTOSENS  

Multiple Sclerosis, Relapsing-Remitting Clinical Trial

Official title: Sensitivity of Quantitative Motor Performance Measures in Multiple Sclerosis - a Prospective Cohort Study Over Two Years Using Microsoft Kinect

Status Active, not recruiting

Clinical Trial Summary

The study explores the application of marker-less motion analysis (visual-perceptive computing, VPC) using a consumer grade infrared and video camera (Microsoft Kinect) for clinical assessment in MS. It includes as the primary outcomes a short assessment battery of simple motor tasks (PASS-MS) that can be performed in front of the sensor after standard oral instructions given by the operator. For each task, the sensor data are transformed into a set of kinematic parameters that may be used as motor outcome reflecting specific neurological dysfunction. For validation against both clinical and patient-reported outcomes as well as MRI findings, we here prospectively investigate a large cohort of patients with multiple sclerosis. This will allow to determine the usefulness of the various kinematic parameters generated and to define a reduced set of the most meaningful parameters for potential use in future MS trials. Data on repeatability and benchmarks for clinically relevant change are essential to interpret test results and, more importantly, changes thereof. Further, this prospective study will yield estimates of progression rates that are required for planning future studies using this motion analysis tool and assessment battery as an outcome. The study is designed to obtain benchmarks for sensitivity and clinical responsiveness. Primary analysis aims to answer the question: Does the SMSW - Maximum Speed worsen with disease progression established as confirmed disability progression based on EDSS after 24 months (defined as 1 step increase in EDSS ≤ 5.5 and 0.5 step in EDSS > 5.5)?

Clinical Trial Description

The study is designed as a prospective observational (non-interventional) single-center study performed at one center, Charité - Universitätsmedizin Berlin. This study converges with prospective observational studies performed at our center. These studies started in 2011 with the objective to define determinants of progression in neuroimmunological disorders (CIS, MS, NMO). The variables collected for this study were defined according to the study objective and comprise different markers of motor/mobility function, cognitive and affective function, fatigue and health-related quality of life. The primary outcome is a VPC-based assessment of locomotor function (PASS-MS SMSW-MaxS) as the diagnostic test under study. Secondary outcomes serve to cross-validate progression rates or as benchmarks of clinical progression to determine clinical relevance of change. Further, possible effects of cognitive and affective function on the primary outcome can be explored which is of high relevance for the interpretation of changes in the population of MS. All assessments are performed at inclusion and after 12and 24 months. Primary outcome: PASS-MS kinematic parameters with Short Maximum Speed Walk - Speed (SMSW-MaxS) as primary outcome Secondary outcomes: - Clinical Examination - Other kinematic parameters derived from PASS-MS - Clinical Rating with EDSS and Multiple Sclerosis Functional Composite (MSFC) consisting of tests of walking capacity (T25FW), hand dexterity (9HPT), cognitive processing speed (SDMT) and visual acuity (Sloan charts) - Cognitive testing (BRB-N) - Patient-reported outcomes on global impression of change, MS-related impairment in walking (MSWS-12), hand function, occurrence of fatigue (FSMC), depressive symptoms (BDI-II) and health-related quality of life by MS-specific questionnaire (HAQUAMS) A change in T25FW speed of at least 20% was found to be clinically meaningful for MS patients (Hobart 2013). In a previous study the investigators found SMSW average walking speed was slower in MS patients (1.6 ± 0.3 m/sec) than in HC (1.8 ± 0.4 m/sec) (Behrens 2014). Therefore, a similar average walking speed was assumed for the population under study at baseline (1.6 m/sec) and a decrease of 0.3 m/sec (corresponding to approximately 20%) as clinically meaningful. Moreover, based on previous reports, investigators assume a standard deviation in the changes of SMSW-MaxS of 0.4 m/sec (Behrens 2014). This results in an expected effect size of 0.75 for the change in SMSW-MaxS between baseline and 24 months follow-up in those with clinically confirmed disability progression. A sample size of N=16 patients will have a power of 80% to detect an effect size of 0.75 with a two-sided significance level of 0.05 and a t-test for dependent samples (nQuery Advisor 7.0). Sample size estimation considered previous evidence on the proportion of patients who will show clinically confirmed disability progression throughout the observation period based on an EDSS change defined as 1 step increase in EDSS ≤ 5.5 and 0.5 step in EDSS > 5.5 within 24 months. Cutter et al. (1999) reported that 10% of their patients showed EDSS confirmed sustained change within 3 months and 40% showed a change to baseline in 1 year reported in MSFC, which also incorporates the T25FW. The investigators assume that at least 20 % of patients showing a confirmed sustained change in EDSS according to above definition within 24months to be a realistic scenario. When considering an overall dropout rate of 10-20% (lost to follow-up), this would result in N=16 complete datasets when overall N=100 patients are included. Patients should not have had an acute relapse up to 3 months before follow-up visit (12 and 24 months). To avoid dropout due to acute relapse the follow-up visit is extended to up to 3 months in case of acute relapse. ;

Related Conditions & MeSH terms

• Multiple Sclerosis
• Multiple Sclerosis, Chronic Progressive
• Multiple Sclerosis, Relapsing-Remitting
• Multiple Sclerosis, Secondary Progressive
• Sclerosis

• NCT number: NCT04993274
• Study type: Observational
• Source: Charite University, Berlin, Germany
• Status: Active, not recruiting
• Start date: February 20, 2019
• Completion date: November 2022