Analysis and Visualization of 3D Motion Data for UPDRS Rating of Patients with Parkinson’s Disease

• Main Authors: Neltje E. Piro, Lennart K. Piro, Jan Kassubek, Ronald A. Blechschmidt-Trapp
• Format: Article
• Language: English
• Published: MDPI AG 2016-06-01
• Series: Sensors
• Subjects: MARG sensors; inertia sensors; IMU; motion data; Parkinson’s Disease; UPDRS; symptom quantification; animated 3D avatar; telemonitoring; remote monitoring; pronation-supination; diadochokinesis
• Online Access: http://www.mdpi.com/1424-8220/16/6/930

Remote monitoring of Parkinson’s Disease (PD) patients with inertia sensors is a relevant method for a better assessment of symptoms. We present a new approach for symptom quantification based on motion data: the automatic Unified Parkinson Disease Rating Scale (UPDRS) classification in combination with an animated 3D avatar giving the neurologist the impression of having the patient live in front of him. In this study we compared the UPDRS ratings of the pronation-supination task derived from: (a) an examination based on video recordings as a clinical reference; (b) an automatically classified UPDRS; and (c) a UPDRS rating from the assessment of the animated 3D avatar. Data were recorded using Magnetic, Angular Rate, Gravity (MARG) sensors with 15 subjects performing a pronation-supination movement of the hand. After preprocessing, the data were classified with a J48 classifier and animated as a 3D avatar. Video recording of the movements, as well as the 3D avatar, were examined by movement disorder specialists and rated by UPDRS. The mean agreement between the ratings based on video and (b) the automatically classified UPDRS is 0.48 and with (c) the 3D avatar it is 0.47. The 3D avatar is similarly suitable for assessing the UPDRS as video recordings for the examined task and will be further developed by the research team.