Scoring the Sit-to-Stand Performance of Parkinson's Patients with a Single Wearable Sensor

Sensors (Basel). 2022 Oct 30;22(21):8340. doi: 10.3390/s22218340.

Abstract

Monitoring disease progression in Parkinson's disease is challenging. Postural transfers by sit-to-stand motions are adapted to trace the motor performance of subjects. Wearable sensors such as inertial measurement units allow for monitoring motion performance. We propose quantifying the sit-to-stand performance based on two scores compiling kinematics, dynamics, and energy-related variables. Three groups participated in this research: asymptomatic young participants (n = 33), senior asymptomatic participants (n = 17), and Parkinson's patients (n = 20). An unsupervised classification was performed of the two scores to differentiate the three populations. We found a sensitivity of 0.4 and a specificity of 0.96 to distinguish Parkinson's patients from asymptomatic subjects. In addition, seven Parkinson's patients performed the sit-to-stand task "ON" and "OFF" medication, and we noted the scores improved with the patients' medication states (MDS-UPDRS III scores). Our investigation revealed that Parkinson's patients demonstrate a wide spectrum of mobility variations, and while one inertial measurement unit can quantify the sit-to-stand performance, differentiating between PD patients and healthy adults and distinguishing between "ON" and "OFF" periods in PD patients is still challenging.

Keywords: IMU; Parkinson’s disease; motion analysis; movement biomechanics; sit-to-stand.

MeSH terms

  • Adult
  • Biomechanical Phenomena
  • Humans
  • Motion
  • Parkinson Disease* / diagnosis
  • Wearable Electronic Devices*