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A practical sensor-based methodology for the quantitative assessment and classification of chronic non specific low back patients (NSLBP) in clinical settings

Davoudi, M ; Sharif University of Technology | 2020

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  1. Type of Document: Article
  2. DOI: 10.3390/s20102902
  3. Publisher: MDPI AG , 2020
  4. Abstract:
  5. The successful clinical application of patient-specific personalized medicine for the management of low back patients remains elusive. This study aimed to classify chronic nonspecific low back pain (NSLBP) patients using our previously developed and validated wearable inertial sensor (SHARIF-HMIS) for the assessment of trunk kinematic parameters. One hundred NSLBP patients consented to perform repetitive flexural movements in five different planes of motion (PLM): 0◦ in the sagittal plane, as well as 15◦ and 30◦ lateral rotation to the right and left, respectively. They were divided into three subgroups based on the STarT Back Screening Tool. The sensor was placed on the trunk of each patient. An ANOVA mixed model was conducted on the maximum and average angular velocity, linear acceleration and maximum jerk, respectively. The effect of the three-way interaction of Subgroup by direction by PLM on the mean trunk acceleration was significant. Subgrouping by STarT had no main effect on the kinematic indices in the sagittal plane, although significant effects were observed in the asymmetric directions. A significant difference was also identified during pre-rotation in the transverse plane, where the velocity and acceleration decreased while the jerk increased with increasing asymmetry. The acceleration during trunk flexion was significantly higher than that during extension, in contrast to the velocity, which was higher in extension. A Linear Discriminant Analysis, utilized for classification purposes, demonstrated that 51% of the total performance classifying the three STarT subgroups (65% for high risk) occurred at a position of 15◦ of rotation to the right during extension. Greater discrimination (67%) was obtained in the classification of the high risk vs. low-medium risk. This study provided a smart “sensor-based” practical methodology for quantitatively assessing and classifying NSLBP patients in clinical settings. The outcomes may also be utilized by leveraging cost-effective inertial sensors, already available in today’s smartphones, as objective tools for various health applications towards personalized precision medicine. © 2020 by the authors. Licensee MDPI, Basel, Switzerland
  6. Keywords:
  7. Clinical settings ; Low back pain (LBP) classification ; Quantitative screening ; Wearable inertial sensor ; Cost effectiveness ; Diagnosis ; Discriminant analysis ; Inertial navigation systems ; Kinematics ; MHealth ; Personalized medicine ; Risk assessment ; Clinical application ; Kinematic parameters ; Linear accelerations ; Linear discriminant analysis ; Quantitative assessments ; Three-way interactions ; Total performance ; Trunk acceleration ; Wearable sensors
  8. Source: Sensors (Switzerland) ; Volume 20, Issue 10 , 2020
  9. URL: https://www.mdpi.com/1424-8220/20/10/2902