Non-invasive estimation method for lumbar spinal motion using flat belts and wires

This paper presents a novel method for estimating lumbar spinal motion using practical and simple measurements. Previous studies have investigated the measurement methods for the lumbar spine; however, none of the studies that use wearable measurement systems have calculated the exact velocity of each vertebra using a non-invasive method for measuring vertebral motion including translation. The purpose of this study is to establish and implement a method to estimate accurate vertebral motion using a non-invasive technique. In the proposed method, we estimate the motion of the vertebra by using a rigid body model of the spine. We observe the changes at the contact points between the two belts and the wearer's back. In this study, we show how to estimate the lumbar motion at each vertebra by using sensors to measure the shifting, bending, and contacting regions of the flat belt attached to the wearer's back. We also validate the estimation of the angular velocity of the vertebra by measuring the shift in the belt by using wires and potentiometers. This is an important part of estimating the accurate motion of the vertebra.

[1]  M. Pearcy,et al.  Three-Dimensional X-ray Analysis of Normal Movement in the Lumbar Spine , 1984, Spine.

[2]  M. de Looze,et al.  The effects of a passive exoskeleton on muscle activity, discomfort and endurance time in forward bending work. , 2016, Applied ergonomics.

[3]  Takayuki Tanaka,et al.  A Calibration Method for Interbody Distance in Lumbosacral Alignment Estimation , 2016, ICIRA.

[4]  Michael H Schwartz,et al.  The in vivo three-dimensional motion of the human lumbar spine during gait. , 2008, Gait & posture.

[5]  D. Anderson,et al.  Incorporating Six Degree-of-Freedom Intervertebral Joint Stiffness in a Lumbar Spine Musculoskeletal Model-Method and Performance in Flexed Postures. , 2015, Journal of biomechanical engineering.

[6]  K. Shimizu,et al.  The Effect of Leg Length Discrepancy on Spinal Motion During Gait: Three-Dimensional Analysis in Healthy Volunteers , 2003, Spine.

[7]  Ajit M W Chaudhari,et al.  An investigation of jogging biomechanics using the full-body lumbar spine model: Model development and validation. , 2016, Journal of biomechanics.

[8]  D. Falla,et al.  Measurement of Lumbar Spine Functional Movement in Low Back Pain , 2015, The Clinical journal of pain.

[9]  Yoshiyuki Sankai,et al.  Leading Edge of Cybernics: Robot Suit HAL , 2006, 2006 SICE-ICASE International Joint Conference.

[10]  Eiichi Yoshida,et al.  Verification of assistive effect generated by passive power-assist device using humanoid robot , 2014, 2014 IEEE/SICE International Symposium on System Integration.