DocumentCode
1550794
Title
Implantable transducer for two-degree of freedom joint angle sensing
Author
Johnson, Mark W. ; Peckham, P. Hunter ; Bhadra, Niloy ; Kilgore, Kevin L. ; Gazdik, Martha M. ; Keith, Michael W. ; Strojnik, Primoz
Author_Institution
Dept. of Pediatric Neurol., Univ. Hospitals of Cleveland, OH, USA
Volume
7
Issue
3
fYear
1999
fDate
9/1/1999 12:00:00 AM
Firstpage
349
Lastpage
359
Abstract
An implantable joint angle transducer (IJAT) was developed to provide command-control and feedback-control information for chronic use with functional neuromuscular stimulation (FNS) neuroprostheses. The IJAT uses Hall effect sensors to transduce joint angle. A titanium encapsulated array of Hall effect sensors and support circuitry is surgically implanted in one bone, and a similarly encapsulated permanent magnet in an opposing bone, across a joint. The IJAT provides consistent, reliable, high quality signals that reflect joint movement from midsized two-degree-of-freedom joints. IJATs were implanted using a chronic in vivo dog model to demonstrate the feasibility of implantation and periodic measurement techniques, and to validate modeling techniques used for prediction of function and calibration. The flexion resolution ranged from 0.4 to 3.0° over a range of 115°. The maximum deviation from a linear response was 9°. The resolution and linearity depend on several transducer and joint geometry parameters, and can be predicted prior to implantation and calibrated after implantation. The results of this study (1) defined the most appropriate hermetic capsule designs for the IJAT sensor and magnet, (2) defined the best orientation of the magnetic field to optimize device function, (3) provided a computer model of the IJAT to aid in placement, calibration, and evaluation of the device, (4) verified the surgical techniques used to implant the device, and (5) verified the long-term functionality and the biocompatibility of the device
Keywords
Hall effect transducers; angular measurement; biocontrol; biomedical measurement; biomedical transducers; feedback; neuromuscular stimulation; prosthetics; Hall effect sensors; biocompatibility; calibration; chronic in vivo dog model; command-control; computer model; feedback-control; flexion resolution; functional neuromuscular stimulation; hermetic capsule designs; high quality signals; implantable transducer; joint angle transducer; linear response deviation; long-term functionality; modeling techniques validation; neuroprostheses; periodic measurement techniques; support circuitry; titanium encapsulated array; two-degree of freedom joint angle sensing; Bones; Calibration; Hall effect devices; Joints; Magnetic sensors; Neuromuscular stimulation; Predictive models; Sensor arrays; Surgery; Transducers;
fLanguage
English
Journal_Title
Rehabilitation Engineering, IEEE Transactions on
Publisher
ieee
ISSN
1063-6528
Type
jour
DOI
10.1109/86.788471
Filename
788471
Link To Document