2013-304 ELECTRICAL CHARGE BALANCING SCHEME FOR FUNCTIONAL STIMULATION USING PULSE WIDTH COMPENSATION

Electrical Charge Balancing Scheme For Functional Stimulation Using Pulse Width Compensation

Tech ID: 30167 / UC Case 2013-304-0

 

SUMMARY

UCLA researchers in the Department of Bioengineering have developed a novel electrical charge cancellation scheme to effectively remove residual charge on an electrode, achieving greater precision for lesser hardware cost, while maintaining a surgically implantable small size without extra pulse insertion.

 

BACKGROUND

Functional electrical stimulation is a method adopted by many biomedical implants to restore function to tissues in the human body. This technique involves stimulating tissue with an electrical current to evoke action potentials across neurons. Balancing charge is critical for the safe implementation of the respective implants, since a net residue charge can severely damage tissue and the electrodes. Current solutions for balancing charges have been suboptimal due to their limited precision in amplitude and time, requirement of a large capacitor, or need for extra balancing pulses to raise effectiveness. However, these methods can raise safety concerns, further supporting the need for a calibration method with increased precision within a compact size.

 

INNOVATION

UCLA researchers have developed a novel electrical charge cancellation scheme to effectively remove residual charge on the electrode by precisely controlling either the width of the anodic or cathodic current stimulus. This approach doesn’t require additional short pulses, which are required for a DC capacitor, and allows for high precision net charge and timing control without increasing hardware size. Furthermore, this scheme is effective even if Warburg resistance is significant.

 

APPLICATIONS

Neural stimulation devices

Electrode array design

Electrode-tissue interface

 

ADVANTAGES

Greater precision

Less hardware cost

Safe, surgically implantable size

No extra pulse required

 

RELATED MATERIALS

Lo, Yi-Kai, Richard Hill, Kuanfu Chen, and Wentai Liu. "Precision control of pulse widths for charge balancing in functional electrical stimulation." In Neural Engineering (NER), 2013 6th International IEEE/EMBS Conference on, pp. 1481-1484. IEEE, 2013.

 

PATENT STATUS

Country       Type       Number       Dated       Case

United States Of America       Issued Patent       9,700,724       07/11/2017       2013-304

European Patent Office       Published Application       2961477       01/06/2016       2013-304

Patent Information:
For More Information:
Megha Patel
Business Development Officer
Megha.patel@tdg.ucla.edu
Inventors:
Wentai Liu
Kuanfu Chen
Richard Hill
Yi Kai Lo