The Open Rehabilitation Journal

2012, 5 : 14-21
Published online 2012 June 25. DOI: 10.2174/1874943701205010014
Publisher ID: TOREHJ-5-14

Evaluation of Bipolar PermalocTM Electrodes for Direct Bladder Stimulation

James S. Walter , J. Corey Allen , Scott Sayers , Sanjay Singh , Lee Cera , Donald Thomas and John S. Wheeler
Hines VA Hospital (151), Research Service, Hines, IL 60141, USA.

ABSTRACT

Purpose:

A bladder control system for spinal cord injured (SCI) patients is needed that can be implanted with minimally invasive methods. New Permaloc bipolar electrodes consisting of 6 mm helical, wire, stimulating surfaces separated by 3 mm and a polypropylene securing barb (Synapse Biomedical Inc) were developed for this application. They are implanted on the bladder wall with a 16 gauge needle, a minimally invasive method.

Methods:

Seven swines were anesthetized, the lower urinary tract exposed and instrumented with pressure transducers. Four PermalocTM electrodes were implanted following identification of effective bladder wall stimulation sites next to the ureters and dorsal neurovascular bundle. Bladder stimulation to induce high pressures was conducted at 40 Hz, 400 􀀁s pulses, 5 s stimulation periods and a high stimulating current of 40 mA.

Results:

At the high stimulating current peak bladder pressures were low, ranging from 12±2 to15±3 cm H20, insufficient to induce urination. Urethral sphincter contractions occurred during high bladder pressure. A spinal reflex role for high sphincter pressures during stimulation was shown by similar high pressures recorded during a bladder squeeze test without stimulation.

Conclusions:

Stimulation with PermalocTM bipolar electrodes at high currents produced insufficient bladder pressures for urination. Further modifications of the electrode such as greater separation of the bipolar stimulating surfaces or changes in the testing methods such as alternative animal models are needed to induce high bladder pressures without side effects.

Keywords:

Electrical stimulation, electrodes, neuroprosthetics.