Abstract: Disclosed are biomedical stimulators and systems that deliver stimulus power efficiently to electrodes and tissues, provide reliable control of stimulus efficacy over a wide dynamic range of available power and voltage, avoid damaging net direct current flow through tissue, minimize the amount of data that must be transmitted to specify a particular stimulus strength, and extend the range of received field strengths for which stimulators can function safely and reliably. These biomedical stimulators and systems provide reliable stimulation of known intensity by measuring charging currents and discharging predetermined quantities of charge.

Abstract: A biosensing device for detecting biological analytes, and methods of use and manufacture, are disclosed. The device includes a biosensing element that can remain implanted for extended periods of time. The biosensing element is connected to an optical fiber terminating outside of the body. The optical fiber is also connected to an information analyzer. The information analyzer directs light through the optical fiber into the biosensing element. The light excites fluorophores, created by a chemical reaction between analytes and biosensing material within the biosensing element. Emitted fluorescent light is redirected through the optical fiber to the information analyzer. Detectors detect the deflected fluorescent emissions and, according to their determined wavelength, report the presence or quantity of specific analytes to the patient on an external display.

Abstract: Devices and methods for locating a target site for the electrical stimulation of muscles are disclosed. The intensity of a search stimulus is varied continuously near the threshold to evoke an M-wave recorded by EMG electrodes. A feedback signal allows the clinician to judge when the threshold is sufficiently low to warrant the implantation of the stimulation electrodes at that site.

Abstract: The subject invention teaches the use of electrical stimulation of specific sensory nerves, such as the proximal urethral afferents to control urination. A wireless, injectable microstimulator may implanted into the soft tissues through which the sensory nerves pass. The sensory nerves supplying the proximal urethra are stimulated by a microstimulator implanted adjacent to the prostatic urethra within the substance of the prostate gland in males, and distal to the bladder neck in females. The activity induced in these nerves causes the spinal cord to generate reflex responses that result in contractions of the detrusor muscle and relaxation of the sphincter, emptying the bladder. The invention also includes methods of implanting and/or testing microstimulators at a target location. The invention also includes the use of sensory devices to effect the microstimulators or alert the user as to the status of the bladder.

Abstract: A method for on-off modulation of a transmitter coil current of a high-Q resonant circuit transmitter comprising the steps of sensing a zero-crossing of the transmitter coil current and substantially instantaneously interrupting the transmitter coil current, and a high-Q resonant circuit transmitter for carrying out said method.