In this paper, we describe the design and performance of the first integrated-circuit microsensor developed for daily ingestion by patients. The ingestible sensor is a device that allows patients, families, and physicians to measure medication ingestion and adherence patterns in real time, relate pharmaceutical compliance to important physiologic metrics, and take appropriate action in response to a patient's adherence pattern and specific health metrics. The design and theory of operation of the device are presented, along with key in-vitro and in-vivo performance results.
View Article and Find Full Text PDFTaking oral medication on a prescribed schedule can be a nuisance, especially for elderly individuals and busy people with lots of things on their minds. Nonetheless, taking medication as prescribed is important for maintaining health and well-being. In cases where medication use is part of a clinical trial, taking prescribed medication is important to the entire investigation and outcome of the study, including the determination of whether a drug is effective and safe.
View Article and Find Full Text PDFBackground: In cardiac resynchronization therapy, left ventricular stimulation may lead to concomitant phrenic nerve stimulation (PNS).
Objective: To evaluate a new networked multielectrode lead with 16 electrode segments (SEGs) configured into groups of 4, forming a virtual band (VBAND) around the lead. Each electrode is individually programmable using an embedded integrated circuit.