ADAPTIVE MONITORING

Brand	Owner	Address	Description
ADAPTIVE MONITORING INSIGHTS	FORTE RESEARCH SYSTEMS, INC.	1200 John Q. Hammons Dr. Madison WI 53717	ADAPTIVE MONITORING;Providing, hosting, managing, developing, and maintaining web sites for use by others for measuring and monitoring performance, efficiency, scheduling, budgeting, and resource allocation during clinical studies and trials, and during scientific and medical research projects; Providing, hosting, managing, developing, and maintaining web sites for use by others for comparing performance, efficiency, scheduling, budgeting, and resource allocation between clinical studies and trials, and between scientific and medical research projects; Providing temporary use of non-downloadable software and software applications for measuring and monitoring performance, efficiency, scheduling, budgeting, and resource allocation during clinical studies and trials, and during scientific and medical research projects; Providing temporary use of non-downloadable software and software applications for comparing performance, efficiency, scheduling, budgeting, and resource allocation between clinical studies and trials, and between scientific and medical research projects; Providing, hosting, developing, and maintaining databases for use by others for measuring and monitoring performance, efficiency, scheduling, budgeting, and resource allocation during clinical studies and trials, and during scientific and medical research projects; providing, hosting, developing, and maintaining databases for use by others for comparing performance, efficiency, scheduling, budgeting, and resource allocation between clinical studies and trials, and between scientific and medical research projects;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

An intraoperative neurophysiological monitoring system includes an adaptive threshold detection circuit adapted for use in monitoring with a plurality of electrodes placed in muscles which are enervated by a selected nerve and muscles not enervated by the nerve. Nerve monitoring controller algorithms permit the rapid and reliable discrimination between non-repetitive electromyographic (EMG) events repetitive EMG events, thus allowing the surgeon to evaluate whether nerve fatigue is rendering the monitoring results less reliable and whether anesthesia is wearing off. The intraoperative monitoring system is designed as a "surgeon's monitor," and does not require a neurophysiologist or technician to be in attendance during surgery. The advanced features of the intraoperative monitoring system will greatly assist neurophysiological research toward the general advancement of the field intraoperative EMG monitoring through post-surgical analysis. The intraoperative monitoring system is preferably modular, in order to allow for differential system pricing and upgrading as well as to allow for advances in computer technology; modularity can also aid in execution of the design.