Diagnostic Monitor to Guide Early Goal-Directed Therapy in Emergency Departments

Award Information
Agency:
Department of Health and Human Services
Branch
n/a
Amount:
$105,915.00
Award Year:
2009
Program:
SBIR
Phase:
Phase I
Contract:
1R43GM087792-01A1
Agency Tracking Number:
GM087792
Solicitation Year:
n/a
Solicitation Topic Code:
n/a
Solicitation Number:
n/a
Small Business Information
MEDICAL PHYSICS, INC.
MEDICAL PHYSICS, INC., 825 NORTH 300 WEST, STE 420, SALT LAKE CITY, UT, 84103
Hubzone Owned:
N
Minority Owned:
N
Woman Owned:
N
Duns:
145966557
Principal Investigator:
JUSTIN CLARK
(801) 532-0221
JUSTIN@MEDPHYSINC.COM
Business Contact:
BARBARA FREED
() -
office@medphysinc.com
Research Institution:
n/a
Abstract
DESCRIPTION (provided by applicant): Diagnostic Monitor to Guide Early Goal-Directed Therapy in Emergency Departments Summary Mortality rates for critically ill patients are unnecessarily high because of the extended time (6-7 hrs) that it usually takes fo r diagnoses to be rendered in Emergency Departments while waiting to be sent to an appropriate intensive care unit (ICU) for treatment. What is needed is an instrument that can immediately diagnose such patients and provide therapy guidelines that would al low Emergency Department personnel to initiate life-saving medical treatment during the first 6 hours after arrival to Emergency. While there are several noninvasive monitors that measure cardiac output (CO) and various other hemodynamic parameters, they a re limited by their inability to monitor sufficient parameters in order to quantify and correct for physiological interferences. The proposed development has the capability to acquire these critical parameters simultaneously. Since all interfering elemen ts are physiological parameters that have significance for disease diagnosis and patient management, the proposed monitor is referred to as an Emergency Diagnostic Monitor (EDM). The proposed EDM provides a sufficient number of measurements (referred to as a complete set ) to assure accuracy of any one of them. This monitor is noninvasive, and patient risk is virtually eliminated by using the lung as a port for both injection of gases (in tracer concentrations) and their measurements. Initial tests of the methodology proved successful in experimental animals. However, studies with chronic obstructive pulmonary disease (COPD) subjects revealed that asynchronous ventilation was the cause of significant error. Therefore, in order for the monitor to address a w ide range of pathologies, additional cardiopulmonary measurements are needed which allow quantification of asynchronous ventilation and its effects on other parameters. Therefore, a major task is to solve the problem of asynchronous ventilation by use of a dual injection scheme, which requires measurement of additional inert (tracer) gases. In order for the concept of a complete set to be economically viable, the gas analyzer must be capable of monitoring thirteen gases economically and with accuracy foun d in only highly quantitative instruments. It must also meet cost constraints of medical devices. A significant advance in medical mass spectroscopy has been the development of a patented piezo controlled inlet valve (developed by this group). From this, a low power commercial medical mass spectrometer (Solo(R)) was developed which displayed a high degree of reliability in the hospital environment. Modification of Solo(R) will allow monitoring of the additional gases needed to correct for ventilation phasin g and is one of the tasks of this proposal. The EDMs diagnostic capability is enhanced by a measurement set that includes a total of 18 physiological parameters. Its validation in septic shock patients for early goal-directed therapy (EGDT) guidance is the main focus of this Phase I. PUBLIC HEALTH RELEVANCE: Diagnostic Monitor to Guide Early Goal-Directed Therapy in Emergency Departments Narrative Mortality rates for critically ill patients are unnecessarily high because of the extended time (6-7 hrs) that it usually takes for diagnoses to be rendered in Emergency Departments while waiting to be sent to an appropriate intensive care unit (ICU) for treatment. What is needed is a noninvasive instrument that can immediately diagnose such patients and provide th erapy guides to allow Emergency Department personnel to initiate life-saving medical treatment before ICU treatment is available. The goal of this project is to develop and test a noninvasive instrument with the reliability and comprehensiveness needed to provide earlier detection, of septic shock and practical guidance by Emergency personnel.

* information listed above is at the time of submission.

Agency Micro-sites


SBA logo

Department of Agriculture logo

Department of Commerce logo

Department of Defense logo

Department of Education logo

Department of Energy logo

Department of Health and Human Services logo

Department of Homeland Security logo

Department of Transportation logo

Enviromental Protection Agency logo

National Aeronautics and Space Administration logo

National Science Foundation logo
US Flag An Official Website of the United States Government