Abstract

Pretest probability assessment (PTP) plays a pivotal role in the evaluation of pulmonary embolism (PE) in the emergency department (ED) and accurate PTP assessment can modify defensive test-ordering behavior by physicians. However, current methods of PTP assessment produce broad categories of risk that tend to over fit individual patients and seldom obviate test-ordering. The primary hypothesis asserts that the PTP of a life-threatening process can be accurately estimated by using BreathQuant Medical System's patent-pending method of matching clinical attributes of an individual patient to an identical profile of attributes shared by patients drawn from a large, proprietary reference database. The reference database must contain detailed data from an appropriate spectrum of patients previously evaluated for that specific process, and for whom outcomes are encoded. Our attribute-matching(c) object code, launched from a personal digital assistant (PDA) or a personal computer, returns all patients matched to an identical clinical profile; the proportion of matched patients with an outcome of the disease in question equals the PTP; 95% confidence intervals can be computed. Validation data from a similar product, the ACS PREtest Consult TM, show merit of attribute-matching to estimate PTP of acute coronary syndrome. To accumulate a large database from ED patients undergoing objective testing for PE, Phase I of the present work developed the HIPAA-compliant, web-based, patent-pending Virtual Private Study TM platform to collect clinical data using PDAs and desktop computers in the ED setting using strict privacy-protection measures. In Phase II, we will deploy the phase I technology to collect clinical data on ED patients evaluated for PE in a multicenter study.
The first aim i s to disseminate the PE e-form to 10 US EDs.
The second aim i s to prospectively collect PE e-forms on a consecutive or random sample of 5000 patients evaluated for PE in the 10 EDs, and to complete 45-day follow-up on all patients.
The third aim i s to perform statistical analysis on the database using classification and regression tree analysis to determine the appropriate clinical attributes to use in the commercial product. BreathQuant Medical Systems will use the database to produce its second product, the PE PREtest ConsultTM to help physicians estimate a tailor-made pretest probability of PE. In phase III, we will test the validity of the PE PREtest Consult TM and determine if the use of the PE PREtest ConsultTM will decrease unnecessary testing for PE.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Small Business Technology Transfer (STTR) Grants - Phase II (R42)
Project #
5R42HL074415-03
Application #
6950354
Study Section
Special Emphasis Panel (ZRG1-RES-E (10))
Program Officer
Denholm, Elizabeth M
Project Start
2003-03-17
Project End
2008-08-31
Budget Start
2005-09-01
Budget End
2008-08-31
Support Year
3
Fiscal Year
2005
Total Cost
$536,828
Indirect Cost

  Institution

Name
Breathquant Medical Systems, Inc.
Department
Type
DUNS #
126673511
City
Charlotte
State
NC
Country
United States
Zip Code
28207

  Publications

Shopp, Jacob D; Stewart, Lauren K; Emmett, Thomas W et al. (2015) Findings From 12-lead Electrocardiography That Predict Circulatory Shock From Pulmonary Embolism: Systematic Review and Meta-analysis. Acad Emerg Med 22:1127-37
Russell, Frances M; Moore, Christopher L; Courtney, D Mark et al. (2015) Independent evaluation of a simple clinical prediction rule to identify right ventricular dysfunction in patients with shortness of breath. Am J Emerg Med 33:542-7
Self, Wesley H; Courtney, D Mark; McNaughton, Candace D et al. (2013) High discordance of chest x-ray and computed tomography for detection of pulmonary opacities in ED patients: implications for diagnosing pneumonia. Am J Emerg Med 31:401-5
Mitchell, Alice M; Jones, Alan E; Tumlin, James A et al. (2012) Prospective study of the incidence of contrast-induced nephropathy among patients evaluated for pulmonary embolism by contrast-enhanced computed tomography. Acad Emerg Med 19:618-25
Kline, Jeffrey A; Roy, Pierre-Marie; Than, Martin P et al. (2012) Derivation and validation of a multivariate model to predict mortality from pulmonary embolism with cancer: The POMPE-C tool. Thromb Res 129:e194-9
Kline, Jeffrey A; Marchick, Michael R; Kabrhel, Christopher et al. (2012) Prospective study of the frequency and outcomes of patients with suspected pulmonary embolism administered heparin prior to confirmatory imaging. Thromb Res 129:e25-8
Venkatesh, Arjun K; Kline, Jeffrey A; Courtney, D Mark et al. (2012) Evaluation of pulmonary embolism in the emergency department and consistency with a national quality measure: quantifying the opportunity for improvement. Arch Intern Med 172:1028-32
Kabrhel, Christopher; Mark Courtney, D; Camargo Jr, Carlos A et al. (2010) Factors associated with positive D-dimer results in patients evaluated for pulmonary embolism. Acad Emerg Med 17:589-97
Marchick, Michael R; Courtney, D Mark; Kabrhel, Christopher et al. (2010) 12-lead ECG findings of pulmonary hypertension occur more frequently in emergency department patients with pulmonary embolism than in patients without pulmonary embolism. Ann Emerg Med 55:331-5
Kline, Jeffrey A; Walthall, Jennifer D H (2010) Patient Protection and Affordable Care Act of 2010: summary, analysis, and opportunities for advocacy for the academic emergency physician. Acad Emerg Med 17:e69-74

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