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Travis Whitfill, MPH, MACE, MPhil

Assistant Professor Adjunct in Pediatrics (Emergency Medicine)
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Assistant Professor Adjunct in Pediatrics (Emergency Medicine)

Biography

Travis Whitfill is an Assistant Professor Adjunct in the Departments of Pediatrics and Emergency Medicine. His background began in molecular biology and biochemistry, after receiving scientific training at the MD Anderson Cancer Center and Duke University. He is the co-founder of several additional startup companies, including a Connecticut-based microbiome company, Azitra Inc.

His academic work has focused on measuring and improving pediatric emergency care. He worked extensively to use a combination of large data sets, simulation-based research methodologies, and survey-based instruments to measure pediatric care in Emergency Departments. His work has shown major gaps in pediatric care across various Emergency Departments, and he has been part of several teams involved in large-scale efforts to improve those gaps. This work has measured over 200 EDs internationally. Additionally, he has worked with others to improve pediatric disaster preparedness and to demonstrate the utility of telemedicine in the context of pediatric disaster training as well as neonatal resuscitations.


Departments & Organizations

Education & Training

PhD
UCL, Innovation and Public Policy
MPhil
UCL, Innovation and Public Policy (2020)
MPH
Yale University (2014)
BS
Dallas Baptist University, Biology, Mathematics (2010)

Research

Overview

Assessing pediatric emergency care

A key goal of my research is measuring the quality of pediatric emergency care. One of my key contributions to the literature was an epidemiologic study of 318 million pediatric Emergency Department (ED) visits from 2006 to 2014. The study found major gaps in mortality in low pediatric volume EDs compared to high pediatric volume EDs. Importantly, these observations in poorer mortality and other measures in low volume EDs have been the focus of further work to close the gap between high and low pediatric volume EDs.

Another key contribution of my work has been around the pediatric readiness survey (PRS) as a measurement tool for pediatric readiness. We recently published a study in Pediatric Critical Care Medicine that described the association of the PRS and with patient outcomes in a prospective, countrywide study that was conducted in Latvia. This study adds critical evidence around the utility of the PRS as a measurement tool for pediatric emergency care.


Interventions, tools and policies to improve pediatric emergency care

My primary research interest uses technology and innovative techniques to improve the quality of pediatric care. The research interest relies on the use of simulation as a research methodology. I have developed analytical techniques to use simulation-based assessments to describe differences in care across a large spectrum of Emergency Departments (EDs). As an example of this, I am well known in the field of pediatric emergency medicine for the use of radar plots to display multiple measures of pediatric care across many hospitals. I have been central in a large ~200-center study examining differences in care across EDs across the United States to measure and compare—and improve—the quality of care in acutely ill pediatric patients.

We’ve measured significant improvements in pediatric readiness in EDs around the country. I recently finished an analysis of a dataset of 36 EDs across the US where we used a simulation-based intervention to improve pediatric readiness, and we saw a 16-point improvement in the 36 EDs (p<0.001).

Disaster medicine

One of my key interests is in disaster preparedness for pediatrics and using novel tools to improve pediatric disaster triage preparedness. We have published a series of papers on a videogame-based pediatric disaster triage training tool, 60 Seconds to Survival. We have shown that this videogame-based approach is able to improve disaster triage skills in EMS personnel. Additionally, I performed cost-effectiveness analyses to show that this tool was more cost-effective at improving pediatric disaster triage skills compared to a traditional, live simulation. This videogame-based approach can be easily scaled up to train remote health systems pediatric disaster triage (e.g., COVID19-related disasters).

Telemedicine and Technology for Improvement of Pediatric Care

Finally, I have collaborated on a series of studies on exploring modes of telemedicine to improve the delivery of pediatric care in several different settings. We have demonstrated the benefit of telemedicine in improving neonatal resuscitation in the ED (in a simulated setting) and have studied the nuances of telemedicine delivery. Additionally, we have used telesimulations between Yale at Latvia to train a local instructor in the country to conduct simulations locally.

Medical Research Interests

Data Collection; Data Display; Delivery of Health Care; Organizational Innovation; Pediatrics; Quality Improvement; Quality of Health Care

Public Health Interests

Community Engagement

Research at a Glance

Yale Co-Authors

Frequent collaborators of Travis Whitfill's published research.

Publications

2024

Academic Achievements & Community Involvement

  • honor

    1st Place, Research Presentation

  • honor

    Distinguished Alumnus Award

  • honor

    Forbes 30 Under 30 (Healthcare)

  • honor

    IMSH/SAEM top ten papers of 2016

  • honor

    SCCM top paper award

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Contacts

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