Bio

Clinical Focus


  • Abdominal Imaging
  • Diagnostic Radiology

Academic Appointments


  • Clinical Assistant Professor, Radiology

Administrative Appointments


  • Assistant Director, Body Imaging Fellowship (2018 - Present)

Honors & Awards


  • Chief Resident, Department of Radiology, University of Illinois Hospital & Health Sciences System (2016-2017)
  • Chief Fellow, Body Imaging Division, Department of Radiology, Stanford University (2017-2018)

Professional Education


  • Fellowship: Stanford University Radiology Fellowships (2018) CA
  • Board Certification: American Board of Radiology, Diagnostic Radiology (2018)
  • Fellowship, Stanford University School of Medicine, Body Imaging (2018)
  • Residency: University of Illinois Hospital and Health Sciences System (UIC) (2017) IL
  • Internship: Louis A Weiss Memorial Hospital (2013) IL
  • Medical Education: University of Illinois at Chicago College of Medicine (2012) IL

Publications

All Publications


  • Human-machine partnership with artificial intelligence for chest radiograph diagnosis. NPJ digital medicine Patel, B. N., Rosenberg, L., Willcox, G., Baltaxe, D., Lyons, M., Irvin, J., Rajpurkar, P., Amrhein, T., Gupta, R., Halabi, S., Langlotz, C., Lo, E., Mammarappallil, J., Mariano, A. J., Riley, G., Seekins, J., Shen, L., Zucker, E., Lungren, M. 2019; 2: 111

    Abstract

    Human-in-the-loop (HITL) AI may enable an ideal symbiosis of human experts and AI models, harnessing the advantages of both while at the same time overcoming their respective limitations. The purpose of this study was to investigate a novel collective intelligence technology designed to amplify the diagnostic accuracy of networked human groups by forming real-time systems modeled on biological swarms. Using small groups of radiologists, the swarm-based technology was applied to the diagnosis of pneumonia on chest radiographs and compared against human experts alone, as well as two state-of-the-art deep learning AI models. Our work demonstrates that both the swarm-based technology and deep-learning technology achieved superior diagnostic accuracy than the human experts alone. Our work further demonstrates that when used in combination, the swarm-based technology and deep-learning technology outperformed either method alone. The superior diagnostic accuracy of the combined HITL AI solution compared to radiologists and AI alone has broad implications for the surging clinical AI deployment and implementation strategies in future practice.

    View details for DOI 10.1038/s41746-019-0189-7

    View details for PubMedID 31754637

    View details for PubMedCentralID PMC6861262

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