Jorge Documet1, Anh Le, Brent Liu, John Chiu, H K Huang. 1. IPILab, Department of Radiology, Keck School of Medicine, University of Southern California, 1450 San Pablo Street, Suite DEI 2100, Los Angeles, CA 90033, USA. documet@usc.edu
Abstract
PURPOSE: This paper presents the concept of bridging the gap between diagnostic images and image-assisted surgical treatment through the development of a one-stop multimedia electronic patient record (ePR) system that manages and distributes the real-time multimodality imaging and informatics data that assists the surgeon during all clinical phases of the operation from planning Intra-Op to post-care follow-up. We present the concept of this multimedia ePR for surgery by first focusing on image-assisted minimally invasive spinal surgery as a clinical application. METHODS: Three clinical phases of minimally invasive spinal surgery workflow in Pre-Op, Intra-Op, and Post-Op are discussed. The ePR architecture was developed based on the three-phased workflow, which includes the Pre-Op, Intra-Op, and Post-Op modules and four components comprising of the input integration unit, fault-tolerant gateway server, fault-tolerant ePR server, and the visualization and display. A prototype was built and deployed to a minimally invasive spinal surgery clinical site with user training and support for daily use. SUMMARY: A step-by-step approach was introduced to develop a multimedia ePR system for imaging-assisted minimally invasive spinal surgery that includes images, clinical forms, waveforms, and textual data for planning the surgery, two real-time imaging techniques (digital fluoroscopic, DF) and endoscope video images (Endo), and more than half a dozen live vital signs of the patient during surgery. Clinical implementation experiences and challenges were also discussed.
PURPOSE: This paper presents the concept of bridging the gap between diagnostic images and image-assisted surgical treatment through the development of a one-stop multimedia electronic patient record (ePR) system that manages and distributes the real-time multimodality imaging and informatics data that assists the surgeon during all clinical phases of the operation from planning Intra-Op to post-care follow-up. We present the concept of this multimedia ePR for surgery by first focusing on image-assisted minimally invasive spinal surgery as a clinical application. METHODS: Three clinical phases of minimally invasive spinal surgery workflow in Pre-Op, Intra-Op, and Post-Op are discussed. The ePR architecture was developed based on the three-phased workflow, which includes the Pre-Op, Intra-Op, and Post-Op modules and four components comprising of the input integration unit, fault-tolerant gateway server, fault-tolerant ePR server, and the visualization and display. A prototype was built and deployed to a minimally invasive spinal surgery clinical site with user training and support for daily use. SUMMARY: A step-by-step approach was introduced to develop a multimedia ePR system for imaging-assisted minimally invasive spinal surgery that includes images, clinical forms, waveforms, and textual data for planning the surgery, two real-time imaging techniques (digital fluoroscopic, DF) and endoscope video images (Endo), and more than half a dozen live vital signs of the patient during surgery. Clinical implementation experiences and challenges were also discussed.
Authors: H K Huang; Ruchi Deshpande; Jorge Documet; Anh H Le; Jasper Lee; Kevin Ma; Brent J Liu Journal: Int J Comput Assist Radiol Surg Date: 2013-09-14 Impact factor: 2.924
Authors: Jens Meier; Andreas Boehm; Anne Kielhorn; Andreas Dietz; Stefan Bohn; Thomas Neumuth Journal: Int J Comput Assist Radiol Surg Date: 2014-02-27 Impact factor: 2.924
Authors: Kevin C Ma; James R Fernandez; Lilyana Amezcua; Alex Lerner; Mark S Shiroishi; Brent J Liu Journal: Comput Med Imaging Graph Date: 2015-10-23 Impact factor: 4.790