Central venous catheterization (CVC) is a medical procedure performed over five million times a year in the U.S., which allows doctors to deliver medication, nutrition, and take measurements not possible through noninvasive means. During this procedure, a catheter is inserted through the skin into the internal jugular vein (IJ), subclavian vein, or femoral vein with the tip placed near the heart. Unfortunately, some CVC patients experience adverse effects, including pneumothorax, hematoma, hemothorax, accidental arterial puncture, and thrombosis [1]. Currently, medical residents are trained in CVC using mannequin patient simulators, and the concept of “see one, do many, do one competently, and teach everyone” is wide spread [2]. Virtual reality simulators like the Mediseus Epidural simulator have shown great potential as medical training tools by allowing the unique possibility of exposing trainees to a much wider variety of medical scenarios than static patient simulators [3]....
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September 2016
Technical Briefs
A Virtual Reality Haptic Robotic Simulator for Central Venous Catheterization Training1
David Pepley,
David Pepley
Department of Mechanical and Nuclear Engineering,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
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Mary Yovanoff,
Mary Yovanoff
Department of Industrial Engineering,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
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Katelin Mirkin,
Katelin Mirkin
Hershey Medical Center,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
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Scarlett Miller,
Scarlett Miller
Department of Engineering
Design and Industrial Engineering,
The Pennsylvania State University,
State College, PA 16801
Design and Industrial Engineering,
The Pennsylvania State University,
State College, PA 16801
Search for other works by this author on:
David Han,
David Han
Hershey Medical Center,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
Search for other works by this author on:
Jason Moore
Jason Moore
Department of Mechanical and Nuclear Engineering,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
Search for other works by this author on:
David Pepley
Department of Mechanical and Nuclear Engineering,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
Mary Yovanoff
Department of Industrial Engineering,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
Katelin Mirkin
Hershey Medical Center,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
Scarlett Miller
Department of Engineering
Design and Industrial Engineering,
The Pennsylvania State University,
State College, PA 16801
Design and Industrial Engineering,
The Pennsylvania State University,
State College, PA 16801
David Han
Hershey Medical Center,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
Jason Moore
Department of Mechanical and Nuclear Engineering,
The Pennsylvania State University,
State College, PA 16801
The Pennsylvania State University,
State College, PA 16801
DOI: 10.1115/1.4033867
Manuscript received March 1, 2016; final manuscript received March 17, 2016; published online August 1, 2016. Editor: William Durfee.
J. Med. Devices. Sep 2016, 10(3): 030937 (2 pages)
Published Online: August 1, 2016
Article history
Received:
March 1, 2016
Revised:
March 17, 2016
Citation
Pepley, D., Yovanoff, M., Mirkin, K., Miller, S., Han, D., and Moore, J. (August 1, 2016). "A Virtual Reality Haptic Robotic Simulator for Central Venous Catheterization Training." ASME. J. Med. Devices. September 2016; 10(3): 030937. https://doi.org/10.1115/1.4033867
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