TY - JOUR
T1 - A novel virtual reality simulation for hemostasis in a brain surgical cavity
T2 - Perceived utility for visuomotor skills in current and aspiring neurosurgery residents
AU - Gasco, Jaime
AU - Patel, Achal
AU - Luciano, Cristian
AU - Holbrook, Thomas
AU - Ortega-Barnett, Juan
AU - Kuo, Yong Fang
AU - Rizzi, Silvio
AU - Kania, Patrick
AU - Banerjee, Pat
AU - Roitberg, Ben Z.
PY - 2013/12
Y1 - 2013/12
N2 - Objective To understand the perceived utility of a novel simulator to improve operative skill, eye-hand coordination, and depth perception. Methods We used the ImmersiveTouch simulation platform (ImmersiveTouch, Inc., Chicago, Illinois, USA) in two U.S. Accreditation Council for Graduate Medical Education-accredited neurosurgical training programs: the University of Chicago and the University of Texas Medical Branch. A total of 54 trainees participated in the study, which consisted of 14 residents (group A), 20 senior medical students who were neurosurgery candidates (group B), and 20 junior medical students (group C). The participants performed a simulation task that established bipolar hemostasis in a virtual brain cavity and provided qualitative feedback regarding perceived benefits in eye-hand coordination, depth perception, and potential to assist in improving operating skills. Results The perceived ability of the simulator to positively influence skills judged by the three groups: group A, residents; group B, senior medical students; and group C, junior medical students was, respectively, 86%, 100%, and 100% for eye-hand coordination; 86%, 100%, and 95% for depth perception; and 79%, 100%, and 100% for surgical skills in the operating room. From all groups, 96.2% found the simulation somewhat or very useful to improve eye-hand coordination, and 94% considered it beneficial to improve depth perception and operating room skills. Conclusion This simulation module may be suitable for resident training, as well as for the development of career interest and skill acquisition; however, validation for this type of simulation needs to be further developed.
AB - Objective To understand the perceived utility of a novel simulator to improve operative skill, eye-hand coordination, and depth perception. Methods We used the ImmersiveTouch simulation platform (ImmersiveTouch, Inc., Chicago, Illinois, USA) in two U.S. Accreditation Council for Graduate Medical Education-accredited neurosurgical training programs: the University of Chicago and the University of Texas Medical Branch. A total of 54 trainees participated in the study, which consisted of 14 residents (group A), 20 senior medical students who were neurosurgery candidates (group B), and 20 junior medical students (group C). The participants performed a simulation task that established bipolar hemostasis in a virtual brain cavity and provided qualitative feedback regarding perceived benefits in eye-hand coordination, depth perception, and potential to assist in improving operating skills. Results The perceived ability of the simulator to positively influence skills judged by the three groups: group A, residents; group B, senior medical students; and group C, junior medical students was, respectively, 86%, 100%, and 100% for eye-hand coordination; 86%, 100%, and 95% for depth perception; and 79%, 100%, and 100% for surgical skills in the operating room. From all groups, 96.2% found the simulation somewhat or very useful to improve eye-hand coordination, and 94% considered it beneficial to improve depth perception and operating room skills. Conclusion This simulation module may be suitable for resident training, as well as for the development of career interest and skill acquisition; however, validation for this type of simulation needs to be further developed.
KW - Bipolar
KW - Depth perception
KW - Eye-hand coordination
KW - Hemostasis
KW - Neurosurgery
KW - Simulation
UR - http://www.scopus.com/inward/record.url?scp=84889661348&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84889661348&partnerID=8YFLogxK
U2 - 10.1016/j.wneu.2013.09.040
DO - 10.1016/j.wneu.2013.09.040
M3 - Article
C2 - 24076054
AN - SCOPUS:84889661348
SN - 1878-8750
VL - 80
SP - 732
EP - 737
JO - World Neurosurgery
JF - World Neurosurgery
IS - 6
ER -