TY - JOUR
T1 - Assessing the Training in Neurosurgery with the Implementation of VITOM-3D Exoscope: Learning Curve on Experimental Model in Neurosurgical Practice
AU - Giammalva, Giuseppe Roberto
AU - Paolini, Federica
AU - Meccio, Flavia
AU - Giovannini, Evier Andrea
AU - Provenzano, Alessandra
AU - Bonosi, Lapo
AU - Brunasso, Lara
AU - Costanzo, Roberta
AU - Gerardi, Rosa Maria
AU - Di Bonaventura, Rina
AU - Signorelli, Francesco
AU - Albanese, Alessio
AU - Iacopino, Domenico Gerardo
AU - Maugeri, Rosario
AU - Visocchi, Massimiliano
PY - 2023
Y1 - 2023
N2 - (1) Background: Innovation and continuous demand in the field of visual enhancing technologies and video streaming have led to the discovery of new systems capable of improving visualization and illumination of the surgical field. The exoscope was brought into neurosurgical routine, and nearly ten years later, modern 3D systems have been introduced and tested, giving encouraging results. (2) Methods: In order to evaluate the surgeon's confidence with the exoscope and their increasing ability in terms of time spent and quality of the final achievement since their first encounter with the technique, an experimental trial on 18 neurosurgeons from a single Institution was performed to evaluate the learning curve for the use of the VITOM-3D exoscope in neurosurgical practice on a model of brain and dura mater. (3) Results: A significant improvement in the quality of the performance, number of errors made, and reduction in the time was found after the third iteration of the task, by when almost all the participants felt more comfortable and confident. No significant differences between senior neurosurgeons and resident neurosurgeons were reported. (4) Conclusions: Our results show that three iterations are enough to gain confidence with the exoscope from its first use, regardless of previous experience and training with an operating microscope.
AB - (1) Background: Innovation and continuous demand in the field of visual enhancing technologies and video streaming have led to the discovery of new systems capable of improving visualization and illumination of the surgical field. The exoscope was brought into neurosurgical routine, and nearly ten years later, modern 3D systems have been introduced and tested, giving encouraging results. (2) Methods: In order to evaluate the surgeon's confidence with the exoscope and their increasing ability in terms of time spent and quality of the final achievement since their first encounter with the technique, an experimental trial on 18 neurosurgeons from a single Institution was performed to evaluate the learning curve for the use of the VITOM-3D exoscope in neurosurgical practice on a model of brain and dura mater. (3) Results: A significant improvement in the quality of the performance, number of errors made, and reduction in the time was found after the third iteration of the task, by when almost all the participants felt more comfortable and confident. No significant differences between senior neurosurgeons and resident neurosurgeons were reported. (4) Conclusions: Our results show that three iterations are enough to gain confidence with the exoscope from its first use, regardless of previous experience and training with an operating microscope.
KW - VITOM
KW - exoscope
KW - learning curve
KW - neurosurgery
KW - neurosurgical practice
KW - operating microscope
KW - training
KW - VITOM
KW - exoscope
KW - learning curve
KW - neurosurgery
KW - neurosurgical practice
KW - operating microscope
KW - training
UR - http://hdl.handle.net/10807/274596
U2 - 10.3390/brainsci13101409
DO - 10.3390/brainsci13101409
M3 - Article
SN - 2076-3425
VL - 13
SP - N/A-N/A
JO - Brain Sciences
JF - Brain Sciences
ER -