Beyin Ak Madde Yollarının 3D Modelleri, Artırılmış Gerçeklik ve Sanal Gerçeklik Simulasyonları ile Oluşturulan Temel Nöroanatomi Eğitim Modeli Uygulaması
Göster/ Aç
Tarih
2023Yazar
Gürses, Muhammet Enes
Ambargo Süresi
Acik erisimÜst veri
Tüm öğe kaydını gösterÖzet
Gurses, M.E., Basic Neuroanatomy Training Model Application Created with 3D
Models of Brain White Matter Pathways, Augmented Reality and Virtual Reality
Simulations, Hacettepe University Department of Neurosurgery, Ankara, 2023.
Objective: The creation of an online and mobile basic neuroanatomy training application,
which is planned to teach the three-dimensional relations of the structures of the brain with each
other from 3D models of the gradually revealed dissections of cadaveric human brains, and its
application to medical school students and neurosurgery residents.
Method: Training was given with a total of 49 three-dimensional models, including 14 lateral
faces, 8 medial faces, 11 cross-sectional axial, 9 sectional sagittal, and 7 sectional coronal. The
training model created was applied online to 40 neurosurgery assistants, whose cadaveric
training was disrupted during the Covid-19 pandemic and earthquake disaster, and to 200
medical school students via the augmented reality application. In order to determine the level of
pre-training and to determine the level of realization of the learning objectives after the training,
a personalized 10-question exam was held. After the training, a 4-point Likert-type scaled
questionnaire with 18 questions was applied regarding the training content.
Results: In the gradual white matter fiber dissection study; Superior Longitudinal
Fascicle/Arcuate Fascicle Complex (SLF/AF), Middle Longitudinal Fascicle (OLF), Frontooccipital Fascicle (IFOF), Uncinate fasciculus, Extreme capsule, External capsule, Putamen,
Globus pallidus, Claustrum, Internal capsule, Caudate, Thalamus, Tapetum, Optic tract, Insula,
Operculum, Corona radiate, Sagittal stratum, Ventricular ependyma, Thalamus, Singular gyrus,
Fornix, Choroid plexus, Forceps major, Anterior commissure, Corpus callosum, Choroid plexus,
Callosal fibers and freely rotated brain sections in different planes and 3D models compatible
with augmented reality and virtual reality that can be moved and viewed from different angles
with various magnifications. 200 medical school students and 40 assistants used the training
model created. This training model was rated by 200 medical students and 40 residents as
significantly increasing neuroanatomy learning.
Conclusion: The benefits of using cadaver studies and 3D models in basic neurosurgery and
neuroanatomy training have been proven. In the literature review, it has been determined that no
vi
online and mobile application of 3D models has been transformed into a gradual training
program. The 3D models of the brain created as a result of the study were brought to Hacettepe
University Faculty of Medicine of education programs and literature for use in basic
neuroanatomy and neurosurgery education in centers and times where cadaver access is limited
(earthquake, epidemic, etc.).