A Novel Three-Dimensional Tool for Teaching Human Neuroanatomy

被引:142
作者
Estevez, Maureen E. [1 ,2 ]
Lindgren, Kristen A. [2 ]
Bergethon, Peter R. [2 ,3 ]
机构
[1] Brown Univ, Dept Neurosci, Providence, RI 02912 USA
[2] Boston Univ, Sch Med, Dept Anat & Neurobiol, Boston, MA 02118 USA
[3] Boston Univ, Neurosci Interdisciplinary Modeling & Simulat Ctr, Boston, MA 02118 USA
关键词
anatomical sciences; medical education; gross anatomy; neurosciences; anatomy teaching; neuroscience/neuroanatomy teaching; three-dimensional visualization; VIRTUAL-REALITY; MEDICAL-EDUCATION; SPATIAL ABILITIES; MENTAL ROTATION; HAPTIC FEEDBACK; ANATOMY; STUDENTS; MODELS; DISSECTION; CURRICULUM;
D O I
10.1002/ase.186
中图分类号
G40 [教育学];
学科分类号
040101 ; 120403 ;
摘要
Three-dimensional (3D) visualization of neuroanatomy can be challenging for medical students. This knowledge is essential in order for students to correlate cross-sectional neuroanatomy and whole brain specimens within neuroscience curricula and to interpret clinical and radiological information as clinicians or researchers. This study implemented and evaluated a new tool for teaching 3D neuroanatomy to first-year medical students at Boston University School of Medicine. Students were randomized into experimental and control classrooms. All students were taught neuroanatomy according to traditional 2D methods. Then, during laboratory review, the experimental group constructed 3D color-coded physical models of the periventricular structures, while the control group re-examined 2D brain cross-sections. At the end of the course, 2D and 3D spatial relationships of the brain and preferred learning styles were assessed in both groups. The overall quiz scores for the experimental group were significantly higher than the control group (t(85) = 2.02, P < 0.05). However, when the questions were divided into those requiring either 2D or 3D visualization, only the scores for the 3D questions were significantly higher in the experimental group (F(1,855) = 5.48, P = 0.02). When surveyed, 84% of students recommended repeating the 3D activity for future laboratories, and this preference was equally distributed across preferred learning styles (chi(2) = 0.14, n.s.). Our results suggest that our 3D physical modeling activity is an effective method for teaching spatial relationships of brain anatomy and will better prepare students for visualization of 3D neuroanatomy, a skill essential for higher education in neuroscience, neurology, and neurosurgery. Anat Sci Educ 3:309-317. (C) 2010 American Association of Anatomists.
引用
收藏
页码:309 / 317
页数:9
相关论文
共 55 条
[1]   How Much Anatomy Is Enough? [J].
Bergman, Esther M. ;
Prince, Katinka J. A. H. ;
Drukker, Jan ;
van der Vleuten, Cees P. M. ;
Scherpbier, Albert J. J. A. .
ANATOMICAL SCIENCES EDUCATION, 2008, 1 (04) :184-188
[2]   American medical education 100 years after the Flexner report [J].
Cooke, Molly ;
Irby, David M. ;
Sullivan, William ;
Ludmerer, Kenneth M. .
NEW ENGLAND JOURNAL OF MEDICINE, 2006, 355 (13) :1339-1344
[3]  
Cottam WW, 1999, CLIN ANAT, V12, P55, DOI 10.1002/(SICI)1098-2353(1999)12:1<55::AID-CA8>3.0.CO
[4]  
2-O
[5]  
DALGARNO B, 2003, P 20 ANN C AUSTR SOC, P142
[6]  
Dalgarno B., 2002, The contribution of 3D environments to conceptual understanding, P1
[7]  
Drake R L, 1999, Kaibogaku Zasshi, V74, P487
[8]   Medical Education in the Anatomical Sciences: The Winds of Change Continue to Blow [J].
Drake, Richard L. ;
McBride, Jennifer M. ;
Lachman, Nirusha ;
Pawlina, Wojciech .
ANATOMICAL SCIENCES EDUCATION, 2009, 2 (06) :253-259
[9]  
Fleming ND., 1995, 1995 ANN C HIGHER ED, P308
[10]  
Fleming Neil., 2010, VARK GUIDE LEARNING