Organs in Color: Utilizing Free Software and Emerging Multi Jet Fusion Technology to Color and Surface Label 3D-Printed Anatomical Models.

3D printing (3DP) is a rapidly evolving innovative technology that has already been utilized for the development of educational anatomic models. Until recently, it was difficult and tedious to create multi-colored models and especially labels due to technological constraints. In this technical note, a comprehensive guide for creating labeled and color-coded anatomic models was created using free software, Blender. We have composed a step-by-step process for taking an existing 3D model and adding labeling and color that is compatible with modern high-quality 3D printing technologies (Multi Jet Fusion). We provided colored and labeled 3D renderings of the surface anatomy of the brain, ventricular system of the brain, the segments of the liver, and coronary arteries as examples of the diverse potential of this technology. Additionally, we 3D printed actual models of the surface anatomy of the brain and ventricles of the brain using HP Multi Jet Fusion to demonstrate the potential of this technology in the creation of anatomic models.

The Effect of a Microlearning Module on Knowledge Acquisition in Surgery Clerkship Students.

OBJECTIVE: Microlearning has been found to be beneficial in other areas of healthcare education. The purpose of this study was to investigate the effect of a microlearning module compared to a traditional online learning module in undergraduate medical education. DESIGN: A microlearning module was developed to cover the etiology and management of gallbladder disease. Surgery clerkship students were randomized into 2 groups. One group began with the microlearning module (MLM). The second group began with a 45 minute commercially available module centered on gallbladder disease (WISE-MD™). Halfway through the clerkship, the groups crossed over to the other learning intervention. Student knowledge was assessed with a test at three time points (pre-test, post-test1, post-test2). SETTING AND PARTICIPANTS: Third year surgery clerkship students at George Washington University. RESULTS: There were 56 students in the MLM and 57 in WISE-MDTM groups. In the MLM group, mean scores significantly increased from pre-test to post-test1 and pre-test to post-test2, but significantly decreased from post-test1 to post-test2. In the WISE-MD™ group, mean scores significantly increased from pre-test to post-test1 and pre-test to post-test2, with no significant change from post-test1 to post-test2. After the initial intervention, test scores of post-test1 of the MLM group were significantly higher than the WISE-MD™ group, while there were no significant differences between groups at the pre-test or post-test2 time points. CONCLUSIONS: Students exposed to the microlearning module first performed significantly better on a post intervention test than students that used a commercially available product in our standard curriculum. Therefore, the use of microlearning modules may lead to improved knowledge acquisition in surgery clerkship students.