Background and Objective: Lockdowns due to COVID-19 pandemic led to a shift to online learning in the University of the Philippines-College of Medicine. The study of gross anatomy is difficult in itself but was compounded by the lack of cadaveric dissection. To bridge this learning gap, medical students had a limited face-to-face activity with cadaveric prosection. As a supplement, dissection videos on gastrointestinal anatomy were viewed prior to the activity. This study aimed to determine the perceptions and experiences of students on the use of dissection videos. Methods: We described the perceptions of students on the dissection videos based on their evaluation form responses after rotating in the OS 206 course module on gastrointestinal anatomy. A 5-item evaluation form was rated using a 4-point Likert scale. Categorical variables were described by frequency and percentages using Microsoft Excel. Results: A large majority (97% to 99%) strongly agreed that the videos were easy to access and had good audio-video quality. Around 68%-70% strongly agreed that the videos enhanced their understanding and made their learning experience pleasant and enjoyable. Around 70% would recommend the videos to fellow students. Only a few (<3%) had negative perceptions on the videos. Conclusion Dissection videos on gastrointestinal anatomy prior to cadaveric prosection laboratory sessions were perceived by medical students as accessible, good quality, and helpful aids in the study of gross anatomy.
Anatomy ; Students, Medical

BACKGROUND AND OBJECTIVE

Anatomical education utilizes mainly cadaver dissection, but it also depends on innovations such as novel preservation techniques, simulation models, and virtual dissection apps. There is no review on anatomical patents. This study aimed to review the worldwide landscape of existing patents on anatomical education to identify gaps and opportunities for utilization and further innovations.

METHODS

We conducted a scoping review for inventions, utility models, and industrial design applications on anatomical education. We searched the following databases as of December 31, 2022 (WIPO Patentscope, Espacenet, and Derwent). We deduplicated the records, screened them for eligibility, and extracted information on characteristics of the patent application and applicant. We computed frequency and percentage according to country, type of applicant, number of inventors, type of patent, scope of patent, purpose of patent, organ system, status of patent, and time to patent granting.

RESULTS

Out of 667 merged records from the initial search, we removed 312 duplicates, excluded 97 records, and included 258 reports in the review. The median number of patent applications per year was 58 (range, 32, 61). Majority of the applications were from China and USA (36.0 and 34.9%, respectively), national in scope (62.8%), industry as applicant (49.6%), inventions (77.5%), usable beyond anatomy (70.9%), physical models (53.1%) and with pending status (63.6%). The median time to granting for 65 patents was 316 days (range, 40 to 1568).

CONCLUSION

For the period 2018-2022, there were 258 patent applications related to anatomical education, both as a basic science and in clinical applications, were mostly inventions, applied for by industry, contributed by US and China, only national in scope, physical 3D models (mostly musculoskeletal, head/neck and sensory organs, and whole body), and usable beyond basic anatomy. The majority of patent applications are still pending with only 65 granted patents. Plastinated specimens, and the urinary, reproductive, and pulmonary organ system models were least represented.

Intellectual Property ; Patent ; Inventions ; Review ; Anatomy ; Education ; Training

Background and Objective: The pandemic acted as an accelerator for the development of online teaching formats in anatomy and histology worldwide. The authors introduce a bridging program that reinforces the knowledge and understanding of gross and correlative anatomy and histology acquired in a virtual environment in preparation for its future clinical application. The study aims to evaluate the Learning Enhancement in Anatomy Program (LEAP) conducted among first-year medical students at the College of Medicine, University of the Philippines Manila. Methods: This descriptive cross-sectional study aims to determine the initial experience of implementing a learning enhancement program and assess areas for its improvement. An internally validated questionnaire was given to students after the program to gauge students’ reactions (Kirkpatrick Level 1 evaluation). Pre- and post-tests were administered to evaluate knowledge acquisition (Kirkpatrick Level 2 evaluation). Short-term behavioral peer evaluation (Kirkpatrick Level 3 evaluation) was also instituted. Results: One hundred fifty-two (152) students participated in the study. General reactions from students to the LEAP were consistently positive, with a steady majority of the students rating ‘5’ or a ‘Strongly Agree’ to positive statements regarding the program. Higher ratings for more traditional teaching methods, such as cadavers, formalinized specimens, and bones, compared to virtual systems were apparent. However, inter-student variation in preference for teaching modalities was observed. All stations of the LEAP were evaluated satisfactorily, with most gross anatomy stations rated higher than histology stations. A significant increase was noted in the total post-test scores compared to pre-test scores. This improvement in test scores was observed in the anatomy and histology subcategories and in six of the seven organ system modules. Perceived behavioral outcomes were also generally positive. Conclusion The LEAP is a worthwhile endeavor, garnering overwhelmingly positive reactions and a significant improvement in test scores. Future studies are necessary to fine-tune teaching and training in a blended learning environment.
Anatomy ; COVID-19 ; Education, Medical ; Program Evaluation