Evaluating a Photogrammetry-Based Video for Undergraduate Anatomy Education.

Modern anatomy education has benefitted from the development of a wide range of digital 3D resources in the past decades, but the impact of the COVID-19 pandemic has sparked an additional demand for high-quality online learning resources. Photogrammetry provides a low-cost technique for departments to create their own photo-realistic 3D models of cadaveric specimens. However, to ensure accessibility, the design of the resulting learning resources should be carefully considered. We aimed to address this by creating a video based on a photogrammetry model of a cadaveric human lung. Students evaluated three different versions of this video in a Likert-type online survey. Most responding students found this type of video useful for their learning and helpful for the identification of anatomical structures in real cadaveric specimens. Respondents also showed a preference for specific design features such as a short video length, white text on black background, and the presence of captions. The positive student feedback is promising for the future development of photogrammetry-based videos for anatomy education and this study has provided pilot data to improve the accessibility of such videos.

Anatomical knowledge retention in Obstetrics and Gynaecology residents and impact of an e-learning tool.

PURPOSE: Anatomical knowledge of medical students and residents is insufficient and further anatomical sciences throughout medical curriculum may be necessary. The first aim of this study was to assess pelvic and perineal anatomical knowledge retention of Obstetrics and Gynaecology (Ob/Gyn) residents. The second was to assess the impact of an e-learning tool on anatomical knowledge. METHODS: A survey was sent by mail to medical students and Ob/Gyn residents. After completion, Ob/Gyn residents were randomised to "e-learning" group or to "Control" group. "E-learning" group had an unlimited access to a tool about female pelvic and perineum anatomy, implemented by iMAIOS society in their online platform. A second assessment of residents' anatomical knowledge was done 2 months after randomisation. RESULTS: Ob/Gyn residents (N = 23) had a significant lower global score than third-year medical students (N = 103) (22.1% (± 10.2) vs 43.8% (± 12.1), p < 0.0001). Two months after randomisation, residents of "control" group demonstrated no significant difference between the two questionnaires (3.6%, p = 0.31), whilst the "e-learning" group demonstrated a significant increase overall (10.6%, p = 0.09). There was no significant difference on the post-intervention questionnaire between control and "e-learning" group (25.4% vs 33% respectively, p = 0.34). CONCLUSION: Knowledge of pelvic and perineal anatomy is poor. This e-learning tool aimed at improving anatomical knowledge retention but is not sufficient. A combination of traditional approaches and innovative solutions should be proposed throughout medical school and residency to maintain anatomical knowledge.

Impact of modified teaching strategies used in a gross anatomy course on the academic performance of dental students during the COVID-19 pandemic.

INTRODUCTION: Modified teaching strategies (MTS), asynchronous online teaching and smaller dissection groups, were applied to a gross anatomy course for dental students in the National Taiwan University in April 2020 in response to the COVID-19 pandemic. This study aimed to investigate the effects and perceptions of MTS on dental students. MATERIALS AND METHODS: Scores for anatomy examinations for 2018-2019 (without MTS) and 2019-2020 (with MTS) cohorts were compared to explore the effect on academic performance. Moreover, questionnaire from the 2019-2020 cohort was analysed to determine dental students' perceptions about MTS. RESULTS: The lecture performance in the final examination of the second semester for the 2019-2020 cohort was significantly higher than that of the first semester (pre-COVID-19) and that for the 2018-2019 cohort. However, the laboratory performance in the midterm examination of the second semester for the 2019-2020 cohort was significantly lower than that for the 2018-2019 cohort and showed no difference in the final examination of the first semester. The questionnaires revealed that the majority of students displayed positive attitudes towards MTS and agreed with the importance of peer discussion during laboratory dissection. CONCLUSIONS: Asynchronous online learning for anatomy lecture may be beneficial for dental students; however, a smaller dissection group accompanied by reduced peer discussion may temporarily exert negative effects on their laboratory performance at the beginning of the application. Furthermore, more dental students exhibited positive perceptions towards smaller dissection groups. These findings could illuminate the learning condition of dental students in anatomy education.

Does ultrasound education improve anatomy learning? Effects of the Parallel Ultrasound Hands-on (PUSH) undergraduate medicine course.

BACKGROUND: As ultrasound has become increasingly prominent in medicine, portable ultrasound is perceived as the visual stethoscope of the twenty-first century. Many studies have shown that exposing preclinical students to ultrasound training can increase their motivation and ultrasound competency. However, few studies have discussed the effect of ultrasound training on anatomy learning. METHOD: The Parallel Ultrasound Hands-on (PUSH) course was designed to investigate whether or not ultrasonography training affects anatomy knowledge acquisition. The PUSH course included anatomical structures located in the chest and abdomen (target anatomy) and was conducted in parallel to the compulsory gross anatomy course. Learners (n = 140) voluntarily participated in this elective course (learners in the course before the midterm examination (Group 1, n = 69), or after the midterm examination (Group 2, n = 71)). Anatomy examination scores (written and laboratory tests) were utilized to compare the effects of the PUSH course. RESULT: Group 1 obtained significantly higher written test scores on the midterm examination (mean difference [MD] = 1.5(7.6%), P = 0.014, Cohen's d = 0.43). There was no significant difference in the final examination scores between the two groups (Written Test: MD = 0.3(1.6%), P = 0.472). In Laboratory test, both mid-term (MD:0.7(2.8%), P = 0.308) and final examination (MD:0.3(1.5%), P = 0.592) showed no significant difference between two groups. Students provided positive feedback in overall learning self-efficacy after the PUSH course (Mean = 3.68, SD = ±0.56 on a 5-point Likert scale). Learning self-efficacy in the cognitive domain was significantly higher than that in the affective domain (MD = 0.58; P < 0.001) and psychomotor domain (MD = 0.12; P = 0.011). CONCLUSION: The PUSH course featured a hands-on learning design that empowered medical students to improve their anatomy learning.

Integrated anatomical practice combining cadaver dissection and matched cadaver CT data processing and analysis.

PURPOSE: With the increasing significance of diagnostic imaging in clinical practice, long-term anatomical education and training is required to ensure that students can reliably distinguish anatomical structures and interpret images. To improve students' motivation and prospects for learning imaging anatomy, we developed an integrated anatomical practice program combining cadaveric dissection with cadaver CT data processing and analysis during undergraduate students' dissection courses. METHODS: Workstations imported with post-mortem CT data of dissected cadavers and various forms of clinical CT/MRI data were set in the dissection room. Medical students had free access to the imaging data during cadaver dissection, and they were challenged to process and analyze the data for submission of voluntary imaging reports on their topics of interest. Finally, we surveyed the integrated anatomical education of 481 medical students. RESULTS: The positive response rate to the integrated anatomical practice was 74.9%, and 79.4% of the students answered that this form of practice offered a suitable introduction to anatomical imaging. The usefulness of this approach in understanding the 2- to 3D arrangement of the human body and enhancing interest in anatomy was also confirmed. The submission rate of voluntary imaging reports also increased annually and is currently 97.4%. CONCLUSION: Our integrated anatomical practice only allowed students to actively browse CT images and facilitated imaging processing and analysis of their region of interest. This practice may improve students' long-term ability to analyze images and deepen their understanding. A competitive imaging contest may help improve students' motivation when they begin learning imaging anatomy.

Assessment of the opinions and experiences of anatomy educators regarding the distance anatomy education in medical facilities under the effect of COVID-19 in Turkey.

PURPOSE: Aim of this research is to assess the perceptions and views of the anatomy lecturers (educators) of the medical faculties in Turkey on undergraduate distance anatomy education during the COVID-19. METHODS: Anatomy educators nationwide were invited to the online questionnaire developed by the authors. Ninety-one anatomy educators participated in the questionnaire. Views of the participants were evaluated by Likert-type questions and open-ended questions. Distance anatomy education experiences of the participants between March and July 2020 were evaluated. RESULTS: Participants found face-to-face education more beneficial than distance education courses conducted with video recordings. They also reported that they agreed synchronous lessons were more beneficial than asynchronous lessons. They agreed that time management was a positive result. However, they were concerned about the adverse effects of the interruption of formal anatomy education regarding quality. The experience of distance anatomy education applied during the COVID-19 pandemic has revealed the demand for distance theoretical anatomy education supported by video recordings and face-to-face practical anatomy education methods (blended) for the post-pandemic period. CONCLUSION: There is much research focusing on the students regarding the effects of the COVID-19 pandemic on anatomy education. The experiences and the suggestions of the anatomy educators are also important. The findings of the current research have revealed the positive approach to distance theoretical anatomy education and face-to-face practical anatomy education methods (blended) for the post-pandemic period.

Evaluation of views and perceptions of the medical faculty students about distance anatomy education during the COVID-19 pandemic.

PURPOSE: This study aimed to investigate the students' opinions about the distance anatomy education given in our faculty at the COVID-19 pandemic and present our department's experiences. METHODS: An online questionnaire designed for medical faculty students. The questionnaire was applied to 355 volunteer medical faculty students. The questionnaire consisted of demographics, five-point Likert items, and open-ended questions. The questionnaire was applied between August and September 2020. Distance anatomy education activities were evaluated during March and July 2020. RESULTS: Results showed face-to-face theoretical anatomy education was found to be more effective than distance anatomy education conducted with recorded lecture videos. Even though the positive aspects of distance anatomy education stand out in topics, such as time management, it has been stated that cadaver and laboratory education has been disrupted. Most of the students agreed that they spent more time on supplementary resources during distance anatomy education. CONCLUSION: The COVID-19 pandemic has provided an unexpected experimental environment. The demand for a blended method, which consists of distance (supported by video recordings) theoretical anatomy education and face-to-face practical anatomy education for the post-pandemic period comes to the fore. Distance anatomy education brings some problems with it due to its nature, and it is essential to seek unique solutions to them. Evaluating the perceptions of the parties will play an essential role in solving the problems of distance anatomy education and in the formation of future anatomy education styles.

Impacts of a gross anatomy laboratory course on medical students' emotional reactions in Taiwan: the role of high-level emotions.

BACKGROUND: Gross anatomy laboratory course at medical school is usually an important learning subject for medical students; however, seeing a cadaver often makes them feel uncomfortable. According to the broaden-and-build theory, positive emotions broaden our inventory of thoughts and actions, and build physical, mental, and social resources. Research on positive psychology found that through direct thanks and positive reframing, people who feel gratitude show fewer depressive symptoms. The present study tried to reduce students' negative emotions towards cadavers by sequential activities, such as family interviews and an initiation ceremony, which induced gratitude and other positive emotions. METHODS: The Emotional Reactions Towards Cadavers Scale (ERTCS) was used to evaluate medical students' emotional reactions after they see a cadaver. Third year medical students (n = 105) at Taipei Medical University in northern Taiwan completed ERTCS on three occasions within a single semester during academic year 2016. Repeated-measures ANOVA and hierarchical regression analyses were then conducted to identify any changes in the emotional reactions of these students. RESULTS: The ERTCS showed satisfactory internal consistency and a three-factor structure, i.e., negative emotions, high-level emotions, and excited emotions. High-level emotions were the highest, and negative emotions were the lowest among the three in our sample. Three-wave data showed that participants' high-level emotions increased, negative emotions decreased, and the former simultaneously predicted the latter after controlling for the influence of gender, religious beliefs, experience of the death of a family member or friend, and burnout level. CONCLUSIONS: While past research usually focused on coping strategies to reduce medical students' negative emotions, our study supported the broaden-and-build theory, which emphasizes positive emotions, and demonstrated that elevating medical students' gratitude to 'silent mentors' is an effective way. It is suggested that combining dissection courses with medical humanities can help students successfully handle negative emotions during a gross anatomy laboratory course.

Seeing with Sound: How Ultrasound Is Changing the Way We Look at Anatomy.

Ultrasound uses high frequency sound waves and their rebounding echoes to capture live images of the structures beneath the skin. Thanks to recent technological advances, contemporary ultrasound machines offer excellent image resolution packaged in smaller, highly portable devices, which has allowed ultrasound to expand into new areas, both within the hospital as well as across non-traditional settings. Ultrasound is an incredibly powerful visualization tool in medicine, allowing physicians to safely see and interrogate the most relevant parts of their patient's internal anatomy instantly. Point-of-care ultrasound, a focused ultrasound evaluation performed at the patient's bedside, is now common across medical specialties, encompassing a vast array of diagnostic, procedural and screening applications. The impressive expansion of point-of-care ultrasound has resulted in an increased demand for ultrasound training earlier during medical school. As a non-invasive and non-destructive way to see inside the living body, ultrasound is an ideal tool to teach anatomy. It allows both medical and non-medical students the ability to improve their understanding and retention of anatomical form and function. The widespread and still expanding use of ultrasound in healthcare today, as well as its adoption into the anatomy classroom, is a testament to the power of ultrasound for achieving real-time visualization of the hidden aspects of our bodies.

Development of Low-Cost Tactile Neuroanatomy Learning Tools for Students With Visual-Impairment.

Visual impairment is the most common form of disability in the world and results in major challenges to the education and employment of affected individuals. It is important, therefore, to provide the best possible higher education for these individuals, not only providing the same access to theoretical contents but also training them for their future work environment. The reliance of neuroanatomy teaching on visual material creates a set of challenges for educators, a situation that is only worsened by the lack of specific neuroanatomy teaching tools for students with visual impairment. To overcome this problem, a set of tactile tools for neuroanatomy education was prepared using low-cost materials such as hot-melt adhesive, pins and easily found fabrics. These tools were then employed in an undergraduate class of physical therapy, speech therapy and occupational therapy students that included a student with visual impairment. The use of tactile tools allowed full integration of the student, who was able to participate in hands-on classes with her peers. We anticipate that the ease of fabrication and the low cost may allow this experience to be replicated in the instruction of neuroanatomy in undergraduate neuroscience programs at other institutions.

Emotional experiences of medical students during cadaver dissection and the role of memorial ceremonies: a qualitative study.

BACKGROUND: It has been well reported that the emotional experiences of medical students in the gross anatomy laboratory could have significant impacts on their professional identity formation. This qualitative study aimed to investigate students' emotions towards cadaver dissection and the educational role of memorial ceremonies. METHODS: A total of 37 students from eight teams were recruited in the team-based dissection course during two consecutive academic years (2016 and 2017) at one medical school. In focus group interviews, students were encouraged to express and discuss their emotions regarding cadaver dissection and memorial ceremonies. RESULTS: The participants described their apprehension and anxiety during their first encounter with cadavers that diminished through gradual exposure. Unfortunately, their positive emotions such as gratitude and responsibility also tended to decline under the pressure of excessive workloads and frequent examinations. Memorial ceremonies, including not only large-scale events but also daily rituals, had educational effects that they prevented the decline of students' responsibility and respect during the dissection course. CONCLUSION: Educators should assist medical students in overcoming their initial distress and maintaining respectful attitudes throughout the dissection course. Memorial ceremonies can be effective educational tools for fostering appropriate attitudes and ethical practice in the gross anatomy laboratory.

An Anatomy Pre-Course Predicts Student Performance in a Professional Veterinary Anatomy Curriculum.

Little to no correlation has been identified between previous related undergraduate coursework or outcomes on standardized tests and performance in a veterinary curriculum, including anatomy coursework. Therefore, a relatively simplistic method to predict student performance before entrance would be advantageous to many. The purpose of this study was to evaluate whether there is a correlation between performance in a veterinary anatomy pre-course and subsequent performance within a professional anatomy curriculum. Incoming first-year veterinary students at the Louisiana State University School of Veterinary Medicine were asked to participate in a free weeklong pre-course, before the start of the semester. The pre-course covered the musculoskeletal anatomy of the canine thoracic limb using dissection-based methods. Student performance, as evaluated by test grades in the pre-course, did indeed correlate with test grades in professional veterinary anatomy courses. A significant and positive correlation was identified between pre-course final exam performance and performance on examinations in each of 3 professional anatomy courses. Qualitative analyses of student comments pertaining to their experience within the pre-course indicated differences in the perceived benefits of the pre-course between high-, middle-, and low-performing students. These varied perceptions may provide predictive feedback as well as guidance for supporting lower performing students. Together, these results indicate that performance in a weeklong pre-course covering only a small portion of canine anatomy is a strong predictor of performance within a professional anatomy curriculum. In addition, the pre-course differentially affected student perceptions of their learning experience.

Evaluation of 3D Additively Manufactured Canine Brain Models for Teaching Veterinary Neuroanatomy.

Physical specimens are essential to the teaching of veterinary anatomy. While fresh and fixed cadavers have long been the medium of choice, plastinated specimens have gained widespread acceptance as adjuncts to dissection materials. Even though the plastination process increases the durability of specimens, these are still derived from animal tissues and require periodic replacement if used by students on a regular basis. This study investigated the use of three-dimensional additively manufactured (3D AM) models (colloquially referred to as 3D-printed models) of the canine brain as a replacement for plastinated or formalin-fixed brains. The models investigated were built based on a micro-MRI of a single canine brain and have numerous practical advantages, such as durability, lower cost over time, and reduction of animal use. The effectiveness of the models was assessed by comparing performance among students who were instructed using either plastinated brains or 3D AM models. This study used propensity score matching to generate similar pairs of students. Pairings were based on gender and initial anatomy performance across two consecutive classes of first-year veterinary students. Students' performance on a practical neuroanatomy exam was compared, and no significant differences were found in scores based on the type of material (3D AM models or plastinated specimens) used for instruction. Students in both groups were equally able to identify neuroanatomical structures on cadaveric material, as well as respond to questions involving application of neuroanatomy knowledge. Therefore, we postulate that 3D AM canine brain models are an acceptable alternative to plastinated specimens in teaching veterinary neuroanatomy.

Complementing anatomy education using three-dimensional anatomy mobile software applications on tablet computers.

Anatomy has traditionally been a cornerstone of medical education, which has been taught via dissection and didactic lectures. The rising prevalence of mobile tablet technology means medical software applications ("apps") play an increasingly important role in medical education. The applications highlighted in this article will aid anatomical educators to identify which are the most useful in clinical, academic, and educational environments. These have been systematically identified by downloading all applications with keywords related to anatomy and then carrying out qualitative assessment. Novel anatomy applications from developers such as Visible Body, 3D4Medical, and Pocket Anatomy allow students to visualize and manipulate complex anatomical structures using detailed 3D models. They often contain additional content including clinical correlations and a range of media from instructional videos to interactive quiz functions. The strength of tablet technology lies in its ability to consolidate and present anatomical information to the user in the most appropriate manner for their learning style. The only question mark remains over the level of detail and accuracy of these applications. Innovative medical educators who embrace tablet technology will find that anatomy applications serve as a useful learning tool when used in conjunction with existing teaching setups.

Constructive alignment: Teaching introductory gross anatomy to sport science students.

The purpose of this descriptive article was to illustrate the process of using constructive alignment in redesigning an introductory gross anatomy unit that is taught specifically to sports science and physical education students at Victoria University. The unit was redesigned as an intensive learning unit in 2017 as part of a broader university-wide process. The teaching team decided that the first stage of the constructive alignment process should be necessarily focused on an understanding of the career destinations of graduates from the courses. With this understanding, it became easier to work through the redesign of intended learning objectives, the shift from systemic to regional anatomy changes in content and learning support mechanisms, and alterations to assessment practices. A comparison of student pass rates for the unit from 2018 to 2023 with pass rates in the previous semester-long version of the unit, suggests optimism about the changes that were made through the constructive alignment process. However, there were a number of other factors that may have contributed to this result, and more research is needed on the specific effectiveness of the changes made during the constructive alignment process before a confident conclusion about the success of the process can be made.

Evaluating knowledge loss over multiple retention intervals can identify deficiencies and inform curricular development.

Nursing students struggle to retain enough anatomical knowledge to meet their entry to practice competencies, but what knowledge is missing and when this occurs has been previously unexplored. A cohort of 80 nursing students were given multiple choice quizzes to assess their anatomical knowledge on 11 different organ systems during their second, third, and fourth year. Results were analyzed in comparison to their first-year examination scores to determine knowledge loss. Results showed an overall knowledge loss of 33.5% in the second year, 31.8% in the third year, and 29.6% in the fourth year. There were significant differences in system specific results. Special senses (i.e., audition) had a 20.6% loss in the second year, increased in retention to a 17.3% loss in third year, and then decreased to a 37% loss in fourth year. The vascular system had a 46.1% knowledge loss at the second-year assessment, declined to 49% knowledge loss in the third year, but improved to 27.6% knowledge loss by the fourth year. A similar change was observed for the musculoskeletal system with second-year loss at 30.7%, third-year loss at 40.3%, and fourth-year loss at 26.6%. These data suggest there are significant differences in the amount of knowledge retained by nursing students depending on the system being tested and the year the test is taken. Identifying the areas and times where anatomical knowledge is lost and gained is valuable for instructors in any program so that specific topics can be targeted at different times with more effective educational strategies.

Comfort levels and experiences of middle school and high school age children in anatomical donor-based anatomy outreach sessions.

Many health professions schools host anatomy outreach sessions for high school students that utilize anatomical donors. However, teaching with anatomical donors for younger learners is uncommon. This study aimed to assess the comfort levels and experiences of students who attended the anatomy sessions as part of summer programs at Rutgers New Jersey Medical School. Younger learners (students entering grades 7-10; n = 25) and older learners (students entering grades 11-12; n = 33) completed pre- and post-session surveys about their comfort using a 5-point Likert scale. Before the sessions, most students felt comfortable or very comfortable learning from isolated organs (µ = 2.7, SD = 1.3) or full-body donors (µ = 2.4, SD = 1.4), even though most have never been to an anatomical donor lab before. After the sessions, the comfort level significantly increased for both isolated organs (µ = 3.3, SD = 1.1; p = 0.02) and full-body donors (µ = 3.1, SD = 1.2; p = 0.004). For isolated organs, there was no significant difference in the comfort level between younger and older learners before (p = 0.50) or after (p = 0.56) the sessions. Similarly, for full-body donors, there was no significant difference in the comfort level between younger and older learners before (p = 0.95) or after (p = 0.75) the sessions. Most students expressed that the experience was unique and positive. In conclusion, most students entering grades 7-12 felt comfortable learning from isolated organs and full-body anatomical donors prior to the sessions and felt more comfortable after the sessions. With this, anatomy outreach programs that utilize anatomical donors could be expanded to include younger learners to provide more dynamic teaching experiences for students of various ages.

The current state of anatomy education in United States doctor of physical therapy programs.

Physical therapy education has significantly evolved over the past few decades. While gross anatomy is integral to physical therapy education curricula, the current state of anatomy education within these programs is not well understood. The primary purpose of this report was to provide an update on the current state of anatomy education across United States (US) Doctor of Physical Therapy (DPT) programs. A survey was disseminated to all 261 accredited US physical therapy programs. The survey was deployed in November 2020 with a deadline to respond by January 15, 2021. The response rate was 32.6% (85/261). When teaching anatomy, 90.5% of the responding programs used dissection, 71.4% used didactic lectures, 60.7% used computer-assisted technology, 58% used prosections, 23.8% used plastinated models, and 31% reported using other methods. DPT programs have experienced declines in PhD faculty (15.7%) and Master of Physical Therapy faculty (15.3%) and notable increases in DPT (16.5%) and physician faculty (8.2%) teaching anatomy within DPT programs. Despite greater use of computer-assisted technologies, these technologies have not replaced donor-based dissection in DPT programs.

Living and post-mortem CT scans in the gross anatomy lab: A study investigating differences in first-year medical students' exam performance and perceptions.

Basic competency in radiological imaging is essential for physicians to identify and manage diseases. An optimal place in which to include imaging in the medical curriculum is during anatomy as students can correlate the 3D anatomy from their body donors with the 2D cross-sectional anatomy. The goal of this project was to enhance first-year medical students' knowledge of cross-sectional imaging in the gross anatomy lab and to investigate whether there are benefits to learning cross sectional imaging via scans from body donors versus living individuals. Student participant performance was evaluated on laboratory practical examinations, CT image questions and spatial anatomical knowledge in the thorax and abdomen sections of gross anatomy. Students learned the cross-sectional imaging during dissections where they accessed the images relevant to their study on Pacsbin, a web-based Digital Imaging and Communication in Medicine viewer, via iPads. Results showed no statistically significant differences in practical examination scores, spatial anatomical knowledge, or identification of anatomical structures on CT image questions between participants who learned from images on body donors versus living individuals. In a questionnaire given at the end of the course, participants cited that the CT images improved their anatomical and imaging knowledge and that they felt better prepared to use imaging software and interpret diagnostic imaging results upon entering clerkships. While there were no differences in academic performance between the groups, positive outcomes regarding student perceptions of anatomical and imaging knowledge and preparedness for use of imaging software were identified in this study.

Impact of gross anatomy laboratory on student written examination performance: A 3-year study of a large-enrollment undergraduate anatomy course.

The efficacy of the various pedagogies that are used in human anatomy laboratories has been extensively debated. Nevertheless, an important question remains relatively unexamined-how the learning experience in the anatomy laboratory impacts students' mastery and application of anatomical knowledge beyond the laboratory setting. In this study, the effect of a prosection-based anatomy laboratory on overall comprehension and mastery of anatomical knowledge was evaluated in an upper division undergraduate anatomy curriculum that consists of a mandatory lecture course and an optional laboratory course. This flexible curricular structure permitted assessing the merit of laboratory learning on the written examination performance of the lecture course. In 2019 and 2022, the anatomy laboratory was taught in-person using prosections, while in 2021 due to the Covid-19 pandemic related regulations, it was taught remotely with live-streaming of prosections using document cameras. In both in-person and remote instructive formats, written examination scores of the lecture course were compared between two cohorts of students: Those enrolled in lecture only and those enrolled in both lecture and laboratory. Results showed that the cohort enrolled in both lecture and laboratory courses consistently outperformed the lecture-only cohort by one full letter grade. Furthermore, when the degrees of improvement on written examination scores were compared between the two instructive formats, in-person laboratory had a greater increase compared to remote laboratory. Altogether this study demonstrates that the prosection-based anatomy laboratory enhances students' mastery of anatomical knowledge beyond the laboratory setting by promoting comprehension of spatial relationships of anatomical structures.