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PURPOSE: Anatomical understanding is an important basis for medical teaching, especially in a surgical context. The interpretation of complex vascular structures via two-dimensional visualization can yet be difficult, particularly for students. The objective of this study was to investigate the feasibility of an MxR-assisted educational approach in vascular surgery undergraduate education, comparing an MxR-based teaching-intervention with CT-based material for learning and understanding the vascular morphology of the thoracic aorta. METHODS: In a prospective randomized controlled trial learning success and diagnostic skills following an MxR- vs. a CT-based intervention was investigated in 120 thoracic aortic visualizations. Secondary outcomes were motivation, system-usability as well as workload/satisfaction. Motivational factors and training-experience were also assessed. Twelve students (7 females; mean age: 23 years) were randomized into two groups undergoing educational intervention with MxR or CT. RESULTS: Evaluation of learning success showed a mean improvement of 1.17 points (max.score: 10; 95%CI: 0.36-1.97). The MxR-group has improved by a mean of 1.33 [95% CI: 0.16-2.51], against 1.0 points [95% CI: -0.71- 2.71] in the CT-group. Regarding diagnostic skills, both groups performed equally (CT-group: 58.25 ± 7.86 vs. MxR-group:58.5 ± 6.60; max. score 92.0). 11/12 participants were convinced that MxR facilitated learning of vascular morphologies. The usability of the MxR-system was rated positively, and the perceived workload was low. CONCLUSION: MxR-systems can be a valuable addition to vascular surgery education. Further evaluation of the technology in larger teaching situations are required. Especially regarding the acquisition of practical skills, the use of MxR-systems offers interesting application possibilities in surgical education.

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To learn and comprehend the large amount of information in gross anatomy, undergraduate students must self-regulate their learning to be properly prepared for the exams within the available time. Even though there are many studies on learning strategies and their influence on test results and motivation, the aim of this study is to investigate characteristics of learning strategies in detail and in relation to the anatomy course of first semester students and how their use is related to anatomy test performance. For assessing the learning strategies, we used the short version of the questionnaire "Learning Strategies of University Students" (LIST-K) (Klingsieck, 2018). Further, we investigated potential influences of motivation and resources used during the self-regulated learning process. The participants in this study (N = 108) filled in the above-mentioned questionnaire LIST-K and a written multiple-choice anatomy test. A k-means cluster analysis revealed three groups of students differing in their self-reported use of learning strategies. Students used either (1) predominantly metacognitive and resource-related strategies, (2) predominantly cognitive strategies, or (3) no specific learning strategies at all. We found no significant overall relationships between the use of learning strategies and test performance. A stepwise linear regression identified the use of cognitive learning strategies (ß =.269) as a significant predictor for test performance (R² =.149, p =.003), possibly as these specific learning strategies help with a systematic and effective approach while studying anatomy and retrieving large amount of memorized information. Further, motivation was identified as a negative predictor (ß = -.277), which might be a result of the short time periods students have to study for exams. Overall findings underline the importance of self-regulated learning as a positive predictor for academic performance. By understanding these factors, a more student-centered approach could be adopted by educators to improve medical education and equip students with valuable approaches for their continuous education, even beyond university.

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Our objective was to provide expert consensus on best practices for anatomy teaching and training on ultrasound-guided botulinum neurotoxin type A (BoNT-A) injection for specialists involved in treating spasticity and dystonia. Nine experts (three neurologists; six physical medicine and rehabilitation physicians) participated in a three-round modified Delphi process. Over three rounds, experts reached consensus on 15 of 16 statements describing best practices for anatomy and BoNT-A injection training. They unanimously agreed that knowledge of the target audience, including their needs and current competency, is crucial when designing training programs. Experts also agreed that alignment between instructors is essential to ensure consistency of approach over time and between regions, and that training programs should be simple, adaptable, and "hands-on" to enhance engagement and learning. Consensus was also reached for several other key areas of training program development. The best-practice principles identified by expert consensus could aid in the development of effective, standardized programs for anatomy teaching and BoNT-A injection training for the purposes of treating spasticity and dystonia. This will enhance the exchange of knowledge, skills, and educational approaches between global experts, allowing more specialists to treat important movement disorders and ultimately improving patient outcomes.

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BACKGROUND: Currently, multiple tools exist to teach and learn anatomy, but finding an adequate activity is challenging. However, it can be achieved through haptic experiences, where motivation is the means of a significant learning process. This study aimed to evaluate a haptic experience to determine if a tactile and painting with color marker interactive experience, established a better learning process in comparison to the traditional 2D workshop on printed paper with photographs. METHODS: Plaster bone models of the scapulae, humerus and clavicle were elaborated from a computerized scan tomography. Second year undergraduate medical students were invited to participate, where subjects were randomly assigned to the traditional 2D method or the 3D plaster bone model. A third group decided not to join any workshop. Following, all three groups were evaluated on bone landmarks and view, laterality, muscle insertions and functions. 2D and 3D workshop students were asked their opinion in a focus group and answered a survey regarding the overall perception and learning experience. Evaluation grades are presented as mean ± standard deviation, and answers from the survey are presented as percentages. RESULTS: The survey demonstrated the students in the 3D model graded the experience as outstanding, and in five out of the six questions, answers were very good or excellent. In contrast, for students participating in the 2D workshop the most common answers were fair or good. The exception was the answer regarding the quiz, where both groups considered it good, despite the average among all groups not being a passing grade. CONCLUSIONS: To learn the anatomy of the shoulder, the conventional methodology was compared with a haptic experience, where plaster bone models were used, enabling students to touch and paint on them. Based on the focus group and survey this study revealed the 3D workshop was an interactive experience where, the sense of touch and painting greatly contributed to their learning process. Even though this activity was useful in terms of learning bone landmarks, view muscle insertions, and establish relations, further activities must be developed to increase their understanding regarding their function, and its relevance in a clinical setting.

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BACKGROUND: Anatomical terms in medical literature have been used with varying meanings, leading to confusion in clinical practice. This study aims to investigate the ambiguity of anatomical terms in clinical dentistry. METHODS: Dentists who have undergone specialised training with at least one year of clinical experience were recruited to participate in the study. They were requested to localize specific terms on a skull and provide explanations based on their experience or opinion. All data were recorded, and then descriptive statistics were used for analysis. RESULTS: Seventy-eight participating dentists gave their consent and were eligible to study. For each anatomical term presented to dentists at least two meanings were provided, with some terms having up to eight interpretations. While most meanings were consistent with medical or dental literature, some responses revealed new interpretations not documented in textbooks. CONCLUSIONS: Dentists expressed anatomical terms with diverse meanings, possibly influenced by their various subspecialties. It is crucial to acknowledge this variability to prevent confusion. Emphasizing the consistent use of anatomical terms among dental professionals in the future is essential.

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El estudio de la anatomía humana como asignatura básica tiene el desafío de promover el desarrollo de competencias genéricas en los estudiantes. Tal es el caso del trabajo colaborativo, trascendental en el trabajo en salud. Así, aparece aula invertida cuyo esquema desarrolla actividades de trabajo en equipo. Por ello, el objetivo de este trabajo es analizar el impacto de aula invertida sobre el trabajo colaborativo en la enseñanza de la anatomía. Estudio cuantitativo, transversal, no experimental que involucró la implementación de aula invertida en un curso de Terapia Ocupacional de 2023. A partir de 5 sesiones planificadas se desarrollaron trabajos en 6 grupos; incluyeron síntesis de contenido y casos clínicos. Al cerrar el semestre se determinó un promedio de calificaciones (PC), junto a una autoevaluación (AE) y coevaluación (CE) que midió trabajo colaborativo mediante 3 subcompetencias (SC1-SC3) (escala 1,0 a 7,0). Se aplicaron pruebas estadísticas para determinar diferencias entre de SC1-SC3 según AE y CE, por grupos y si existe relación con PC. La prueba de U de Mann Whitney no arrojó diferencias entre AE y CE. La prueba de Friedman no evidenció diferencias entre SC1-SC3. La prueba H de Kruskal-Wallis halló diferencias de las subcompetencias según grupos; SC1 podrían influir en el PC, SC2 registra diferencias en el grupo G1 y G5, y "gestión de conflictos" (SC3) no difiere de forma destacada entre los grupos. La correlación de Spearman presenta una asociación positiva débil entre las subcompetencias y PC, aunque el valor-p no fue significativo. Es sumamente necesario potenciar el trabajo colaborativo en el inicio del pregrado. Anatomía humana, en este contexto, tiene la oportunidad de promover su desarrollo. Ello puede generarse en el marco de aula invertida, cuyo esquema promueve actividades de trabajo colaborativo, y como es sabido, en el rendimiento académico.

SUMMARY: As a basic subject, the study of human anatomy challenges the development of generic skills in students. Such is the case of collaborative work which is transcendental in the areas of healthcare work. Consequently, an inverted classroom is developed wherein teamwork activities are developed. The objective of this work is to analyze the impact of the flipped classroom on collaborative work in teaching anatomy. A quantitative, cross-sectional, non-experimental study that involved the implementation of a flipped classroom in an Occupational Therapy course in 2023 was applied. From 5 planned sessions, work was developed in 6 groups; they included content synthesis and clinical cases. At the end of the semester, a grade average (GA) was determined, along with a self-assessment (SA) and co-assessment (CA) measuring collaborative work through 3 sub competences (SC1-SC3) (scale 1.0 to 7.0). Statistical tests were applied to determine differences between SC1-SC3 according to SA and CA, by groups and if there is a relationship with GA. The Mann Whitney U test did not show differences between SA and CA. The Friedman test did not show differences between SC1-SC3. The Kruskal-Wallis H test found differences in sub competences according to groups; SC1 could influence GA, SC2 records differences in group G1 and G5, and "conflict management" (SC3) does not differ significantly between the groups. The Spearman correlation presented a weak positive association between the sub competences and GA, although the p-value was not significant. It is extremely necessary to promote collaborative work at the beginning of the undergraduate degree. In this context, human anatomy is an opportunity to promote its development. This can be generated within the framework of the inverted classroom promoting collaborative work activities, and academic performance as well.

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El propósito de esta investigación fue comprender las dificultades y necesidades para el aprendizaje de las ideas principales de la Anatomía Macroscópica Humana AMH. Se investigó un grupo de 90 estudiantes de segundo semestre del programa académico de Medicina y Cirugía de una Universidad pública, quienes se encontraban cursando la asignatura de Anatomía Macroscópica Humana I, para ello se tuvo en cuenta el modelo del conocimiento pedagógico del contenido PCK que incluye el conocimiento de los estudiantes, de su comprensión de la AMH, se realizó una observación participante de las clases teóricas y prácticas durante 16 semanas, llevando a cabo los registros de la observación en diario de campo y se obtuvo material audiovisual. Posteriormente se elaboró un índice analítico, se transcribió la información, todos los documentos fueron analizados por medio del software para análisis ATLAS.ti. Se encontraron aspectos de la enseñanza que dificultan el aprendizaje, como son la metodología de enseñanza, la gran cantidad de contenido abordado en la asignatura, la dificultad en la comprensión de las descripciones y complejidad de la ubicación espacial de las piezas anatómicas, la dificultad para encontrar una metodología de estudio apropiada y la falta de concentración durante las clases. El comprender la complejidad del proceso de aprendizaje puede favorecer la planeación y desarrollo de la enseñanza y la evaluación.

SUMMARY: The purpose of this research was to understand the difficulties and needs for learning the main ideas of Human Macroscopic Anatomy AMH. A group of 90 students from the second semester of the academic program of Medicine and Surgery of a public University were investigated, who were studying the subject of Human Macroscopic Anatomy I, for this the model of pedagogical knowledge of the PCK content that includes the knowledge of the students, their understanding of the AMH, a participant observation of the theoretical and practical classes was carried out for 16 weeks, keeping records of the observation in a field diary, and audiovisual material was obtained. Subsequently, an analytical index was prepared, the information was transcribed, all documents were analyzed using the ATLAS.ti analysis software. Aspects of teaching that hinder learning were found, such as the teaching methodology, the great amount of content addressed in the subject, the difficulty in understanding the descriptions and complexity of the spatial location of the anatomical pieces, the difficulty in finding an appropriate study methodology and the lack of concentration during classes. Understanding the complexity of the learning process can favor the planning and development of teaching and assessment.

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SUMMARY: Human Anatomy is the first medical specialization course for students of clinical medicine and cultivates the virtues of medical students, helping them to establish the humanitarian values. Therefore, integrating humanistic values education into the course of human anatomy is crucial. In anatomy courses for clinical students, online previews, group-based clinical problem- based learning, and theoretical lectures are used in anatomical education which is integrated with extracurricular activities for the education of human values, such as classical medical stories, group-based humanistic value cultivation, a memorial ceremony for "silent mentors", the morphological drawing and basic experimental skills competitions, and public welfare activities. After a year of implementation and investigation analysis, it was shown that students had a higher willingness to participate in the curriculum activities in this blended learning system, and these activities could stimulate students' interest in learning, which is beneficial to the cultivation of professional and humanistic values.

Anatomía Humana es el primer curso de especialización médica para estudiantes de medicina clínica y cultiva las virtudes de los estudiantes de medicina, ayudándolos a establecer los valores humanitarios. Por lo tanto, es crucial integrar la educación en valores humanísticos en el curso de anatomía humana. En los cursos de anatomía para estudiantes clínicos se utilizan avances en línea, aprendizaje grupal basado en problemas clínicos y conferencias teóricas en la educación anatómica que se integra con actividades extracurriculares para la educación de los valores humanos, como historias médicas clásicas, humanísticas grupales, cultivo de valores, una ceremonia en memoria de los "mentores silenciosos", concursos de dibujo morfológico y habilidades experimentales básicas, y actividades de bienestar público. Después de un año de implementación y análisis de investigación, se demostró que los estudiantes tenían una mayor disposición a participar en las actividades curriculares en este sistema de aprendizaje combinado, y estas actividades podrían estimular el interés de los estudiantes en el aprendizaje, lo que es beneficioso para el cultivo de habilidades profesionales y valores humanistas.

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Reduced hours of instruction are reported within the gross anatomy education literature. Anatomy instruction continues to be challenged with motivating and inspiring learners to value the contribution of gross anatomy knowledge to their career development alongside increased organizational demands for efficiency and effectiveness. To address these demands, this retrospective study sought to understand how the relative timing and amount of gross anatomy instruction were related to examination performance. Undergraduate and graduate students between 2018 and 2022 were assigned to three cohorts determined by enrollment in prosection-based anatomy only (n = 334), concurrent enrollment in prosection- and dissection-based anatomy in the same semester (n = 67), or consecutive enrollment in the courses one year apart (n = 43). Concurrent students had higher prosection-based anatomy examination scores than prosection-only and consecutive students. Consecutively, enrolled students outperformed concurrently enrolled students on the first two dissection examinations but showed no performance differences on the third and fourth dissection examinations. While the results on the timing and presentation of anatomical instruction were inconclusive, the results do support increased instructional time using both prosection and dissection modalities concurrently to improve performance on identification-based gross anatomy examinations.

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This study assesses the acceptability, appropriateness, feasibility, and efficacy of a novel asynchronous video-based intervention for teaching respiratory physiology and anatomy to medical students in resource-limited settings. A series of short video lectures on pleural anatomy, pulmonary physiology, and pathophysiology was created using Lightboard and screen capture technology. These were uploaded to YouTube and Google Drive and made available to 1st-3rd year medical students at two Latin American universities for 1 week. Employing a parallel-convergent mixed methods design, we conducted surveys, focus groups, interviews, and pre/post testing for qualitative and quantitative data. Thematic Analysis was used to analyze qualitative data and McNemar's test for quantitative analysis. Seventy-six students participated. The videos' short format, interactivity, and Lightboard style were highly valued for their flexibility, time efficiency, and educational impact. Students recognized their clinical relevance and trusted their content, suggesting potential applicability in similar settings. Despite infrastructure and connectivity challenges, the use of flexible streaming and downloadable options facilitated learning. Survey results indicated high levels of feasibility (99%), appropriateness (95%), and acceptability (95%), with significant knowledge gains observed (37% correct pre-test answers vs. 56% post-test, p < 0.0001). Our findings demonstrate high acceptability, appropriateness, feasibility, and efficacy of a targeted asynchronous education centered on short-format videos in resource-limited settings, enabling robust learning despite local barriers. Flexible access is key for overcoming localized barriers. Taking an adaptive, learner-centered approach to content creation and delivery to address constraints was pivotal to success. Our modular videos could serve as versatile models for flexible education in resource-constrained settings.

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Undergraduate introductory human anatomy and human physiology courses are either taught as discipline-specific or integrated anatomy and physiology (A&P) sequences. An institution underwent a curricular revision to change the course approach from discipline-specific Human Anatomy and Human Physiology to an integrated A&P I and II sequence, allowing the unique opportunity to explore the potential role of contextual learning in academic achievement and content retention. Mediation and moderation analysis was used to evaluate lecture examinations, laboratory practical examinations, and anatomical content retention between the different course approaches. Undergraduate students in the integrated A&P I course approach performed significantly better on lecture assessments and had a higher anatomy content retention rate at the end of the year than students enrolled in the standalone Human Anatomy course. The lecture examination averages between Human Physiology and A&P II (the second course in the sequence), as well as the anatomy laboratory practical examinations, were not significantly different between discipline-specific and integrated course approaches. The results suggest contextual learning-providing physiological context to anatomical structures-increases the anatomical content retention and academic achievement overall.

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Dissection of bodies provided by donors continues to be utilized as a critical part of medical education. It also represents a rite of passage that socializes students to prepare them for the stress that comes with working in a clinical environment as a medical professional. Just as proper guidance in acquiring technical skills is critical in anatomy education, there is an important need for proper emotional guidance throughout the human dissection process. A pilot curriculum was developed by an interdisciplinary faculty team to emotionally prepare students for their first visit to the anatomy laboratory. Students were first-year foundation premedical students who had expressed an interest in visiting the laboratory. Pre- and post-visit surveys were conducted to explore students' emotional responses to a first visit to the anatomy laboratory and their utilization of coping strategies. The survey findings show an overwhelming favorable feeling in anticipation of the human gross anatomy laboratory visit. About 20% of the students experienced anxiety at the anticipation of the laboratory visit, but only 5.3% experienced anxiety during the visit. The decrease in the number of students experiencing anxiety may be attributed to the interventions introduced before and during the visit. Talking with a close friend was the main coping strategy utilized by 63% of students experiencing fear or anxiety during and after the laboratory visit. The findings from this program evaluation provide a better understanding of student emotional preparedness and utilization of coping strategies, which may help prepare and guide future students for the dissection experience.

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Due to its haptic and interactive nature, virtual anatomy provides an opportunity for small-group learning, enabling students to develop their group work skills before they graduate. However, there is currently little practical guidance supported by pedagogic principles detailing how to incorporate it into curricula. Anatomy educators at the University of Plymouth conducted action research aiming to capture students' overall perceptions of the virtual anatomy platform Anatomage. Questioning the benefits and challenges students face while interacting with Anatomage prompted the creation of evidence-based interventions to be later evaluated. Although a plethora of themes were identified, this report specifically examines those relating to group work. Thematic analysis of initial focus group data found group size and group dynamics impacted students' experience with the platform. Following the implementation of interventions to resolve these issues, a questionnaire and second series of focus groups were conducted to determine whether they were successful. Additional subthemes found from these data included facilitation, social pressure, peer learning and working with friends. This study contributed to the improvement of small group learning and integration of virtual anatomy into curricula based on student and staff feedback. As such, these data support the development of effective group working skills which are fundamental for healthcare professionals and widely recognized by regulators such as the General Medical Council and Health and Care Professions Council. In this report, the authors provide practical advice informed by pedagogy and principles from management and psychology to provide a multidisciplinary perspective.

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3D scanning and printing technologies are quickly evolving and offer great potential for use in gross anatomical education. The use of human body donors to create digital scans and 3D printed models raises ethical concerns about donor informed consent, potential commodification, and access to and storage of potentially identifiable anatomical reproductions. This paper reviews available literature describing ethical implications for the application of these emerging technologies, existing published best practices for managing and sharing 2D imaging, and current adherence to these best practices by academic body donation programs. We conclude that informed consent is paramount for all uses of human donor and human donor-derived materials and that currently there is considerable diversity in adherence to established best practices for the management and sharing of 3D digital content derived from human donors. We propose a new and simplified framework for categorizing donor-derived teaching materials and the corresponding level of consent required for digital sharing. This framework proposes an equivalent minimum level of specific consent for human donor and human donor-derived materials relative to generalized, nonidentical teaching materials (i.e., artificial plastic models). Likewise, we propose that the collective path forward should involve the creation of a centralized, secure repository for digital human donor 3D content as a mechanism for accumulating, regulating, and controlling the distribution of properly consented human donor-derived 3D digital content that will also increase the availability of ethically created human-derived teaching materials while discouraging commodification.

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For this pilot study, the use of the digital 3D anatomy application Complete Anatomy was evaluated as a non-mandatory additional study tool throughout the semester. The aim of the study was to investigate if the Complete Anatomy usage time had an effect on final exam grades and how the app was used post-Covid19. This cross-sectional study asked first year bachelor/freshman university students of Physical Therapy and Rehabilitation Sciences to fill out a questionnaire to gauge Complete Anatomy usage time, the student's exam results, and how the app was used, for example, in relation to other study tools. A positive correlation was found between the proportion of students that passed the final exam and the number of hours of Complete Anatomy usage (rs (4) = 0.94, p = 0.016). Compared to students who didn't use Complete Anatomy, these positive effects were observed when students used Complete Anatomy for at least 10 h (p = 0.04). The app was well-used with almost half of the respondents reporting >10 h of usage time. The results from this study provide a good overview of how and how often Complete Anatomy is used. Although a positive correlation between the hours of use and the number of passing grades was found in this pilot study, a future study to prove the causality between these two factors is warranted to further investigate the effect of Complete Anatomy as an additional non-mandatory study tool.

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Understanding the fundamental role anatomy education plays in medical training and taking into consideration the nascence of online education in Nigeria, this study evaluated the perceptions of medical and allied-health students toward online anatomy education both during the COVID-19 lockdown in Nigeria and for the future. For this study, Google Form questionnaires were distributed via different social and academic platforms to medical and allied-health students in Nigeria between September 28 and December 17, 2020. A total of 954 students participated in the study and 947 valid responses were recorded. The results showed that 77.6% of the students had reported computer/IT skills and 12.1% admitted that they had never attended an online class. Interestingly, 60% of the respondents disapproved of online learning approaches as effective tools for instructions in the anatomical sciences. Majority of the students (84%) agreed that their performance in anatomy would have been better if the classes were face-to-face, while 55% found the online anatomy classes uninteresting. Furthermore, 91.5% agreed that anatomy educators needed advanced skills for online education, while 94.2% agreed that anatomy online teaching needs more advanced technology to be implemented in Nigeria. This study revealed an overall negative perception about the suitability and effectiveness of online anatomy education in Nigerian medical/health training. This study recommends further investigations into the challenges that were presented during online anatomy education at the peak of the pandemic. This will help direct the development and implementation of a workable and sustainable online education model for anatomical sciences in Nigeria.

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BACKGROUND: The anatomy dissection course is a major part of the first two years of the traditional medical curriculum in Germany. The vast amount of content to be learned and the repeated examination is unanimously perceived by students and teachers as a major stress factor that contributes to the increase of psychosocial stress during the first two years of the course of study. Published interventions for specific stress reduction are scarce. METHODS: In a randomized, controlled design two intervention groups were compared with a control group (CG) over the whole dissection course (nine measuring points before, during and after first and second semester). The 'Stress Management intervention (IVSM)' targeted at the setting of personal standards, the 'Friendly Feedback intervention (IVFF)' at the context of frequent testing. Quantitative surveys were distributed at nine measuring points. The questionnaire comprised validated instruments and self-developed items regarding stress, positive and negative affect, anxiety, intrinsic and extrinsic motivation, self-efficacy, and perceived performance. RESULTS: Out of 195 students inscribed in the dissection course, 166 (85%) agreed to participate in the study. The experience of stress during the dissection course was significantly higher in the CG than in the IVFF. Anxiety and negative affect were lower in students of the IVFF while positive affect, intrinsic motivation, and self-efficacy were higher than in the CG. For anxiety and negative affect in the IVSM this was especially seen at the end of the second semester. The self-perceived increase in both knowledge and preparedness for the first big oral and written examination did not differ between the study groups. About three quarters of the participants would choose the intervention 'Friendly Feedback' if given the choice. CONCLUSIONS: Replacing formal tests with friendly feedback has proven to be an effective measure to reduce stress and negative affect and foster positive affect, self-efficacy, and intrinsic motivation, while it did not impair self-perceived academic performance.

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