Veterinary students at the University of Nottingham must conduct a research project for their third-year dissertation. The aim of this mixed methods study was to assess how undertaking this research project affects veterinary students' perceptions of research in veterinary practice, and whether their experiences with the projects influences their willingness to participate in future research. Of the 252 veterinary students who completed the survey, the majority (81%) enjoyed their project. Significantly more students enjoyed small animal clinical research projects than lab-based projects (p = .04). Eighty-nine percent of respondents indicated that they would like to be involved in research post-graduation. The majority of students (88%) indicated they would be willing to be involved with sample collection as part of their contribution to future research. The most prevalent emergent theme when asked about perceived barriers to being involved in research after graduation was time constraints. While no significant associations were found between enjoyment of project and willingness to be involved in future research, respondents who did not wish to be involved in future research cited bad experiences and a lack of interest as the main reasons. this website Many veterinarians in practice are not involved in research; therefore, vast quantities of valuable data go unexamined. This survey showed that there is notable interest in being involved in future research among this cohort of respondents. This study concludes that veterinary educational organizations can improve participation in future practice-based research by ensuring positive experiences with research and by addressing perceived barriers to research that may develop during undergraduate years.This article aims to standardize 3D scanning and printing of dog skulls for educational use and evaluate the effectiveness of these anatomical printed models for a veterinary anatomy course. Skulls were selected for scanning and creating 3D-printed models through Fused Deposition Modeling using acrylonitrile-butadiene-styrene. After a lecture on skull anatomy, the 3D-printed and real skull models were introduced during the practical bone class to 140 students. A bone anatomy practical test was conducted after a month; it consisted in identifying previously marked anatomical structures of the skull bones. The students were divided into two groups for the exam; the first group of students took the test on the real skulls, whereas the second group students took the test on 3D printed skulls. The students' performance was evaluated using similar practical examination questions. At the end of the course, these students were asked to answer a brief questionnaire about their individual experiences. The results showed that the anatomical structures of the 3D printed skulls were similar to the real skulls. There was no significant difference between the test scores of the students that did their test using the real skulls and those using 3D prints. In conclusion, it was possible to construct a dynamic and printed digital 3D collection for studies of the comparative anatomy of canine skull species from real skulls, suggesting that 3D digitalized and printed skulls can be used as tools in veterinary anatomy teaching.Qualitative methodologies are relative newcomers to health sciences education research. While they may look very different to their quantitative counterparts in terms of size and scope, when well-applied they offer a fresh perspective and generate valuable research findings. Although qualitative research is being increasingly conducted in veterinary medical education, there are few contextualized resources to assist those who would like to develop their expertise in this area. In this article, we address this by introducing the principles of qualitative research design in a veterinary medical education context. Drawing from a range of contemporary resources, we explore the types of research goals and questions that are amenable to qualitative inquiry and discuss the process of formulating a worthwhile research question. We explain what research paradigms are and introduce readers to some of the methodological options available to them in qualitative research. Examples from veterinary medical education are used to illustrate key points. In a second companion article, we will focus on the decisions that need to be made regarding data sampling, collection, and analysis. We will also consider how qualitative research is evaluated, and discuss how qualitative findings are applied. Taken together, the two articles build an understanding of qualitative research, illuminate its potential to contribute to the scholarship of teaching and learning in veterinary medical education, and equip readers with an improved capacity to appraise its value.There is a concern over long-term retention of knowledge in professional programs. The goal of this study was to evaluate the retention of veterinary clinical pathology knowledge between the fourth-semester and fourth-year clinical pathology courses. We hypothesize that students will forget a significant amount of content area knowledge between the fourth semester and fourth year in the Doctor of Veterinary Medicine (DVM) program. We further hypothesize that a review of material during the fourth-year clinical pathology rotation will help students rebuild existing knowledge and increase performance on specific test questions, between T2 (rotation pre-test) and T3 (rotation post-test). Initial mastery of course material was assessed via a 94-item multiple-choice final exam (T1) given in the semester 4 clinical pathology course. Retention of course material from semester 4 to year 4 was assessed via a 55-item multiple-choice pre-test, administered at the start of the clinical pathology rotation in year 4 while learning/mastery during the clinical rotation was assessed via a 55-item multiple-choice post-test, administered at the end of each clinical pathology rotation. In this study, evidence of knowledge retention between semester 4 and year 4 was 55.5%. There is a small increase in the measure of knowledge gain from the beginning to the end of the rotation. As an added benefit, we were able to use identified trends for retention of knowledge within specific subject areas as a mechanism to evaluate the effectiveness of our course and reallocate additional instructional time to topics with poorer retention.