中美高校《兽医病理学》课程教学的区别

《兽医病理学》是研究动物疾病科学的一门基础兽医学课程,是基础兽医学与临床兽医学之间的＂桥梁学科＂。近年来,为了提升兽医执业专业毕业生能力,我国对《兽医病理学》课程教学进行了一系列的改革,取得了一定的进步,但实际教学效果与预期目标仍有一定的差距。以黑龙江八一农垦大学和美国康奈尔大学兽医专业《兽医病理学》教学为例,就中美兽医教育中该课程教学的区别进行阐述,旨在为我国兽医病理学教学改革提供借鉴。     

Integrated Case-Based Applied Pathology (ICAP): a diagnostic-approach model for the learning and teaching of veterinary pathology

Integrative Case-Based Applied Pathology (ICAP) cases form one component of learning and understanding the role of pathology in the veterinary diagnostic process at the Faculty of Veterinary Science, University of Sydney. It is a strategy that focuses on student-centered learning in a problem-solving context in the year 3 curriculum. Learning exercises use real case material and are primarily delivered online, providing flexibility for students with differing learning needs, who are supported by online, peer, and tutor support. The strategy relies heavily on the integration of pre-clinical and para-clinical information with the introduction of clinical material for the purposes of a logical three-level, problem-oriented approach to the diagnosis of disease. The focus is on logical diagnostic problem solving, primarily using gross pathology and histopathological material, with the inclusion of microbiological, parasitological, and clinical pathological data. The ICAP approach is linked to and congruent with the problem-oriented approach adopted in veterinary medicine and the case-based format used by one of the authors (PJC) for the teaching and learning of veterinary clinical pathology in year 4. Additionally, final-year students have the opportunity, during a diagnostic pathology rotation, to assist in the development and refinement of further ICAPs, which reinforces the importance of pathology in the veterinary diagnostic process. Evidence of the impact of the ICAP approach, based primarily on student surveys and staff peer feedback collected over five years, shows that discipline-specific learning, vertical and horizontal integration, alignment of learning outcomes and assessment, and both veterinary and generic graduate attributes were enhanced. Areas for improvement were identified in the approach, most specifically related to assistance in the development of generic teamwork skills.     

From Osler to Olafson. The evolution of veterinary pathology in North America

Most branches of biological science in North America developed first in the United States, and later were taught and practiced in Canada. An exception was veterinary pathology, which as a discipline taught in veterinary colleges and as a field of research, developed first in Canada, and from there crossed the border to the United States. Pathology was first taught at the Montreal Veterinary College, founded in 1866 by Duncan McEachran, a graduate of the Edinburgh Veterinary College. From the outset, he formed a close association with the medical faculty of McGill University, permitting his students to attend the same classes in the basic subjects with the medical students. Eventually, the Montreal Veterinary College became formally affiliated with McGill University, as the Faculty of Comparative Medicine and Veterinary Science. The McGill veterinary faculty was forced to close for economic reasons in 1903, but it left an enduring legacy, particularly in the field of veterinary pathology. The legacy, a novel concept in the 1870's, was that pathology was the cornerstone of a veterinary education; the place where anatomy, physiology, chemistry and botany met with the clinical subjects, and gave the latter meaning. This tradition was formed at the Montreal Veterinary College by the world renowned physician William Osler, North America's leading medical teacher, whom McEachran had invited to teach at the College in 1876 in addition to his duties in the faculty of medicine. Osler had studied with Virchow in Berlin and applied his methods of autopsy technique and of scientific inquiry to his teaching of both human and veterinary pathology at McGill. Osler also undertook investigations into various diseases of domestic animals, at the request of McEachran, who doubled as Chief Veterinary Inspector for the Dominion Department of Agriculture. Osler left McGill University in 1884. Only after that year did other North American veterinary schools adopt pathology as a discipline of instruction. However, by 1884, Osler had already left his indelible imprint on the students (both medical and veterinary) he had taught in Montreal, one of whom took over the teaching of pathology in the veterinary college. Another, who followed Osler's example and also studied in Berlin with Virchow, wrote the first book in the English language on veterinary post mortem technique in 1889.(ABSTRACT TRUNCATED AT 400 WORDS)     

高职《兽药制剂工艺》课程体系建设与教学实践初探

高职《兽药制剂工艺与质量检验》课程教学的目标是使学生掌握兽药制剂的基本理论和操作技能,初步具备兽药制剂制备和质量检验的实际工作能力。课程设计以兽药生产过程和工作任务为主线,突出技能培养,强化实践性教学,构建适宜于高职的兽药制剂工艺课程教学体系,探索和创新了一种全新的高职《兽药制剂工艺与质量检验》课程教学模式。     

Curriculum development in the Netherlands: introduction of tracks in the 2001 curriculum at Utrecht University, The Netherlands

The Faculty of Veterinary Medicine in Utrecht has recently introduced two major curriculum changes in order to keep pace with developments in research (the vast increase in scientific knowledge), in society (the quality awareness of veterinary clients), and in the veterinary profession, where a species and sector differentiation can be observed. After about 15 years during which the curriculum remained more or less unchanged, a radical curriculum revision was introduced in 1995. A further revision, with the introduction of separate study tracks, began in 2001. The 2001 curriculum focuses on academic and scientific training, active learning and problem solving, training in communication and professional behavior, and lifelong learning. It is divided into a four-year core curriculum, in which a broad, cross-species pathobiological insight is central, and a two-year track curriculum, through which students achieve a starting competence in a specific species or sector. The main teaching methods are tutorials and group tasks; practical work is used mainly to achieve specific veterinary skills. Teaching hours represent 30-35% of all study hours. Self-teaching is encouraged by providing study materials, self-teaching questions, teachers assigned to assist with self-teaching, and adequate facilities. The five tracks offered are Companion Animals/Equine; Food Animals; Veterinary Public Health; Veterinary Research; and Veterinary Administration and Management. All students follow a uniform 30-week clinical rotation program, while the track program is 42 weeks. A summary of admission procedures is given, as well as the times and procedures for track selection.     

The ECVP/ESVP summer school in veterinary pathology: high-standard, structured training for young veterinary pathologists

This article describes the ECVP/ESVP Summer School in Veterinary Pathology, a new annual two-week European training facility established by the European College of Veterinary Pathologists (ECVP) in collaboration with the European Society of Veterinary Pathology (ESVP). The aim of the Summer Schools is to provide Europe-wide, harmonized, top-standard theoretical and practical post-graduate training for veterinarians specializing in veterinary pathology. In particular, it aims to support trainees in veterinary pathology in their individual preparation for the ECVP certifying examination. Ultimately, it aims to provide young pathologists with the skills and knowledge necessary to participate in international, high-quality research and the tools for applying international standards to their own research and for independent study for the ECVP certifying examination, even if they do not work in comparable academic environments and do not have the same level of local support and training. The ECVP/ESVP Summer Schools take place in European countries, with local organization from a university department of veterinary pathology. Each event comprises modules provided by internationally recognized specialists in their specific fields of expertise on different organ systems, diseases of specific species, specific techniques, and specific topics relevant to pathology, forming a cycle of four events to cover all major topics. Every two years a mock exam is organized as a tool to monitor individual progress in preparing for the ECVP certifying examination.     

Preparing students for careers in food-supply veterinary medicine: a review of educational programs in the United States

The real and/or perceived shortage of veterinarians serving food-supply veterinary medicine has been a topic of considerable discussion for decades. Regardless of this debate, there are issues still facing colleges of veterinary medicine (CVMs) about the best process of educating future food-supply veterinarians. Over the past several years, there have been increasing concerns by some that the needs of food-supply veterinary medicine have not adequately been met through veterinary educational institutions. The food-supply veterinary medical curriculum offered by individual CVMs varies depending on individual curricular design, available resident animal population, available food-animal caseload, faculty, and individual teaching efforts of faculty. All of the institutional members of the Association of American Veterinary Medical Colleges (AAVMC) were requested to share their Food Animal Veterinary Career Incentives Programs. The AAVMC asked all member institutions what incentives they used to attract and educate students interested in, or possibly considering, a career in food-supply veterinary medicine (FSVM). The problem arises as to how we continue to educate veterinary students with ever shrinking budgets and how to recruit and retain faculty with expertise to address the needs of society. Several CVMs use innovative training initiatives to help build successful FSVM programs. This article focuses on dairy, beef, and swine food-animal education and does not characterize colleges' educational efforts in poultry and aquaculture. This review highlights the individual strategies used by the CVMs in the United States.     

Why self-directed learning is not learned and practiced in veterinary education

Veterinary education as it is frequently implemented creates numerous impediments for the majority of students to achieve self-directed learning. Self-directed learning is a state in which the student is prepared to engage in learning activities defined by him- or herself. Essential components of veterinary education (i.e., curriculum and assessment) inhibit the development of self-directed learning in many ways. This article will make suggestions on how we can promote self-directed learning within traditional veterinary education and discuss how teaching based upon the principles of problem-based learning (PBL) may foster self-directed learning.     

The European College of Veterinary Pathologists (ECVP): the professional body for European veterinary pathologists

The European College of Veterinary Pathologists (ECVP) was established in 1995 with the aim of advancing veterinary pathology and promoting high standards within the specialty in Europe. The ECVP is one of 21 European colleges recognized by the European Board of Veterinary Specialisation (EBVS), which represents a quality-assurance system for European veterinary specialists. Until the ECVP was founded, there was no unified European system recognizing the specialty of pathology, and many European countries followed their own qualification systems, which varied in form and standard. The ECVP provides an annual certifying examination, the passing of which is required to gain membership (diplomate status) in the college. This qualification is now accepted on equal terms by the well-established American College of Veterinary Pathologists (ACVP). In line with EBVS requirements, the ECVP has also established a standard continuing professional development (CPD) and re-registration system for its membership. Furthermore, it has promoted and unified European post-graduate training in veterinary pathology by setting up requirements for residency training programs and making registration and monitoring of these programs by the ECVP a prerequisite for approval of an institution as a training facility. The concurrent establishment, together with the European Society of Veterinary Pathology, of an annual summer school that trains residents for the certifying examination has further fostered European post-graduate training. Within 10 years, the ECVP has succeeded in establishing common standards and a unified approach to veterinary pathology throughout Europe. This article describes the evolution and organization of the ECVP.     

Veterinary public health in a problem-based learning curriculum at the Western University of Health Sciences

As detailed in the Association of Schools of Public Health / Association of American Veterinary Medical Colleges 2007 Joint Symposium on Veterinary Public Health, veterinary public health (VPH) can no longer be viewed as a unique sub-specialty of veterinary medicine. Rather, its practice pervades nearly every aspect of the veterinary profession, regardless of whether the practitioner is engaged in small-animal, large-animal, research, corporate, or military practice. In congruence with the practice of VPH, the teaching of VPH should also pervade nearly every aspect of veterinary education. Accordingly, at Western University of Health Sciences, College of Veterinary Medicine (WU-CVM), public health is not simply taught as an individual course but, rather, is interwoven into almost every aspect of the curriculum, continually emphasizing the relevance of this discipline to the practice of veterinary medicine. This article outlines the teaching philosophy of WU-CVM, provides an overview of the curriculum, and describes the integral nature of public health throughout all four years of the educational program.     

Incorporating an audience response system into veterinary dermatology lectures: effect on student knowledge retention and satisfaction

Veterinary educators are charged with delivering large amounts of information to adult students, who benefit from a more interactive learning environment than is often achieved through didactic lectures. Audience response systems (ARS) with wireless keypad technology facilitate interactive learning and have been used successfully in the education of health professionals. The objectives of this pilot study were to determine the effect of an ARS on the knowledge retention of veterinary dermatology students and to survey student attitudes concerning its use. A cohort-controlled trial was conducted to evaluate the potential benefits of ARS for short-term and long-term knowledge retention. Students also participated in four hours of student-directed case simulations using ARS technology. Students were surveyed regarding opinions on the use of the ARS. The mean short-term knowledge-retention test scores of groups A (ARS+) and B (ARS-) were 81% and 78%, respectively. The mean long-term knowledge-retention test scores of groups A and B were 54% and 55%, respectively. The differences between groups were not significant for either time period (p = 0.32, p = 0.77). Although benefits to short-term and long-term knowledge retention were not detected in this pilot study, all students responding to the survey perceived a benefit and supported the use of ARS in the clinical veterinary curriculum. ARS technology provides a tool for lecturers to create an interactive learning environment well suited for teaching veterinary dermatology.     

Teaching veterinary clinical pathology to undergraduate students: an integrated European project

BACKGROUND: Veterinary clinical pathology is a relatively new and emerging discipline in Europe that has gained momentum with the recent establishment of a specialty college. In this situation, veterinary faculties may face challenges in understanding and defining what clinical pathology is and how it can best be integrated into existing curricula. In addition, many schools in Europe may not yet have available a critical mass of suitably qualified faculty capable of teaching in all areas of clinical pathology. OBJECTIVE: The main purpose of this report is to describe the goals, procedures adopted, teaching material produced, and proposed future activities of a major European initiative designed to develop a veterinary clinical pathology curriculum. METHODS: Four working subgroups were formed to establish a list of course objectives and topics and prepare a series of lectures. These contents were reviewed and discussed several times at a series of general meetings. RESULTS: An undergraduate course on veterinary clinical pathology was designed with course objectives, a list of topics and a CD-ROM consisting of 24 lectures. CONCLUSIONS: The results of this project could be useful in the establishment or improvement of training programs in veterinary clinical pathology at the undergraduate level in Europe and in other places around the world. The provision of teaching resources for faculty could help to instill in veterinary students a strong understanding of the discipline and promote development of advanced training programs and career opportunities in clinical pathology in Europe.     

VMSTP Combined Degree Training (VMD/PhD): key features of the program at the University of Pennsylvania

The Veterinary Medical Scientist Training Program (VMSTP), a combined degree program at the University of Pennsylvania School of Veterinary Medicine (Penn), has been in existence for approximately 35 years and has an excellent track record of producing veterinary physician-scientists. There are a number of key features of the program that I believe have been crucial to its success. Many of these features relate to how the PhD training component of the combined degree program is accomplished. Rather that describing the veterinary training component of the program, I will describe the PhD training component and how this training intersects with the veterinary curriculum. The key features of the VMSTP program at Penn are (1) admitting the right candidates, (2) placing the PhD training component of the program in the hands of individual graduate groups, (3) being committed to PhD training of veterinary students that is not compromised in terms of quality or time, (4) devising mechanisms to interdigitate VMD and PhD training to generate synergy between the programs, (5) providing continual advice to students from numerous perspectives, and (6) providing the monetary and emotional support needed for the long-term commitment students must make in order to complete the program.     

Virchow's contributions to veterinary medicine: celebrated then, forgotten now

In 1858, Rudolf Virchow, the professor of pathology in Berlin University, published the book "Cellular Pathology". A compendium of his lectures to physicians and medical students, he introduced the use of microscopy for the study of human diseases. To an astonishing extent Rudolf Virchow was helpful to the disciplines of veterinary medicine (and veterinary pathology). Considered a scientific genius in several disciplines, this essay deals exclusively with the devotion of Virchow, a scholarly physician, to the profession of veterinary medicine. He respected veterinary research, supported governmental veterinary education, and provided a role model for the veterinarians who were drafting control legislation of contagious diseases in livestock. Repeatedly, he responded in help when seemingly irretrievable problems arose. Examples of Virchow's activities in the realms of veterinary medicine and pathology are marshalled here to shed light on this pioneer "veterinary pathologist". In celebration of 50 years of the American College of Veterinary Pathologists in 1999, it is timely to remember that Rudolf Virchow, the father of cellular pathology, also fathered veterinary pathology, whose offsprings in Canada and the U.S.A. (Osler, Clement, Williams, Olafson, Jones) had enabled them to form and foster the A.C.V.P.     

我国动物药学学科建设及兽医药事管理学教学探讨

随着我国兽药行业的蓬勃发展,动物药学专业应运而生。兽医药事管理学是动物药学专业的重要课程之一,教学目的是使学生能充分掌握、理解我国兽医药事管理法律法规,熟悉兽药研制、生产、流通和使用等各环节质量保证和控制的相关法律法规程序,明确兽药的安全有效与法制化管理的关系。但因我国在该方面起步较晚,该课程设置、教材建设及师资队伍建设等方面都还处在探索阶段,就动物药学学科建设及兽医药事管理教学现状及展望等进行了探讨。     

Veterinary Anatomy Education in Korea

In Korea, there are 10 veterinary schools and about 500 new veterinarians are produced annually. Veterinary education is 6‐year‐system composed of pre‐veterinary (2 yrs) and veterinary course (4 yrs). Total of 28 to 33 subjects are taught in professional curriculum, including 21 of 23 subjects recommended by the World Veterinary Association (WVA) as minimum requirements for veterinary education. Only economics and botany are excluded. Currently, 6648 veterinarians are active in the profession in Korea; about 31% of these in clinical practice and 69% in non‐clinical areas. Korea has 3.5 million pets, 10.4 million livestocks, 105 million chickens, and 0.5 million other animals. In general, 630 livestock units (LU) are covered by each veterinarian. With improvement of economic status and life style change, the number and variety of species of companion animals are expanding, accordingly. Also the importance of molecular biology is recognized and included in the professional curriculum. In these changing times, it is believed that gross anatomy, histology and embryology are essential integral component of found in veterinary education. But the teaching hours of histology, embryology and gross anatomy have reduced 15% during last 5 years due to new subjects. Total teaching hours in professional curriculum is about 4100 hours (pre‐clinical 29%, paraclinical 32%, clinical course 38%). Average 200 hours are allocated for gross anatomy, histology and embryology lecture and average 250 hours for laboratory practice. The number of students per class ranges 40–80 depending on schools. The ratio of male and female students is 6–4, and the teaching faculty and students 1–22. The Korean Association of Veterinary Anatomists (KAVA) recommend one cow, five dogs, two pigs, five goats and 20 chickens per 20 students to be used for the dissection. The students are evaluated using various types of exam such as assignments, written and oral tests. Recently some schools are beginning to adopt block lectures and/or PBL.     

The Utrecht model of teaching veterinary medicine and the role of veterinary parasitology

The Faculty of Veterinary Medicine, University of Utrecht, established a new curriculum for teaching veterinary medicine in 1995 with the main objectives to improve the problem-solving and communication competences of the students and their scientific education. Because it is accepted that graduates cannot get a starting competence in all fields of the veterinary profession, a differentiation of education focused on animal species and life-long learning is emphasised. Major characteristics of this curriculum are a high degree of horizontal and vertical integration of the various disciplines, the preference for teaching in small working groups and the training for self-learning. This curriculum is described in some detail. Parasitology is not taught as a coherent subject but is integrated into various subjects, presented in an interdisciplinary approach. The number of contact hours is variable depending on optional courses and the differentiation tracks taken but it amounts for a minimum of approximately 90 contact hours for each student during the full curriculum. A major disadvantage of the curriculum is that examination of parasitology is within integrated subjects. Thus, students that perform poorly on parasitology may still pass. An advantage is the extended presence of parasitology in the last year of clinical training and the improved interdisciplinary interaction between parasitologists and clinicians. The curriculum has been changed again in 2001; study paths focused on animal species and other subjects start already in the first year, and approximately 25% of the first 4 years of the curriculum will be within these study paths.     

Student perceptions of an animal-welfare and ethics course taught early in the veterinary curriculum

Animal welfare and veterinary ethics are two subjects that have been acknowledged as necessary for inclusion in the veterinary curriculum. In fact, the American Veterinary Medical Association (AVMA) Council on Education has mandated that veterinary ethics be taught to all students in US veterinary colleges. Animal welfare was recently included in the US veterinarian's oath, and AVMA established a committee to create a model curriculum on the subject. At US veterinary colleges, the number of animal-welfare courses has more than doubled from five in 2004 to more than 10 in 2011. How and what is taught with regard to these two subjects may be as important as whether they are taught at all, and a variety of approaches and varying amounts and types of content are currently being offered on them. At Michigan State University's College of Veterinary Medicine, students were introduced to animal welfare and veterinary ethics during their first semester in a mandatory two-credit course. To assess their perception of the course, students completed an online evaluation at the end of the semester. Most students found the course to be challenging and effective and felt that they improved their ability to identify and discuss ethical dilemmas.     

An integrative and case-based approach to the teaching of general and systemic pathology

Since 1993, the pre-clinical phase of the professional (DVM) curriculum at Michigan State University College of Veterinary Medicine has included two pathology courses in which both anatomic and clinical pathologists collaborate to teach concepts in general and systemic pathology. Topics such as inflammation, circulatory disturbances, and neoplasia are taught in this collaborative manner in the year 1 General Pathology course, and pathology of the digestive system (including liver and pancreas), urinary system, and lymphoid system are "team-taught" in the year 2 Clinical and Systemic Pathology course. We feel that this approach gives students an appreciation of the whole-body dynamics of a disease process as it occurs in bone marrow, peripheral blood, body fluids, and tissues and that it leads to a deep understanding of pathologic processes. In addition, the use of "active learning" instructional strategies grounded in case discussions further enhances students' understanding of important concepts by demonstration of practical applications and serves to generate strong interest in learning the subject matter. Integration of concepts of pathology with those taught concurrently in other courses, such as those in physiology and microbiology, is also an important component of pathology instruction in the pre-clinical curriculum.