WAAVP/Pfizer award for excellence in teaching veterinary parasitology: teaching of veterinary parasitology--quo vadis?

Some thoughts on training and recruitment of academic teachers and future trends in teaching veterinary parasitology are presented with emphasis on the European situation. It is underlined that research is an indispensable basis for academic teaching. Besides a broad scientific background of the teacher, motivation and teaching methods are also important. Many academic teachers do not receive formal training in teaching methods. In order to improve future education, training of staff members in teaching methods should be promoted. Quality control of teaching and research, already established in many schools, should generally be introduced. Teaching is mostly underestimated in relation to research. Therefore, more weight should be placed on the former both in selecting scientists for the career as academic teachers and in evaluating and ranking departments for their academic activities. In the future veterinary medicine will have to cope with profound changes in the society and the veterinary profession, and the progressing European unification will enhance trends for internationalizing teaching curricula. Therefore, veterinary medicine has to reconsider the teaching subjects and methods and to lay more emphasis on flexibility, skills of problem-solving and self-learning and on training for life-long learning. At present there is an ongoing discussion on the question how to teach veterinary medicine, including veterinary parasitology. There are various options, and some of them are discussed, namely, the disciplinary and the problem-based/organ-focussed approaches. It is concluded that for teaching of veterinary parasitology and related disciplines a combined disciplinary and problem-based approach offers the best chances for fulfilling the requirements of teaching for the future. In the curriculum of undergraduate teaching of veterinary medicine at least 70-90 h should be dedicated to veterinary parasitology using a disciplinary and taxonomic approach. Additional hours are required for instructions on clinical cases in approaches focussed on animal species and/or organ diseases. As there is a need for discussing teaching issues, post-graduate specialization, and continuing education in parasitology and related disciplines on national and international levels, it is recommended to WAAVP to include regular workshops on teaching in the programmes of the biannual conferences, and to establish a permanent committee which should collect information and submit proposals for improvement of teaching veterinary parasitology.     

Teaching of veterinary parasitology: the Italian perspective

The curriculum in veterinary medicine in Italy is undergoing important changes, as in the rest of Europe. The 2001 fall semester will mark the beginning of a new format for the degree in veterinary medicine and these changes will obviously affect the teaching of veterinary parasitology. In Italy, veterinary parasitology is usually taught in the third year with a disciplinary approach, similar to that described by Euzéby [Vet. Parasitol. 64 (1996) 21] and Eckert [Vet. Parasitol. 88 (2000) 117]. Approximately 90 h of lectures and 40 h of laboratory are offered and are usually divided into parasitology, followed by parasitic diseases. A more problem-oriented approach to parasitology is offered to fifth-year students within several professional routes (large animal medicine, small animal medicine, hygiene and food safety, etc.), amounting to approximately 15-60 h per student. Indeed, in the last year of study, there are less students and it is possible to present clinical cases and orient the students towards team work and critical discussion. This new curriculum guarantees a reduction in the number of lecture hours and an increase in both laboratory work and personal study, as suggested by the guidelines of the European association of establishment for veterinary education (EAEVE).     

Undergraduate teaching of veterinary parasitology in Africa

The undergraduate teaching of veterinary parasitology in an African perspective is reviewed. Information was gathered from 8 of approximately 20 veterinary schools/faculties in Africa. In order to compare teaching in the different schools a standard questionnaire was designed for collecting data on different aspects of the curriculum, including the curriculum structure, the year(s) in which veterinary parasitology is taught, the contact hours allocated to teaching and the methods of teaching. The results of the eight faculties/schools reveal that veterinary parasitology is taught in a disciplinary approach allocating a total of 90-198 h to lectures (46-75%) and practicals 38-196 h (25-54%) during the full curriculum. There are considerable differences in structure of the curricula and methods of teaching undergraduate veterinary parasitology between the various schools/faculties. Availability of teaching staff and the cost of running practical classes are the most limiting factors in teaching of veterinary parasitology. There is a need to constantly review the curriculum of undergraduate veterinary parasitology and to standardise the materials and methods in light of new knowledge.     

《动物寄生虫病学》课程教学方法的改革与实践

动物寄生虫病学是一门由一般生物学和兽医学构成的综合性学科,是阐明寄生于动物的各种寄生虫及其对动物所发生影响和所引起疾病的科学,是动物医学和畜牧兽医专业的一门专业基础课。通过对以往教学方法的改革和教学过程的实践,在教学过程中不仅改进常规教学方法,同时还增加学术论文的使用和实践操作的类型及时间比例,获得良好的教学效果。介绍了《动物寄生虫病学》课程的教学现状,并阐述了该课程教学方法改革与实践工作中的几点体会。     

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.     

Teaching veterinary parasitology throughout the world

In order to understand how the teaching of parasitology in veterinary schools and faculties in the world is carried out, a questionnaire was sent to all centres listed in the W.H.O. World Directory. A total of 91 replies were received. Additional information was obtained from the report of a symposium held in Hannover, Germany in 1978 and from the Education Committee of the American Association of Veterinary Parasitologists in 1981. The academic level, the place of parasitology in the veterinary curriculum, textbooks and practical instruction, evaluation techniques, teaching staff, institute organization and publications are discussed.     

Teaching of undergraduate veterinary parasitology: the South American perspective

Undergraduate teaching of veterinary parasitology in South American countries is basically similar to most of the veterinary schools and offers lectures and practicals in parasitology (P) predominantly in the second year of the curriculum, and parasitic diseases (PD) in the third year, but in some schools also in the fourth and fifth years. However, there is a great variation in teaching hours allocated to P/PD between totals of about 50-169 h during the full curriculum. In addition to the lectures and practicals, schools are increasingly using tools (CD-ROMs) for self-instruction and new forms of education, such as workshops, round tables, and field practicals. The large number of important parasite species of large and small animals in tropical and subtropical areas would require additional hours for teaching--at least in some of the schools--considering the multidisciplinary characteristics of veterinary parasitology.     

Teaching veterinary parasitology: the North American perspective

The American Association of Veterinary Parasitologists (AAVP) initiated a study of parasitology curricula in veterinary schools in the US and Canada in November 1989. An ad hoc committee (Task Force) and then the Education Committee developed a position paper on teaching parasitology in veterinary colleges. In addition to confirming the importance of parasitology as a discipline they recommended a set of general learning objectives and proposed topic-specific titles rather than parasite-/group-specific titles. Another problem observed in teaching parasitology was a significant reduction in time available to teach parasitology. One way to compensate for the lost classroom time is to utilize some of the technological advances in presenting the material to students.     

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.     

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.     

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。     

Canada and Veterinary Parasitology

A World Association for the Advancement of Veterinary Parasitology tradition for its conference is to present some highlights of the country hosting the event, and with an emphasis on the history of, and research in, veterinary parasitology. A review of Canada's peoples, physiography, climate, natural resources, agriculture, animal populations, pioneers in veterinary parasitology, research accomplishments by other veterinary parasitologists, centres for research in veterinary parasitology, and major current research had been presented at a World Association for the Advancement of Veterinary Parasitology Conference in Canada in 1987, and was published. The present paper updates the information on the above topics for the 22 years since this conference was last held in Canada.     

加强兽医寄生虫学标本室建设 提升寄生虫形态学教学水平

为了提升寄生虫形态学教学水平,充分利用内蒙古农业大学预防兽医学寄生虫教研室积累的大量寄生虫标本进行授课,通过加强兽医寄生虫标本室建设和兽医寄生虫学实验教学改革探索,提升标本管理水平及寄生虫标本服务教学的水平,以期为该课程的教学改革提供思路。     

Teaching of undergraduate veterinary parasitology in some European countries

A review revealed that at 20 veterinary faculties in European countries parasitology is represented in the curriculum of veterinary medicine with an average of 105 core contact hours, devoted to lectures (58%) and practicals (42%). However, there is a high diversity between faculties with ranges of total contact hours between 48 and 156. Three faculties are close to the minimum of 70 core contact hours recommended by WAAVP (2002), and one faculty is below this limit. In one of the faculties parasitology is completely integrated into interdisciplinary teaching activities, in some others there are developments in this direction which include the risk of dissolving parasitology as a discipline. One faculty with a high degree of integrated teaching has already abolished the parasitological examination. Parasitology is preferentially taught in the years three, four and five of the curriculum, but there is great variation between the faculties. Most teachers in the faculties are veterinarians. In many faculties the large numbers of students and the unsatisfactory academic teaching staff:student ratio represent a significant problem. This problem may increase with more teaching obligations caused by new curricula. Due to the high diversity in content and structure of teaching curricula of veterinary medicine between veterinary faculties in Europe international and even national exchange of students is inhibited. Therefore, and for many other reasons more activities should be initiated towards harmonisation of the study curricula in Europe.     

高等农业院校《兽医产科学》课程教学改革与创新研究

兽医产科学是高等农业院校兽医学教学中一门基础分支学科,主要研究动物的生理生殖、生殖疾病及繁殖技术。随着兽医学科的不断进步和国家畜牧产业发展和结构调整,向行业输送应用型、创新型、技能型兽医人才已成为农业院校人才培养的主要目标。对目前兽医产科学教学现状及存在问题进行了分析,探索了教学内容、教学方法、教学实践等方面的改革与创新研究,以期为提高我国高等农业院校兽医人才培养提供参考。     

《兽医内科学》课堂教学供给侧改革的探索与实施

兽医内科学是动物医学专业理论性、实践性很强的一门核心课程,要求学生具备分析、解决临床实践问题的综合能力。课堂教学是课程实施的前沿阵地,而课堂教学与临床实践之间的专业脱节,是影响兽医内科学培养目标达成的突出问题。文章从农林教育专业和课程供给侧改革视域下,从教学大纲、教学资源、教学方法及教学评价等四个方面对兽医内科学课堂教学进行优化,以增强兽医内科学课堂教学对专业实践能力培养的供给侧支撑力度,保障动物医学人才培养目标的有效达成。     

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。     

Resident and graduate training in veterinary nutrition

Training programs for veterinarians seeking board certification by the American College of Veterinary Nutrition (ACVN) are structured in one of two ways: (1) as programs similar to specialty training in other clinical disciplines or (2) as graduate programs leading to advanced degrees combined with clinical training. Residency training occurs through a variety of approaches, including didactic coursework, case-based and applied learning, clinical training, teaching, research, and self-study. Challenges to successful residency and graduate training include low numbers of diplomates, particularly at veterinary schools; low numbers of applicants; small numbers of funded programs; and faculty promotion systems that do not reward residency or graduate training and program development. The mentoring of individuals seeking both board certification and a graduate degree presents additional considerations, including recruitment of individuals motivated in research and structuring a combined program that facilitates completion of both tasks in a timely fashion.