排序方式: 共有165条查询结果,搜索用时 218 毫秒
31.
职高学生基础普遍比较差,大多数对学习提不起兴趣,记忆力虽正处于高峰期,但都不用心记忆。由于学习目的不明确、不懂得学习的重要性,他们只对自己感兴趣的事物有记忆力,对各种专业知识的学习兴趣不高。针对职高学生的特点及记忆的特点,作者在近20年的教学经验的基础上,始终积极探索如何让学生在课堂中愉悦地记住各种解剖学名词,在课堂中做了一些尝试,收到了一定的效果。 相似文献
32.
Daniele B. Conte Milena Zancanaro André Guollo Luana R. Schneider Rafael G. Lund Sinval A. Rodrigues-Junior 《Anatomical sciences education》2021,14(1):99-109
This systematic review aimed to identify the level of impact of educational strategies for teaching tooth carving on the carving ability of undergraduate dental students. The PubMed-NCBI, Cochrane-CENTRAL, LILACS, Ibecs, BBO, Web of Science, and Scopus databases were searched in May 2019, for randomized controlled trials (RCTs) and two-arm non-randomized studies of interventions (NRSI) addressing educational interventions toward the dental carving of undergraduate students. Studies from the year 2000 until the search date, written in English, Portuguese, and Spanish were included. Study screening and data extraction were performed in duplicate and blinded. The data were presented narratively, considering the dental carving ability of students the primary outcome. The risk of bias was assessed using the RoB tool 2.0 and ROBINS-I, and the level of evidence was determined with GRADE. Of 3,574 studies, 6 were included, with 3 RCTs and 3 NRSIs. Very low level of evidence was provided from the NRSIs that flipped classroom (1 study; n = 140) and a student-driven revised module (1 study; n = 264) improved the carving ability of students. Additionally, there was moderate evidence of online complementary material (1 RCT; n = 30) and reinforcement class improving the carving ability of students (1 RCT; n = 29). The replacement of traditional classes by an instructional DVD (1 RCT; n = 73) and assessment of carving projects through digital systems (1 NRSI; n = 79) did not enhance the carving ability of students. Study design, risk of bias, and imprecision downgraded the level of evidence. There was a very low to moderate evidence on the effectiveness of student-driven educational approaches and complementary classes of dental anatomy in improving the dental carving ability of students. 相似文献
33.
Fewer and fewer programs are training graduate students and postdoctoral fellows in the classical anatomical disciplines. Nonetheless, there remains a need at all levels of clinical and basic science education for skilled instructors of anatomy, histology, and embryology. Two sessions at the 2006 annual meeting of the American Association of Anatomists (AAA) explored whether a system of accreditation would benefit students, institutions, and training programs. Although the value of accreditation was controversial, three challenges for the various anatomical societies emerged from these discussions: (1) To identify the skills and knowledge that should be shared among all anatomists, and the more specific skills and knowledge needed for the diverse settings in which anatomists work. (2) To address the historical inattention of institutions to the training of educators. (3) To develop strategies to lobby institutions and national organizations to support the training and work of educators in the anatomical sciences. One approach to meeting these challenges would be to develop guidelines for training programs. These guidelines would help graduate students seek the training they need, provide institutions with a benchmark to assess or develop training programs, and provide the basis for focusing lobbying efforts targeted at institutions or existing accreditation bodies. Anat Sci Ed 1:60–67, 2008. © 2008 American Association of Anatomists. 相似文献
34.
Sarah Joslin 《Anatomical sciences education》2008,1(3):133-134
Changes in anatomy education over the last two decades have, in large part, led to less emphasis on gross anatomy in the medical curriculum. This has led many to question whether streamlined anatomy courses truly provide adequate preparation for medical practice. Rather than wondering about the effects of these changes, we should be actively seeking answers and promoting understanding between professors, clinicians, and students about what anatomy education is and what it should be. Anat Sci Ed 1:133–134, 2008. © 2008 American Association of Anatomists. 相似文献
35.
Christo T. Philip Kenneth P. Unruh Nirusha Lachman Wojciech Pawlina 《Anatomical sciences education》2008,1(3):106-110
Translating basic sciences into a clinical framework has been approached through the implementation of various teaching techniques aimed at using a patient case scenario to facilitate learning. These techniques present students with a specific patient case and lead the students to discuss physiological processes through analysis of provided data supported by independent learning and research. However, no literature exists that describes a reverse teaching methodology in which students are given disease diagnosis and then asked to construct a patient case. This article discusses an explorative learning approach introduced in the gross anatomy course in which students were asked to use clinical skills and reasoning to create a patient case. The online knowledge‐sharing portal utilizing MediaWiki provided a necessary base for students in completing their task. Teams were given 4 weeks to complete their written online project with weekly feedback provided by 3rd year teaching assistants using the Wiki discussion page. A survey was performed to assess competence regarding a patient write up and oral presentation. Skills that the teams acquired through the completion of this project will benefit future patient interactions. This project also emphasized and reinforced the importance of effective communication, leadership, and teamwork. This study shows that a clinical anatomy project that incorporates explorative learning can be an effective way of introducing students to the skills needed for patient write ups and oral presentations. Furthermore this approach to learning allows students to excel during their clinical years and to correlate anatomy to clinical diagnoses. Anat Sci Ed 1:106–110, 2008. © 2008 American Association of Anatomists. 相似文献
36.
Andrei L. Turinsky Elena Fanea Quang Trinh Stephen Wat Benedikt Hallgrímsson Xiaoli Dong Xueling Shu Julie N. Stromer Jonathan W. Hill Carol Edwards Brenda Grosenick Masumi Yajima Christoph W. Sensen 《Anatomical sciences education》2008,1(1):10-18
The authors have created a software system called the CAVEman, for the visual integration and exploration of heterogeneous anatomical and biomedical data. The CAVEman can be applied for both education and research tasks. The main component of the system is a three‐dimensional digital atlas of the adult male human anatomy, structured according to the nomenclature of Terminologia Anatomica. The underlying data‐indexing mechanism uses standard ontologies to map a range of biomedical data types onto the atlas. The CAVEman system is now used to visualize genetic processes in the context of the human anatomy and to facilitate visual exploration of the data. Through the use of Java? software, the atlas‐based system is portable to virtually any computer environment, including personal computers and workstations. Existing Java tools for biomedical data analysis have been incorporated into the system. The affordability of virtual‐reality installations has increased dramatically over the last several years. This creates new opportunities for educational scenarios that model important processes in a patient's body, including gene expression patterns, metabolic activity, the effects of interventions such as drug treatments, and eventually surgical simulations. Anat Sci Ed 1:10–18, 2008. © 2007 American Association of Anatomists. 相似文献
37.
Hayes JA Ivanusic JJ le Roux CM Hatzopoulos K Gonsalvez D Hong S Durward C 《Anatomical sciences education》2011,4(5):280-284
After Phnom Penh was liberated from the Khmer Rouge in 1979, health science education in Cambodia had to be completely rebuilt. In this article, the authors report the results of a teaching collaboration between the University of Melbourne (Australia), the International University (Cambodia), and the University of Health Sciences (Cambodia). The main objectives in this collaboration were to provide the opportunity for dental and medical students in Cambodia to attend resourced anatomy workshops and to provide an opportunity for anatomy teachers in Cambodia to gain experience in implementing anatomy workshops of the style that are routinely used in the medical and dental curricula at the University of Melbourne. Experienced anatomy educators from the Department of Anatomy and Cell Biology, University of Melbourne, designed and resourced a series of workshops and then delivered these in collaboration with Cambodian teaching staff in Phnom Penh. The Cambodian students who participated in the workshops were incredibly engaged and enthusiastic. The students' evaluations (by questionnaire) indicated a very positive response to the workshops. All of the workshop resources were donated to the two universities so that the staff could continue to implement similar workshops, and plans were developed to continue our collaboration by developing more resourced workshops for this purpose in the future. Two staff members from Cambodia will travel to Melbourne to participate in anatomy workshops and dissection classes at the University of Melbourne. We hope that this extension of the collaboration provides further support and impetus for the development of anatomy education in Cambodia in the future. 相似文献
38.
Medical students at the Cleveland Clinic Lerner College of Medicine of Case Western Reserve University receive instruction from a resident at the cadaver during their anatomy course. As discussed by McBride and Drake in this issue of ASE, residents teaching in the anatomy course at his institution who satisfy specific requirements qualify for an academic appointment as a Clinical Instructor. 相似文献
39.
通过对南方红豆杉木材宏观、显微构造及管胞长度分布频率的研究,并与国产红豆杉属其他种木材进行对比.结果表明,南方红豆杉木材构造特征与红豆杉属其它种的木材十分近似,但在早晚材变化缓急、木射线细胞组成及早材交叉场纹孔类型与紫杉明显不同;南方红豆杉管胞弦向宽度与红豆杉和云南红豆杉相近,但长度较短,紫杉管胞则比南方红豆杉粗短;南方红豆杉管胞长度分布频率早晚材均呈正态分布;天然林的南方红豆杉管胞长度比人工林的明显要短. 相似文献
40.
Recognition of anatomical landmarks in live animals (and humans) is key for clinical practice, but students often find it difficult to translate knowledge from dissection‐based anatomy onto the live animal and struggle to acquire this vital skill. The purpose of this study was to create and evaluate the use of an equine anatomy rug (“Anato‐Rug”) depicting topographical anatomy and key areas of lung, heart, and gastrointestinal auscultation, which could be used together with a live horse to aid learning of “live animal” anatomy. Over the course of 2 weeks, 38 third year veterinary students were randomly allocated into an experimental group, revising topographical anatomy from the “Anato‐Rug,” or a control group, learning topographical anatomy from a textbook. Immediately post activity, both groups underwent a test on live anatomy knowledge and were retested 1 week later. Both groups then completed a questionnaire to ascertain their perceptions of their learning experiences. Results showed that the experimental groups scored significantly higher than the control group at the first testing session, experienced more enjoyment during the activity and gained more confidence in identifying anatomical landmarks than the control group. There was not a significant difference in scores between groups at the second testing session. The findings indicate that the anatomy rug is an effective learning tool that aids understanding, confidence, and enjoyment in learning equine thorax and abdominal anatomy; however it was not better than traditional methods with regards to longer term memory recall. Anat SciEduc. © 2012 American Association of Anatomists. 相似文献