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Human anatomy in physical therapy programs is a basic science course serving as a foundation for subsequent clinical courses. Integration of anatomy with a clinical emphasis throughout a curriculum provides opportunities for reinforcement of previously learned material. Considering the human cadaver laboratory as a fixed cost to our program, we sought opportunities to add value to the resource via vertical integration into a clinical skills course taught later in the curriculum. We designed an opportunity for second-year physical therapy students to revisit the human anatomy laboratory to study select clinical musculoskeletal tests and the associated anatomy in a clinically relevant context. Students performed select orthopedic ligament test on human cadavers, then incised specific structures and repeated the tests. Students were able to feel and visualize the function of pertinent anatomy associated with the clinical tests. Ninety-five percent of respondents reported that the ligament stress testing experience enhanced their understanding of orthopedic clinical tests with 91% reporting an enhanced understanding of anatomy related to specific clinical tests. Likewise, the experience was perceived as enjoyable and valuable with 86% of respondents reporting the experience as enjoyable and 100% responding the experience should continue as part of the curriculum.  相似文献   
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The action of muscles about joints can be explained through analysis of their spatial relationship. A functional model of these relationships can be valuable in learning and understanding the muscular action about a joint. A model can be particularly helpful when examining complex actions across multiple joints such as in the digital extensor mechanism of the hand. A functional model using two hair bands representing the components of the digital extensor mechanism is described. Through superimposition of the model over one's digit, the combined actions of metacarpophalangeal joint flexion and interphalangeal joint extension are clearly demonstrated. The model provides a conceptual demonstration to enhance understanding of this unique combination of muscle actions about multiple joints. Anat Sci Educ, 2010. © 2010 American Association of Anatomists.  相似文献   
3.
Physical Therapy students at the College of Medicine, Mayo Clinic in Rochester, Minnesota receive instruction at the cadaver during a second year musculoskeletal course. In this issue of ASE Dr. Krause and his colleagues from the Doctoral Program in Physical Therapy share their experience developing a clinical skills course in a human gross anatomy laboratory.  相似文献   
4.
An audience response system (ARS) has become popular among educators in medicine and the health professions because of the system's ability to engage listeners during a lecture presentation. No one has described the usefulness of ARS technology during planned nonlecture peer teaching sessions in gross anatomy instruction for health professionals. The unique feature of each peer teaching session was a nongraded 12–15 item ARS quiz assembled by six second‐year doctor of physical therapy (DPT) students and purposely placed at the beginning of the review session for those first‐year DPT students in attendance. This study used a ten‐item questionnaire and a five‐point Likert scale in addition to three open ended questions to survey perceptions of both first‐year and second‐year DPT students about the usefulness of ARS technology implemented during weekly interactive peer teaching sessions during a semester course in Anatomy for Physical Therapists. First‐year students overwhelmingly acknowledged the ARS system permitted each student to self‐assess his/her preparedness for a quiz or examination and compare his/her performance with that of classmates. Peer teachers recognized an ARS quiz provided them an opportunity to: (1) estimate first‐year students' level of understanding of anatomical concepts; and (2) effectively prepare first‐year students for their weekly quizzes and future examinations. On the basis of the mutual benefits derived by both students/tutees and teachers/tutors, physical therapist educators may wish to consider using ARS technology to enhance teaching methods for a class in gross human anatomy. Anat Sci Educ 2: 286–293, 2009. © 2009 American Association of Anatomists.  相似文献   
5.
Interprofessional education (IPE) in clinical practice is believed to improve outcomes in health care delivery. Integrating teaching and learning objectives through cross discipline student interaction in basic sciences has the potential to initiate interprofessional collaboration at the early stages of health care education. Student attitudes and effectiveness of IPE in the context of a combined gross anatomy course for first‐year students in Doctor of Physical Therapy (DPT) and Doctor of Medicine (MD) degrees curricula were evaluated. Integrated teams of MD and DPT students participated in part of the gross anatomy dissection course at Mayo Medical School. A survey was administered to 42 MD and 28 DPT students that assessed their attitudes toward IPE and cooperation among health care professionals. Pre‐ and post‐experience surveys were evaluated. Positive comments were related to opportunities for developing a better understanding of the nature and scope of each other's programs, encouraging teamwork and communication, mutual respect, and reducing the perceptual divide between disciplines. Ninety‐two percent of the students agreed that interprofessional learning would help them in becoming a more effective member of the health care team. This initial experience with IPE in gross anatomy provides a basis for continued development of interdisciplinary educational strategies. Anat Sci Ed 1:258–263, 2008. © 2008 American Association of Anatomists.  相似文献   
6.
Medical professionals and public consumers expect that new physical therapy graduates possess cognitive, technical, and behavioral skills required to provide safe and high‐quality care to patients. The purpose of this study was to determine if a repertoire of ten professional behaviors assessed at the beginning of doctorate of physical therapy education and before the first significant clinical internship could be enhanced in a semester course in gross human anatomy using individual formative feedback. During the human anatomy course, 28 first‐year physical therapy students completed six biweekly, anonymous self‐ and peer assessment surveys that targeted ten professional behaviors important to physical therapists. All professional behaviors were assessed using a five‐point Likert scale. Feedback reports occurred at week eight (mid‐semester) and week 16 (end‐of‐semester) and comprised the direct intervention components of this study. At the midpoint of the semester, professional behavior scores and narrative comments from weeks two, four, and six were compiled and shared with each student by one of three faculty members in a feedback session. Students then submitted biweekly self‐and peer professional behavior assessments (weeks 10, 12, and 14) for the remainder of the human anatomy course. Differences between preintervention and postintervention scores for each of the ten professional behaviors were compared using the Wilcoxon signed‐ranks test. Upon receiving mid‐semester individual feedback, students demonstrated significant improvement in each of the ten professional behaviors. Results from this study indicated a gross anatomy laboratory dissection experience during the first academic semester provided an effective opportunity for teaching and assessing professional behaviors of doctoral students in physical therapy. Anat Sci Educ 6: 324–331. © 2013 American Association of Anatomists.  相似文献   
7.
Despite nearly 200 accredited entry‐level physical therapist education programs in the United States that culminate in a doctoral degree, only a paucity of reports have been published regarding the efficacy of peer teaching in gross anatomy. No one has described the usefulness of peer teaching from the viewpoint of the peer teacher. An organized peer teaching method provided by four second‐year doctors of physical therapy (DPT) students in a semester course in gross anatomy had a positive impact on the academic performance in gross anatomy of first‐year DPT students. The unique feature of the weekly peer teaching sessions was a packet assembled by the second‐year peer teachers, which contained diagrams, fill‐in‐the blank questions, and helpful mnemonic devices. This study surveyed perceptions of first‐year DPT students in response to a peer teaching method, using a structured 10‐item questionnaire and a five‐point Likert scale. Second‐year DPT peer teachers provided written reflections about the benefits and challenges of serving as a peer teacher. Results revealed that 13 planned peer‐teaching experiences provided by four second‐year DPT students were valuable and promoted a firm understanding of anatomical relationships important for the clinical competence of physical therapist students. Moreover, peer teachers acknowledged acquiring clinically desirable teaching, academic, organizational, and time management skills from the experience. As a result, physical therapist educators may wish to consider this model of peer teaching to augment their teaching strategies for a class in gross human anatomy. Anat Sci Ed 1:199–206, 2008. © 2008 American Association of Anatomists.  相似文献   
8.
Quality of healthcare delivery is dependent on collaboration between professional disciplines. Integrating opportunities for interprofessional learning in health science education programs prepares future clinicians to function as effective members of a multi‐disciplinary care team. This study aimed to create a modified team‐based learning (TBL) environment utilizing ultrasound technology during an interprofessional learning activity to enhance musculoskeletal anatomy knowledge of first year medical (MD) and physical therapy (PT) students. An ultrasound demonstration of structures of the upper limb was incorporated into the gross anatomy courses for first‐year MD (n = 53) and PT (n = 28) students. Immediately before the learning experience, all students took an individual readiness assurance test (iRAT) based on clinical concepts regarding the assigned study material. Students observed while a physical medicine and rehabilitation physician demonstrated the use of ultrasound as a diagnostic and procedural tool for the shoulder and elbow. Following the demonstration, students worked within interprofessional teams (n = 14 teams, 5–6 students per team) to review the related anatomy on dissected specimens. At the end of the session, students worked within interprofessional teams to complete a collaborative clinical case‐based multiple choice post‐test. Team scores were compared to the mean individual score within each team with the Wilcoxon signed‐rank test. Students scored higher on the collaborative post‐test (95.2 ±10.2%) than on the iRAT (66.1 ± 13.9% for MD students and 76.2 ±14.2% for PT students, P < 0.0001). Results suggest that this interprofessional team activity facilitated an improved understanding and clinical application of anatomy. Anat Sci Educ 11: 94–99. © 2017 American Association of Anatomists.  相似文献   
9.
The two dams and that damned paresis   总被引:1,自引:0,他引:1  
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