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1.
Vet Surg ; 2023 Nov 01.
Artigo em Inglês | MEDLINE | ID: mdl-37915112

RESUMO

OBJECTIVE: To evaluate the effect of training with a high-fidelity surgical simulator on outcomes of live animals and students participating in a feline ovariohysterectomy teaching laboratory. STUDY DESIGN: Nonrandomized controlled trial. SAMPLE POPULATION: Cats (n = 186) and students (n = 146). METHODS: Live animals were paired with student surgeons. Outcomes for animals and students were evaluated over two consecutive years before (year 1: NO SIM) and after (year 2: SIM) the introduction of a graded student teaching laboratory conducted on a high fidelity surgical simulator. Live animal surgical times and postoperative pain scores using the Glasgow Composite Measure Pain Scale - Feline acute pain scale as well as self-declared student confidence were assessed and the scores of the two groups were compared. RESULTS: The duration of the live animal surgical procedure was on average 6 min shorter in the SIM group (p = .04). A pain score triggering intervention (> = 5/20) occurred less frequently in the SIM group (n = 1/82) than in the NO-SIM (n = 16/104) group (p < .01). Similarly, rescue analgesia was administered less frequently (4/82 vs 16/104, p = .03) in the SIM group. Student confidence prior to the live animal procedure was higher (median = 7/10 [IQR = 6-8]) in the SIM group than in the NO-SIM group (median = 6/10 [IQR = 4-7]) (p < .01). CONCLUSION: Surgical simulator training prior to live animal procedures improves live animal outcomes and student confidence. CLINICAL SIGNIFICANCE: Surgical simulator competency should be considered a prerequisite to participation in live animal teaching laboratories. This would improve both animal welfare and the student experience.

2.
J Vet Med Educ ; : e20220125, 2023 Apr 27.
Artigo em Inglês | MEDLINE | ID: mdl-37104468

RESUMO

Given the global threat of antimicrobial resistance, it is imperative that veterinary graduates are effective antimicrobial stewards. Veterinary students learn the principles of antimicrobial stewardship explicitly, through pre-clinical coursework, and implicitly, through the cases they each encounter on clinical rotations. We aimed to understand the influence of pre-clinical versus clinical learning on veterinary students' knowledge and awareness of antimicrobial concepts to guide efforts to improve instruction in these areas. To assess knowledge acquisition and to explore student perceptions of antimicrobial stewardship, a standardized online survey was administered to Cornell University veterinary students at two timepoints: in August 2020 before clinical rotations (N = 26 complete responses and N = 24 partial responses) and again in May 2021 after their clinical rotations (N = 17 complete responses and N = 6 partial responses). Overall and section-specific confidence and knowledge scores were calculated, using pairwise deletion for incomplete responses. Students generally had low confidence in antimicrobial topics and correctly answered only half of knowledge questions correctly; they performed the best on antimicrobial resistance knowledge questions. There were no significant differences in knowledge or confidence after clinical rotations. On average, students had only read one antimicrobial stewardship guideline. Students reported that human health care providers contributed more to antimicrobial resistance than veterinarians. In conclusion, graduating veterinary students at our institution have significant knowledge gaps in critical principles that are essential to become antimicrobial stewards. Explicit instruction in antimicrobial stewardship is necessary in the pre-clinical and clinical coursework, and the practical use of antimicrobial stewardship guidelines should be emphasized.

3.
J Vet Med Educ ; 48(1): 14-20, 2021 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-33594954

RESUMO

Numerous educational studies have shown that passive learning methods are frequently associated with disappointing learning outcomes, yet many faculty instructors continue to rely on passive didactic lectures. This article describes the creation of an active learning teaching approach-referred to as the collaborative, case-based classroom-that combines three pedagogical strategies: peer-assisted learning, case-based learning, and just-in-time teaching. Data from student surveys of a third-year cardiology elective showed a preference for this teaching approach compared with a case-based lecture. Six major themes emerged from survey analysis: engagement/interactivity, instructional benefit, clinical reasoning, clinical relevance, peer-assisted learning, and timely feedback. Although detailed here in the context of a cardiology elective, the collaborative, case-based classroom is a teaching approach that could be modified to fit a variety of other teaching environments.


Assuntos
Educação em Veterinária , Animais , Docentes , Humanos , Aprendizagem Baseada em Problemas , Estudantes , Ensino
4.
J Vet Med Educ ; 44(3): 552-562, 2017.
Artigo em Inglês | MEDLINE | ID: mdl-28876990

RESUMO

Curricular review is considered a necessary component for growth and enhancement of academic programs and requires time, energy, creativity, and persistence from both faculty and administration. At Texas A&M College of Veterinary Medicine & Biomedical Sciences (TAMU), the faculty and administration partnered with the university's Center for Teaching Excellence to create a faculty-driven, data-enhanced curricular redesign process. The 8-step process begins with the formation of a dedicated faculty curriculum design team to drive the redesign process and to support the college curriculum committee. The next steps include defining graduate outcomes and mapping the current curriculum to identify gaps and redundancies across the curriculum. Data are collected from internal and external stakeholders including veterinary students, faculty, alumni, and employers of graduates. Data collected through curriculum mapping and stakeholder engagement substantiate the curriculum redesign. The guidelines, supporting documents, and 8-step process developed at TAMU are provided to assist other veterinary schools in successful curricular redesign. This is the first of a two-part report that provides the background, context, and description of the process for charting the course for curricular change. The process involves defining expected learning outcomes for new graduates, conducting a curriculum mapping exercise, and collecting stakeholder data for curricular evaluation (steps 1-4). The second part of the report describes the development of rubrics that were applied to the graduate learning outcomes (steps 5-8) and engagement of faculty during the implementation phases of data-driven curriculum change.


Assuntos
Currículo/tendências , Educação em Veterinária/organização & administração , Avaliação de Processos em Cuidados de Saúde , Faculdades de Medicina Veterinária/organização & administração , Educação em Veterinária/normas , Humanos , Faculdades de Medicina Veterinária/normas , Texas
5.
J Vet Med Educ ; 44(3): 563-569, 2017.
Artigo em Inglês | MEDLINE | ID: mdl-28876991

RESUMO

Curricular review is considered a necessary component for growth and enhancement of academic programs and requires time, energy, creativity, and persistence from both faculty and administration. On a larger scale, a comprehensive redesign effort involves forming a dedicated faculty redesign team, developing program learning outcomes, mapping the existing curriculum, and reviewing the curriculum in light of collected stakeholder data. The faculty of the Texas A&M University College of Veterinary Medicine & Biomedical Sciences (TAMU) recently embarked on a comprehensive curriculum redesign effort through partnership with the university's Center for Teaching Excellence. Using a previously developed evidence-based model of program redesign, TAMU created a process for use in veterinary medical education, which is described in detail in the first part of this article series. An additional component of the redesign process that is understated, yet vital for success, is faculty buy-in and support. Without faculty engagement, implementation of data-driven curricular changes stemming from program evaluation may be challenging. This second part of the article series describes the methodology for encouraging faculty engagement through the final steps of the redesign initiative and the lessons learned by TAMU through the redesign process.


Assuntos
Currículo/tendências , Educação Médica/organização & administração , Educação em Veterinária/organização & administração , Docentes de Medicina , Educação Médica/normas , Educação em Veterinária/normas , Humanos , Inovação Organizacional , Avaliação de Programas e Projetos de Saúde , Texas
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