Robbert Duvivier scite author profile

In this article, we outline criteria for good assessment that include: (1) validity or coherence, (2) reproducibility or consistency, (3) equivalence, (4) feasibility, (5) educational effect, (6) catalytic effect, and (7) acceptability. Many of the criteria have been described before and we continue to support their importance here. However, we place particular emphasis on the catalytic effect of the assessment, which is whether the assessment provides results and feedback in a fashion that creates, enhances, and supports education. These criteria do not apply equally well to all situations. Consequently, we discuss how the purpose of the test (summative versus formative) and the perspectives of stakeholders (examinees, patients, teachers-educational institutions, healthcare system, and regulators) influence the importance of the criteria. Finally, we offer a series of practice points as well as next steps that should be taken with the criteria. Specifically, we recommend that the criteria be expanded or modified to take account of: (1) the perspectives of patients and the public, (2) the intimate relationship between assessment, feedback, and continued learning, (3) systems of assessment, and (4) accreditation systems.

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2018 Consensus framework for good assessment

Norcini

et al. 2018

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Students’ Views on the Use of Real Patients and Simulated Patients in Undergraduate Medical Education

et al. 2009

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The role of deliberate practice in the acquisition of clinical skills

et al. 2011

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BackgroundThe role of deliberate practice in medical students' development from novice to expert was examined for preclinical skill training.MethodsStudents in years 1-3 completed 34 Likert type items, adapted from a questionnaire about the use of deliberate practice in cognitive learning. Exploratory factor analysis and reliability analysis were used to validate the questionnaire. Analysis of variance examined differences between years and regression analysis the relationship between deliberate practice and skill test results.Results875 students participated (90%). Factor analysis yielded four factors: planning, concentration/dedication, repetition/revision, study style/self reflection. Student scores on 'Planning' increased over time, score on sub-scale 'repetition/revision' decreased. Student results on the clinical skill test correlated positively with scores on subscales 'planning' and 'concentration/dedication' in years 1 and 3, and with scores on subscale 'repetition/revision' in year 1.ConclusionsThe positive effects on test results suggest that the role of deliberate practice in medical education merits further study. The cross-sectional design is a limitation, the large representative sample a strength of the study. The vanishing effect of repetition/revision may be attributable to inadequate feedback. Deliberate practice advocates sustained practice to address weaknesses, identified by (self-)assessment and stimulated by feedback. Further studies should use a longitudinal prospective design and extend the scope to expertise development during residency and beyond.

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Problem-based learning (PBL): Getting the most out of your students – Their roles and responsibilities: AMEE Guide No. 84

et al. 2013

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This Guide discusses the considerable literature on the merits or shortcomings of Problem-based learning (PBL), and the factors that promote or inhibit it, when seen through the eyes of the student. It seems to be the case that PBL works best when students and faculty understand the various factors that influence learning and are aware of their roles; this Guide deals with each of the main issues in turn. One of the most important concepts to recognise is that students and Faculty share the responsibility for learning and there are several factors that can influence its success. They include student motivation for PBL and the various ways in which they respond to being immersed in the process. As faculty, we also need to consider the way in which the learning environment supports the students develop the habit of life-long learning, and the skills and attitudes that will help them become competent reflective practitioners. Each of these elements place responsibilities upon the student, but also upon the Faculty and learning community they are joining. Although all of the authors work in a European setting, where PBL is used extensively as a learning strategy in many medical schools, the lessons learned we suggest, apply more widely, and several of the important factors apply to any form of curriculum. This Guide follows on from a previous review in the AMEE Guides in Medical education series, which provided an overview of PBL and attempts to emphasise the key role that students have in mastering their subject through PBL. This should render the business of being a student a little less mystifying, and help faculty to see how they can help their students acquire the independence and mastery that they will need.

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Management of indirect inguinal hernias by laparoscopic closure of the neck of the sac

Ger¹,

Monroe²,

Duvivier³

et al. 1990

The American Journal of Surgery

258

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Teacher perceptions of desired qualities, competencies and strategies for clinical skills teachers

et al. 2009

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Twelve tips for medical curriculum design from a cognitive load theory perspective

Leppink

Duvivier

2016

Medical Teacher

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During their course, medical students have to become proficient in a variety of competencies. For each of these competencies, educational design can use cognitive load theory to consider three dimensions: task fidelity: from literature (lowest) through simulated patients (medium) to real patients (highest); task complexity: the number of information elements in a learning task; and instructional support: from worked examples (highest) through completion tasks (medium) to autonomous task performance (lowest). One should integrate any competency into a medical curriculum such that training in that competency facilitates the students' journey that starts from high instructional support on low-complexity low-fidelity learning tasks all the way to high-complexity tasks in high-fidelity environments carried out autonomously. This article presents twelve tips on using cognitive load theory or, more specifically, a set of four tips for each of task fidelity, task complexity, and instructional support, to achieve that aim.

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