This study aims to assess the efficiency of using real-scale knee models to learn about the locomotor system. Participants included a total of thirty-nine second year students in a Human Anatomy class of a Biology Teaching course. One week before the intervention, a pre-test was administered to assess the students’ prior knowledge. The pre-service biology teachers were provided with a real-scale plaster model of a knee bone and were subsequently required to identify and create their own model of bone, joint and muscle elements. At the end of the intervention, a post-test was performed and opinion survey, in addition to a comparison with other locomotor system structures (four images: knee joint, muscular component of lower limb, shoulder joint and pelvic bone). Students’ scores increased significantly in relation to the pre-test, both among the total sample (P=0.000) and between sub-groups divided according to participant gender (male P=0.0021; female P=0.0005) as well as compared to other structures (P<0.05). Furthermore, the pre-service biology teachers showed significant increases in their scores on a Likert-type opinion survey, indicating that these types of interventions promote their motivation for the course (89.2%) as well as their learning (97.8%) and would be advisable for future students (95.5%). The results show that the use of real-scale models and associated work fosters student motivation and enhances the learning of human anatomy.
|Translated title of the contribution||Learning human anatomy using three-dimensional models made from real-scale bone pieces: Experience with the knee joint among pre-service biology teachers|
|Number of pages||8|
|Journal||International Journal of Morphology|
|State||Published - 1 Dec 2015|