M. F. G. Buchanan scite author profile

M. F. G. Buchanan

5Publications

34Citation Statements Received

5Citation Statements Given

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University of Leeds

Publications

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Teaching Veterinary Obstetrics Using Three-Dimensional Animation Technology

Buchanan¹,

Moore²,

White³

2010

Journal of Veterinary Medical Education

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In this three-year study, test scores for students taught veterinary obstetrics in a classroom setting with either traditional media (photographs, text, and two-dimensional graphical presentations) were compared with those for students taught by incorporating three-dimensional (3D) media (linear animations and interactive QuickTime Virtual Reality models) into the classroom lectures. Incorporation of the 3D animations and interactive models significantly increased students' scores on essay questions designed to assess their comprehension of the subject matter. This approach to education may help to better prepare students for dealing with obstetrical cases during their final clinical year and after graduation.

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Hypocalcaemic Tetany Developing within 36 Hours of Birth

Craig¹,

Buchanan²

1958

Archives of Disease in Childhood

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Using 3D Animations to Teach Intracellular Signal Transduction Mechanisms: Taking the Arrows out of Cells

Buchanan¹,

Carter²,

Cowgill³

et al. 2005

Journal of Veterinary Medical Education

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Traditional methods of teaching intracellular biological processes and pathways use figures or flowcharts with the names of molecules linked with arrows. Many veterinary students, presented with such material, simply memorize the names or chemical structures of the molecules and are then likely to forget the material once the examination is completed. To address this problem, the authors designed, created, and field-tested new teaching media that incorporate realistic three-dimensional (3D) animations depicting the dynamic changes that occur in intracellular molecules during cellular activation. Testing found that veterinary students taught using traditional teaching media (e.g., lectures, handouts, textbooks) are proficient in memorizing the names and order of intracellular molecules but unable to appreciate the interactions between these elements or their spatial relationships within cells. In contrast, more than 90% of veterinary students taught using 3D animations not only recall the facts about the intracellular elements but also develop accurate mental images of the interactions among these molecules and their spatial relationships. These findings strongly suggest that the comprehension of complex biological processes by veterinary students can be enhanced by the use of dynamic 3D depictions of these processes in the classroom.

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Foetal Distress and Neonatal Asphyxia

Lister

Buchanan

1957

BJOG

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Building a multidisciplinary team — Europa Donna's role and contribution

Buchanan¹

2002

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M. F. G. Buchanan

Teaching Veterinary Obstetrics Using Three-Dimensional Animation Technology

Hypocalcaemic Tetany Developing within 36 Hours of Birth

Using 3D Animations to Teach Intracellular Signal Transduction Mechanisms: Taking the Arrows out of Cells

Foetal Distress and Neonatal Asphyxia

Building a multidisciplinary team — Europa Donna's role and contribution

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