1.4 Research and the dental student
Autor: | Howard Howell, Marie Laure Boy-Lefevre, Palle Holmstrup, K. Hardwick, Ira B. Lamster, Dominick P. DePaola, Néstor J. López, Charles G Baker, Vjekoslav Jerolimov, P. S. Hull, Barry Rifkin |
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Rok vydání: | 2002 |
Předmět: |
medicine.medical_specialty
Models Educational Emerging technologies Best practice Science Dental Research Alternative medicine Students Dental Behavioural sciences Science education Education Computer Communication Networks Intervention (counseling) Pedagogy medicine Humans General Dentistry Curriculum Developing Countries Education Dental Medical education Cultural Diversity Competency-Based Education Organizational Innovation stomatognathic diseases Workforce Technology Dental Psychology |
Zdroj: | European journal of dental education : official journal of the Association for Dental Education in Europe. 6 |
ISSN: | 1396-5883 |
Popis: | There has been significant concern that the dental curriculum and system of clinical education, in particular, is not designed to take advantage of the explosion in knowledge in biomedical science and its application to the health of the public. Although there are some examples of innovations in dental education on a global scale that have the capacity to increase the assimilation of basic and clinical knowledge, most of the dental education models are mired in the traditional '2 + 2' approach to education. This can be seen in North America and the European '2 + 3' model or the stomatological '4 + 2' approach. In each of these systems, the basic and behavioural science courses continue to be perceived as hurdles over which students must leap in order to reach the clinical programmes where there is little opportunity to use basic science information to advance patient care and treatment. Examples of issues that are not well represented include: innovations in imaging; diagnosis; bio-materials; science-based approaches to clinical practice; novel approaches to therapeutics; interactions between the oral, dental and craniofacial complex and systemic health and disorders; the role of oral infections and systemic disease; the increasing appreciation of chronic diseases and disorders such as osteoporosis and diabetes that affect oral tissues; the promise of bioengineering, tissue engineering and biomimetics; the potential use of saliva as a diagnostic tool; the understanding of oral complications of cancer treatment; the treatments of HIV/AIDS diseases and hepatitis; the use of dental and dental hygiene staff on health-care teams to deal with issues such as birth defects, orofacial trauma, head and neck cancer, chronic pain management and so on. There seems to be an excessive emphasis on restorative dentistry and, to a lesser extent, on the more biological approaches to diagnosis, prevention and therapeutics. This continued lack of integration of basic and clinical sciences in the curriculum continues to foster a dental workforce that is highly technically competent to provide specific clinical services but poorly equipped to evaluate and implement new biological approaches to diagnosis, therapeutics and intervention. Unfortunately, after many attempts by organized dental symposia aimed at the integration of basic and clinical sciences, there has been little discernible curricular change. It appears that there is an opportunity through this global congress to identify the best practices in the various global curricula that could change this paradigm in dental education and lead us toward the education of a more scientifically orientated practitioner-one who can take advantage of innovations in new and emerging technologies in their application to patient care. It is the challenge of this section to try to ascertain the best method or methods by which dental education promotes research to the dental student and what research represents in terms of critical thinking and evidence-based approaches to dental education and clinical practice. |
Databáze: | OpenAIRE |
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