Perceived relevance of oral biology by dental students.

OBJECTIVES: This study investigated the perception that dental students have regarding the relevance of oral biology (OB) to dental education and dentistry in general. Moreover, this study analysed students' attitude towards OB learning approaches and resources. METHODS: A questionnaire based on a Likert scale was used to survey pre-clinical/second (BDS2)- and final/fifth (BDS5)-year dental students at the School of Dentistry of the University of Birmingham (United Kingdom). In comparison, a small group of postgraduate specialist registrars were surveyed to evaluate the attitudes of practising dentists. RESULTS: The results show that all study groups expressed a high level of perceived relevance of OB to dentistry. Students' perception of OB for dental education, clinical training and practice also scored high. More than 40% of undergraduate students and about 55% of the postgraduates indicated a perceived change in their attitude towards OB with time characterised by increased appreciation of the subject. Lectures were considered as the most important teaching approach, whereas 'group poster projects' ranked lowest. Of the different study resources, lecture handouts received the overall highest importance score. CONCLUSIONS: The results indicate that dental students considered OB relevant for dental education and dentistry and suggest a positive attitude towards the subject. This study also suggested that dental students prefer teacher-centred/led teaching rather than student-directed learning of OB. The article addresses the role of OB and science-related research projects within the dental curriculum and discusses that close integration of basic sciences with dental education may enrich dental education and overall learning experience.

Effects of glial cell line-derived neurotrophic factor on dental pulp cells.

This study investigated the effects of glial cell line-derived neurotrophic factor (GDNF) on dental pulp cells (DPCs). Cultures of DPCs expressed GDNF as well as its receptors, GFRα1 and RET. Addition of recombinant GDNF to cultures in serum-containing medium did not significantly affect DPC growth; however, GDNF dose-dependently increased viable cell number under serum-free culture conditions. Live/dead, lactate dehydrogenase (LDH), and caspases-3/-7 assays demonstrated that cell death occurred under serum-free conditions, and that GDNF significantly reduced the number of dead cells by inhibiting apoptotic cell death. GDNF also stimulated cell proliferation in serum-free conditions, as assessed by the BrdU incorporation assay. The effect of GDNF was abolished in the presence of inhibitors to GFRα1 and RET suggesting receptor-mediated events. This study also demonstrated that GDNF counteracted TNFα-induced DPC cytotoxicity, suggesting that GDNF may be cytoprotective under disease conditions. In conclusion, our findings indicate that GDNF promotes cell survival and proliferation of DPCs and suggest that GDNF may play a multifunctional role in the regulation of dental pulp homeostasis.

Therapeutic ultrasound for dental tissue repair.

Dental disease affects human health and the quality of life of millions worldwide. Tooth decay (caries) and diseases of the dental pulp result in loss of tooth vitality and function requiring invasive treatment to restore the tooth to health. "Therapeutic" low intensity pulsed ultrasound has been shown to accelerate bone fracture healing indicating that ultrasound may be used as a tool to facilitate hard tissue regeneration. We have shown recently that low frequency ultrasound is able to exert biological effects on odontoblast-like cells. In this paper, we postulate that low frequency, low intensity ultrasound may stimulate endogenous coronal tooth repair by stimulating dentine formation from existing odontoblasts or by activating dental pulp stem cells to differentiate into new reparative dentine-producing cells. Ultrasound therapy promoting dentine formation and repair may also have the potential benefit of alleviating dentine hypersensitivity by inducing occlusion of dentinal tubules. It is envisaged that therapeutic ultrasound may be used in future to facilitate dental tissue engineering and stem cell therapy applications for dental tissue regeneration. Further research is warranted in this clinically important area and we envisage that novel strategies in dental therapy will be realised that may ultimately lead to the development of novel non-invasive, multifunctional ultrasound devices for dental diagnostics, repair and regeneration.

In vitro behaviour of human osteoblasts on dentin and bone.

This investigation studied how the behaviour of isolated osteoblasts on standard tissue culture polystyrene compared with cells cultured on cut surfaces of dentin, a natural calcified material. Cellular attachment, viability and growth were monitored in parallel cultures of human osteosarcoma cell lines (MG63, HOS TE85, SaOS-2) and primary human osteoblast-like cells (HOBs). Culture plastic was either left untreated or roughened with abrasive paper of various grit sizes (4000-1200 grit) in order to obtain a level of roughness comparable to that of the dentin slices. Cell counting and intracellular BCECF staining showed that after an initial incubation of 2 h, the primary cells attached and spread out more quickly on the different substrates than the three cell lines. The primary cells also showed a stronger mitochondrial staining and viability on dentin. During subsequent culture morphological differences appeared with the cells on dentin displaying more cellular extensions. All three cell lines proliferated more slowly on dentin than on plastic. In contrast, the primary HOBs were not significantly affected in their growth by the different substrates. Total and specific alkaline phosphatase (AP) activity of the cell lines was not significantly affected by the different substrates after short-term adhesion, but it was increased for the primary cells on the dentin. However, after 2-3 days of culture, AP was decreased on the dentin slices for both the cell lines and primary HOBs. Plasma treatment of the roughened plastic did not alter cellular viability or AP activity, suggesting that grinding of the surface did not affect the property of the culture plastic to support cell attachment and growth. In conclusion, the results show that not only do osteoblastic cells behave differently on a natural calcified substrate surface than on standard culture plastic, but also that differences were evident between the various cell types, in particular the primary HOB versus the continuous cell lines.