Genomics has promised to change the practice of dentistry. Since the
complete sequencing of the Human Genome, the development of massscale
research tools in this field, such as DNA microarrays, has greatly
improved [1].
Recent studies have employed microarray technology to
monitor gene expression in periodontal patients, strain diversity of oral
microflora implied in periodontitis, and the effect of oral microflora on the
expression of chemokine genes [2-7]. Similar studies have been conducted
also in other diseases, such as oral lichen planus (OLP)
[8].However, if compared with other areas of medicine, the progresses in oral
pathology achieved using purely genomic approaches have been overall
limited [9]. Other “-omics” disciplines, such as proteomics and
metabolomics, should therefore be applied to achieve a more
comprehensive view of the molecular mechanisms underlying oral
disorders [1]. To date, some proteomic studies have been conducted in the
field of oral pathology, and have led to the identification of risk factors and
therapeutic targets at a molecular level [10,
11].Further advances in the application of proteomics to dental research and
oral pathology appear in any case advocated. These include, but are not
limited to, the identification of other molecules and molecular pathways
involved in oral diseases, the limitation of the inflammatory response after
dental procedures, and the possible programming of cellular and tissue
response upon the placement of restorative materials or implants.This special issue of Bioinformation presents some new insights in this
challenging and stimulating field, authored by some leading scientists
working in this area.
Authors: D Preza; I Olsen; T Willumsen; S K Boches; S L Cotton; B Grinde; B J Paster Journal: Eur J Clin Microbiol Infect Dis Date: 2008-11-28 Impact factor: 3.267
Authors: Thomas Beikler; Ulrike Peters; Karola Prior; Martin Eisenacher; Thomas F Flemmig Journal: BMC Med Genomics Date: 2008-07-07 Impact factor: 3.063