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Permanent maxillary and mandibular first molars are the first permanent teeth to erupt into the oral cavity along with the mandibular incisors. It serves as an excellent record of maternal and fetal health, reflecting the prenatal, perinatal, and postnatal health and diseases. This review focuses on the molar morphogenesis, molar malformations, their etiopathogenesis, and pathologies causing specific pattern of molar malformations.
RESUMO
The term "Epigenetics" includes mechanisms by which genetic expression is altered without a change in the underlying DNA sequence. The changes caused by epigenetic mechanisms are inheritable and are one way in direction (irreversible) and also explains why there is differences in genetic expressions of monozygotic twins. The epigenetic mechanisms alter the genetic expressions through DNA methylation, posttranslational modifications (PTMs) of histone, and noncoding RNAs. DNA methylation and histone PTMs cause relaxation or condensation of chromatin units. The epigenetic actions of noncoding RNAs such as microRNAs, small nucleolar RNAs, small interfering RNAs, and long noncoding RNAs act by modifying transcription factors or by degrading target messenger RNAs and their translation factors. Various pathologies and environmental factors cause changes in the cellular epigenetic mechanisms and the epigenetic alterations occurring in diabetes mellitus (DM) are reviewed. DM causes hemodynamic changes and metabolic changes like hyperglycemia and dyslipidemia. These changes induce oxidative stress and activate intracellular signaling and kinases in the target cells. Epigenetic alterations cause chromatin remodeling and altered gene expression leading to inflammation, proliferation, atrophy, hypertrophy, etc.; thereby, diabetic complications such as neuropathy, nephropathy, vasculitis result in the corresponding target organ. When these epigenetic alterations persist for a longer period without intervention, the target cells attain "metabolic memory" meaning that these epigenetic mutations cannot be reversed even after attaining normal blood glucose levels. Thus, epigenetics, an insightful and efficient tool in genomic research, has started crawling into the research arena and needs to reach leaps and bounds for the better understanding of health and diseases.
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Diabetes mellitus is an endocrinal disorder affecting worldwide and the disease incidence is rising alarmingly high. The effects of diabetes on tooth development are explored by limited studies and their molecular insights are very rarely studied. This systematic review is aimed to provide the best scientific literature source on the molecular insights into odontogenesis in hyperglycemic environment caused by diabetes mellitus or by maternal diabetes on the offspring. The literature search was conducted on the databases, namely PubMed, PubMed Central, Cochrane, and Scopus. The original studies exploring the alterations in the molecular pathways of odontogenesis in diabetes mellitus were selected. Data were extracted, chosen, and evaluated by two independent researchers. At the end of thorough data search, four articles were eligible for the review. Three articles brought out the molecular pathways involved in the offspring of gestational diabetes through animal models. Fourth article was an in vitro study, which treated the stem cells in hyperglycemic environment and drafted the molecular pathway. The altered molecular pathways in dental epithelial stem cells (DESCs), dental papilla cells (DPCs), and stem cells from apical papilla were studied and empowered with statistical analysis. Thus with this systematic review, we conclude that apurinic/apyrimidinic endonuclease1 downregulation causing deoxyribonucleic acid hypermethylation and Oct4, Nanog gene silencing, activation of toll-like receptor-4/nuclear factor kappa B (TLR4/NF-κB) pathway are involved in suppressing cell proliferation and accelerated apoptosis in DESCs in high glucose environment. DPCs are suppressed from odonto differentiation by activation of TLR4 signaling and resulting inhibition of SMAD1/5/9 phosphorylation in diabetic condition. NF-κB pathway activation causes decreased cell proliferation and enhanced differentiation in apical papilla stem cells in hyperglycemia. Further studies targeting various stages of odontogenesis can reveal more molecular insight.
RESUMO
Aim: To correlate the oral signs, salivary calcium, phosphorus, alkaline phosphatase levels and dental radiographic findings in postmenopausal osteoporotic, osteopenic and non-osteoporotic women. Materials and Methods: Forty-five subjects were selected based on bone mineral density (BMD) analyses and were assigned to 3 groups (n=15): Group 1 - established osteoporotic women; Group II - established osteopenic women; Group III (control) - non-osteoporotic women. Complete oral and radiographic examination, saliva collection and analysis of calcium, phosphorus and alkaline phosphatase were performed. Results: The results were tabulated and analyzed for statistical significance using the Mann-Whitney U-test. There was statistically significant difference (p<0.05) in salivary calcium, phosphorus and alkaline phosphatase levels when osteoporotic and osteopenic women were compared to the controls. Conclusion: Salivary parameters can be used as indicators to aid in the diagnosis of osteoporosis and osteopenia in postmenopausal women.
