Odontoblast cells immortalized by telomerase produce mineralized dentin-like tissue both in vitro and in vivo.
(49/1113)
The formation of dentin provides one well accepted paradigm for studying mineralized tissue formation. For the assembly of dentin, several cellular signaling pathways cooperate to provide neural crest-derived mesenchymal cells with positional information. Further, "cross-talk" between signaling pathways from the mesenchymal derived odontoblast cells and the epithelially derived ameloblasts during development is responsible for the formation of functional odontoblasts. These intercellular signals are tightly regulated, both temporally and spatially. When isolated from the developing tooth germ, odontoblasts quickly lose their potential to maintain the odontoblast-specific phenotype. Therefore, generation of an odontoblast cell line would be a valuable reproducible tool for studying the modulatory effects involved in odontoblast differentiation as well as the molecular events involved in mineralized dentin formation. In this study an immortalized odontoblast cell line, which has the required biochemical machinery to produce mineralized tissue in vitro, has been generated. These cells were implanted into animal models to determine their in vivo effects on dentin formation. After implantation, we observed a multistep, programmed cascade of gene expression in the exogenous odontoblasts as the dentin formed de novo. Some of the genes expressed include the dentin matrix proteins 1, 2, and 3, which are extracellular matrix molecules responsible for the ultimate formation of mineralized dentin. The biological response was also examined by histology and radiography and confirmed for mineral deposition by von Kossa staining. Thus, a transformed odontoblast cell line was created with high proliferative capacity that might ultimately be used for the regeneration and repair of dentin in vivo. (+info)
Fabrication of a functionally graded dental composite resin post and core by laser lithography and finite element analysis of its stress relaxation effect on tooth root.
(50/1113)
Laser lithography was applied for Computer Aided Design and Computer Aided Manufacturing (CAD/CAM) fabrication of dental prostheses made of composite resin. First, the conditions to obtain the optimum resolution for photo-curing were determined, and then a composite resin full crown was fabricated by laser lithography. Second, a functionally graded composite resin post and core which had gradient elasticity in the post, was manufactured by the gradual change in the filler contents of the composite resin. Finally, stress analysis of the functionally graded post and core was performed by a two-dimensional finite element method. This demonstrated the effects of reducing the stress concentration around the apex of the post. (+info)
Fracture aspects of resin-dentin bonding in non-trimming microtensile test.
(51/1113)
Comparative studies on resin-dentin bond strength and failure mode were performed between the conventional tensile test and the microtensile test with non-trimming small specimens, 1 x 1 mm in cross-section, for two brands of dentin bonding systems. The fracture surface of the conventional large specimen showed a catastrophic cohesive failure in dentin at its center and a lesser adhesive failure, suggesting that the whole failure was due to the development of some major cracks. The non-trimming microtensile test showed significantly larger average bond strength with markedly larger standard deviation and significantly larger fraction of adhesive failure than the conventional test. Some small specimens were extremely strong and some were weak according to the heterogeneous distribution of tight bonding and defective or deficient bonding over the whole dentin surface. These results suggest that the non-trimming microtensile test may potentially provide more realistic aspects of resin-dentin bonding than the conventional bulk specimen. (+info)
Efficacy of dentin bonding to cervical defects.
(52/1113)
The bonding efficacy of sclerotic dentin was determined by measuring the polymerization contraction gap width of a commercial light-activated resin composite in a cervical defect and by measuring the micro-Vicker's hardness at the dentin adhesive surface; morphological characteristics were observed using a scanning electron microscope in extracted human incisors and premolars. Contraction gap formation was completely prevented when the cavity wall was primed with 35 vol% glyceryl mono-methacrylate solution after 0.5 mol/L EDTA conditioning. The contraction gap width was significantly decreased when the resin composite was filled into the sclerotic dentin cavity even when priming was omitted. These results suggest that the sclerotic dentin, which is frequently observed in cervical defects, should be preserved as a substrate because it exhibits an effect of dentin priming and is suitable for bonding. (+info)
Quantitative microbiological study of human carious dentine by culture and real-time PCR: association of anaerobes with histopathological changes in chronic pulpitis.
(53/1113)
The bacteria found in carious dentine were correlated with the tissue response of the dental pulps of 65 teeth extracted from patients with advanced caries and pulpitis. Standardized homogenates of carious dentine were plated onto selective and nonselective media under anaerobic and microaerophilic conditions. In addition, real-time PCR was used to quantify the recovery of anaerobic bacteria. Primers and fluorogenic probes were designed to detect the total anaerobic microbial load, the genera Prevotella and Fusobacterium, and the species Prevotella melaninogenica, Porphyromonas endodontalis, Porphyromonas gingivalis, and Micromonas (formerly Peptostreptococcus) micros. The pulpal pathology was categorized according to the cellular response and degenerative changes. Analysis of cultured bacteria showed a predominance of gram-positive microorganisms, particularly lactobacilli. Gram-negative bacteria were also present in significant numbers with Prevotella spp., the most numerous anaerobic group cultured. Real-time PCR analysis indicated a greater microbial load than that determined by colony counting. The total number of anaerobes detected was 41-fold greater by real-time PCR than by colony counting, while the numbers of Prevotella and Fusobacterium spp. detected were 82- and 2.4-fold greater by real-time PCR than by colony counting, respectively. Real-time PCR also identified M. micros, P. endodontalis, and P. gingivalis in 71, 60, and 52% of carious samples, respectively. Correlation matrices of the real-time PCR data revealed significant positive associations between M. micros and P. endodontalis detection and inflammatory degeneration of pulpal tissues. These anaerobes have been strongly implicated in endodontic infections that occur as sequelae to carious pulpitis. Accordingly, the data suggest that the presence of high levels of these bacteria in carious lesions may be indicative of irreversible pulpal pathology. (+info)
Is it time to change state and regional dental licensure board exams in response to evidence from caries research?
(54/1113)
State and regional board exams represent the final gateway to dental licensure. One would expect that the requirements for licensure would reflect procedures that are beneficial to each patient's oral health and that are consistent with the teachings of most dental schools. We conducted an Internet survey to determine whether Class 2 tooth preparations based on caries lesions whose radiolucencies were confined to enamel were allowed for state and regional exams. Information obtained for 46 of the 50 states revealed that 33 of the states (72%) allowed teeth with either an E1 or E2 lesion to be restored. Seventeen of these states allowed teeth with an E1 lesion to be restored. Only 12 of the 46 states (26%) covered by these boards did not allow teeth with E1 or E2 lesions to be surgically treated. In contrast, a recent report indicates that only 30% of dental schools permit teeth with enamel lesions to be restored to satisfy clinical requirements and competencies. (+info)
A study of cavity preparation by Er:YAG laser--observation of hard tooth structures by laser scanning microscope and examination of the time necessary to remove caries.
(55/1113)
The purpose of this study was to observe and measure the morphological changes that occur in the hard tissue after the application of Er:YAG laser. Another objective was to evaluate and compare the duration of application of both the laser apparatus and a conventional cutting device. In this study, sound and newly extracted carious tissues were used. The morphological changes in hard tooth structures produced by Er:YAG laser irradiation were examined by using a laser scanning microscope. Results showed that appropriate laser irradiation was 100 mJ/pulse for dentin, and 200 mJ/pulse for enamel. Also, the laser scanning microscope images were less damaged than the SEM images due to pretreatment of the specimens. The time taken to remove carious enamel by laser irradiation was slightly longer than the compared rotary cutting device; however, no differences between the two methods were observed in case of carious dentin removal. (+info)
Anisotropy of tensile strengths of bovine dentin regarding dentinal tubule orientation and location.
(56/1113)
The purpose of this study was to investigate the effects of the location and orientation of dentinal tubules in the tooth on tensile strengths of the dentin. Dumbbell-shaped specimens of 12 groups from various locations and dentinal tubule orientations were prepared. The tensile test was performed in distilled water at a temperature of 37 degrees C. The tensile strengths of the parallel to the orientation were significantly greater than those of the perpendicular to the orientation; the tensile strengths of the radicular dentin were significantly greater than those of the coronal dentin. Nevertheless, in the radicular dentin, the tensile strengths of the perpendicular to dentinal tubules differ with respect to tensile forces. These results suggest that tensile strength of the dentin varies according to the location and orientation of dentinal tubules in the tooth. (+info)