Results 241 to 250 of about 10,398 (278)
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Odontogenesis by Endocytosis of Peptide Embedding Bioactive Glass Composite
Journal of dentistry research, 2022Limited therapeutic options are available for treating deep caries. Those materials with potential of a dual effect to remineralize hard tissue and regenerate defective dentin tissues could be used as a new strategy for deep caries treatment.
J. Lu +8 more
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Oral Surgery, Oral Medicine, Oral Pathology, 1961
Abstract An authentic case of odontogenesis imperfecta in a 7-year-old white girl has been discussed. The cause of the disease is not definitely known. No environmental factors could be linked with the anomaly. Similarly, no genetic background could be established from the limited data available.
A.P. Chaudhry +3 more
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Abstract An authentic case of odontogenesis imperfecta in a 7-year-old white girl has been discussed. The cause of the disease is not definitely known. No environmental factors could be linked with the anomaly. Similarly, no genetic background could be established from the limited data available.
A.P. Chaudhry +3 more
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Neurotrophins in odontogenesis.
The International journal of developmental biology, 1995Neurotrophins (NTFs) are a family of structurally related proteins with specific effects on the developing nervous system and a wide range of non-neuronal differentiating cells. To date, four NTFs have been characterized: nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), and neurotrophin-4 (NT-4).
K Luukko, Thimios A. Mitsiadis
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The Ectodysplasin and NFκB signalling pathways in odontogenesis
Archives of Oral Biology, 2005Hypohidrotic ectodermal dysplasia (HED) is a congenital disorder affecting organs of ectodermal origin including teeth, hair and sweat glands. Defects in Ectodysplasin (tabby), Edar (downless) and Edar associated death domain (Edaradd) (crinkled) cause HED in both humans and mice. Ectodysplasin is a tumour necrosis factor (TNF) superfamily member whose
Courtney, J M, Blackburn, J, Sharpe, P T
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Molar odontogenesis in the hairless mouse
Cells Tissues Organs, 1977Molar odontogenesis was studied in the hairless mouse from the initiation of the dental lamina through apposition. The dental lamina stage of the first molar was recognized on the 13th day, the bud on day 14th, cap on the 16th, bell on the 18th and apposition on the 20th day after conception.
Payne Tm +3 more
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Odontogenesis: Cell–Cell Interactions in vitro [PDF]
Nature, 1968 EMBRYONIC interactions of epithelial and mesenchymal tissue before organogenesis have been observed in several organ systems1–4. These phenomena have been tested by isolating embryonic tissues from their in vivo environment and transplanting them in an artificial environment from which no morphogenetic signals can be received.
Harold C. Slavkin +2 more
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Mucopolysaccharides in odontogenesis
Histochemie, 1970Localization of sulfomucopolysaccharides in developing teeth of Swiss albino mice was detected by S35 autoradiography and histochemistry. A positive correlation was found to exist between autoradiographic and histochemical data with regard to the localization of sulfomucopolysaccharides.
D. Vincent Provenza, Dennis W. Lennox
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Osteogenesis imperfecta and odontogenesis imperfecta
Oral Surgery, Oral Medicine, Oral Pathology, 1949Abstract A review of the pertinent literature is presented. Conspicuous by its absence is any record of a fracture of a mandible or maxilla. A family of 13, 5 members of which are afflicted with osteogenesis imperfecta and 2 spontaneous recent mutations, are reported.
Gordon R. Winter, P.Donald Maiocco
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Small
Harnessing the developmental events of mesenchymal condensation to direct postnatal dental stem cell aggregation represents a cutting-edge and promising approach to tooth regeneration.
Xiaoyao Huang +13 more
semanticscholar +1 more source
Harnessing the developmental events of mesenchymal condensation to direct postnatal dental stem cell aggregation represents a cutting-edge and promising approach to tooth regeneration.
Xiaoyao Huang +13 more
semanticscholar +1 more source
Histone-modifying enzymes: Roles in odontogenesis and beyond.
Oral DiseasesOBJECTIVES Odontogenesis, an intricate process initiated by epithelium-mesenchyme interaction, is meticulously regulated by a cascade of regulatory mechanisms.
Yiting Li +3 more
semanticscholar +1 more source