ライフサイエンスコーパス: dentine

1 terior group) for 2 tissue types (enamel and dentine).

2 secrete new "tertiary" dentine (reactionary dentine).

3 ulation of exposed dentine and to drying the dentine.

4 n mechanism that involves fluid flow through dentine.

5 number of pores on the milled surface of the dentine.

6 image daily growth increments in enamel and dentine.

7 rface of existing dentine and rethickens the dentine.

8 cipal skeletal tissue of dermal denticles is dentine.

9 tive dentine formation to completely restore dentine.

10 in more disorganized, nontubular reactionary dentine.

11 ontoblast-like cells that secrete reparative dentine.

12 nd alkaline phosphatase in DPSCs cultured on dentine.

13 the durability of adhesive bonds created in dentine.

14 osphoric acid, and citric acid from powdered dentine.

15 t record of tooth antecedents and the tissue dentine(1,2), an early-vertebrate novelty, has been cont

16 rentiation and reduced resorption of pits in dentine (3 to 100 microM; P<0.001).

17 teoclasts differentiated on cartilage versus dentine (8.89-fold, p = 0.0133), while MMP9 was the most

18 Dentine also exhibited microwear characteristics that we

19 ompare its structure with surrounding native dentine and alveolar bone, Raman microspectroscopy analy

20 A set of genes for dentine and bone extracellular matrix proteins constitut

21 The teeth are composed of dentine and bone, and show a distinct pulp cavity that i

22 New teeth are composed of gnathostome-type dentine and develop at specific locations.

23 is generally associated with an increase in dentine and enamel wear, confirming the results of previ

24 nding not only of biominerals (such as bone, dentine and enamel), but also of synthetic organic-inorg

25 at detecting caries that has progressed into dentine and reached a threshold where restoration is nec

26 is formed on the pulpal surface of existing dentine and rethickens the dentine.

27 i in teeth.In 11 animals, fluid flow through dentine and single- and multi-unit activity in intradent

28 to reconstruct tooth growth along the enamel/dentine and then cementum/dentine boundaries.

29 he chemical composition of this newly formed dentine and to compare its structure with surrounding na

30 ssure, and mechanical stimulation of exposed dentine and to drying the dentine.

31 d, and citric acid exposed growth factors on dentine and triggered an upregulation in genes associate

32 failed to solubilize proteins from powdered dentine and was therefore considered ineffective in trig

33 ites) associated with a pigmentation line in dentine and with a distinct neonatal line in enamel.

34 used as a self-etching primer on enamel and dentine, and the high degree of polymerization in the pr

35 However, phosphoric acid-treated dentine appeared strikingly less populated with cells, s

36 Our results support that Mn levels in mantle dentine are useful in discerning perinatal Mn exposure,

37 ooth pulp, maintenance of as much unaffected dentine as possible is a major goal during the physical

38 noted in dentine erosion for complexity and dentine attrition for anisotropy.

39 ially stacked, multigenerational, jaw-length dentine bands, before development of the functional beak

40 successfully integrated into an ethanol-wet dentine bonding strategy, and will result in compact and

41 Although adhesive restorations and dentine-bonding procedures are routinely practiced, clin

42 forecasting the decline in strength of resin-dentine bonds created in vivo.

43 d mineral to matrix ratios to that of native dentine, both being significantly different from bone.

44 h along the enamel/dentine and then cementum/dentine boundaries.

45 he deposition of mineral to form reactionary dentine but does play a role in its organization.

46 o major role in the formation of reactionary dentine, but in common with reparative dentine formation

47 of the sequestrated bioactive molecules from dentine by the action of applied dental materials has be

48 rinted typodont teeth replicating enamel and dentine can be mechanically comparable to extracted huma

49 This study systematically reviewed the dentine caries arrest capabilities of silver diamine flu

50 found to be statistically more effective in dentine caries arrest of primary teeth during the 18 and

51 specific and reliable than colour to detect dentine carious lesion severity.

52 olars from 20 donors resulted in 20 prepared dentine cavities per experimental group.

53 of the ability of the adhesives to stick to dentine, clinical studies show that these fillings are r

54 eases in heat shock protein-70 expression in dentine coincided with elemental signatures, confirming

55 by the OsteoBioR platform using incremental dentine-collagen isotope ratio analysis in six adult ind

56 However, the accuracy and reliability of dentine colour and hardness as indicators for carious le

57 We show that the newly formed dentine comprises equal carbonate to phosphate ratios an

58 cial steps in informing clinical practice on dentine-conditioning protocols as far as treatment of op

59 metric morphometrics is used to characterise dentine crown shape and size across the entire mandibula

60 roportion of children developing caries into dentine (D4-6MFT) on any 1 of up to 4 treated FPMs after

61 dentine formation to fully repair an area of dentine damage up to 10 times larger, mimicking the size

62 e into odontoblast-like cells in response to dentine damage.

63 hile other bone tissues, such as human tooth dentine, develop slowly and maintain constant compositio

64 Collagen scaffold models and demineralized dentine disc samples were prepared and exposed to CP dro

65 Finally, mineralized dentine disc samples were prepared postbleaching to asse

66 Raman spectra of the mineralized dentine discs showed a significant decrease ( P <= 0.01)

67 Dentine dysplasia type II is an autosomal dominant disor

68 equencing DSPP in a family with a history of dentine dysplasia type II.

69 -existing enamel matrix glycoproteins at the dentine-enamel junction.

70 Amelogenins bind to GlcNAc of the dentine-enamel matrix proteins.

71 The greatest geometric means were noted in dentine erosion for complexity and dentine attrition for

72 s of convergence and innervation reveal that dentine evolved as a sensory tissue in the exoskeleton o

73 Dinosaur dentine exhibits growth lines that are tens of micromete

74 thus has a dual role in promoting reparative dentine formation by activating pulp stem cells and prom

75 y in pulp stem cells and fostered reparative dentine formation compared to marine collagen sponges de

76 y in pulp stem cells and fostered reparative dentine formation compared to marine collagen sponges de

77 rosaurs and ceratopsians can be explained by dentine formation constraints and rapid tooth wear.

78 ay affects the rate and extent of reparative dentine formation in damaged mice molars by triggering t

79 to investigate the mechanisms of reactionary dentine formation in vivo, using small molecules to modu

80 th size, which was due to limitations in the dentine formation rates of their odontoblasts.

81 promote the natural processes of reparative dentine formation to completely restore dentine.

82 eglusib (TG), can equally enhance reparative dentine formation to fully repair an area of dentine dam

83 or Wnt pathways does not impede reactionary dentine formation, although inhibition of TGF-beta and/o

84 The lines likely reflect daily dentine formation, and they were used to infer tooth dev

85 onary dentine, but in common with reparative dentine formation, exogenous elevation of Wnt/beta-caten

86 m cell activation and appropriate reparative dentine formation.

87 igate the role of immune cells in reparative dentine formation.

88 se activity are able to stimulate reparative dentine formation.

89 /beta-catenin signaling can enhance tertiary dentine formation.

90 ntagonists, resulting in enhanced reparative dentine formation.

91 ciduous teeth, to identify regions of mantle dentine formed at different prenatal periods.

92 Mn levels in mantle dentine formed during the second trimester (as (55)Mn:(4

93 urrounding hollow tracts that exist in human dentine forming dentinal tubules.

94 infiltration of exogenous elements into the dentine from the sediments.

95 unusual action of odontoclasts, which resorb dentine from within the pulp of the tooth.

96 commonly sampled tissues (skin, muscle, and dentine) from wild beluga whales (Delphinapterus leucas)

97 (CSPS) and arginine dentifrices in reducing dentine hypersensitivity (DH) in patients undergoing non

98 f mechanism-based therapeutic approaches for dentine hypersensitivity and inflammatory tooth pain.

99 n transient flow, designed to understand the dentine hypersensitivity caused by hydrodynamic theory.

100 orders which could be the key to explain the dentine hypersensitivity caused by the liquid movement i

101 The mechanism of pain in dentine hypersensitivity is poorly understood but propos

102 its rabbit osteoclast-mediated resorption of dentine in a cellular assay, exhibits bone-targeting pro

103 s as far as treatment of operatively exposed dentine in teeth with vital pulps is concerned.

104 Osteoclasts cultured on dentine inhibited basal cartilage degradation (p = 0.012

105 vealed homogeneously mixed/polymerized resin-dentine interdiffusion zones in all groups.

106 ional (3-D) elemental mapping of an occluded dentine is achieved with a significantly reduced data ac

107 Release of latent TGF-beta or BMPs from dentine is not required for the deposition of mineral to

108 Dentine is susceptible to damage as a result of caries,

109 Here, we present enamel-dentine junction (EDJ) morphological analyses (based on

110 Enamel-dentine junction (EDJ) morphology, the shape of the junc

111 s the greatest functional role at the enamel-dentine junction (EDJ), as it was the region that exhibi

112 gate the morphology of the H. habilis enamel-dentine junction (EDJ), which is preserved in cases of m

113 bular premolars of the species at the enamel-dentine junction (EDJ).

114 Using enamel-dentine junction morphology, enamel thickness and compar

115 ingle amino acid polymorphism and the enamel-dentine junction shape variation indicated potential sub

116 A 2-fold higher dentine lead concentration in the first 3 weeks postpart

117 arying associations between log2-transformed dentine lead concentrations and log2-transformed antibod

118 Damage to dentine leads to release of fossilized factors (transfor

119 dimensions, cingulum-like structures at the dentine level in the posterior dentition and expression

120 The restoration of dentine lost in deep caries lesions in teeth is a routin

121 Growth factors were detected in dentine matrix extracts drawn by EDTA, phosphoric acid,

122 The dentine matrix extracts were shown to be bioactive, capa

123 eoclast specific podosomal organization, and dentine matrix resorption without any cytotoxicity.

124 al mesenchyme, dental papilla, odontoblasts, dentine matrix, pulp, cementum, periodontal ligaments, c

125 rosensory system, and the archival nature of dentine microstructure, allows the development of 'biolo

126 sis imperfecta type II, a second disorder of dentine mineralization, it has been proposed that the tw

127 Most of the dental trauma involved enamel-dentine (n = 48; 74%), and untreated decay was relativel

128 nant disorder in which mineralization of the dentine of the primary teeth is abnormal.

129 us FS ( n = 82, 19.6%) developed caries into dentine on at least 1 FPM (odds ratio [OR] = 0.84; 95% C

130 tation for increasing dental durability: the dentine on the working side of the crown is double the t

131 at and rabbit mature osteoclasts cultured on dentine or explants of mouse calvariae prelabeled with (

132 of function of both dentine sialoprotein and dentine phosphoprotein.

133 This study investigated the effect of dentine (powder and slice) conditioning by etchants/cond

134 cranial neural crest cells give rise to the dentine-producing cells (odontoblasts) of teeth.

135 ulate odontoblasts to secrete new "tertiary" dentine (reactionary dentine).

136 cal protocols to improve pulp protection and dentine regeneration are not currently driven by biologi

137 For an effective dentine repair, the activity of the drugs needs to be re

138 ce the carrier sponge is degraded over time, dentine replaces the degraded sponge leading to a comple

139 esistant acid phosphatase-positive cells and dentine resorption capacity in in vitro osteoclastogenes

140 resorption 2- to 3-fold in assays of lacunar dentine resorption, without affecting osteoclast viabili

141 we describe a novel, biological approach to dentine restoration that stimulates the natural formatio

142 Repetitive pressure stimulation of dentine resulted in a progressive reduction in the evoke

143 analyses of nitrogen from bone collagen and dentine samples of infants have provided information on

144 tion at the injury site enhances reactionary dentine secretion.

145 alleviating discomfort arising from cervical dentine sensitivity (CDS).

146 tic pressure (-500 to +500 mm Hg) to exposed dentine.Seventeen A-fibres (conduction velocity (CV), 10

147 II results from mutation of the bicistronic dentine sialophosphoprotein gene (DSPP ), we have tested

148 likely to lead to a loss of function of both dentine sialoprotein and dentine phosphoprotein.

149 trongly inhibited bone-resorbing function on dentine slices by mature osteoclasts and decreased 45Ca

150 on to investigate the effect of conditioning dentine slices on growth factor liberation and DPSC beha

151 nterstitial collagenase or by precoating the dentine slices with collagenase-derived gelatin peptides

152 , resorption was restored by pretreatment of dentine slices with rat interstitial collagenase or by p

153 Plating bone marrow cells onto dentine slices, a physiologic stimulus that activates os

154 on lacunae ("pits") formed on the surface of dentine slices, but it generated abnormal pits that were

155 their ability to form resorption lacunae on dentine slices.

156 By using this method, the porosity of the dentine structure after the FIB milling process is signi

157 ay spectroscopy (EDS) mapping of the stained dentine structure is achieved without an additional meta

158 is indicates that the organic portion of the dentine structure is well protected by the metal stainin

159 oach to preserve the organic portions of the dentine structure through metal staining.

160 better reflect the original condition of the dentine structure.

161 ing to physiological and anatomical studies, dentine structures are a complicated system containing c

162 the analysis of biological materials such as dentine structures.

163 nd long extracellular processes extending on dentine surface.

164 ] and bone morphogenic protein [BMP]) in the dentine that are believed to stimulate odontoblasts to s

165 and compositional alterations in enamel and dentine that coincided with elemental signatures and wit

166 skeletons have the characteristic tubules of dentine that prompted their interpretation as the first

167 s correlation coefficient, between remaining dentine thickness and either differential (r = -0.588) o

168 dependent on handpiece design and remaining dentine thickness.

169 ation, and point to a neural crest origin of dentine throughout the ancestral vertebrate dermal skele

170 e long-lived post-mitotic cells that secrete dentine throughout the life of the tooth.

171 Instead, they possess a fused dentition of dentine tooth plates.

172 les of Anatolepis have been misidentified as dentine tubules and instead represent aglaspidid arthrop

173 occlusion within the complicated networks of dentine tubules at the nanoscale, and provides a novel a

174 vertebrate Eriptychius(11-13) feature large dentine tubules(1) that are morphologically convergent w

175 itivity caused by the liquid movement in the dentine tubules.

176 ramus, and the root lacks infoldings of the dentine typical of ichthyopterygians.

177 imulates the natural formation of reparative dentine via the mobilisation of resident stem cells in t

178 he interaction of the primer with enamel and dentine was characterized using scanning electron, confo

179 The chemical assessment of the root canal dentine was evaluated using energy dispersive spectrosco

180 The effect of irrigating solutions on dentine was investigated by assessing changes in dentin

181 ic, mechanical and drying stimuli to exposed dentine were investigated.

182 tion (p < 0.0001) except when co-cultured on dentine, when osteoclast formation was inhibited (p = 0.

183 monstrated potent etching of both enamel and dentine with the formation of longer resin tags with BME

184 e of the junction between the enamel and the dentine within a tooth, captures important information a