ライフサイエンスコーパス: demineralization

1 iofilm pH was below the threshold for dentin demineralization).

2 ibitors (PIs), has been associated with bone demineralization.

3 ones and its implementation can lead to bone demineralization.

4 dogenous lead exposure due to increased bone demineralization.

5 , the use of fluoride toothpaste, and enamel demineralization.

6 ncy and that calcium intake may prevent bone demineralization.

7 s model in describing the kinetics of enamel demineralization.

8 enamel mineral may modify the rate of enamel demineralization.

9 ing the need for increased attention to bone demineralization.

10 of an acid-resistant layer was observed with demineralization.

11 promote a pathogenic environment, leading to demineralization.

12 wever, Fer cannot interfere with enamel acid demineralization.

13 urements of gap, bacterial infiltration, and demineralization.

14 gh a decrease in pH and impairment of enamel demineralization.

15 al models that exhibited different levels of demineralization.

16 n of the biofilm and the risk of root dentin demineralization.

17 ity of adhesive displacement" for biological demineralization.

18 dentin caries process at the early phases of demineralization.

19 le extant bone extractions, with and without demineralization.

20 rachitic changes and a five-point scale for demineralization.

21 lendronate, but the substance was removed by demineralization.

22 rtical and medullary tissues remaining after demineralization.

23 emia included marked overgrowth (5), diffuse demineralization (1), angular deformity (1) and length d

24 eptapeptide library increased the rate of Fe demineralization 3-fold (p<0.001), similarly to a mutati

25 opposite effect and decreased the rate of Fe demineralization 60% (p<0.001).

26 strongly increased osteoclast formation and demineralization ability.

27 Demineralization accelerated the bone repair early from

28 ils strongly inhibit the differentiation and demineralization activity of osteoclasts and lead to pro

29 oxed mice had reduced osteoclast numbers and demineralization activity, whereas those from the caAcvr

30 It would appear that over time, demineralization allows compensation of the acidosis.

31 pends below the minimum for dentin or enamel demineralization and 2) the conversion of the biofilm fr

32 and spectroscopic analyses indicated dentin demineralization and adhesive penetration throughout the

33 t cancer and is also beneficial against bone demineralization and arterial diseases.

34 capacity for the prevention of teeth enamel demineralization and cytotoxicity in vitro were also det

35 bone mass, as observed in humans, via rapid demineralization and decreased bone formation, independe

36 formation, favoring resorption, resulting in demineralization and leading to osteoporosis.

37 Increased dentin demineralization and loss of adhesive integrity were not

38 tment at their attachment site in which bone demineralization and matrix degradation occur.

39 preserved specimens, the approach using EDTA demineralization and protease-mix proteolysis yielded a

40 ce between pathological factors that lead to demineralization and protective factors that lead to rem

41 The dynamic balance between demineralization and remineralization determines the end

42 ve also shown that the depth and severity of demineralization and the thickness of the highly mineral

43 ntegument that protects teeth against enamel demineralization, and abrasion.

44 o that present in the original bone prior to demineralization, and the re-calcified bone is palpably

45 dentists to areas of interest and potential demineralization, and to provide longitudinal quantified

46 White spot lesions (WSL) due to enamel demineralization are major complications for orthodontic

47 D deficiency, rachitic changes and definite demineralization are uncommon and fracture risk is low.

48 significantly contribute to the progress of demineralization around the margins, while fluoride rele

49 n solution for 192 h resulted in significant demineralization at noninfiltrated histologic points but

50 so common and is associated with more severe demineralization at the lumbar spine and hip.

51 ide protection of the underlying dentin from demineralization because of cracks and macroscopic voids

52 radiography showed typical enamel subsurface demineralization before cyclic demineralization/reminera

53 Here, we used a bioinspired demineralization (BID) strategy to synthesize stable col

54 Keywords: CT, Informatics, Skeletal-Axial, Demineralization-Bone, Comparative Studies, Segmentation

55 puter Aided Diagnosis (CAD), MRI, CT, Spine, Demineralization-Bone, Feature Detection Supplemental ma

56 protein extraction method that does not use demineralization but instead uses a methodology from hyd

57 content of calcium (Ca) after 15 seconds of demineralization, but the Ca content increased after 180

58 nce of F-containing toothpaste in enamel re-/demineralization by varying the frequency of carbohydrat

59 eins from the extracellular matrix; however, demineralization can be a slow process that restricts su

60 Since demineralization can be quantified at early stages, befo

61 Previous studies have demonstrated that bone demineralization can improve consolidation in bone graft

62 ged spaceflight induces muscle atrophy, bone demineralization, cardiovascular deconditioning, and ort

63 prediction of coronary artery diseases, bone demineralization, chronic obstructive pulmonary diseases

64 ndicated a decrease in the driving force for demineralization compared with that seen with the contro

65 The other half received no demineralization (control group).

66 Bone demineralization deserves to be studied in periodontal a

67 Demineralization dissolved these tiles and revealed smal

68 ized gingival recessions, and 2) citric acid demineralization does not affect the clinical outcome of

69 There is no radiographic evidence of demineralization during the early phase of syndrome, as

70 e other hand, the antimicrobial capacity and demineralization effects were found between the test gro

71 Since demineralization exposes collagen to which fibronectin b

72 Following demineralization, films or slabs were treated with TF at

73 alidity of using scattering power to measure demineralization has been confirmed by a three-dimension

74 Root surface demineralization has been shown to promote the establish

75 Bone demineralization has shown to be advantageous in autogen

76 er-modified surface may be more resistant to demineralization; hence, many investigators are proposin

77 stallized surface layer showed resistance to demineralization; however, the layer did not provide pro

78 osteoblast cells than for the other times of demineralization in all periods of cell culture (P < 0.0

79 ss of the laser-treated surface at resisting demineralization in an acid-gel solution.

80 ymethyl chitosan (QCMC)-based extrafibrillar demineralization in improving resin-dentin bond durabili

81 d propionic acid solutions, whereas rates of demineralization in lactic acid were greater.

82 uate the effect, if any, of citric acid root demineralization in the outcome of subepithelial connect

83 es at both readings in two patients (5%) and demineralization in two patients (5%).

84 e concluded that copper might inhibit enamel demineralization in vitro.

85 ignificant differences in the rate of enamel demineralization in vivo.

86 th recent observations of dissolution (i.e., demineralization) in biological minerals.

87 The depth of demineralization induced by biological or chemical demin

88 ily to increased calcium excretion from bone demineralization induced by space flight.

89 The concept of extrafibrillar demineralization involves selective removal of apatite c

90 Although enamel demineralization is important for our understanding of c

91 rachitic changes (kappa = 0.33) and 70% for demineralization (kappa = 0.37).

92 Previous data suggest that bone demineralization may promote bone graft consolidation as

93 The new demineralization method minimized organic matter losses

94 g) recovery using existing techniques vs new demineralization method: 58% vs 78%; N(org) recovery: 60

95 Finally, an in vitro demineralization model and in vivo secondary caries mode

96 ralization induced by biological or chemical demineralization models was measured using confocal lase

97 not uncommon in CKD and is linked with bone demineralization, muscle catabolism, and higher risks of

98 Control grafts (C) were performed without demineralization (n = 18).

99 ergy dispersive spectrometry (SEM/EDS) after demineralization (n = 3).

100 e enamel group without composite had further demineralization of -26.1 +/- 16.2%.

101 ced osteoclast differentiation and function (demineralization of calcium surface).

102 c acid is efficacious and distinctive in the demineralization of dentinal root surfaces for periodont

103 tering coefficient that result directly from demineralization of enamel are observed and simplifying

104 onomers employed exhibit a limited extent of demineralization of enamel in comparison to phosphoric a

105 s investigation was to compare the extent of demineralization of enamel slabs in situ, with a sugar-b

106 Water-demineralization of feedstock was used to simultaneously

107 simultaneously for oil-water separation and demineralization of organic pollutants from the separate

108 Demineralization of particulate bone grafts with CA duri

109 We present a novel technique for demineralization of soil samples with HF and dilute HCl

110 unity of the oral cavity, protecting against demineralization of teeth (i.e. dental caries), a highly

111 levels, hyperplasia of the parathyroid, and demineralization of the bones.

112 Demineralization of the contacting surfaces between auto

113 These data indicate that demineralization of the dentin surface promotes prolifer

114 Tooth sensitivity and demineralization of the enamel are, however, common side

115 This study investigated the effect of acid demineralization of the graft-bed interface on graft con

116 l studies have demonstrated that citric acid demineralization of the root surface promotes tissue att

117 ates degradation of the interfacial bond and demineralization of the tooth by recruiting the pioneer

118 y and prevalent disease characterized by the demineralization of the tooth's enamel.

119 establishment of a cariogenic microflora and demineralization of the tooth.

120 C) technique to investigate the acid-induced demineralization of these tissues at a relative undersat

121 s in acidification of the plaque biofilm and demineralization of tooth enamel, marking the onset of d

122 omise quality of life and is associated with demineralization of tooth structure by organic acids pro

123 For chemical demineralization, only "intensity of adhesive displaceme

124 about bone proteins that may be lost during demineralization or with the use of denaturing agents.

125 increased remineralization and inhibition of demineralization over a five-day period.

126 ficant in relation to all the other times of demineralization (P < 0.05).

127 he Ca content increased after 180 seconds of demineralization (P < 0.05).

128 eased significantly only after 30 seconds of demineralization (P < 0.5).

129 Following fixation and demineralization, part of the blocks were processed to o

130 icant differences in DeltaG according to the demineralization period (P < 0.001).

131 ed-measures analysis of variance showed that demineralization period and adhesive type and their inte

132 The demineralization process effectively removed residual al

133 isphosphonate use and to examine whether the demineralization process removes alendronate from allogr

134 o decrease biofilm accumulation, inhibit the demineralization process, to be used for remineralizing

135 ne and analyzed to examine the effect of the demineralization process.

136 Wet and dry bonding with the QCMC-based demineralization produced tensile bond strengths equival

137 fluence of adhesives and marginal sealing on demineralization progress using optical coherence tomogr

138 These findings guide on the best demineralization protocol to obtain high-quality collage

139 al uses and may model regulators of ferritin demineralization rates in vivo or peptide regulators of

140 The model also accounts for reported demineralization rates of natural biogenic and synthetic

141 The demineralization rates showed significant differences, p

142 he ferritin protein nanocage to control iron demineralization rates.

143 tivity was localized; dramatic escalation of demineralization-remineralization dynamics is the likely

144 Many therapies directed at correcting demineralization-remineralization imbalance should, in p

145 se specimens were then treated with a cyclic demineralization/remineralization regimen for 30 days.

146 el subsurface demineralization before cyclic demineralization/remineralization treatment, and signifi

147 namel under the NACP nanocomposite after the demineralization/remineralization treatment.

148 t types of degradation that can occur (i.e., demineralization, resin hydrolysis, and collagen degrada

149 For the purposes of creating a demineralization-resistant layer, threshold illuminance

150 Taken together, the QCMC-based demineralization retains intrafibrillar minerals, preser

151 However, extracts made after demineralization revealed that phosphatidylserine had be

152 It would appear that the bone demineralization secondary to increased osteoblastic and

153 In Crohn's disease, severe skeletal demineralization, secondary hyperparathyroidism, and mus

154 The treated samples were submerged in the demineralization solution and the pH was measured using

155 Incubation with demineralization solution for 192 h resulted in signific

156 ry of the SOM fraction solubilized in the HF demineralization solution via solid-phase extraction.

157 m, a chelate-and-rinse extrafibrillar dentin demineralization strategy has been developed that keeps

158 ether, the new chitosan-based extrafibrillar demineralization strategy retains intrafibrillar mineral

159 ad exposure during periods of increased bone demineralization, such as menopause.

160 This provides evidence for demineralization that would have occurred in vivo as par

161 Following demineralization, they were treated for 30 s by 1% MAGSE

162 the continuum from the first atomic level of demineralization, through the initial enamel or root les

163 Before demineralization, tiles of hydroxyapatite crystals were

164 HSMH + US reduced the demineralization time from 24 h to 12 h and improved its

165 on of bone proteins has relied on the use of demineralization to better retrieve proteins from the ex

166 or analysis, extracted both before and after demineralization to remove deposited mineral.

167 Chemicals used for the demineralization treatment did not affect delta(2)H(n) v

168 mp extract (SME) obtained from the mild-acid demineralization treatment of shrimp shells to produce c

169 grees C and 50 bar for 10-60 min followed by demineralization using citric acid, bleaching using hydr

170 The degree of DFDBA demineralization varies between tissue banks and may aff

171 t when the subjects used a F toothpaste, net demineralization was evident only with the seven- and 10

172 at the biofilm pH is below the threshold for demineralization was more pronounced for dentin than for

173 othpaste was used, statistically significant demineralization was observed when the frequency exceede

174 Significantly less demineralization was observed with Cu2+ and fluoride in

175 When most raters determined that demineralization was present at both readings, serum 25-

176 Depth of demineralization was significantly affected by "adhesive

177 Surface demineralization was subsequently promoted by subjecting

178 the same DS(En) and acid activity, rates of demineralization were the same in the acetic and propion

179 gingival recession; 19 received citric acid demineralization, while 17 did not.

180 d in groups (n = 9) according to the time of demineralization with citric acid (50%, pH 1): 15, 30, 9

181 This study investigated the effects of bone demineralization with citric acid (CA) and tetracycline

182 ese surface modification techniques involves demineralization with citric acid or treatment with tetr

183 oradiography (MRG) showed significantly less demineralization with the H(3)PO(4) cavity surface treat