ライフサイエンスコーパス: dental caries

1 2 diabetes), and a prospective cohort study (dental caries).

2 ponses to the levy on obesity, diabetes, and dental caries.

3 treptococcus mutans is prominently linked to dental caries.

4 nd its essential role in the pathogenesis of dental caries.

5 ssociation between PAD and periodontitis and dental caries.

6 ng to active and passive vaccination against dental caries.

7 ry teeth that are particularly vulnerable to dental caries.

8 e biofilm and the primary causative agent of dental caries.

9 is a widely recognized etiological agent of dental caries.

10 ey organisms associated with the etiology of dental caries.

11 uller understanding of the genetic risks for dental caries.

12 There are many determinants of children's dental caries.

13 er of the oral plaque and is associated with dental caries.

14 expression and activation were increased in dental caries.

15 een a focus for immunization studies against dental caries.

16 gent for dentin-pulp complex regeneration in dental caries.

17 rimary etiological agent in the formation of dental caries.

18 he pathogenesis of S. mutans associated with dental caries.

19 iding further insight into the prevention of dental caries.

20 juice was less likely to be associated with dental caries.

21 rming oral pathogen commonly associated with dental caries.

22 le that diet and sealants have in preventing dental caries.

23 is an effective agent for the prevention of dental caries.

24 S. mutans plays a key role in dental caries.

25 h mutans streptococci and the development of dental caries.

26 view of potential new diagnostic methods for dental caries.

27 rapy was not identified as a risk factor for dental caries.

28 ent of new technologies for the detection of dental caries.

29 tans, the primary etiological agent of human dental caries.

30 s as well as new insights in the etiology of dental caries.

31 red to be the major etiologic agent of human dental caries.

32 mutans, one of the major causative agents of dental caries.

33 response in this experimental rat model for dental caries.

34 smoking may be a modifiable risk factor for dental caries.

35 s and species not previously associated with dental caries.

36 ecisely study the microbiota associated with dental caries.

37 nactivate GTF, a factor in the production of dental caries.

38 construct resulted in protective effects on dental caries.

39 wn to induce protection against experimental dental caries.

40 i demineralize the tooth surface and lead to dental caries.

41 cariogenicity of S. mutans in a rat model of dental caries.

42 que pH, which can inhibit the development of dental caries.

43 ral ecological approaches toward controlling dental caries.

44 teractions occur among major determinants of dental caries.

45 ccus mutans, an oral bacterium implicated in dental caries.

46 ructed for use in the replacement therapy of dental caries.

47 hogens and commensals in the pathogenesis of dental caries.

48 tooth surfaces and subsequent development of dental caries.

49 itro, and can protect rats from experimental dental caries.

50 prevalent infectious disease in pediatrics: dental caries.

51 ead in the environment and the prevalence of dental caries.

52 uced cariogenicity in vivo in a rat model of dental caries.

53 ability to characterize fully the impact of dental caries.

54 disease and metabolism of sugar alcohols in dental caries.

55 in genes lacking known or plausible roles in dental caries.

56 ociation between amount of sugars intake and dental caries.

57 dered the principal cariogenic bacterium for dental caries.

58 , hypertension, obesity-related cancers, and dental caries.

59 ptococcus mutans, a causative agent of human dental caries.

60 between hair disorders and susceptibility to dental caries.

61 1T) and KRT75(E337K), are prone to increased dental caries.

62 proved nor precluded their associations with dental caries.

63 -kingdom interaction for the pathogenesis of dental caries.

64 ting against demineralization of teeth (i.e. dental caries), a highly prevalent infectious disease as

65 is considered the primary etiologic agent of dental caries, a global health problem that affects 60 t

66 ococcus mutans is a major etiologic agent of dental caries, a prevalent worldwide infectious disease

67 Evaluation of dental caries activity at the end of the study showed th

68 Dental caries affects most adults worldwide; however, th

69 cies associated with periodontal disease and dental caries after a 2-week program.

70 Experiments then compared experimental dental caries after immunization with SYI-CAT, SYI, or C

71 constructs resulted in significantly reduced dental caries after infection with S. sobrinus compared

72 h Sjogren's syndrome have elevated levels of dental caries, along with the loss of many teeth, early

73 we examined variability in susceptibility to dental caries among children and adolescents in rural Ap

74 is warranted to determine if disparities in dental caries among women are due to differences in pari

75 was an association between HIV infection and dental caries among women enrolled in the Women's Intera

76 sloC) from Streptococcus mutans, an agent of dental caries and endocarditis in humans.

77 t lip and palate have a higher prevalence of dental caries and gingivitis.

78 parts, Indigenous persons had more untreated dental caries and missing teeth, fewer teeth that had be

79 tion between the amount of sugars intake and dental caries and on the effect of restricting sugars in

80 ptococcus mutans is the etiological agent of dental caries and one of the many bacterial species impl

81 acy of hygiene-therapists when screening for dental caries and periodontal disease in regularly atten

82 giene-therapists could be used to screen for dental caries and periodontal disease.

83 oth sets of clinicians made an assessment of dental caries and periodontal disease.

84 e the sensitivity and specificity values for dental caries and periodontal disease.

85 cines to combat other oral diseases, such as dental caries and periodontal diseases.

86 ributes to the initiation and progression of dental caries and periodontal diseases.

87 oral microbes contribute to the formation of dental caries and periodontitis; however, there is littl

88 s essential to develop strategies to prevent dental caries and plaque formation.

89 s and confounders assessed were governorate, dental caries and restorations, and obesity by waist cir

90 nts with hyposalivation are at high risk for dental caries and thus require aggressive oral hygiene r

91 io on prevalence of obesity and incidence of dental caries and type 2 diabetes.

92 entification of the bacteria associated with dental caries and with dental health in a subset of 204

93 ns is the primary etiological agent of human dental caries and, at times, of infective endocarditis.

94 of bacteria associated with the formation of dental caries, and attempts to identify some areas of or

95 crobiology and on foodstuff as it relates to dental caries, and for fostering the careers of many dis

96 streptococci are major etiological agents of dental caries, and several of their secreted products co

97 es into resin for Ca-PO(4) release to combat dental caries, and to investigate the filler level effec

98 h concerns, including nutrient displacement, dental caries, and weight gain.

99 countries, universal health problems such as dental caries, anemia, ophthalmologic conditions, and hy

100 tified include the misconception of defining dental caries as a tooth or surface-level condition vers

101 old increase in presentation and severity of dental caries as compared with wild-type control mice.

102 on with log link function on 3-time repeated dental caries assessments.

103 ether sugar-related feeding practices affect dental caries between the ages of 6 and 18 y.

104 igated the differential effects of MA use on dental caries by comparing the patterns of decayed, miss

105 3F1 treatment effectively prevented dental caries by controlling S. mutans in a rat caries m

106 Fluoridation causes an obvious reduction of dental caries by interference with cariogenic streptococ

107 may eventually prove useful for controlling dental caries by replacement therapy.

108 ing the enzyme that actively participates in dental caries by taking advantage of a Fenton reaction w

109 eses regarding the role of oral ureolysis in dental caries, calculus formation, and periodontal disea

110 Dental caries can be described as a dysbiosis of the ora

111 sponses which are potentially protective for dental caries can be induced to peptide-based GTF vaccin

112 Dental caries can be prevented by a combination of commu

113 y the S. mutans 59-kDa GBP (GBP59) to affect dental caries caused by experimental infection with S. m

114 y important in the molecular pathogenesis of dental caries caused by Streptococcus mutans.

115 ion of S. mutans and can reduce the level of dental caries caused by this cariogenic streptococcus.

116 t demonstrates activity against the dominant dental caries-causing pathogen as well as the first lysi

117 mutans, the primary causative agent of human dental caries, contains a single copy of the gene encodi

118 Dental caries continues to be a common chronic disease o

119 Dental caries covers the continuum from the first atomic

120 intraclass correlation coefficient (ICC) for dental caries data at tooth and surface level, 2) to pro

121 The ICC for dental caries data was 0.21 (95% confidence interval [CI

122 In the United States, dental caries (decay) is the most common chronic childho

123 ammatory mediators, including pericoronitis, dental caries, dentate status, root remnants, and gingiv

124 ow level of sugar consumption was related to dental caries, despite the use of fluoride.

125 lts worldwide; however, the risk factors for dental caries do not necessarily exert their effects uni

126 aries (DFS), parity was related to untreated dental caries (DS).

127 nicity groups were disparate with respect to dental caries; effort is needed to treat active caries c

128 rimary etiological agent in the formation of dental caries, encodes at least 18 TetR regulators.

129 Dental caries, endodontic infections and periodontal dis

130 e to the initiation and progression of human dental caries, especially root caries.

131 ded by visual and tactile methods during the dental caries examination.

132 and LPO) with plausible biological roles in dental caries exhibited suggestive evidence for associat

133 endance behaviors; those would lead to lower dental caries experience and better self-reported oral h

134 idate genes for evidence of association with dental caries experience in 13 race- and age-stratified

135 ionship between oral arginine metabolism and dental caries experience in children, we measured ADS ac

136 attern; they also had a significantly higher dental caries experience in the primary dentition than d

137 were used to generate two common indices of dental caries experience which were tested for associati

138 ne source of information on past and present dental caries experience; however, important limitations

139 randomized or controlled clinical trials on dental caries, fluorides, sealants, and "restorative" ca

140 The first genome-wide association study of dental caries focused on primary teeth in children aged

141 dietary carbohydrates caused an increase in dental caries following the development of agriculture,

142 Lactobacilli have been associated with dental caries for over a century.

143 calcium phosphate surfaces, the mechanism of dental caries formation and the effects of fluoride on t

144 utans, a major oral pathogen responsible for dental caries formation, possesses a variety of mechanis

145 Dental caries forms through a complex interaction over t

146 tudinal studies to report the development of dental caries from childhood into adolescence.

147 ugar-related feeding practices on changes in dental caries from early childhood to young adulthood.

148 s considered "optimal" for the prevention of dental caries (from 0.7 to 1.2 mg/L) appears to have no

149 dustry could not deny the role of sucrose in dental caries given the scientific evidence.

150 idated through the analysis of a large-scale dental caries GWAS data set.

151 Concurrent with the decline in dental caries has been an increase in the prevalence of

152 Dental caries has been an intractable disease in spite o

153 ance of susceptibility genes in the risk for dental caries has been clearly established.

154 benefit of fluoridation in the prevention of dental caries has been overwhelmingly substantiated, the

155 th loss, the relationship between parity and dental caries has not been extensively investigated.

156 extraoral infections, but its relevance for dental caries has only been theorized to date.

157 iated with the initiation and progression of dental caries has yet to be fully characterized.

158 tans, the primary etiological agent of human dental caries, has developed multiple mechanisms to colo

159 Streptococcus mutans, a primary agent of dental caries, has three (p)ppGpp synthases: RelA, which

160 ed genome-wide association scans (GWASs) for dental caries in a population-based cohort of 12 000 His

161 found fluoride to be effective in preventing dental caries in adults.

162 ol vs. placebo lozenges in the prevention of dental caries in caries-active adults.

163 The measurement of dental caries in children and adolescents from 2-17 year

164 imerosal and of dental amalgam for repair of dental caries in children.

165 For dental caries in deciduous teeth, the adjusted OR was 1.

166 on that will potentially effectively inhibit dental caries in enamel and tooth roots.

167 been shown to induce protective immunity to dental caries in experimental models.

168 cal effectiveness of FS and FV in preventing dental caries in first permanent molars (FPMs) in 6- to

169 efficient carbohydrate for the promotion of dental caries in humans, and the primary caries pathogen

170 cus mutans, the principal etiologic agent of dental caries in humans, possesses a variety of virulenc

171 The causative agent of dental caries in humans, Streptococcus mutans, outcompet

172 reptococcus mutans is a primary pathogen for dental caries in humans.

173 primary causative agent in the formation of dental caries in humans.

174 ffector strain in the replacement therapy of dental caries in humans.

175 lear is how the distribution and severity of dental caries in MA users differ from the general popula

176 Dental caries in pre-school children has significant pub

177 The high prevalence of dental caries in recent humans is attributed to more fre

178 ks by young children is a risk indicator for dental caries in the primary dentition and should be dis

179 s associated with an increased prevalence of dental caries in the US population.

180 the United States, included an assessment of dental caries in US children and adolescents and provide

181 ofilms by 3F1 was able to effectively reduce dental caries in vivo without affecting the overall oral

182 xylitol-containing tooth-wipes in preventing dental caries in young children.

183 ention of Streptococcus mutans infection and dental caries include mucosal immunization, which result

184 Adjusted analysis showed that dental caries increment ratio between ages 6 and 18 y wa

185 mption along the life course, the higher the dental caries increment.

186 Reports that compare dental caries indices in HIV-seropositive (HIV+) subject

187 Dental caries induced by Streptococcus mutans is one of

188 tive GTF and demonstrated protection against dental caries infection after immunization, implying tha

189 ferase enzymes (GTF) can provide immunity to dental caries infection.

190 Dental caries is a chronic infectious disease of multifa

191 Dental caries is a costly and prevalent disease characte

192 Dental caries is a microbially mediated disease that can

193 Dental caries is a prime example of a biofilm-dependent

194 Dental caries is a ubiquitous disease affecting all age

195 Dental caries is an infectious disease that causes tooth

196 l, behavioral, and community determinants of dental caries is based on cross-sectional analyses.

197 Dental caries is closely associated with the virulence o

198 Dental caries is considered a diet-mediated disease, as

199 The eventual outcome of dental caries is determined by the dynamic balance betwe

200 The prevalence of dental caries is disproportionately higher for Latino ch

201 Dental caries is influenced by a complex interplay of ge

202 d the region where the highest prevalence of dental caries is observed.

203 Remineralization of dentin during dental caries is of considerable clinical interest.

204 Dental caries is one of the most prevalent infectious di

205 Dental caries is prevalent, and secondary caries causes

206 Dental caries is the most common chronic disease in chil

207 Dental caries is the most common chronic disease worldwi

208 lth Organization (WHO) stated that globally, dental caries is the most important oral condition.

209 Dental caries is the most prevalent infection globally a

210 occus mutans, a principal causative agent of dental caries, is considered to be the most cariogenic a

211 se, an inflammatory disease mainly caused by dental caries, is one of the most prevalent infectious d

212 ans, the primary aetiological agent of human dental caries, is unknown.

213 The infectious nature of dental caries, its early onset, and the potential of ear

214 model that specified that parity influences dental caries levels through dental care, psycho- social

215 s mutans, a major etiological agent of human dental caries, lives primarily on the tooth surface in b

216 estorative materials as useful strategies to dental caries management.

217 Dental caries may lead to endodontic disease, where the

218 from nine adults who have remained free from dental caries (mean age = 59.2; Decayed Missing Filled S

219 Relative to controls, the extent of molar dental caries measured on day 78 was also significantly

220 Children were sampled and dental caries measured.

221 s reported the absolute amount of sugars and dental caries, measured as prevalence, incidence, or sev

222 to elicit significant protection in a rodent dental caries model.

223 The high rates and distinctive patterns of dental caries observed could be used 1) to alert dentist

224 to explain the comparatively high levels of dental caries observed in the inner cities of the United

225 isk of lead exposure to be 13.5% and 9.6% of dental caries occurring in 5- to 17-year-olds exposed to

226 evel was associated with an elevated risk of dental caries (odds ratio, 1.8; 95% confidence interval,

227 ed a significant genetic association between dental caries of the anterior mandibular teeth and LYZL2

228 munized groups had significant reductions in dental caries on both smooth and occlusal surfaces compa

229 determine the impact of enamel fluorosis and dental caries on oral health-related quality of life (OH

230 o provide a broader profile of the impact of dental caries on permanent teeth of US adults.

231 ms are associated with oral diseases such as dental caries or periodontitis.

232 Dental caries, otherwise known as tooth decay, is one of

233 immunological, microbiological, and disease (dental caries) parameters.

234 ften cited as the main bacterial pathogen in dental caries, particularly in early-childhood caries (E

235 fect homeostasis and stress tolerance in the dental caries pathogen S. mutans.

236 nduced protein-encoding mRNA (irvA) from the dental caries pathogen Streptococcus mutans directly mod

237 Streptococcus mutans, a dental caries pathogen, also causes endocarditis and is

238 ctional significance of these GTF domains in dental caries pathogenesis and present coimmunization as

239 Two dental caries pathogenesis experiments were performed wh

240 osyltransferase (GTF), an enzyme involved in dental caries pathogenesis, was used as a test antigen.

241 raphic characteristics, smoking, tooth loss, dental caries, periodontal status, and OHRQoL in adults

242 ypertensive medication; smoking; tooth loss; dental caries; periodontal status (bleeding on probing,

243 Hyposalivation contributes to dental caries, periodontitis, and microbial infections.

244 e-wide association studies (GWAS) of 5 novel dental caries phenotypes (developed by clustering the pe

245 tans, the primary etiological agent of human dental caries, possesses at least two fructose phosphotr

246 High and upward sugar consumers had higher dental caries prevalence and mean DMFT in all cohort wav

247 For dental caries prevention, however, Chilton and Fertig an

248 ws produce conflicting conclusions regarding dental caries-preventive effects of water fluoridation i

249 cus mutans, the principal causative agent of dental caries, produces four glucan-binding proteins (Gb

250 cus mutans, the primary etiological agent of dental caries, produces several activities that promote

251 t with a significant genetic contribution to dental caries progression and severity in both emerging

252 role of genetic and environmental factors on dental caries progression in young children was determin

253 Experiments show that dental caries rates are higher among lead-exposed animal

254 aque ureolytic activity and the incidence of dental caries, recombinant, ureolytic strains of Strepto

255 GGY and AND-injected groups had significant dental caries reductions compared with sham-injected gro

256 The etiology of dental caries reflects a complex interplay of biochemica

257 n before their third birthday and subsequent dental caries-related treatment (CRT) and CRT payment.

258 able, the specific genes influencing risk of dental caries remain largely unknown.

259 Dental caries results from prolonged plaque acidificatio

260 S2R38, TAS1R2, GNAT3) may be associated with dental caries risk and/or protection.

261 While genetics clearly influences dental caries risk, few caries genes have been discovere

262 occus mutans, a principal causative agent of dental caries, secretes antimicrobial peptides known as

263 provided the opportunity for differences in dental caries status to be viewed by a ge, sex, race, an

264 a, Actinobacillus actinomycetemcomitans) and dental caries (Streptococcus mutans and S. sobrinus).

265 However, the appearance of dental caries suggest a diet high in fermentable-carbohy

266 This study reinforces the complexity of dental caries, suggesting that numerous loci, mostly hav

267 Understanding the factors influencing dental caries susceptibility may lead to improvements in

268 identify genetic factors that contribute to dental caries susceptibility, either alone or in combina

269 ldhood caries (ECC) is a preventable form of dental caries that affects very young children, particul

270 During the treatment of dental caries that has not penetrated the tooth pulp, ma

271 vary IgA responses and in protection against dental caries, the finding that the GLU polypeptide alon

272 fracture toughness that protects teeth from dental caries, the most common chronic disease worldwide

273 Streptococcus mutans, the causative agent of dental caries, the most prevalent childhood disease.

274 dental erosion and the relationship between dental caries to GER and dental erosion.

275 d the first genome-wide association scan for dental caries to identify associated genetic loci and no

276 In conclusion, this was the largest GWAS of dental caries, to date and was the first to target Hispa

277 Dental caries (tooth decay) is a polymicrobial biofilm d

278 ions for widespread application to eradicate dental caries (tooth decay) within a decade.

279 Streptococcus mutans is the leading cause of dental caries (tooth decay) worldwide and is considered

280 Dental caries, tooth loss, and periodontal attachment lo

281 Tooth loss due to periodontal disease, dental caries, trauma, or a variety of genetic disorders

282 rpose was to evaluate the natural history of dental caries using a standardized, visually based syste

283 t this peptide may be important in a subunit dental caries vaccine.

284 n demonstrated to be effective components of dental caries vaccines.

285 ering, including the treatment/prevention of dental caries, via bioactive surface groups.

286 plus 16-immunized groups, and the extent of dental caries was also significantly reduced in these gr

287 samples of patients or populations; and (2) dental caries was assessed clinically, and criteria were

288 l sugar consumption groups, the increment of dental caries was slightly higher between ages 6 and 12

289 oth loss in the LJP and GJP groups, and that dental caries was the principal cause for tooth extracti

290 tans, the primary etiological agent of human dental caries, was completed.

291 ptococcus mutans, a causative agent of human dental caries, was detected for the aqueous leaf extract

292 ns, one of the principal causative agents of dental caries, was dramatically impaired by growth of th

293 abolism in the initiation and progression of dental caries, we constructed otherwise-isogenic mutants

294 development of broader-spectrum vaccines for dental caries, we explored the immune potential of const

295 Dental caries were lower in each peptide-immunized group

296 th the development of periodontal disease or dental caries were overabundant in the group that did fl

297 ide varnish (FV) are effective in preventing dental caries when compared with a no-treatment control.

298 nd in biofilms of children exhibiting severe dental caries, with different degrees of lesion severity

299 Streptococcus mutans is the leading cause of dental caries worldwide.

300 Tooth loss, dental caries, worse periodontal status, and smoking wer