ライフサイエンスコーパス: oral cavity

1 plex in the primary gateway to the body: the oral cavity.

2 concurrent detection of the same type in the oral cavity.

3 ant role in dysbiosis and homeostasis in the oral cavity.

4 ontitis by preventing Pg colonization of the oral cavity.

5 of high value for cancers of the larynx and oral cavity.

6 their cytotoxicity on cells belonging to the oral cavity.

7 d to the development of the cement gland and oral cavity.

8 uding those of the anogenital region and the oral cavity.

9 rios that involve critical structures in the oral cavity.

10 ation carries information about acids in the oral cavity.

11 ed in the tongue and 30% in the floor of the oral cavity.

12 e IE-causing microorganism originated in the oral cavity.

13 des and proteins (AMPs) are expressed in the oral cavity.

14 ew years after the crown first erupts in the oral cavity.

15 hstands various stressors encountered in the oral cavity.

16 of retaining taste or aroma molecules in the oral cavity.

17 that she felt discomfort and itching in her oral cavity.

18 nal nanoparticles for biofilm control in the oral cavity.

19 cological interactions extend throughout the oral cavity.

20 alth and disease states in the human gut and oral cavity.

21 opportunistic fungal pathogen colonizing the oral cavity.

22 ed by subgingival colonizing bacteria in the oral cavity.

23 e to other bacteria and to host cells in the oral cavity.

24 mainly caused by microbial activities in the oral cavity.

25 the persistence ability of S. mutans in the oral cavity.

26 tissue on freshly excised specimens from the oral cavity.

27 operate to secrete and deliver saliva to the oral cavity.

28 tom jaw imitating the structure of the human oral cavity.

29 teractions by dysbiotic members of the human oral cavity.

30 which almost exclusively reside in the human oral cavity.

31 e a long-term commensal lifestyle within the oral cavity.

32 entiation and tissue patterning in the mouse oral cavity.

33 es for RA, including those from the lung and oral cavity.

34 despite the surrounding neutral-pH found in oral cavity.

35 distinct adaptation strategies to the human oral cavity.

36 entage of patients with normal mucosa in the oral cavity.

37 ting a needle through the bony palate of the oral cavity.

38 ivated a TM7 phylotype (TM7x) from the human oral cavity.

39 ruly indigenous to the human GI tract or the oral cavity.

40 ls that promote odontogenesis throughout the oral cavity.

41 , is converted to nitrite by bacteria in the oral cavity.

42 survive and thrive in the carbohydrate-rich oral cavity.

43 tive niches of the host, at least within the oral cavity.

44 mutans strains in their native habitat, the oral cavity.

45 subatmospheric pressures within the infant's oral cavity.

46 saliva for lubrication and protection of the oral cavity.

47 Klebsiella and Enterobacter species, in the oral cavity.

48 oV-2 effect to control the viral load in the oral cavity.

49 n essential regulator of inflammation in the oral cavity.

50 tions and an increased bacterial load in the oral cavity.

51 ity, paranasal sinuses, tonsillar fossa, and oral cavity.

52 of pathogens vulnerable to H(2)O(2), in the oral cavity.

53 streptococci promotes Pg colonization of the oral cavity.

54 f oral pathobiont-reactive Th17 cells in the oral cavity.

55 ase, tooth loss, and cancers of the lips and oral cavity.

56 ex physico-chemical environment of the human oral cavity.

57 ssion or autoinoculation of beta-HPVs to the oral cavity.

58 ginosa, a natural microbial colonizer of the oral cavity.

59 the basal layer of the mucosa throughout the oral cavity.

60 nsions of species typically derived from the oral cavity.

61 better mimicking bacterial adherence in the oral cavity.

62 terally through acoustic coupling across the oral cavity.

63 zymatic biosensor, is located outside of the oral cavity.

64 etion of volatile sulfur compounds (VSCs) in oral cavities.

65 d to be a commensal of the canine and feline oral cavities.

66 tion in never smokers (lung 0.99, 0.93-1.05; oral cavity 1.07, 0.91-1.26): inverse associations overa

67 resection of squamous cell carcinoma of the oral cavity, a tumor-free margin of at least 5 mm is req

68 In the oral cavity alone, at least 6 distinct groups vary widel

69 strains, originally isolated from the human oral cavity, amniotic fluid, endometrium, or vagina (inc

70 The oral cavity, an essential part of the upper aerodigestiv

71 th each of 15 microbes commonly found in the oral cavity and 10 microbes that are not.

72 prevalence of HPV infection was 6.7% in the oral cavity and 16.9% for the external genitalia.

73 gordonii is a primary colonizer of the human oral cavity and an opportunistic pathogen, as well as a

74 mulate KSHV replication and infection in the oral cavity and are potential risk factors for developme

75 trated to reach a significant biomass in the oral cavity and clearly shown to be associated with a di

76 noma (OSCC) is the most common cancer of the oral cavity and constitutes 95% of all cancers of this a

77 3b received projections from the presumptive oral cavity and face regions of other somatosensory area

78 lpha-, beta-, and gamma-HPV detection in the oral cavity and incident HNSCC.

79 l cancers were generally lower than those of oral cavity and laryngeal cancers.

80 Oral cavity and larynx cancers are generally associated

81 patients with squamous cell carcinoma of the oral cavity and oropharynx.

82 conducted a genome-wide association study of oral cavity and pharyngeal cancer in 6,034 cases and 6,5

83 squamous cell carcinomas (HNSCC), including oral cavity and pharynx (OC/P) cancers.

84 For tumors of the lip, oral cavity and pharynx, digestive organs, respiratory t

85 s (D10-D90) of the subvolumes extracted from oral cavity and salivary gland contours + 3 mm periphera

86 mples, but were enriched for genera from the oral cavity and stomach, including Fusobacterium, Megasp

87 Maternal vaginal samples and infant oral cavity and stool samples were analyzed at delivery,

88 Bacterial dissemination from the oral cavity and systemic inflammation linked to IDT can

89 phenotypes related to competitiveness in the oral cavity and systemic virulence.

90 ssociation of abnormalities of the face, the oral cavity and the extremities, some due to mutations i

91 f MRI in staging of malignant lesions of the oral cavity and to correlate MRI findings with clinical/

92 ctinomycetemcomitans infection in the murine oral cavity and to prevent subsequent alveolar bone dest

93 ected at 3 days post infection (p.i.) in the oral cavity and upper respiratory mucosa.

94 The most common ADRs occurred locally in the oral cavity and were categorized as mild.

95 who presented with malignant lesions of the oral cavity and were referred to radiology departments f

96 enotype was 45.3% on the penis, 11.2% in the oral cavity, and 8.8% at both sites.

97 ed from the environment may be viable in the oral cavity, and although they may not play a significan

98 em with those of the cervix, vagina, rectum, oral cavity, and controls for background DNA contaminati

99 C, which includes cancers of the oropharynx, oral cavity, and larynx.

100 ral epithelial sheets of the palate, base of oral cavity, and posterior tongue.

101 nflammatory neutrophils found in the healthy oral cavity, and proinflammatory neutrophils found in th

102 Neutrophils are constantly recruited to the oral cavity, and their protective role is highlighted in

103 PC, -1.54; 95% CI, -2.00 to -1.08; P < .001; oral cavity: APC, -1.23; 95% CI, -1.84 to -0.62; P = .00

104 mately 700 bacterial taxa found in the human oral cavity are as yet uncultivated in vitro.

105 Afferent signals from the oral cavity are carried to the brain in chemosensory fib

106 itter taste receptors in the stomach and the oral cavity are involved in the regulation of GAS and (i

107 rs of the breast, uterine cervix, and lip or oral cavity are three of the most common malignancies in

108 entrained into the airway at the back of the oral cavity are transported by exhaled air through the n

109 cavity by proposing that lactobacilli in the oral cavity arise from caries lesions.

110 eir findings highlight the importance of the oral cavity as a potential reservoir for bacteria that c

111 This establishes the oral cavity as an endogenous reservoir for gut microbial

112 the epithelium and mesenchyme in the base of oral cavity as compared to the palate and posterior tong

113 tates can contribute to tumorigenesis in the oral cavity as well as in distant body sites.

114 d mucoadhesion of liquid formulations in the oral cavity but it is also the first to link the mucoadh

115 imicrobial resistance genes are found in the oral cavity, but the oral cavity contains a lower divers

116 Saliva is modified and delivered to the oral cavity by a complex multifunctional ductal system.

117 Taste perception begins in the oral cavity by interactions of taste stimuli with specif

118 cilli found in the GI tract originate in the oral cavity by proposing that lactobacilli in the oral c

119 Colonization of the oral cavity by the Gram-negative bacterial pathogen Porp

120 Although the oral cavity can be easily examined, in the majority of c

121 Persistence of S. mutans biofilms in the oral cavity can lead to tooth decay.

122 Bony defects in the oral cavity can vary significantly, ranging from smaller

123 The objectives were to characterize oral cavity cancer (OCC) funding from the National Insti

124 898 subcohort members and 415 HNC cases [131 oral cavity cancer (OCCs), 88 oro-/hypopharyngeal cancer

125 ncer combined (OR 0.55, 95CI% 0.39-0.78) and oral cavity cancer (OR 0.60, 95CI% 0.42-0.87).

126 x clinical scenarios were devised; three for oral cavity cancer and three for oropharynx cancer, and

127 at 39% (US$6.6 billion), followed closely by oral cavity cancer at 34% (US$5.7 billion).

128 primary surgery for clinically node-negative oral cavity cancer compared with those receiving primary

129 Oral cavity cancer has a low 5-y survival rate, but outc

130 metastatic nodes is a critical predictor of oral cavity cancer mortality, eclipsing other features s

131 p21.32, 6p21.33, and 2p23.1) associated with oral cavity cancer risk and oropharyngeal cancer risk, r

132 pharynx cancer, 0.26; 95% CI, 0.18-0.39; for oral cavity cancer, 0.45; 95% CI, 0.18-0.80; and for lar

133 By contrast, for lung and oral cavity cancer, we observed no association in never

134 of oral diseases including periodontitis and oral cavity cancer, which might offer future possibiliti

135 atment remains a major clinical challenge in oral cavity cancer.

136 tment strategy for patients with early-stage oral cavity cancer.

137 e initial surgical management of early-stage oral cavity cancer.

138 interval (CI): 1.08, 2.70), particularly for oral cavity cancers (OR = 3.01, 95% CI: 1.63, 5.55).

139 gery followed by chemoradiotherapy (CRT) for oral cavity cancers and primary CRT for pharynx and lary

140 ecoxib is efficacious in platinum-refractory oral cavity cancers and represents a new therapeutic opt

141 Purpose Current staging systems for oral cavity cancers incorporate lymph node (LN) size and

142 For oral cavity cancers, clinical scenarios focused on the i

143 Oral cavity carcinoma (OCC) remains a major cause of mor

144 Using mouse models of oral cavity carcinoma, we demonstrated that PARPi-FL, a

145 he goal of any surgical resection of primary oral cavity carcinoma.

146 genes are found in the oral cavity, but the oral cavity contains a lower diversity of resistance gen

147 The human oral cavity contains a poorly explored reservoir of thes

148 The oral cavity contains a rich consortium of exopolysacchar

149 Moreover, the oral cavity contains a wide spectrum of alpha-, beta-, a

150 The oral cavity contains different types of microbial specie

151 Modulating nitrite concentrations in the oral cavity could be a useful strategy to combat the pre

152 specifically defined tissues of the base of oral cavity demonstrated that DEGs between gustatory (GE

153 tion between odorants and oral mucosa in the oral cavity during a "wine intake-like" situation.

154 and proinflammatory neutrophils found in the oral cavity during chronic periodontal disease.

155 oting SFO neurons respond to inputs from the oral cavity during eating and drinking and then integrat

156 In the oral cavity, dysbiosis of the microbiome leads to diseas

157 breast cancer (EAR, 2.2) and cancers of the oral cavity (EAR, 1.5) and skin (EAR, 1.5) per 1000 pers

158 umatin interacts with taste receptors in the oral cavity eliciting a persistent sweet taste and a bit

159 d KLFs in the digestive system including the oral cavity, esophagus, stomach, small and large intesti

160 The floor of the oral cavity expands by inversion of the tongue and ballo

161 that HFCS had the highest adsorption in the oral cavity, followed by rebaudioside A and the artifici

162 knockout mice resist bone resorption in the oral cavity following challenge with P. gingivalis Our f

163 able "Cavitas sensors" to apply to the human oral cavity for non-invasive monitoring of saliva glucos

164 lex bacterial community inhabiting the human oral cavity, for a variety of (mainly technical) reasons

165 ia can cover implant surfaces exposed to the oral cavity, for example, due to a remodeling process.

166 latal shelves at the midline to separate the oral cavity from the nasal cavity.

167 a albicans, a commensal microbe of the human oral cavity, gastrointestinal tract, and reproductive mu

168 The oral cavity harbors a diverse community of microbes that

169 The human oral cavity harbors diverse communities of microbes that

170 The oral cavity harbors one of the most diverse and abundant

171 ent oral microbiome and demonstrate that the oral cavity has long served as a reservoir for bacteria

172 the gut microbiota; however, studies in the oral cavity have been inconclusive.

173 Microbial residents of the human oral cavity have long been a major focus of microbiology

174 th selected tobacco-related cancers (larynx, oral cavity, hypopharynx, lung) and an HPV-related cance

175 e inoculation hypothesis, whereby the infant oral cavity impacts the milk microbiota.

176 nting KSHV infection and transmission in the oral cavity.IMPORTANCE Kaposi's sarcoma-associated herpe

177 aroma compounds could be metabolized in the oral cavity in an individual manner, which could have im

178 onal Saccharibacteria species from the human oral cavity in binary coculture with their bacterial hos

179 tritionally essential amino acid, enters the oral cavity in gingival crevicular fluid (GCF).

180 Generation of site-appropriate tissue in the oral cavity includes the restoration of the correct anat

181 on test that mimicked the environment of the oral cavity, including lower volume of disintegration me

182 che partitioning of enigmatic members of the oral cavity, including TM7, SR1, and GN02, and provide g

183 n response to the altered environment in the oral cavity induced by OTM.

184 pleomorphic bacterium, commonly found in the oral cavity, intestinal, and genitourinary mucosa as par

185 The oral cavity is a major route for KSHV infection and tran

186 The oral cavity is a persistent reservoir for Epstein-Barr v

187 The oral cavity is a unique niche where Candida albicans inf

188 The oral cavity is accessible to microorganisms, and biofilm

189 sidering that persistent inflammation in the oral cavity is associated with systemic diseases and tha

190 The oral cavity is colonized by >10(9) bacteria, many of whi

191 The oral cavity is densely innervated by afferent sensory ne

192 , and then the highly compliant floor of the oral cavity is inflated by the incoming water [3].

193 The human oral cavity is one of the first environments where micro

194 Tissue regeneration in the oral cavity is regulated by multiple cell types, signali

195 The human oral cavity is sterile prior to birth, and we have limit

196 steopontin in inflammatory conditions in the oral cavity is still poorly understood.

197 show that the hard palatal epithelium of the oral cavity is unique in displaying marked proliferative

198 is, an abundant and benign inhabitant of the oral cavity, is an important etiologic agent of infectiv

199 in oPMN, despite enhanced recruitment in the oral cavity, is associated with severe CP.

200 isease, a chronic bacterial infection of the oral cavity, is both common and modifiable and has been

201 imary and metastatic) human tissues from the oral cavity, larynx-pharynx, and lymph nodes using 16S r

202 o a dysbiotic resident microflora within the oral cavity leads to chronic periodontal disease, local

203 The diversity of bacterial species in the oral cavity makes it a key site for research.

204 hat OCC is underfunded relative to other non-oral cavity malignancies, indicating a need to increase

205 ferred modality in evaluation and staging of oral cavity malignancy which helps a clinician for plann

206 medium and how C. albicans overgrowth in the oral cavity may be a result of aberrations ranging from

207 cture of this community, suggesting that the oral cavity may be less susceptible to dysbiosis during

208 onstrated that disordered homeostasis in the oral cavity may result in deficient saliva-mediated NETo

209 Our findings suggest that the oral cavity may serve as a reservoir for potential intes

210 This change, particularly in the oral cavity, may lead to neurological diseases.

211 to monitor dysplastic progression within the oral cavity microenvironment in a phantom and pre-clinic

212 Sites included oral cavity (n = 14), oropharynx (n = 37), hypopharynx (

213 encies of lesions were as followed: lips and oral cavity (n = 46 [93%]) and pharynx and vestibule of

214 SCCHN) affect anatomical sites including the oral cavity, nasal cavity, pharynx, and larynx.

215 Mucosal sites such as the intestine, oral cavity, nasopharynx, and vagina all have associated

216 vel mortality rates from 29 cancers: lip and oral cavity; nasopharynx; other pharynx; esophageal; sto

217 hypothesize that neutrophils in the healthy oral cavity occur in an intermediary parainflammatory st

218 a and gamma human papillomaviruses (HPVs) in oral cavities of healthy women.

219 at significantly higher levels in the murine oral cavities of infected gp91(phox) KO mice than in tho

220 ltivated mycoplasma (lineage 'Mnola') in the oral cavity of a premature neonate.

221 reatment with rapamycin rejuvenates the aged oral cavity of elderly mice, including regeneration of p

222 ng a single dose (20 Gy) of radiation to the oral cavity of female C57BL/6 J mice, we evaluated the e

223 ere, we show that nerves in the floor of the oral cavity of fin whales are highly extensible.

224 se bacteria are surprisingly abundant in the oral cavity of marine mammals.

225 e reactions being the local reactions in the oral cavity of mild-to-moderate severity.

226 target E. faecalis strains isolated from the oral cavity of patients suffering root canal infections.

227 ies previously detected in the brain, CSF or oral cavity of patients with AD.

228 Aroma released after exposing the oral cavity of three individuals to different wines (n=1

229 bacteria, which were also predominant in the oral cavity of Tursiops truncatus.

230 y organs for taste are the taste buds in the oral cavity, of which there are ~240-360 in total number

231 y rates and occurred at highest frequency in oral cavity or oropharyngeal tumors.

232 (from 44 institutions) with locally advanced oral cavity or oropharynx cancer planned to be treated w

233 distinguished outcomes among patients having oral-cavity or laryngeal cancers even when standard dise

234 C (OR, 22.4; 95% CI, 1.8-276.7), but not for oral cavity (OR, 4.5; 95% CI, 0.6-34.7) or laryngeal SCC

235 al (OR, 7.42; 95% CI, 0.98-56.82; P = .054), oral cavity (OR, 5.34; 95% CI, 1.51-18.80; P = .01), and

236 amma12-HPV species were associated with both oral cavity (OR, 7.47; 95% CI, 1.21-46.17; P = .03; and

237 ll carcinomas (HNSCCs) that can arise in the oral cavity, oropharynx, hypopharynx and larynx.

238 ge III to IVB squamous cell carcinoma of the oral cavity, oropharynx, hypopharynx, and larynx treated

239 on-metastatic squamous cell carcinoma of the oral cavity, oropharynx, hypopharynx, or larynx undergoi

240 863 patients with newly diagnosed SCC of the oral cavity, oropharynx, larynx, or nasopharynx was used

241 roup of cancers that includes tumours of the oral cavity (OSCC), oropharynx (OPSCC) and nasopharynx (

242 0.9% and 0.09%; melanoma, 0.5% and 0.6%; and oral cavity/pharyngeal cancer, 0.8% and 0.8%.

243 e derived from the mucosal epithelium in the oral cavity, pharynx and larynx and are known collective

244 (PARP1) for the detection of cancers of the oral cavity, pharynx and oesophagus.

245 mediated disease predominantly affecting the oral cavity, pharynx, and conjunctiva.

246 n medians = 4 years), anal (difference = 4), oral cavity/pharynx (difference = 2), and kidney cancers

247 or non-cutaneous SCC, including those of the oral cavity/pharynx (HR, 5.60; 95% CI, 4.18-7.50) and lu

248 and also shows younger ages at diagnosis of oral cavity/pharynx and kidney cancers, possibly reflect

249 ociated SPCs, such as lung, urinary bladder, oral cavity/pharynx, colorectal, pancreatic, uterine cor

250 vations within the microbiota of the gut and oral cavity, preliminary surveys of the urinary tract an

251 In the oral cavity, pro-inflammatory mechanisms induced by path

252 e transcription factor Phox2b would identify oral cavity-projecting neurons in the geniculate ganglio

253 Saliva functions in innate immunity of the oral cavity, protecting against demineralization of teet

254 asite with its bacterial host from the human oral cavity-provide a rare glimpse into the novel symbio

255 f the endometrium differed from those of the oral cavity, rectum, vagina, and background DNA controls

256 ead to several immune pathologies, including oral cavity-related disorders mainly focusing on periodo

257 se in the context of high recruitment in the oral cavity, resulting in increased oxidative tissue dam

258 dex in size matched larynx SCC compared with oral cavity SCC and oropharynx SCC.

259 1.77), analyses restricted to cancers of the oral cavity showed a stronger association (OR = 1.81, 95

260 est SIRs were for SMNs of bones (SIR, 28.8), oral cavity (SIR, 13.8), skin (SIR, 7.3), central nervou

261 nomic and expression data from patients with oral cavity squamous cell carcinoma (OCSCC) in order to

262 Adequate resection of oral cavity squamous cell carcinoma (OCSCC) means comple

263 Methods Adult patients with oral cavity squamous cell carcinoma undergoing upfront s

264 Six hundred seventy-four patients with oral cavity squamous cell carcinoma who received adjuvan

265 patients with T1/T2 clinically node-negative oral cavity squamous cell carcinoma.

266 s both DFS and DSS in patients with advanced oral cavity squamous cell carcinoma.

267 ically relevant anti-cancer therapy in human oral cavity squamous cell carcinoma.

268 egulator BMI1 is highly expressed in CSCs of oral cavity squamous cell carcinoma.

269 ry amylase initiates starch digestion in the oral cavity; starch is a major source of energy in the d

270 al parotid glands, submandibular glands, and oral cavity surrogates for each patient.

271 Gardasil induces HPV antibody levels at the oral cavity that correlate with circulating levels.

272 nucleatum, a Gram-negative bacterium of the oral cavity, that induces human beta defensin 2 (hBD-2)

273 gh levels of nitrosative stress while in the oral cavity, the mechanisms of nitrosative stress defens

274 first step of wine consumption starts in the oral cavity, the processing of these compounds in the mo

275 ize throughout the human body, including the oral cavity, the skin, and the gastrointestinal tract.

276 role on susceptibility and resistance of the oral cavity to diseases.

277 the bacterial microbiota of sites within the oral cavity to identify potential associations with occu

278 bability that N. meningitidis might exit the oral cavity to produce systemic disease.

279 The close proximity of the oral cavity to the brain and the blood brain barrier enh

280 c species changed colonization site from the oral cavity to the genital tract of a human or humanoid

281 The spread of P. gingivalis from the oral cavity to the reproductive tract thus represents a

282 Taste and somatosensory receptors in the oral cavity trigger aversive behaviors in response to ac

283 plements.Vitamin B-12 that is applied to the oral cavity via toothpaste enters the circulation and co

284 The prevalence of HPV in the oral cavity was higher among those with than among those

285 0 Two swab brands and three sites within the oral cavity were compared.

286 early-failure squamous cell carcinoma of the oral cavity were eligible for this study.

287 on properties of different sweeteners in the oral cavity were evaluated using high performance liquid

288 proposed as a means to identify sites in the oral cavity where implant osseointegration is likely to

289 neck cancer, particularly for cancers of the oral cavity, whereas associations were weaker for chewin

290 ate ganglion project to taste regions in the oral cavity, whereas others innervate the outer ear.

291 s a Gram-negative commensal bacterium of the oral cavity which has been associated with the pathogene

292 munological barrier to the microbiota of the oral cavity, which interact through soluble mediators wi

293 tics of a novel inflammatory disorder of the oral cavity, which may develop after solid organ transpl

294 partial exposure of the root surface to the oral cavity, which may have important esthetic, function

295 ity and importance of these organisms in the oral cavity, while TM7x and Candida albicans have served

296 with increased bacterial colonization of the oral cavity with the cariogenic pathogen Streptococcus m

297 enital dysmorphologies of the human face and oral cavity, with a global incidence of 1 per 700 live b

298 ns occur in equal proportions in the healthy oral cavity, with a shift to one highly activated proinf

299 se and compare the resistome profiles of 788 oral cavities worldwide with paired stool metagenomes.

300 s to lung in the tail-vein injection and the oral cavity xenograft models.