ライフサイエンスコーパス: nasal cavity

1 ulation of S. pneumoniae colonization in the nasal cavity.

2 e mice showed essentially no bacteria in the nasal cavity.

3 pre-existing Streptococcus pneumoniae in the nasal cavity.

4 ce are unable to clear the bacteria from the nasal cavity.

5 (except a part), face scale and findings of nasal cavity.

6 the absence of PrP(Sc) in the tongue or the nasal cavity.

7 s, where it was immediately sniffed into the nasal cavity.

8 le of neutrophils in host defense within the nasal cavity.

9 sites through the nasolacrimal duct into the nasal cavity.

10 receptor neurons on the occluded side of the nasal cavity.

11 also for proper morphogenesis of the entire nasal cavity.

12 ction is usually initiated via the ocular or nasal cavity.

13 h generally define their location within the nasal cavity.

14 ction is usually initiated via the ocular or nasal cavity.

15 oducing resident memory T lymphocytes in the nasal cavity.

16 ection is usually initiated in the ocular or nasal cavity.

17 asured before entering and after exiting the nasal cavity.

18 propria of the chemosensory epithelia of the nasal cavity.

19 er of endoturbinate IV on the midline of the nasal cavity.

20 asured before entering and after exiting the nasal cavity.

21 d in chondrogenic structures surrounding the nasal cavity.

22 h a bloody drainage was evident in his right nasal cavity.

23 rose within the ethmoid sinuses and superior nasal cavity.

24 y against respiratory viral infection in the nasal cavity.

25 ia the olfactory bulbs which lie next to the nasal cavity.

26 acts of formulation on residence time in the nasal cavity.

27 nsing and clearing of aeroallergens from the nasal cavity.

28 interest for Omicron pathophysiology in the nasal cavity.

29 ue herniates through the cranium or into the nasal cavity.

30 midline to separate the oral cavity from the nasal cavity.

31 in, eyes and tongue and the expansion of the nasal cavity.

32 ng flow through the superior portions of the nasal cavity.

33 expressing cells in the acidic milieu of the nasal cavity.

34 age, and cellular debris in the lumen of the nasal cavity.

35 oV-2 infected NRP1-positive cells facing the nasal cavity.

36 d by rhythmic delivery of air puffs into the nasal cavity.

37 Swallowing increased VOC flow through the nasal cavity.

38 berg ganglion located at the entrance of the nasal cavity.

39 atiles toward the olfactory receptors in the nasal cavity.

40 MV infection in the URT, particularly in the nasal cavity.

41 termittently colonized with S. aureus in the nasal cavity.

42 as they migrated from the neural tube to the nasal cavity.

43 l, where it was immediately inhaled into the nasal cavity.

44 ry, and follicle-associated epithelia of the nasal cavity.

45 n spread systemically via lymph draining the nasal cavity.

46 actory sensory neurons (OSNs) located in the nasal cavity.

47 se virus shedding did not occur in ocular or nasal cavities.

48 omas, melanoma, and cancers of the brain and nasal cavities.

49 treptococcus pneumoniae serotype 14 from the nasal cavities.

50 illar zones, larynx, soft palate, uvula, and nasal cavities.

51 that leads to the separation of the oral and nasal cavities.

52 neurons of the ipsilateral and contralateral nasal cavities.

53 ) or normal saline solution sprayed into the nasal cavity 15 min before the measurement of nasal cond

54 bustly at the cool temperatures found in the nasal cavity (33-35 degrees C) than at core body tempera

55 ate better at cool temperatures found in the nasal cavity (33-35 degrees C) than at lung temperature

56 nts (orbita, 31; paranasal sinuses, 93; main nasal cavity, 38; tongue, 27; remaining oral cavity, 99;

57 The effects of decongestion on nasal cavity air conditioning efficiency were modelled a

58 symptoms of nasal obstruction may relate to nasal cavity air-conditioning.

59 Nasal cavity air-space volume was assessed by acoustic r

60 Nitric oxide (NO) is produced in the nasal cavities, airways, and lungs and is exhaled by nor

61 ing an expansive olfactory epithelium in the nasal cavity, allowing full expression of a huge odorant

62 njugates on M cells were accessible from the nasal cavity, an M-cell-selective lectin and a control l

63 The technique's applicability in replicating nasal cavity anatomy for clinical use has not been studi

64 . pertussis were required to colonize murine nasal cavities and did not displace host microorganisms.

65 mice demonstrates efficient bio-retention in nasal cavities and lungs, offering protection against le

66 cclusion, which blocks odorant access to the nasal cavities and OSN activity.

67 D printing could realistically replicate the nasal cavities and the airflow passing through them from

68 uitment of H(4)R-expressing basophils to the nasal cavity and activation through FcepsilonRI.

69 rve with peripheral processes that enter the nasal cavity and centrally directed processes that enter

70 The alpha 2C-AR mRNA is detected in the nasal cavity and cerebellar primordium only at > or = 14

71 Protollin was observed in the nasal cavity and cervical lymph node but not in the brai

72 int on the establishment of infection in the nasal cavity and descent through the trachea.

73 the main olfactory epithelium of the murine nasal cavity and functions as a mammalian olfactory rece

74 n vivo, when the bacteria are growing in the nasal cavity and in the lungs.

75 The eye, nasal cavity and Jacobson's organ are pivotal in skull m

76 ymptoms, QOL scores, face scale, findings of nasal cavity and laboratory findings before start of the

77 The number of bacteria recovered from the nasal cavity and larynx was not significantly different

78 gy was designed to deliver WKS13 to both the nasal cavity and lower airways, the two critical sites o

79 atarrhalis organisms were recovered from the nasal cavity and nasopharynx of the animals in numbers s

80 The nasal cavity and OB were examined for the presence of Ag

81 ain regions parallels the enlargement of the nasal cavity and olfactory brain in mammals.

82 We identified studies of nasal cavity and paranasal sinus tumours through searche

83 Malignant tumours arising within the nasal cavity and paranasal sinuses are rare and composed

84 itis (CRS) is an inflammatory process in the nasal cavity and paranasal sinuses, and bacteria have be

85 for patients with malignant diseases of the nasal cavity and paranasal sinuses.

86 However, the limited volume of the nasal cavity and poor water solubility of anti-epileptic

87 4-SIgA complexes are quickly taken up in the nasal cavity and selectively engulfed by mucosal dendrit

88 rtilage anchoring structures that divide the nasal cavity and separate it from the brain region in th

89 In summary, the nerves extending between the nasal cavity and the brain constitute invasion paths by

90 sites: the olfactory epithelium (OE) of the nasal cavity and the neuroepithelium of the vomeronasal

91 of P. multocida organisms isolated from the nasal cavity and the severity of clinical lesions, as de

92 e ammonia levels in mucus recovered from the nasal cavity and tonsil were found to be 7- and 3.5-fold

93 n a 10-fold decrease in vector growth in the nasal cavity and trachea and a 50-fold decrease in the l

94 that virus dispersal within and between the nasal cavity and trachea maintains diversity and is ther

95 is crucial for proper development of the OE, nasal cavity and VNO, as well as maintenance of OE neuro

96 nitored sniffing using a thermocouple in the nasal cavity and whisking with an electromyogram of the

97 ng the migratory path of GnRH neurons in the nasal cavity and, although not expressed by GnRH neurons

98 entical microsatellite profiles in the skin, nasal cavity, and bloodstream but revealed differences a

99 stricted to OSNs in the dorsal recess of the nasal cavity, and labels a unique subpopulation of glome

100 ors in target organs, including lung, liver, nasal cavity, and other major organs.

101 palatine foramina, the lateral walls of the nasal cavity, and the infraorbital foramina change consi

102 ere performed to monitor colonization of the nasal cavity, and the pigs were euthanized 4 weeks after

103 n carries Staphylococcus aureus within their nasal cavity, and these colonized individuals are known

104 n sealed to replicate anatomically the rat's nasal cavity, and these same odorants were drawn at thre

105 al cavity, which retards invagination of the nasal cavity, and thus appears to contribute to the path

106 of the lateral nasal wall into the posterior nasal cavity; and (iii) the lack of an ossified roof ove

107 oid tissue (NALT) located at the base of the nasal cavity are believed to be sites of induction of mu

108 Solitary chemosensory cells (SCCs) of the nasal cavity are specialized epithelial chemosensors tha

109 n implicated in flavor sensation in oral and nasal cavities as well as being a molecular target of so

110 am-positive bacterium, live inside the human nasal cavity as commensals.

111 mucosa, and within lymphatic vessels of the nasal cavity at all time points examined.

112 rhinorrhea bilateral, presence of pus in the nasal cavity) at 58 family practices (74 family physicia

113 Bacteria isolated from murine nasal cavities but not those from the human lower respir

114 demonstrated that strain DBB25 colonized the nasal cavity but did so at levels that were significantl

115 ession was low in dorsomedial regions of the nasal cavity but higher ventrally.

116 ococci may enter the brain directly from the nasal cavity by axonal transport through olfactory nerve

117 Acute infection of the ocular, oral, or nasal cavity by bovine herpesvirus 1 (BoHV-1) culminates

118 e chemical signals are recognized within the nasal cavity by sensory neurons that express pheromone r

119 ntrast, blocking airflow through half of the nasal cavity by surgically closing an external naris on

120 ring the minimal cross-sectional area of the nasal cavity by using acoustic rhinometry.

121 nses against SARS-CoV-2, enriched within the nasal cavity, by using the host's preexisting immunity t

122 icate that neuroinvasion from the tongue and nasal cavity can be independent of LRS infection but neu

123 We determined whether IL-26 in the nasal cavity can be produced by T cells and associates w

124 vivo, driven by delivery of odorants to the nasal cavity carried by the inhaled air, making olfactio

125 rved in the FKO nasal bones and sutures, the nasal cavity cartilage and bony projections, and the olf

126 the degree of ITH between the right and left nasal cavity (Cohen g, -0.17 [95% CI, -0.50 to 0.30]), o

127 ween the anterior and posterior parts of the nasal cavity (Cohen g, -0.21 [95% CI, -0.50 to 0.17]).

128 cient in reducing the SARS-CoV-2 load in the nasal cavity, compared to mRNA-LNPs.

129 t is necessary to quantify the efficiency of nasal cavity conditioning of the inhaled air.

130 ctum, small intestine, and especially in the nasal cavity contribute such precursors to the female ge

131 In summary, nasal cavity decongestion not only reduces inhaled air a

132 e the fraction of particles deposited in the nasal cavity decreased correspondingly.

133 main fully active in mouse lungs but not the nasal cavity, demonstrating that PlrS coordinates virule

134 Olfactory receptor neurons (ORNs) in the nasal cavity detect and transduce odorants into action p

135 olfaction, where odors enter the rear of the nasal cavity during feeding, is understudied.

136 ucks, increased the virus load in the ferret nasal cavity early during infection while simultaneously

137 ement of T. cruzi on the mucosa in the mouse nasal cavity establishes a systemic infection with a rob

138 greater predilection for HPV positivity (ie, nasal cavity, ethmoid sinus) were used as a surrogate fo

139 8 to 65 years with no clinically significant nasal cavity examination findings were randomized 3:1 to

140 ts (TEAEs), including clinically significant nasal cavity examination findings, in the safety populat

141 ty to deliver human insulin solutions to the nasal cavity for redistribution to the central nervous s

142 birth, lacking OE, vomeronasal organ (VNO), nasal cavity, forebrain, lower jaw, eyelids and pinnae.

143 subsequent collapse of both neurogenesis and nasal cavity formation.

144 eposition and retention of inhaled Ag in the nasal cavity from nose-only exposure; b) the timing for

145 Bulk transepithelial transport in the nasal cavity has not been studied to date.

146 spread, as well as aerosol deposition in the nasal cavity, have been relatively overlooked.

147 In mammals, the nasal cavity houses a bony system supporting soft tissue

148 The tumor incidence in the nasal cavity, however, was not affected by either black

149 In the nasal cavity, IL-26 can be produced by local T cells.

150 ased recall proliferative responses, and, in nasal cavities, impaired clearance of Streptococcus pneu

151 rinse and use the solution to irrigate their nasal cavities in the morning and at night for 6 weeks.

152 n the occluded and non-occluded sides of the nasal cavity in 18, 24 and 70-day-old mice.

153 antities of viral RNA were detected from the nasal cavity in all pigs after live virus challenge.

154 The width of the nasal cavity in patients with CNPAS was in the less than

155 in all cats, with consistent lesions in the nasal cavity, including acute necroulcerative rhinitis i

156 The hamster model of nasal cavity infection was used to determine the tempora

157 vels of apoptosis, resulting in cessation of nasal cavity invagination and loss of virtually all OE n

158 Since the nasal cavity is a primary site of influenza virus replic

159 26 (41.3%) nasal mucous samples, showing the nasal cavity is a reservoir for HHV-6.

160 Odor information detected in the nasal cavity is first processed by the olfactory bulb an

161 least in mammals-inhalation of air into the nasal cavity is required for odor detection.

162 intranasal administration is limited to the nasal cavity, its antiviral action extends non-cell-auto

163 includes epithelial cancers of the oral and nasal cavity, larynx, and pharynx and accounts for appro

164 and then reach the receptors located in the nasal cavity, leading to their perception.

165 gh mitral cell counts and a greatly enlarged nasal cavity likely reflects a highly sensitive olfactor

166 itial uptake of aerosolized SCHU S4 from the nasal cavity, lungs, and possibly the gastrointestinal t

167 aging was used to record total fluxes in the nasal cavity, lungs, spleen, and liver and to enumerate

168 nasal cavity results in immediate entry into nasal cavity lymphatics following inhalation.

169 ateral mean' score-based model including the nasal cavity, maxillary sinuses, ethmoid air cells, sphe

170 e results suggest that S. epidermidis in the nasal cavity may serve as a defence mechanism against in

171 Lastly, uncultured samples from the nasal cavity, mouth, and axilla of a human subject could

172 oximity of the central nervous system to the nasal cavity, must be considered.

173 osure has been associated with cancer of the nasal cavities, nasopharynx, prostate, lung, and pancrea

174 ne foramina (GPFd), the lateral walls of the nasal cavity (NCd), and the infraorbital foramina (IOFd)

175 esions, the pH1N1 viruses were shed from the nasal cavities of challenged pigs whereas the IA30 virus

176 medium to isolate B. parapertussis from the nasal cavities of conventionally reared sheep.

177 of the protein (PrP(Sc)) in the tongues and nasal cavities of hamsters following intracerebral inocu

178 re recorded in the liver, spleen, lungs, and nasal cavities of live mice after intranasal infection w

179 aerobic bacterial isolates cultured from the nasal cavities of pigs for proteolytic activity.

180 d the whole genome of IAV recovered from the nasal cavities of pigs vaccinated with different influen

181 olonization of toxigenic P. multocida in the nasal cavities of pigs, which resulted in the almost tot

182 al masses could no longer be detected in the nasal cavities of these mice.

183 -Reaction Mass-Spectrometer connected to the nasal cavity of 17 assessors.

184 Here, we reconstruct the internal nasal cavity of a Neanderthal plus two representatives o

185 The nasal cavity of a rodent is lined by an epithelium organ

186 efficiency in bovine kidney cells and in the nasal cavity of acutely infected calves.

187 tion-incompetent retroviral vectors into the nasal cavity of adult rats 1 day after exposure to the o

188 s in the lungs of female Balb/c mice and the nasal cavity of female ferrets with much higher efficien

189 The nasal cavity of Fisher-344 rats was instilled with rhoda

190 We here explore the nasal cavity of five cynodont taxa, namely Thrinaxodon,

191 n of C-TFN and C-USN powders to the lung and nasal cavity of hamsters, respectively, was effective in

192 isolated from infected AD skin than from the nasal cavity of healthy children.

193 ility to reduce the SARS-CoV-2 burden in the nasal cavity of infected hamsters.

194 , it was unable to persistently colonize the nasal cavity of inoculated pigs, with all pigs clearing

195 The nasal cavity of living mammals is a unique structural co

196 e did not identify ossified turbinals in the nasal cavity of these taxa and if present, as non-ossifi

197 5; in the spleen on days 1 and 3; and in the nasal cavity on day 4 generated the most accurate predic

198 ohistochemical staining were observed in the nasal cavities or lungs of all mice.

199 (80%), the mass showed an extension into the nasal cavity or oropharynx.

200 ory tract, recruitment of neutrophils to the nasal cavity, or shedding of the pathogen.

201 Nasal cavity-originated cases exhibited a 67.6-97.4% dec

202 the head and neck region, especially in the nasal cavity, paranasal sinuses, tonsillar fossa, and or

203 the head and neck region, especially in the nasal cavity, paranasal sinuses, tonsillar fossa, and or

204 ere identified in 252 patients (30.1%), with nasal cavity/paranasal sinuses and trachea/larynx subsit

205 anatomical sites including the oral cavity, nasal cavity, pharynx, and larynx.

206 The indigenous microbiota of the nasal cavity plays important roles in human health and d

207 activated DCs trafficked from the chinchilla nasal cavity primarily to the nasal-associated lymphoid

208 traumatic placement of T. cruzi in the mouse nasal cavity produced low parasitemia, high survival rat

209 y receptor neurons (ORNs) distributed in the nasal cavity project to localized regions in the glomeru

210 In the nasal cavity, PrP(Sc) accumulation was found in the olfa

211 tially carried by retronasal flow toward the nasal cavity rather than by orthonasal flow into the lun

212 nt but caused an increased frequency of some nasal cavity-related AEs (i.e., cough and throat irritat

213 , VNS had a significant effect on developing nasal cavity-related AEs.

214 reatment did not induce neutropenia, and the nasal cavity remained free of hyphal masses.

215 The air-conditioning efficiency of the nasal cavity remained nearly constant between nostril an

216 id bulk transport of brain homogenate in the nasal cavity results in immediate entry into nasal cavit

217 (BoHV-1) acute infection of ocular, oral, or nasal cavities, sensory neurons within trigeminal gangli

218 Following infection of ocular, oral, or nasal cavities, sensory neurons within trigeminal gangli

219 Based on the inhalation rate and the nasal cavity shape, the critical particle size and the d

220 Metabolomics of the nasal cavity showed decreased sex hormones, estradiol an

221 239 particles administered into the oral and nasal cavities, small intestine, and vagina was carried

222 ciated with both a rise in the proportion of nasal cavity SNSCC and a decrease in HPV-independent max

223 e a suitable and fast method for replicating nasal cavity structures and for the experimental testing

224 lls, rhinovirus replicates preferentially at nasal cavity temperature due, in part, to a less efficie

225 ted significantly closer to the lumen of the nasal cavity than are their neuroepithelial counterparts

226 l brains (n=2), more cells were noted in the nasal cavity than in the brain.

227 tion, involves trigeminal afferents from the nasal cavity that project to the muralis subnucleus of t

228 king place through preexisting spaces in the nasal cavity that were orders of magnitude wider than wh

229 the location of their sensory neurons in the nasal cavity, the receptors they use to detect chemosens

230 washed out by the injection of PBS to mouse nasal cavity, the response of MOR161-2 to acetophenone w

231 f receptor neurons within a subsystem of the nasal cavity, the vomeronasal organ (VNO).

232 e in at least two separate organs within the nasal cavity: the vomeronasal organ (VNO) and the main o

233 serted in the olfactory mucosa lining of the nasal cavity, they are exposed to the environment and th

234 that result from the failure of the eyes and nasal cavities to develop.

235 rely detected in the surface epithelium from nasal cavity to conducting airways with a slightly incre

236 situated at characteristic locations in the nasal cavity to detect and report on different classes o

237 f the hypothalamus and extending through the nasal cavity to expand this region and prevent approxima

238 To assess the potential for the nasal cavity to serve as a point of entry for prion dise

239 putational fluid dynamics (CFD) model of rat nasal cavity to simulate the nasal aerodynamics and sorp

240 y are transported by exhaled air through the nasal cavity to stimulate the olfactory receptor neurons

241 ment of transport of drugs directly from the nasal cavity to the brain, based on its mucoadhesive cha

242 that the virus spread sequentially from the nasal cavity to the lungs in mice and thereafter systemi

243 Olfactory sensory axons navigate from the nasal cavity to the olfactory bulb and sort from among 1

244 ed necrosis in respiratory epithelium of the nasal cavity, trachea, bronchi, and bronchioles with acc

245 eated animals, but a significant increase of nasal cavity tumor incidence was observed in the NNK-tre

246 dial projection and a medial swelling on the nasal cavity wall alongside the lack of an ossified roof

247 mass-transfer boundary condition used at the nasal cavity wall included the effects of solubility and

248 atest lateral displacement at point N on the nasal cavity wall, along with the smallest ratio of ANT

249 contrast, shedding of the LR mutant from the nasal cavity was not significantly different from that o

250 The residence time in the nasal cavity was predicted to be 1 h for finely milled E

251 Nasal cavity was the most affected area.

252 the VNO per se, and not other aspects of the nasal cavity, was sexually dimorphic.

253 ctory-ensheathing glial cells located in the nasal cavity were demonstrated to support HHV-6 replicat

254 e of inspired odorant molecules in the human nasal cavity were determined using an anatomically corre

255 ue sections through the entire extent of the nasal cavity were processed immunohistochemically to ide

256 ment also induced marked colonization of the nasal cavity which, in contrast to that induced by ammon

257 were used to print plastic 3D prints of the nasal cavities, which were also CBCT scanned and the mea

258 s might have structural abnormalities of the nasal cavity, which could represent specific markers of

259 s been proposed that in mammals the anterior nasal cavity, which houses the maxilloturbinal, plays a

260 e dorsal septum and the dorsal recess of the nasal cavity, which projects primarily to medial regions

261 ll death in the epithelium of the developing nasal cavity, which retards invagination of the nasal ca

262 stimulation where odors enter via the front nasal cavity, while retronasal olfaction, where odors en

263 io of 1.05 +/- 0.01 (mean +/- SD) and in the nasal cavities with a ratio of 1.20 +/- 0.1 (mean +/- SD

264 in histochemistry on sections of the hamster nasal cavity with a panel of lectins.

265 eurons (OSNs), which detect odors within the nasal cavity, would provide insight into the etiology of