ライフサイエンスコーパス: nodule

1 s, 18 non-HCC malignancies, and three benign nodules).

2 s performed per patient based on the largest nodule.

3 roid patients having at least one suspicious nodule.

4 ore 9 tumor with an adjacent Gleason score 7 nodule.

5 The findings were inconclusive for 16 (8.3%) nodules.

6 subsequently evolved into unifocal fibrotic nodules.

7 at require surgery, and 98.6% NPV for benign nodules.

8 , edema, effusions, atelectasis, masses, and nodules.

9 nitrogen-fixing bacteroids in M. truncatula nodules.

10 red with routine dose in depicting pulmonary nodules.

11 does not allow to predict benignity in these nodules.

12 T in order to detect indeterminate pulmonary nodules.

13 mutant nodules and a strong decrease in 13U nodules.

14 most frequent cause of disagreement was lung nodules.

15 only used clinical risk model for incidental nodules.

16 of diagnosis compared to lobectomy in benign nodules.

17 n from air through rhizobia residing in root nodules.

18 reverse occurred for four of 120 (3%) of the nodules.

19 lesions, ground-glass opacities, and miliary nodules.

20 d system that possesses the function of root nodules.

21 used to differentiate benign from malignant nodules.

22 of HCC from non-HCC malignancies and benign nodules.

23 ut possibly treat, malignant peripheral lung nodules.

24 an Nod factors for bacterial survival inside nodules.

25 d infiltrated macrophages in metastatic lung nodules.

26 the interzone and early-fixation zone of the nodules.

27 e conservative management for non-suspicious nodules.

28 arge number of benign biopsies of suspicious nodules.

29 , as well as the survival of bacteria within nodules.

30 ling time for the growth assessment of these nodules.

31 size, number, and characteristics of thyroid nodules.

32 d proteome specificity in developing soybean nodules.

33 or Frankia bacteria in root organs known as nodules.

34 s legume-type nodules into actinorhizal-type nodules.

35 histology: legume-type and actinorhizal-type nodules.

36 the method of choice for evaluating thyroid nodules.

37 ndance of Rlv genotypes in pea and faba bean nodules.

38 les, and CCT guidance was used to biopsy 266 nodules.

39 lass 1 or class 2 Glbs and transport O(2) in nodules.

40 athologic confirmation was available for 143 nodules (122 HCCs, 18 non-HCC malignancies, and three be

41 in the detection of indeterminate pulmonary nodules 5 mm or greater.

42 Although less frequent, solitary pulmonary nodule (5.2%-14.4%), enlarged lymph nodes (3.7%-9.0%), h

43 y included a total of 486 patients with lung nodules (63 years +/- 5.2 [standard deviation], 261 fema

44 ogically solid nodules compared to sub-solid nodules (77.4% vs 33.3%, P = 0.04) and anatomic resectio

45 obtained by all three readers in 120 of 147 nodules (82%).

46 100% specificity and 100% PPV for malignant nodule, 97.5% sensitivity for the detection of nodules t

47 rting in early adulthood, cutaneous inflamed nodules, abscesses and pus-discharging tunnels develop i

48 ember 2012 and June 2016 that demonstrated a nodule and had at least 1 year of follow-up comprised th

49 obial bacteria have traditionally focused on nodule and nitrogen-fixation phenotypes when hosts are i

50 f both HSF2BP and BRME1 at the recombination nodules and a reduced number of the foci formed by the r

51 inescence signal was observed in vtl4 mutant nodules and a strong decrease in 13U nodules.

52 s its abundant expression within Dupuytren's nodules and also in the fibrotic foci of idiopathic pulm

53 herin expression persists in metastatic lung nodules and circulating tumor cells (CTCs) in two mouse

54 named 13U, was unable to develop functional nodules and failed to fix nitrogen, which was almost ful

55 Sensitivity for detecting small nodules and GGOs on MR is poor; CT scan remains the imag

56 ation capacity associated with more immature nodules and less elongated bacteroids.

57 f avoiding lobectomy in patients with benign nodules and stability of the nodule on ultrasound follow

58 interventions during the evaluation of lung nodules and stage I non-small cell lung cancer.

59 mic and anatomic/nonanatomic), the number of nodules and the size of tumor.

60 ty for the diagnosis of peripheral pulmonary nodules and therapeutic treatments besides aspiration of

61 Patients who had pulmonary nodules and underwent a transthoracic needle biopsy at t

62 Overall volume (for all nodules) and solid component volume (for part-solid nodu

63 .e. how many rhizobia are released from host nodules) and strain-specific effects of host genes (i.e.

64 Cirrhosis, >1 nodule, and AFP >100 ng/mL were identified as preoperati

65 ACR TI-RADS criteria were applied to each nodule, and an ACR TI-RADS score was created to determin

66 e, sex, main duct diameter, cyst size, mural nodule, and tumour location were factors considered for

67 ction lung ventilation, radiologically solid nodules, and anatomic resections.

68 th XperGuide software was used to biopsy 100 nodules, and CCT guidance was used to biopsy 266 nodules

69 creening, defer surveillance imaging of lung nodules, and minimize nonurgent interventions during the

70 prurigo nodularis was defined as 20 or more nodules, and severe pruritus was defined as a mean score

71 ined margin, and a markedly hypoechoic solid nodule; and benign ultrasonographic features, such as pr

72 Root nodules are agricultural-important symbiotic plant-micro

73 Nodules are divided into two types based on differences

74 sion tree to guide clinicians in classifying nodules as PFNs is provided.

75 iotic cells, reflecting the unique nature of nodules as plant structures.

76 Nodules assessed with contrast-enhanced US were assigned

77 The sensitivity for subsolid nodules at 70 QRM was 60% (range, 48%-72%) and was signi

78 lung adenocarcinomas manifesting as subsolid nodules at chest CT is accurately represented by an expo

79 h of adenocarcinomas manifesting as subsolid nodules at chest CT was best represented by an exponenti

80 etermine the frequency of solid noncalcified nodules attached to the costal pleura (CP-NCNs) at basel

81 Analysis was performed on a per-nodule basis by using jackknife alternative free-respons

82 ants had significantly lower total, root and nodule biomass, predawn and midday quantum yields, maxim

83 I-RADS was compared with the total number of nodules biopsied with FNA in this clinic to determine if

84 CBCT guidance in pulmonary nodule biopsy provided higher diagnostic sensitivity and

85 icular carcinoma in Bethesda type IV thyroid nodules but their absence does not allow to predict beni

86 The proportion of HCC nodules categorized in the LR-M and LR-4 categories was

87 eir presence in the nuclei and in uninfected nodule cells, and, intriguingly, their expression in non

88 to deliver essential iron to nitrogen-fixing nodule cells.

89 However, bacteria competitive to form root nodules (CFN) are generally not the most efficient to fi

90 CT criteria are a prerequisite for accurate nodule classification.

91 ing concerns the extraction of poly-metallic nodules, cobalt-rich crusts and sulphide deposits from t

92 We also observed a remarkable frequency of nodule coinfection by rhizobia, with mixed occupancy ide

93 SLN identification with radiologically solid nodules compared to sub-solid nodules (77.4% vs 33.3%, P

94 he validation cohorts for cancers and benign nodules compared with the Mayo model were 0.34 (Vanderbi

95 The presence of nodules, consolidations, and ground-glass opacities was

96 ules, 'tree-in-bud' pattern densities, macro-nodules, consolidations, cavitary lesions, ground-glass

97 , with mixed occupancy identified in ~20% of nodules, containing up to six different strains.

98 dule invasiveness and underlines the role of nodule CT attenuation features in the nodule invasivenes

99 em (Lung-RADS) classifications of solid lung nodules detected at lung cancer screening using manual m

100 were positively associated with a pulmonary nodule detection (p = 0.037 and p = 0.044, respectively)

101 A plurality of companies are focused on nodule detection at chest CT and two-dimensional mammogr

102 Specifically, pulmonary nodule detection had an AUC performance ratio of 80.7% +

103 physema, cardiomegaly, hernia, and pulmonary nodule detection had the highest fractional improvements

104 The sensitivity of MRI in nodule detection was 50% overall and 75% for nodules mea

105 echanisms underlying their regulation during nodule development and in response to stress and hormone

106 The later stages of nodule development require the activation of hundreds to

107 data uncovered key transcription patterns of nodule development that included 9669 core genes and 730

108 he control of plant cell division leading to nodule development, autoregulation of nodulation, intrac

109 lipid metabolism for soybean nodulation and nodule development, laying the foundation for the future

110 es further implicate SSPs in regulating root nodule development, which is of particular significance

111 opose a computational model for in vitro MPM nodule development.

112 rane lipid biosynthesis and transport during nodule development.

113 re also differentially expressed at the same nodule developmental stage, implying a substantial assoc

114 Overall, nodules disrupted in the symbiosis were elevated in meta

115 to reduced contrast in the background noise nodule distribution.

116 aponicum nifH mutant unable to fix nitrogen, nodules doubly infected by both strains, and nodules for

117 screening and modify the evaluation of lung nodules due to the added risks from potential exposure a

118 er screening programs and patients with lung nodules during the COVID-19 pandemic.

119 endations for lung cancer screening and lung nodule evaluation.

120 es related to lung cancer screening and lung nodule evaluation.

121 ded in the differential diagnosis of scleral nodules even in the absence of systemic symptoms.

122 ltered the frequency of rhizobial strains in nodules even though npd2 mutants had no visible nodule m

123 ing mAbs, CTCs and tumor cells in metastatic nodules exhibited increased apoptosis.

124 ogeny is more similar to that of legume-type nodules (Fabales) than generally assumed.

125 Background Pulmonary nodule features have been used to differentiate benign f

126 sented with an asymptomatic superior scleral nodule for 4 months, which showed similar appearance and

127 presented with 2 nontender right eye scleral nodules for 3 months, had a negative systemic workup, an

128 in Response Factor production and modulating nodule formation and rhizobial infection.

129 The regulatory network controlling nodule formation has remained mysterious.

130 interfered with hemocyte-spreading behavior, nodule formation, and AMP expression.

131 events, and DNA methylation patterns during nodule formation, development, and senescence.

132 Here, we analyzed the actinorhizal-type nodules formed by Parasponia andersonii (Rosales) and Al

133 Root nodules formed by plants of the nitrogen-fixing clade (N

134 nodules doubly infected by both strains, and nodules formed on plants mutated in the stearoyl-acyl ca

135 dules, significantly decreased the number of nodules formed, indicating a function of this RRB in nod

136 f developing lung cancer in a patient with a nodule found at screening CT.

137 Thyroid nodules frequently require ultrasound and Fine Needle As

138 performed whole-exome sequencing of 54 liver nodules from patients with cirrhosis to quantify aneuplo

139 ology resident retrospectively measured lung nodules from screening CT scans obtained between Septemb

140 The interactions between nodule growth and clinical, CT morphologic, and patholog

141 The nifH mutant nodules had elevated levels of jasmonic acid, correlatin

142 tween legumes and rhizobium bacteria in root nodules has a high demand for iron, and questions remain

143 um in that legume-type and actinorhizal-type nodules have been regarded as fundamentally different.

144 Legume nodules have two types of hemoglobins: symbiotic or legh

145 g of metabolic genes in roots and developing nodules highlighted the enhanced expression of genes inv

146 TC was defined as same-nodule histologic malignancy.

147 Posttreatment nodule histology showed that 15/135 (11.1%), 22/155 (14.

148 Ten inactive fibrotic nodules, identical to end-stage de novo lesions, were fo

149 ) 3D inputs, providing information about the nodule in 3D; (ii) Multi-scale input, capturing the nodu

150 A single-center retrospective review of 196 nodules in 184 patients at risk for HCC (consisting of 1

151 n was applied to 42 hepatocellular carcinoma nodules in 31 patients.

152 We studied 61 nodules in 61 patients (51 women and 10 men) that underw

153 a recognized tool for management of thyroid nodules in adults but has not been validated in pediatri

154 s retrospective study, a database of thyroid nodules in patients younger than 19 years who underwent

155 iding decisions on whether to biopsy thyroid nodules in pediatric patients in a single referral cente

156 mes, a subset of flowering plants, form root nodules in symbiosis with nitrogen-fixing bacteria.

157 odes and replicate the O(2) gradient of root nodules in the array.

158 mophile communities inhabiting halite (salt) nodules in the Atacama Desert.

159 and 9 o'clock meridians as well as multiple nodules in the posterior chamber invading the anterior v

160 se of ACR TI-RADS criteria for management of nodules in this pediatric study sample would have result

161 +/- 3.4 [standard deviation]; 21 part-solid nodules) in 42 patients (mean age, 51 years +/- 17; 21 m

162 GmLEC2a-OE hairy roots produced fewer nodules, in contrast to GmWRI1b-OE hairy roots.

163 nvolved in N metabolism, N transporters, and NODULE INCEPTION-like transcription factors were upregul

164 Nitrogen-fixing nodule-inducing bacteria provide nutritional services.

165 GmVTL1a expression is enhanced in nodule infected cells and both proteins are localized to

166 tu metabolic profiling of wild-type nodules, nodules infected with a B. japonicum nifH mutant unable

167 Knockdown of SKI3 decreased nodule initiation and development, as well as the surviv

168 NODULE ROOT1 (MtNOOT1) converts legume-type nodules into actinorhizal-type nodules.

169 CT volumetry enabled classification of more nodules into lower Lung CT Screening Reporting and Data

170 predictors contribute to the probability of nodule invasiveness and underlines the role of nodule CT

171 ole of nodule CT attenuation features in the nodule invasiveness classification.

172 e: The management of indeterminate pulmonary nodules (IPNs) remains challenging, resulting in invasiv

173 nant condition (i.e., at least one malignant nodule is detected) or not, the proposed model achieved

174 Core-needle biopsy of thyroid nodules is effective because it diagnoses more than 90%

175 criteria for management of pediatric thyroid nodules is inadequate because a high percentage of cance

176 Nodules lacking sacpd-c displayed an elevation of soyasa

177 hemoglobin functions are well established in nodules: Lbs deliver O(2) to the bacteroids and act as O

178 Surprisingly, the nodule-like aggregates do not arise by excessive local c

179 Plant hormones can induce the formation of nodule-like structures (NLS) in plant roots even in the

180 d transcriptomic changes during formation of nodule-like structures (NLS) in rice and compared rice R

181 to localize to so-called "late recombination nodules" (LRNs) marking incipient CO sites.

182 y, peribronchovascular thickening, satellite nodules, lymph node enlargement, and pleural effusion).

183 ng high sensitivity is challenging with lung nodule malignancy prediction.

184 proposed 3D-MCN architecture predicted lung nodule malignancy with a high accuracy of 93.12%, sensit

185 even in lesions without worrisome features (nodule/mass), with two in every five resections showing

186 d accurate identification of IPLNs as benign nodules may substantially reduce the number of unnecessa

187 esults There were 66 indeterminate pulmonary nodules (mean size, 8.6 mm +/- 3.4 [standard deviation];

188 nodule detection was 50% overall and 75% for nodules measuring more than 5 mm.

189 ylation analysis revealed dynamic changes in nodule methylomes that were specific to each nodule stag

190 ules even though npd2 mutants had no visible nodule morphology or N-fixation phenotype.

191 We micro-dissect malignant pulmonary nodules (MPNs) into paired pre-invasive and invasive com

192 Thyroid nodule MT optimizes patient outcomes sufficiently to jus

193 , surveillance of a previously detected lung nodule (n = 5), evaluation of intermediate and high-risk

194 valuation of intermediate and high-risk lung nodules (n = 4), and management of clinical stage I non-

195 for in situ metabolic profiling of wild-type nodules, nodules infected with a B. japonicum nifH mutan

196 demonstrated key differences with pulmonary nodules observed in 39.61% in non-DCM, 13.64% in DCM, an

197 ngs of the lung also included fewer and more nodules of 10 mm in the MDR-TB and XDR-TB groups, respec

198 cant reduction in abscesses and inflammatory nodules of 60% (P < 0.004) and 46% (P < 0.001) was seen

199 In the indeterminate nodules of a model legume Medicago truncatula, ~700 nodu

200 In nodules of human cirrhotic liver tissue, there was no ev

201 s, which resulted in the generation of small nodules of manganese oxide with which the cells associat

202 e biopsy yielded a diagnosis for 179 (91.7%) nodules, of which 122 (62.5%) were classified as benign,

203 nts with benign nodules and stability of the nodule on ultrasound follow-up for at least one year was

204 roliferation and versus the stability of the nodule on ultrasound follow-up for one year when core-bi

205 lung adenocarcinomas presenting as subsolid nodules on computed tomography (CT).

206 The formation of nitrogen-fixing nodules on legume hosts is a finely tuned process involv

207 ips with soil bacteria (rhizobia), housed in nodules on roots.

208 erience used the ACR TI-RADS to classify 100 nodules on two occasions one month apart, and we calcula

209 ating characteristic curve for pneumothorax, nodule or mass, airspace opacity, and fracture were, res

210 detect four findings (pneumothorax, opacity, nodule or mass, and fracture) on frontal chest radiograp

211 with worrisome features (size >= 3 cm, mural nodule, or Wirsung dilation).

212 -specific cortical cell division for de novo nodule organogenesis and accommodation of rhizobia.

213 transcription factors (TFs) that orchestrate nodule organogenesis and infection.

214 ical for early nodulation to coordinate root nodule organogenesis and the progression of bacterial in

215 analyses have advanced our understanding of nodule organogenesis, the functioning of symbiotic cells

216 t developmental program is used in Lotus for nodule organogenesis.

217 on, intracellular accommodation of bacteria, nodule oxygen homeostasis, the control of bacteroid diff

218 The term perifissural nodule (PFN) was coined based on some of these character

219 a library of synthetic peptides and root and nodule phenotyping data from synthetic peptide screens i

220 T lung screening were analysed for pulmonary nodules (PN) detection and secondary lung cancer (SLC) d

221 y unsuccinylated succinoglycan still induced nodule primordia and epidermal infections, but further p

222 th those of MtNSP2 and MtCCS52A in roots and nodule primordia, chromatin immunoprecipitation-quantita

223 MPM nodules, protruding into the pleural cavity may have gro

224 2 alters iron distribution and speciation in nodules, reducing nitrogenase activity and biomass produ

225 eloped CNN models are based only on the main nodule region, without considering the surrounding tissu

226 Nodules resulting from the mixed inoculant displayed sim

227 rofiles with the transcriptome of developing nodules revealed highly activated glycolysis, fatty acid

228 ion in the co-transcriptional regulator gene NODULE ROOT1 (MtNOOT1) converts legume-type nodules into

229 in 3D; (ii) Multi-scale input, capturing the nodule's local features, as well as the characteristics

230 hospital for chest pain and a single pleural nodule seen on plain chest films and chest CT.

231 able portion of incidentally found pulmonary nodules seen at high-resolution CT.

232 e, avoiding the plant's defense response, to nodule senescence.

233 ort supporting symbiosis, and the control of nodule senescence.

234 T2-weighted signal intensity (SI) ratio (SI(nodule)/SI(psoas muscle)), T2-weighted histogram feature

235 y expressed in Medicago truncatula roots and nodules, significantly decreased the number of nodules f

236 ning CT scans depends on measurement of lung nodule size.

237 Nodule sizes ranged between 1.0 and 16.2 cm.

238 of a model legume Medicago truncatula, ~700 nodule-specific cysteine-rich (NCR) peptides with conser

239 . truncatula ferroportin Medicago truncatula nodule-specific gene Ferroportin2 (MtFPN2) is an iron-ef

240 fluorescence assays were carried out in the nodule-specific M. truncatula ferroportin Medicago trunc

241 truncatula mutants in the recently described nodule-specific PLAT domain (NPD) gene family, we show h

242 Although how the nodule-specific transcriptome is activated and connected

243 Here, we characterize two nodule-specific Vacuolar iron Transporter-Like (VTL) pro

244 nodule methylomes that were specific to each nodule stage, occurred in a sequence-specific manner, an

245 Preoperative model for NTR identified >1 nodule [sub-distribution hazard ratio 2.35 95% confidenc

246 lung adenocarcinomas manifesting as subsolid nodules surgically resected between January 2005 and May

247 Such nodule symbiosis occurs in 10 plant lineages in four tax

248 Rhizobium nitrogen-fixing nodule symbiosis occurs in two taxonomic lineages: legum

249 e differential signaling of immunity or root nodule symbiosis.

250 ectomy for TC while triaging to surveillance nodules that are likely benign.

251 more diffuse, B cells tend to aggregate into nodules that may mature into tertiary lymphoid organs.

252 resenting as progressively enlarging thyroid nodules that often yield non-diagnostic results or spind

253 dule, 97.5% sensitivity for the detection of nodules that require surgery, and 98.6% NPV for benign n

254 , 261 female patients), 448 of whom had lung nodules that were subsequently classified as benign and

255 The number of nodules that would be biopsied with FNA on the basis of

256 stigation are the functions of other Glbs in nodules, the spatiotemporal expression profiles of Lbs a

257 cient strain was always more abundant inside nodules, the succinoglycan-deficient strain was more eff

258 ns include the expression of multiple Lbs in nodules, their presence in the nuclei and in uninfected

259 , we determined that expression in the inner nodule tissues is sufficient to restore the phenotype, w

260 ranes in the nodule vasculature and in inner nodule tissues, as well as in the symbiosome membranes i

261 ice and compared rice RNA-seq dataset with a nodule transcriptome dataset in Medicago truncatula.

262 We compared our rice RNA-seq dataset with a nodule transcriptome dataset in Medicago truncatula.

263 A large collection of Rlv was collected by nodule trapping with pea and faba bean from soils at fiv

264 Features of active PTB were centrilobular nodules, 'tree-in-bud' pattern densities, macro-nodules,

265 We have observed that non-nodal tumour nodules (tumour deposits; mrTDs) have a distinct MRI app

266 The evolutionary relationship between these nodule types has been a long-standing enigma for molecul

267 e experimental findings suggest that the two nodule types have a shared evolutionary origin.

268 ich were previously shown to have an altered nodule ultrastructure.

269 tial, suggests that microbiomes in each salt nodule undergo unique transcriptional adjustments to ada

270 Mimicking root nodules using artificial devices can enable renewable en

271 t measurement of N(2) fixation in individual nodules using green fluorescent protein (GFP) and barcod

272 rmined through radiologist categorization of nodules using the CEUS LI-RADS criteria, showed sensitiv

273 is located in intracellular membranes in the nodule vasculature and in inner nodule tissues, as well

274 istory of lung cancer (P < .001), a baseline nodule volume less than 500 mm(3) (P = .03), and histolo

275 el 1 based on volume (log) (logarithm of the nodule volume) and FPC1, and Model 2 based on volume (lo

276 Surgical debridement of the scleral nodule was performed.

277 Mass/mural nodule was present in 27% of the cysts, CEA level was hi

278 The overall referral rate for suspicious nodules was 2.1%.

279 ive value (NPV) for malignancy of the benign nodules was 98.6%, although no malignant transformation

280 usted models, only the presence of satellite nodules was independently associated with both early (ha

281 The specific staining of nodules was performed to evaluate differentiation, where

282 HCCs, 18 non-HCC malignancies, and 39 benign nodules) was performed in a three-reader blinded read fo

283 Different US characteristics of the nodules were analysed (composition, echogenicity, margin

284 Forty-three of 120 (36%) of the nodules were classified into a lower Lung-RADS category

285 Reference indeterminate pulmonary nodules were identified by two nonreader thoracic radiol

286 Also, npd1-5 nodules were less diverse and had larger populations of

287 In these 314 patients, 404 thyroid nodules were scored, of which 19.1% (77 of 404) were mal

288 Nodules were segmented, and geometric and CT attenuation

289 The characteristics of the nodules were similar between CBCT and CCT guidance.

290 ) and solid component volume (for part-solid nodules) were measured over time.

291 s in more than a third of cancers and benign nodules when compared with conventional risk models, pot

292 aracterized by a hard dome-like or wart-like nodule which is solitary and does not fuse.

293 5%), or nasal (1/4, 25%) bulbar conjunctival nodules, which were asymptomatic (3/4, 75%) or associate

294 T features of IPLNs are a noncalcified solid nodule with sharp margins; a round, oval, or polygonal s

295 mes such as pea and faba bean form symbiotic nodules with a large diversity of soil Rhizobium legumin

296 help us to predict the risk of malignancy of nodules with a pathological diagnosis of follicular neop

297 ective because it diagnoses more than 90% of nodules with inconclusive findings after fine-needle asp

298 the best of our knowledge 2 cases of scleral nodules with typical histopathological morphology of WD

299 There were 79 nodules with ultrasound follow-up for at least one year;

300 -RADS score was created to determine how the nodule would be managed.