ライフサイエンスコーパス: lung lesion

1 uces endobronchial dysplasia, a premalignant lung lesion.

2 llus initially isolated from a granulomatous lung lesion.

3 ungs, and decreased presence and severity of lung lesions.

4 nthesis may also improve detection of subtle lung lesions.

5 agents in smokers and ex-smokers with early lung lesions.

6 ation between PET-SUV(max) and ADC values of lung lesions.

7 tivity concentration changes, hence SUV, for lung lesions.

8 urately quantitate radiotracer uptake within lung lesions.

9 nd improve quantitation of 18F-FDG uptake in lung lesions.

10 inoma) cells into nude mice yielded numerous lung lesions.

11 ve of breeding history, developed metastatic lung lesions.

12 malignancy and the natural history of cystic lung lesions.

13 t X-rays (CXRs) are primarily used to detect lung lesions.

14 and block the development of virally induced lung lesions.

15 the differentiation of benign and malignant lung lesions.

16 differential diagnosis of cavitated chronic lung lesions.

17 reduced nasal viral shedding, and prevented lung lesions.

18 es, lower lung virus titers, and less severe lung lesions.

19 ostic bronchoscopy techniques for peripheral lung lesions.

20 induced minimal macroscopic and microscopic lung lesions.

21 e in thyroid lesions (P = .02) compared with lung lesions.

22 tments, preventing lymphopenia and extensive lung lesions.

23 wth adenocarcinoma or associated with cystic lung lesions.

24 emonstrate its application in characterizing lung lesions.

25 t caused a significantly lower percentage of lung lesions.

26 ere evaluated retrospectively for suggestive lung lesions.

27 e in thyroid lesions (P = .02) compared with lung lesions.

28 rrection was quantified by measuring SUVs in lung lesions.

29 ently penetrate the sites of TB infection in lung lesions.

30 tory tissues, and prevented the formation of lung lesions.

31 iver dome and a significantly higher SUV for lung lesions.

32 T cells can be directly cytotoxic toward LAM lung lesions.

33 stablish one subcutaneous tumor and multiple lung lesions.

34 ous biopsies with histologic confirmation of lung lesions.

35 es, miR-21 knockdown cells only formed small lung lesions.

36 th Mtb by increasing the Cu concentration in lung lesions.

37 midine kinase-1 (TK1) in surgically resected lung lesions.

38 stant to infection but may manifest cavitary lung lesions.

39 d pigs, corresponding to a similar trend for lung lesions.

40 n of subtle and often obscured or overlooked lung lesions.

41 agnostic yield of peripheral and mediastinal lung lesions.

42 The levels of severity of gross lung lesions (0 to 100%) among the groups were significa

43 In the detection and characterization of lung lesions 10 mm or larger, (18)F-FDG PET/MRI and (18)

44 s (15.8 vs. 8.5, P = 0.007) and in bone than lung lesions (14.2 vs. 6.4, P = 0.006).

45 762 patients, 235 were found to have cystic lung lesions; 33 (14%) of these patients were diagnosed

46 nd extensive CD4+ T cell-MDM interactions in lung lesions, accompanied by high expression of T cell-a

47 emission tomography (PET) scan confirmed the lung lesion and the mediastinal lymphadenopathy without

48 treated by measures to collapse the affected lung lesions and by rest for the patient, to a condition

49 ll molecules, proteins, and nucleic acids in lung lesions and cells using natural or synthetic carrie

50 hanges in mRNA abundance in healthy lung and lung lesions and in the lymphoid tissues bronchial lymph

51 hown that PZA penetrates necrotic caseous TB lung lesions and kills nongrowing, drug-tolerant bacilli

52 The CS-exposed mice had worse lung lesions and less lung and splenic macrophages and d

53 H1N1 SIV had significantly lower microscopic lung lesions and less virus shedding from the respirator

54 navigation bronchoscopy to sample peripheral lung lesions and mediastinal lymph nodes with standard b

55 ngs of all BCG-immunized mice had many gross lung lesions and splenomegaly; the counts were 5.97 +/-

56 at the site of tissue-sampling aspiration in lung lesions and the accuracy of FNA results.

57 s, replicated efficiently in ferrets, caused lung lesions and weight loss, but was not highly pathoge

58 r to the development of a fibroproliferative lung lesion, and thus may play a central role in the pat

59 reticulum, ground-glass opacity, peripheral lung lesions, and bronchiectasis were the most common fi

60 he least in mice lungs, induced little or no lung lesions, and caused highly reduced morbidity and mo

61 eprived calves, and is effective in reducing lung lesions, and decreasing viral load in upper respira

62 ures of lungs and spleens, quantification of lung lesions, and histopathologic assessments of all oth

63 r shedding of infectious virus, reduction of lung lesions, and lower microscopic immunopathology comp

64 al platforms to direct the bronchoscopist to lung lesions, and the ability to visualize lesions durin

65 Pigs developed influenza-like symptoms and lung lesions, and they seroconverted after virus inocula

66 Using a dyspnea score, rectal temperature, lung lesions, and viral load in the lung as parameters,

67 udy shows that the occurrence and pattern of lung lesions are determined by the same ANCA IgG accompa

68 When lung lesions are found in patients with collagen disease

69 Preinvasive squamous lung lesions are precursors of lung squamous cell carcin

70 umulative bacterial burden to show that most lung lesions are probably founded by a single bacterium

71 s in scans containing pancreatic, liver, and lung lesions as well as cardiac scans.

72 mice was associated with significantly lower lung lesions as well as decreased mononuclear cells and

73 oli with 27 (93.1%) patients having cavitary lung lesions before the procedure.

74 nderwent ENB with transbronchial biopsy of a lung lesion between 2013 and 2015.

75 ated guinea pigs had a 2.8-fold reduction in lung lesion burden and a 0.7 log decrease in CFUs.

76 he J45 LD50, J45-100 caused mild to moderate lung lesions but not death.

77 hibit significantly different frequencies of lung lesions, but Fhit-/- mice showed significantly incr

78 use of respiratory motion, small parenchymal lung lesions can be missed on CT acquired during shallow

79 The detection rate of lung lesions can be significantly improved by adding a d

80 imarily in women, is characterized by cystic lung lesions causing respiratory failure, which may requ

81 d CT images, the distance between PET and CT lung lesions' centroids, and the amount of overlap of le

82 ection for severities of the four histologic lung lesions characteristic of MRM: alveolar exudate, ai

83 Lung lesions comprised focal epithelial necrosis and inf

84 Lung lesions consisted of multifocal interstitial mononu

85 he endogenous form of 70k, and proliferative lung lesions consistent with those described in patients

86 ting that strain amplification in very early lung lesions could guide pro-invasive remodeling of the

87 nificant decreases in the size and number of lung lesions, decreases in the bacillary load, and impro

88 The total number of lung lesions detected increased from 53 with clinical CT

89 osolized HNPs/TGFbeta1 siRNA within fibrotic lung lesions, effectively blocking fibrogenic signaling

90 Most malignant cystic lung lesions exhibited indolent behavior, with slow grow

91 sions, 94% for skeletal lesions, and 83% for lung lesions, followed by T2w transverse sequences witho

92 s retrospective study included 2436 liver or lung lesions from 605 CT scans in 331 patients with canc

93 base of 521 pathologically confirmed primary lung lesions from January 1, 2009, through December 31,

94 Interestingly, histological analysis of lung lesions from Muc4(ko)/NDL mice revealed a reduced a

95 chemokine signals, high viral titers, severe lung lesions, goblet cell hyperplasia, allergic levels o

96 17 days after tumor cell inoculation as the lung lesions grew.

97 At later time points, the lung lesion had progressed to severe airspace enlargemen

98 monotherapy protocol mimicking isoniazid in lung lesion homogenate (isoniazid C(MAX) = 1,200 ng/ml,

99 imilar to the predicted in-vivo steady-state lung lesion homogenate pharmacokinetic profiles.

100 okinetic profiles in plasma, lung tissue and lung lesion homogenate were simulated for isoniazid, rif

101 ciated with the risk of malignancy of cystic lung lesions in a lung cancer screening program.

102 isolated from moribund mice with hemorrhagic lung lesions in Australia in the 1970s.

103 Lung lesions in congenic sst1-susceptible mice are chara

104 ogen activity did not alter the incidence of lung lesions in either WT or mCol1a1 hosts.

105 cer cell lines and is elevated in metastatic lung lesions in human breast cancer patients.

106 e likely responsible for the severity of the lung lesions in M. haemolytica-infected BHS.

107 -FDG PET/CT for detecting and characterizing lung lesions in oncologic patients.

108 The distribution of lung lesions in patients with COVID-19 pneumonia was per

109 Inflammatory lung lesions in patients with kidney failure that could

110 SUVs of lung lesions in PET/MR imaging and PET/CT correlated sig

111 ity and detection rate of (18)F-FDG-positive lung lesions in PET/MR imaging is equivalent to PET/CT d

112 e whether IMI could (1) localize nonpalpable lung lesions in situ and (2) quantify margin distance wi

113 ith IGF-1R activation in human preneoplastic lung lesions in smokers.

114 ent, characterization, and quantification of lung lesions in terms of the blurring effect of respirat

115 gs support the inflammatory character of the lung lesions in the initial phase of the disease and in

116 ndications of activity included clearance of lung lesions in two patients.

117 ighly sensitive identification of metastatic lung lesions in unshaved mice.

118 oncentrations at the site of infection (i.e. lung lesion) in an in-vitro hollow fibre model of infect

119 -oriented AI software was utilized to detect lung lesions, including pneumothorax, consolidation, nod

120 sera and lungs and in gross and microscopic lung lesions, indicating attenuation of the chimeric vir

121 s in vitro, as well as in progressive murine lung lesions induced by a tobacco-specific carcinogen, 4

122 after the transfer of cells isolated from TB lung lesions into syngeneic recipients.

123 PC14 and PC14PE6 lung lesions invaded the pleura and produced PE containi

124 The inflammatory environment within the lung lesion is manipulated by Mtb throughout infection a

125 However, the detection rate of small lung lesions is still inferior, compared with PET/CT wit

126 CT-guided fine-needle aspiration (FNA) of lung lesions is subject to sampling errors.

127 ecting women that is characterized by cystic lung lesions, is frequently treated with antiestrogen th

128 On the basis of macroscopic lung lesions, it appears that PRRSV infection did not in

129 Conclusion: PET/CT-guided biopsy of lung lesions led to fewer inconclusive biopsies than CT-

130 The detection rates for small lung lesions less than 1 cm in diameter (n = 33) of MR i

131 alleviated cell death, less severe necrotic lung lesions, more efficient Mtb growth control in the l

132 e overestimation of 7.5% and 3.9% in or near lung lesions (n = 23) and underestimation of less than 5

133 Subanalysis for lung lesions (n = 46) was also performed.

134 that infection of ferrets produced residual lung lesions not seen in both mock and vaccinated ferret

135 pe-specific accumulation of an antibiotic in lung lesions of mice infected with Mycobacterium tubercu

136 Consistently, NETs are present in necrotic lung lesions of TB patients responding poorly to antibio

137 ecrotizing lobar pneumonia characterized the lung lesions of these cattle with a majority of pneumoni

138 The goals of PTLB are to accurately target lung lesions of varying sizes, morphologic characteristi

139 or branching hyperintense structure within a lung lesion on T2-weighted images.

140 100 biopsy-proven solid lung lesions on contrast-enhanced DECT chest exams withi

141 tion is not expected to improve detection of lung lesions on whole-body PET images compared with imag

142 ontaining mycobacteria induced granulomatous lung lesions, peribronchiolar lymphocytosis, increased c

143 In 121 oncologic patients with 241 lung lesions, PET/MRI was performed after PET/CT in a si

144 Lung lesions produced by H226 cells were confined to the

145 Here, we show that the lung lesions progressed from single macrophages with int

146 as seen in human premalignant and malignant lung lesions reproduces in the mouse frequent features o

147 Histologic examination of different lung lesions revealed heterogeneous morphology and distr

148 mice infected with CAR bacillus had a median lung lesion score of 6 and IL-10 and IL-4 mRNA levels we

149 monis developed higher bacterial numbers and lung lesion scores than C57BL/6 iNOS(+/+) controls but h

150 Lung lesion scores were higher during the early stages o

151 Lung lesion scores were reduced twofold in animals inocu

152 e were resistant to disease characterized by lung lesions scores of 2 or less and a dominant IFN-gamm

153 The severity of lung lesions seen in hamsters receiving hn-plasmas was m

154 pleens, hearts, and joints, and also reduced lung lesion severity.

155 the activity of pyrazinamide was limited to lung lesion, showing the highest FDG uptake during the f

156 with ABCS, particularly after biopsy of deep lung lesions, significantly reduced the frequency of pne

157 subtypic H1N1 virus demonstrated macroscopic lung lesions similar to those of the unvaccinated H1N1 c

158 st1S) genotype develop necrotic inflammatory lung lesions, similar to human tuberculosis (TB) granulo

159 -fourth of these cases could be explained by lung lesions such as Caplan's nodules, tuberculosis scar

160 le patients included those with a small (T1) lung lesion suspicious for malignant neoplasms and with

161 gene expression profile was established, 12 lung lesions taken from patients with previously treated

162 ed mice developed significantly fewer severe lung lesions than did control mice immunized with the wi

163 eater numbers of mycoplasmas and severity of lung lesions than iNOS(+/+) controls.

164 LACDeltahla caused less severe histological lung lesions than LAC(WT) (P </= .01).

165 lung adenocarcinoma or ground-glass opacity lung lesions than those who do not carry the mutation (1

166 ent, (111)In-DTPA-OC showed mild uptake in a lung lesion that was not detected by 64Cu-TETA-OC PET.

167 Granulomas are complex lung lesions that are the hallmark of tuberculosis (TB).

168 ous group of entities characterised by round lung lesions that correspond to cysts with fine walls, w

169 on in infant lungs, and animal models reveal lung lesions that warrant characterization.

170 ME-treated mice in both dosing protocols had lung lesions that were significantly larger than granulo

171 the pH1N1 viruses and the IA30 virus caused lung lesions, the pH1N1 viruses were shed from the nasal

172 aining to the transformation of premalignant lung lesions to advanced lung cancer.

173 d 5 days after infection showed a rebound of lung lesions to levels of untreated animals without reap

174 s underlying the progression of premalignant lung lesions to lung cancer in an effort to explore pote

175 nd combination drug activity measures across lung lesion types that correlated more closely with esta

176 specific drug concentrations from 9 distinct lung lesion types were obtained according to optimal PK

177 In this type of lung lesions, ultrasound is as effective as computed tom

178 With pleural or peripheral lung lesions, US guidance is comparable to CT guidance i

179 ate that WT1(+) cells accumulate in fibrotic lung lesions, using two different mouse models of pulmon

180 942 for irregular margins, 0.955 to 0.97 for lung lesions versus 0.884-0.94 for lymph nodes, and 0.95

181 nations were most effective in reducing both lung lesion volume measured by CT imaging and lesion-ass

182 Lung lesion volume, bacterial load and immunological res

183 A significantly greater number of lung lesions was detected with DIBH PET/CT compared with

184 infection and disease, while the severity of lung lesions was restored by transfer of naive spleen ce

185 inal lesions and iterative deconvolution for lung lesions were 99% +/- 1.5% and 99% +/- 0.9% accurate

186 2 splenic lesions, 2 skeletal lesions, and 2 lung lesions were also assessed.

187 Marked lung lesions were characterized by hyperplasia of the al

188 59 women) with 64 primary and 36 metastatic lung lesions were included.

189 12 patients with centrally located lung lesions were randomly chosen.

190 One hundred fifteen patients with lung lesions were then prospectively included and assess

191 the upper and lower respiratory tracts, and lung lesions were typical of H1N1 infection.

192 Lung lesions were used for comparative transcriptomics.

193 Dixon images detected 15 of 47 lung lesions whereas VIBE images detected 32 of 47 lesio

194 e causative agent of our patient's liver and lung lesions, which clustered most closely with the Euro

195 affected pigs exhibited a 2-fold increase in lung lesions, while VAERD-affected ferrets showed a 4-fo

196 efence uniformly develop hypoxic necrotizing lung lesions, widely observed in human TB.

197 Conclusion Cystic lung lesions with nodular wall thickening had an increas

198 l bacterial clearance and protection against lung lesions with the VCG adjuvanted vaccine formulation

199 In any cystic lung lesion without a prenatal diagnosis, operative mana

200 Subanalysis for lung lesions yielded similar results (primary lung tumor