ライフサイエンスコーパス: parenchyma

1 ignal into both the mediastinum and the lung parenchyma).

2 brain tumor tissue as well as healthy brain parenchyma.

3 it exchanges with interstitial fluid of the parenchyma.

4 ules from afferent lymphatics into the nodal parenchyma.

5 both CSF and cells that were once in the CNS parenchyma.

6 convective drug delivery from the CSF to the parenchyma.

7 generated by NO degradation by the blood or parenchyma.

8 phalitis that extended deeply into the brain parenchyma.

9 urfaces and minimal penetration into the CNS parenchyma.

10 nce delivered drugs uniformly throughout the parenchyma.

11 s matched with normal contralateral prostate parenchyma.

12 within the vessel lumen before entering the parenchyma.

13 ing the entry of these agents into the brain parenchyma.

14 ote but that can also inhibit entry into the parenchyma.

15 hydrogel membranes and the liver capsule and parenchyma.

16 hin the arteries and iodine within the liver parenchyma.

17 d passed into the CSF but not into the brain parenchyma.

18 he transition for both the liver capsule and parenchyma.

19 erbated by the buildup of Abeta in the brain parenchyma.

20 ed within the periportal area or invades the parenchyma.

21 injured vasculature and secondary injury to parenchyma.

22 4 T cells migrate from the blood to the lung parenchyma.

23 odeling of both the lung epithelium and lung parenchyma.

24 NN generated imaging features from the liver parenchyma.

25 Microglia dynamically survey the brain parenchyma.

26 underwent proliferation within the pituitary parenchyma.

27 nism of convective solute transport in brain parenchyma.

28 howed a noninjured, preserved (stable [STA]) parenchyma.

29 s essential for trafficking within the brain parenchyma.

30 within the airway lumen rather than the lung parenchyma.

31 e explained by altered NO degradation in the parenchyma.

32 tiple aspects of the microenvironment on the parenchyma.

33 ediated toxic injury of the "upstream" liver parenchyma.

34 leading to a mass of blood within the brain parenchyma.

35 le localisation is observed within the brain parenchyma.

36 edistributed CD8(+) T cells within the tumor parenchyma.

37 h together facilitated T cell entry into CNS parenchyma.

38 the physiological role of HOIP in the liver parenchyma.

39 reduces glioma cell infiltration in healthy parenchyma.

40 e portal triad that effaced adjacent hepatic parenchyma.

41 dhesion as they move through the brain tumor parenchyma.

42 y on magnetic resonance imaging in the brain parenchyma.

43 acilitate convective transport through brain parenchyma.

44 aracterized by abnormal scarring of the lung parenchyma.

45 a sterile inflammatory response (SIR) in the parenchyma.

46 esponse affecting the small airways and lung parenchyma.

47 te preferentially into ischemic cortex brain parenchyma.

48 for visualization of small vessels and lung parenchyma.

49 llografts can survive long term in the liver parenchyma.

50 d to increased retention of Abeta within the parenchyma.

51 ar transport between the blood and the brain parenchyma.

52 sistently lower compared to unaffected renal parenchyma.

53 ature to migrate within the developing brain parenchyma.

54 brospinal fluid and leptomeninges before the parenchyma.

55 by metastatic lung cancer cells in the brain parenchyma.

56 nd their communications with the surrounding parenchyma.

57 discriminate between aeration levels in lung parenchyma.

58 GAS-driven IRF3 activation through the liver parenchyma.

59 ny small lipophilic molecules from the brain parenchyma.

60 s entry of foreign substances into the brain parenchyma.

61 ast cells (MC(TC)s) can be found in the lung parenchyma.

62 parameters were quantified in HCCs and liver parenchyma.

63 ociation with persistent damage of the renal parenchyma.

64 possess mRNA signatures of their underlying parenchyma.

65 re significantly stiffer than non-neurogenic parenchyma.

66 rease in inflammatory cells within the renal parenchyma.

67 rther differentiate into starch-accumulating parenchyma.

68 king of substances between the blood and the parenchyma.

69 r variability of RFs extracted from the lung parenchyma.

70 istinct positions correlated to the adjacent parenchyma.

71 advection both contribute to GS transport in parenchyma.

72 ar conduits and white-matter tracts in brain parenchyma.

73 cle and send processes into the hypothalamic parenchyma.

74 ection routes to deliver cells to the kidney parenchyma.

75 lecules, and cells between the blood and the parenchyma.

76 ary to the concentrations found in the liver parenchyma (0.5 +/- 0.3 mg/mL versus 4.2 +/- 0.3 mg/mL).

77 ion in milliliters of gas per milliliters of parenchyma, 0.17 mL/mL +/- 0.06 [minimum, 0.07; maximum,

78 sec, 1.74 m/sec; P < .001), respectively, in parenchyma, 1.80 m/sec (95% CI: 1.75 m/sec, 1.84 m/sec)

79 ree diffusion of molecules between serum and parenchyma, a property that defines the blood-brain and

80 The median parenchyma-absorbed dose was 37 Gy (range, 12-55 Gy).

81 CTCAE), version 5, and its relationship with parenchyma-absorbed dose was assessed using linear model

82 o showed that in the areas of affected renal parenchyma ADC values were consistently lower compared t

83 d tumor cell dissemination in adjacent brain parenchyma after ionizing radiation (IR).

84 ing that rh Bri2 BRICHOS can reach the brain parenchyma after peripheral administration may be harnes

85 we showed hemoglobins penetrated into brain parenchyma after SAH.

86 ight extracellular migration tracts in brain parenchyma, allowed high-content time-resolved imaging o

87 on of the amount and distribution of altered parenchyma along with the characterization of airway and

88 onventional lymphatic vessels within the CNS parenchyma, although it has been hypothesized that lymph

89 infiltrate present in at least 25% of normal parenchyma and >4 mononuclear cells within the tubular b

90 umina within 24 h and was only found in lung parenchyma and alveolar macrophages thereafter.

91 tumors while minimizing the impact on liver parenchyma and avoiding systemic effects.

92 ight lead to amyloid deposition in the brain parenchyma and blood vessel walls, potentially resulting

93 alpha-actin-positive cells that destroy lung parenchyma and by the formation of benign renal neoplasm

94 ased levels of fibrinogen in the surrounding parenchyma and enhanced leukocyte infiltration.

95 es showed less necrosis and apoptosis in the parenchyma and fewer neutrophil infiltration compared to

96 discriminant model used to distinguish brain parenchyma and gliomas yielded an overall sensitivity of

97 her assisted in discrimination between brain parenchyma and gliomas.

98 gration from perivascular cuffs into the CNS parenchyma and identifies CHCA and diet as potential mod

99 ng memory Th2 cells trafficked into the lung parenchyma and ignited perivascular inflammation to prom

100 l application, the MSCs homed to the injured parenchyma and improved the neurological function.

101 In this work, analysis of CHB patient liver parenchyma and in vitro HBV infection models shows a non

102 ion of leukemic blast cells (LBCs) into lung parenchyma and interstitium.

103 lobin delocalization from CSF into the brain parenchyma and into the NO-sensitive compartment of smal

104 sport in situ through the aorta to the renal parenchyma and its subsequent filtration into the renal

105 hort echo time can be used to image the lung parenchyma and lung motion.

106 y B cells, myeloid regulatory cells) in lung parenchyma and markedly decreased proliferation rates of

107 marked partition occurring between the brain parenchyma and meningeal spaces.

108 intensify their tissue-stressing effects on parenchyma and microvasculature as the ventilated compar

109 s (PBAE-PEG) rapidly penetrate healthy brain parenchyma and orthotopic brain tumor tissues in rats.

110 nflammation affecting predominantly the lung parenchyma and peripheral airways that results in largel

111 reactive (DR) cells extend into the hepatic parenchyma and promote inflammation and fibrosis.

112 or with simultaneous retaining the remaining parenchyma and renal function.

113 mice presented with severely necrotic liver parenchyma and significantly larger hypoxic areas, likel

114 ies with subsequent transport into the brain parenchyma and specific uptake into TfR1-positive neuron

115 a combination of steady accumulation in the parenchyma and sporadic bursts of tracer leakage.

116 ral cytokine interleukin-6 (IL-6) into brain parenchyma and subsequent expression of depression-like

117 mice that CXCR3(+) Th1 cells enter the lung parenchyma and suppress M. tuberculosis growth, while CX

118 f CD45-expressing immune cells in whole lung parenchyma and the bronchoalveolar space of mice, expose

119 operative viability assessment of the kidney parenchyma and the ureter.

120 ding phenotype, effectively enters the brain parenchyma and transduces neurons at levels comparable t

121 nificantly lowered pressure within the brain parenchyma and ventricle compartments.

122 mponent of amyloid deposits within the brain parenchyma, and an increase in the Abeta42/Abeta40 ratio

123 dendritic, and T cells into the lung lumen, parenchyma, and draining lymph nodes in HDM-sensitized m

124 structures, inability to go through healthy parenchyma, and lack of patient cooperation during the p

125 t proteins in lung alveoli, albumin in liver parenchyma, and lipase in the stomach lining.

126 native tissue relaxation time (T10) of fat, parenchyma, and malignant lesions in both breasts.

127 antation revealed that Gstm1 deletion in the parenchyma, and not in bone marrow-derived cells, drives

128 r signaling between constricted airways, the parenchyma, and the surrounding vasculature.

129 ypoenhancing compared with surrounding liver parenchyma, and they reached their nadir signal intensit

130 , which was directly injected into the brain parenchyma, and to determine whether this response could

131 emodeling, we observed elastosis of the lung parenchyma, and unlike in the LPS5w group, we did not ob

132 beta-amyloid (Abeta) deposition in the brain parenchyma are hallmarks of Alzheimer's disease (AD).

133 abolism within both the peritumor stroma and parenchyma are linked to tumor initiation, progression,

134 undifferentiated cells residing in the adult parenchyma, are frequently compared to embryonic stem ce

135 oglia, the resident macrophages of the brain parenchyma, are key players in central nervous system (C

136 oid-beta (Abeta) peptide deposition in brain parenchyma as plaques and in cerebral blood vessels as c

137 gion of interest, inclusive of as much liver parenchyma as possible in the right lobe while avoiding

138 increased hyaluronan deposition in the lung parenchyma (attributed to asthma progression), and a lac

139 spread distribution of therapeutics in brain parenchyma away from the point of local administration.

140 Compared with the tumour parenchyma, B cells and ASCs were preferentially localiz

141 atio and a cutoff of 2.63-2.76 for the renal parenchyma-based attenuation ratio showed a diagnostic a

142 rta-based corrected AV of 89-95 HU and renal parenchyma-based corrected AV of 87-95 HU showed a diagn

143 cytes shows that during recovery the injured parenchyma becomes repopulated and repaired by Axin2(+)

144 d decrease in plaque deposition in the brain parenchyma but an equally striking increase in CAA withi

145 were not uniformly distributed in the liver parenchyma but preferentially located in distinct and so

146 inflammatory monocytes infiltrate the spleen parenchyma but remain mainly intravascular in the vicini

147 ven that COVID-19 primarily affects the lung parenchyma by causing pneumonia, our directive is to foc

148 and lung, and infiltration of colon and lung parenchyma by eosinophils and mast cells.

149 is led to infiltration of the colon and lung parenchyma by eosinophils and mast cells.

150 ealed that newborn microglia recolonized the parenchyma by forming distinctive clusters that maintain

151 average rate of Th1 cell entry into the lung parenchyma by half, while CX3CR1 deficiency doubles it.

152 hils were visualized and quantitated in lung parenchyma by means of immunostaining.

153 evidence of gene silencing in injured brain parenchyma by systemically administered siRNA.

154 h the immune response is focused on the lung parenchyma by transfer of Th2 cells from a novel TCR tra

155 Morphometric analysis of renal parenchyma can predict noncancer clinical events in pati

156 resents a pus-filled cavity within the liver parenchyma caused by the invasion and multiplication of

157 turn, leakage from the vasculature into the parenchyma causes brain swelling and edema.

158 ecrosis factor alpha (TNFalpha) in the brain parenchyma causes cerebral overexpression of Inter-Cellu

159 and CWM isolated from the whole flesh (FL), parenchyma cells (PC), stone cells (ST) and skin (SK) at

160 es are localized in the same cell types (ray parenchyma cells and oil cells) as rubrynolide and rubre

161 Increasing the pressure, small parenchyma cells from the pumpkin tissue exhibited colla

162 Parenchyma cells in the xylem store nonstructural carboh

163 Tyloses are ingrowths of parenchyma cells into the lumen of embolized xylem vesse

164 nd PtaSULTR1;1, and by enhanced loading from parenchyma cells into the xylem via PtaALMT3b.

165 cific expression of RBOHD in phloem or xylem parenchyma cells of the rbohD mutant restores systemic R

166 ies were characterized by a higher number of parenchyma cells, a smaller cell area, and a thinner per

167 at NaOH steeping increased disaggregation of parenchyma cells.

168 ternodes, SUTs also were detected in storage parenchyma cells.

169 radiomic data from tumors with contralateral parenchyma characterizations may improve diagnostic accu

170 s The performance of the combined lesion and parenchyma classifier in the differentiation between mal

171 mproved EFS and OS and preservation of renal parenchyma compared with historical outcomes for childre

172 ort the relationship between vessel-to-xylem parenchyma connectivity and the hydraulic efficiency-saf

173 ccompanied by higher APf and vessel-to-axial parenchyma connectivity.

174 The human breast parenchyma consists of collecting ducts and terminal duc

175 spread of glioma cells throughout the brain parenchyma, contributing to the lethality of GBM.

176 as determined separately for the whole renal parenchyma, cortex, and medulla and was correlated with

177 onephritis than in healthy volunteers in the parenchyma, cortex, and medulla, with mean values of 1.5

178 ne cells in the central nervous system (CNS) parenchyma, cytokines levels, and microglia activation i

179 The mean lung parenchyma density values on inspiration and expiration,

180 ) transport of fluorescent dextrans in brain parenchyma depended on dextran size in a manner consiste

181 bove 6 years of age showed severe airway and parenchyma destruction.

182 EB levels in spinal cord parenchyma determined capillary permeability.

183 Large wedge sections of renal parenchyma distal to the tumor were stained and scanned

184 induced by placing sutures in the pancreatic parenchyma during pancreatic surgery.

185 80 patients to localize parietal pleura/lung parenchyma followed by classification of COVID-19 pneumo

186 exhibits increased penetration of the brain parenchyma following intravenous administration in mice.

187 lly moving processes, constantly surveil the parenchyma for dysfunction which, when present, results

188 spheric volume of interest was placed in the parenchyma; for tumor lesions, a threshold-segmented vol

189 tivity and safety, species with higher axial parenchyma fraction (APf) had significantly higher hydra

190 Ray parenchyma fraction (RPF) and seasonal NSC dynamics were

191 Conversely, species exhibiting high ray parenchyma fraction and high vessel-to-ray connectivity

192 Our results provide evidence that axial parenchyma fraction and paratracheal arrangement are ass

193 ate and growth form with total ray and axial parenchyma fractions (RAP).

194 rtex, we studied wedge sections of the renal parenchyma from 812 patients who underwent a radical nep

195 ore, combining the characteristics of normal parenchyma from the contralateral breast with radiomic f

196 issue, but not their surrounding non-tumoral parenchyma, had nuclear beta-Cat and Axin2 overexpressio

197 We found that the brain parenchyma has a functional type I interferon (IFN) resp

198 At steady state, the CNS parenchyma has few to no lymphocytes and less potent Ag-

199 high altitude; however, the CBF of the brain parenchyma has not been studied to date.

200 s in the bronchial tree and in the pulmonary parenchyma have been described in the advanced phase of

201 -based therapies aimed at replenishing renal parenchyma have been proposed as an approach for treatin

202 d roles for pericentral hepatocytes in liver parenchyma homeostasis.

203 P=0.012) and only partial drainage of liver parenchyma (HR 4.158, P=0.040).

204 Patterns of brain parenchyma, hydrocephalus, and so-called middle cerebral

205 ctural determinant of MHV entry in the brain parenchyma important for altered neuropathogenesis.

206 xcellent contrast with the surrounding brain parenchyma in all patients with active disease.

207 related with pronounced improvement in liver parenchyma in BDL/SIRT(oe) mice.

208 andscape of upper and lower airways and lung parenchyma in healthy lungs, and lower airways in asthma

209 identified by immunohistochemistry in brain parenchyma in over 40% of "high inflammation" schizophre

210 CXCR4 upregulation compared with unaffected parenchyma in PET (SUVmean, 4.6 vs. 3.7; P < 0.01), corr

211 to rapidly migrate within the infected lung parenchyma in response to influenza infection.

212 dema and neutrophil infiltration in the lung parenchyma in response to subacute alveolar hypoxia.

213 r-like cells, partially restoring pancreatic parenchyma in vivo.

214 and neural cells present in the hypothalamic parenchyma, in particular in the arcuate nucleus.

215 contact different neural cells in the brain parenchyma including blood vessels and neurons, and in p

216 lial processes continuously survey the brain parenchyma, interact with synaptic elements and maintain

217 eta (Abeta) plaques and fibrils in the brain parenchyma is a hallmark of Alzheimer's disease (AD), bu

218 The liver parenchyma is composed of hepatocytes and bile duct epit

219 Here, we report that DC migration from brain parenchyma is dependent upon the chemokine receptor CCR7

220 d that expression of TOLLIP gene in the lung parenchyma is globally lower in IPF compared to controls

221 h cell patrolling through the nervous system parenchyma is limited compared with other tissues, immun

222 gh nanoparticle entry into the healthy brain parenchyma is minimal, with no evidence for movement of

223 While the brain parenchyma is patrolled by perivascular macrophages and

224 Diagnosis of fungal infection in lung parenchyma is relatively difficult.

225 Mesocarp reserve parenchyma is rich in free and bound phenolic compounds,

226 sport, including solute clearance from brain parenchyma, is impaired during evolving hypertension in

227 h are the first to interact with the cardiac parenchyma, is unclear.

228 hippocampal slice cultures, i.e., postnatal parenchyma lacking leukocyte infiltration (adaptive immu

229 terized by cystic replacement of the hepatic parenchyma, leading to hepatic dysfunction, portal hyper

230 Storage parenchyma localized SbSUT1 and SbSUT5 may accumulate Su

231 [IAV]) remains detectable in the mouse brain parenchyma long after resolution of the acute infection.

232 f human glioma cells (hGCs) within the brain parenchyma makes glioblastoma one of the most aggressive

233 We hypothesized that the CNS parenchyma may acquire protection from the reactive astr

234 lular pH, 6.78 +/- 0.09) compared with liver parenchyma (mean extracellular pH, 7.18 +/- 0.03) (P = .

235 decreased EB extravasation into spinal cord parenchyma, meaningfully re-established perivascular ast

236 he subsets of myeloid cells that inhabit the parenchyma, meninges, and choroid plexus and discuss the

237 entities capable of crossing into the brain parenchyma, novel formulations of existing chemotherapie

238 is a condition of inflammation of the brain parenchyma, occurs as a result of infectious or autoimmu

239 or deeper in the brain cortical and striatal parenchyma of aging mice.

240 pathological bulbar vacuolation in the brain parenchyma of infected mice with persistent CD11b(+) mic

241 TOLLIP protein expression is lower in the parenchyma of IPF lungs but is expressed in the atypical

242 formation in cerebral vessels and the brain parenchyma of patients.

243 at TNAP activity was suppressed in the brain parenchyma of SBI-425-treated mice compared to controls.

244 sed to quantify abnormal changes in the lung parenchyma of smokers that might overlap chronic obstruc

245 Subtle interstitial changes in the lung parenchyma of smokers, known as Interstitial Lung Abnorm

246 e biomolecules enter within seconds into the parenchyma of the draining LN in an intact form.

247 phenotype of vaccine-specific T cells in the parenchyma of the lung may provide insights into potenti

248 in the pial arterial wall and in neocortical parenchyma of young, drug-resistant epilepsy patients (1

249 omposed of a lacunar and highly vascularized parenchyma offering a direct connection between leaf sur

250 r damage and abundance of neutrophils in the parenchyma or alveolar space did not change at these tim

251 ultrasonography can show alterations in the parenchyma or Doppler findings that would be considered

252 l can release cancer therapeutics into brain parenchyma over a long period of time, suppressing tumor

253 )Y uptake in the tumor relative to the liver parenchyma (P < 0.001).

254 owed by in vivo selection in mouse for brain parenchyma penetrating antibodies.

255 port that wall ingrowth deposition in phloem parenchyma (PP) transfer cells (TCs) in leaf veins of Ar

256 cellular matrix (ECM) components of the host parenchyma prevented proliferation of DTCs that had rece

257 at KC and LSEC prevent viral spread into the parenchyma, preventing hepatitis.

258 tifunctional CD4 and CD8 T cells to the lung parenchyma prior to challenge and indicated the route of

259 undergoes a drastic phase transition from a parenchyma-producing phase to a fiber-producing phase at

260 marily outside of the central nervous system parenchyma, recapitulates the beneficial effects of tota

261 y associated with pathological airway and/or parenchyma remodeling.

262 els; only administering them into the kidney parenchyma resulted in similar generation of human renov

263 Analysis of lung parenchyma revealed that the inflammation in allergic mi

264 ctors and thus MRI protocol towards cerebral parenchyma should include DWI, especially in pediatric p

265 then the fraction of wood occupied by living parenchyma should increase towards stressful environment

266 Jacobian maps demonstrated lung parenchyma shrinkage of the posterior lung bases in pati

267 sed sap than cold branches due to increasing parenchyma storage.

268 - and medium-sized vessels deep in the brain parenchyma, such as in the hypothalamus, whereas larger

269 uation demonstrated increased albumin in the parenchyma that cleared by 24 h along with TUNEL(+) neur

270 Unlike the adjacent brain parenchyma, the meninges contain a wide repertoire of im

271 linked to the presence of vessel-associated parenchyma, the underlying mechanism remains controversi

272 sistence of CD8 effector T cells in the lung parenchyma, thereby allowing the transition to Trm.

273 aces (20 of 36; 56%), and enhancement of the parenchyma (three of 20; 15%), leptomeninges (three of 2

274 mine whether the fraction and arrangement of parenchyma tissue influence the hydraulic efficiency-saf

275 Focusing on the relatively simple parenchyma tissues of four fruits - tomato, aubergine, s

276 ions of interest in the contralateral breast parenchyma to assess the mammographic parenchymal patter

277 -specific loss of Lats1/2 caused the ovarian parenchyma to be mostly replaced by bone tissue and semi

278 esonance (MR) imaging with surrounding liver parenchyma to determine the relationship between these p

279 orted from the subarachnoid space into brain parenchyma to exchange with interstitial fluid (also kno

280 of radiomic analysis of contralateral breast parenchyma to the characterization of breast lesions wit

281 d, which can also be used to assess the lung parenchyma, to identify pleural fluid; CT scanning is no

282 nfiltration for each molecule into the brain parenchyma upon OBBBO.

283 of distinct components of kidney allografts (parenchyma, ureter) were acquired 15 and 45 minutes afte

284 ohol-injured hepatocytes and the neighboring parenchyma via a gap junction intercellular communicatio

285 o-noise ratio in pulmonary arteries and lung parenchyma was significantly higher for UTE than for MR

286 o (DeltaCNR) between tumor and contralateral parenchyma were calculated at each time point and were c

287 , skewness) MRI parameters] in HCC and liver parenchyma were compared using Wilcoxon signed-rank test

288 nces in contrast density; the aorta or renal parenchyma were evaluated based on corrected or relative

289 ventricles and different parts of the brain parenchyma were revealed suggesting a possible role for

290 reas effector T cells are found in the brain parenchyma where parasites are present, Tregs were restr

291 gametocytes develop in the human bone marrow parenchyma, where they accumulate around erythroblastic

292 recruit circulating lymphocytes into the SLO parenchyma, where they encounter cognate antigen.

293 ne is mainly composed of cysts, with limited parenchyma, which allows for rapid and bloodless transec

294 most drugs from gaining access to the brain parenchyma, which is a recognized impediment to the trea

295 subtle pathological alterations of the brain parenchyma, which may eventually lead to neurological de

296 tumors when compared to adjacent nontumoral parenchyma, with 60% of the tumors exhibiting a reduced

297 proteins readily permeate the healthy brain parenchyma, with transport maintained by BBB-specific tr

298 -alpha(v)beta(6)-BP was noted in normal lung parenchyma, with uptake being elevated in areas correspo

299 he blood-brain-barrier and entered the brain parenchyma within 2 minutes of being in the blood.

300 ukocytes across retinal vessels and into the parenchyma within 48 hours of photoreceptor degeneration