ライフサイエンスコーパス: fibrous

1 anism that governs the cell interaction with fibrous 3D ECM is still not known.

2 RIS) approach to SMLM, in the context of the fibrous actin meshwork at the T cell immunological synap

3 TAAs form fibrous, adhesive structures on the bacterial cell surfa

4 stem revealed its tendency to form elongated fibrous aggregates, suggesting the general nature of thi

5 mmature constructs, nascent matrix is highly fibrous and interdigitates with pre-existing matrix, whi

6 icro-mechanical signatures characteristic of fibrous and lipid-rich tissue.

7 ocess, EB1, dynein, and ClipA form transient fibrous and then bar-like structures, novel configuratio

8 cale and enriched as both U(IV) and U(VI) on fibrous and woody plant debris (48 +/- 10% U(IV), x +/-

9 HCl3/CHX, and CHX/THF), spherical, rod-like, fibrous, and helical morphologies were obtained, with th

10 Pili are fibrous appendages expressed on the surface of a vast nu

11 iking and general property of the biological fibrous architectures in the extracellular matrix (ECM)

12 r in situ engineering of sequence-prescribed fibrous architectures.

13 defect in the assembly of the highly ordered fibrous arrays typically formed by wild-type lamin B2.

14 Proliferating fibrous astrocytes with a very low proliferation index p

15 ellular pH (pHi) regulation were examined in fibrous astrocytes within isolated neonatal rat optic ne

16 al GM protoplasmic astrocytes with dorsal WM fibrous astrocytes.

17 ochemical phenotype between protoplasmic and fibrous astrocytes.

18 lting from compression of the celiac axis by fibrous attachments of the diaphragmatic crura, the medi

19 C) is a chronic, degenerative process in the fibrous base of the mitral valve.

20 the design criteria of these multi-component fibrous biomaterials, they are used as elastomeric mater

21 rmined by the architecture of the underlying fibrous bionetworks.

22 anisotropic cross-sectional geometry of the fibrous building blocks (~0.5-10 mum) and the heterogene

23 reveal that the helical organization of the fibrous building blocks effectively constrains mechanica

24 oscopy directly reveal that the interlocking fibrous building blocks further retard crack propagation

25 Of 21 IVOCT TCFAs (fibrous cap <65 mum, lipid arc >1 quadrant), only 8 were

26 plaques in segments with low ESS had thinner fibrous cap (115 mum [63-166] versus 170 mum [107-219];

27 stics of the necrotic core (NC) covered by a fibrous cap (FC), intraplaque hemorrhage (IPH), and calc

28 areas, enhanced VSMC apoptosis, and reduced fibrous cap and collagen content.

29 as VSMC-specific TRF2 increased the relative fibrous cap and decreased necrotic core areas.

30 th alpha smooth muscle actin (aSma)-positive fibrous cap and Mac3-expressing macrophage-like plaque c

31 esion size but markedly reduces the relative fibrous cap area in plaques and increases VSMC apoptosis

32 esis, but alters plaque phenotype inhibiting fibrous cap areas in advanced lesions.

33 However, VSMC DNA damage reduced relative fibrous cap areas, whereas accelerating DSB repair incre

34 small microcalcifications within the plaque fibrous cap can lead to sufficient stress accumulation t

35 that subcellular microcalcifications in the fibrous cap may promote material failure of the plaque,

36 hat microcalcifications that form within the fibrous cap of the plaques lead to the accrual of plaque

37 n the Western world, usually occurs when the fibrous cap overlying an atherosclerotic plaque in a cor

38 lating miR-210 in vitro and in vivo improved fibrous cap stability with implications for vascular dis

39 a necrotic core and thinning of a protective fibrous cap that overlies the core.

40 and cellular debris, typically covered by a fibrous cap that separates the thrombogenic core from th

41 onstrated an independent association between fibrous cap thickening and improved CEC that may contrib

42 e improved using lipid arc >/=80 degrees and fibrous cap thickness </=85 mum over 3 continuous frames

43 Combining VH-defined fibroatheroma and fibrous cap thickness </=85 mum over 3 continuous frames

44 =0.30), the number of continuous frames with fibrous cap thickness </=85 mum was higher in TCFA (6.5

45 ation (15.4% versus 34.4%; P=0.008), whereas fibrous cap thickness (105.2+/-62.1 versus 96.1+/-40.4 m

46 dality with sufficient resolution to measure fibrous cap thickness (FCT) in vivo.

47 Baseline OCT minimal fibrous cap thickness (FCT) was 100.9 +/- 41.7 mum, whic

48 s in plaque morphology including increase in fibrous cap thickness and decrease in the prevalence of

49 mulation of macrophages along with increased fibrous cap thickness and smooth muscle cell numbers.

50 f plaque stability, including an increase in fibrous cap thickness as compared to wild-type controls.

51 Because clinical assessment of fibrous cap thickness is not possible by noninvasive ima

52 source laser are often used for identifying fibrous cap thickness of plaques, yet cannot provide ade

53 Fibrous cap thickness was not significantly different be

54 On OCT, although minimal fibrous cap thickness was similar (71.8+/-44.1 mum versu

55 increased atherosclerosis, reduced relative fibrous cap thickness, and medial degeneration.

56 id arc, lipid-core length, lipid index (LI), fibrous cap thickness, and thin-cap fibroatheroma.

57 s features of plaque vulnerability including fibrous cap thinning and extensive necrotic core areas.

58 mooth muscle actin-positive cell population, fibrous cap thinning, and decreased collagen content.

59 ity, including elastic fiber degradation and fibrous cap thinning, by heightening metalloprotease pro

60 c structural features of the atherosclerotic fibrous cap, and high-resolution microscopic and spectro

61 associated with larger lipid burden, thinner fibrous cap, and higher prevalence of thin-cap fibroathe

62 ement for this to occur is an extremely thin fibrous cap, and thus, ruptures occur mainly among lesio

63 reased plaque stability, including a thinner fibrous cap, increased necrotic core area, and increased

64 t macrophages were seen to accumulate in the fibrous cap, potentially promoting its focal erosion, as

65 within lesions and SMC investment within the fibrous cap, which may result from impaired SMC migratio

66 icial, for example preventing rupture of the fibrous cap.

67 rlying most myocardial infarctions have thin fibrous caps and large necrotic cores; however, these fe

68 ue containing large necrotic cores with thin fibrous caps often precipitates these acute events.

69 ferocytosis, smaller necrotic cores, thicker fibrous caps, and increased ratio of proresolving versus

70 vealed a distinct localization of miR-210 in fibrous caps.

71 improved lesional efferocytosis, and thicker fibrous caps.

72 of 42 patients with disease confined by the fibrous capsule achieved complete remission, compared wi

73 ted ALCL who had disease confined within the fibrous capsule achieved complete remission.

74 Porosity of the fibrous capsule around the implant.

75 form cyclic compressions that led to reduced fibrous capsule formation around the implant, as well as

76 ysed by matrigel-based tube formation and by fibrous capsule formation assays.

77 Histology and fibrous capsule scoring showed a light inflammatory resp

78 t usually presents as an effusion-associated fibrous capsule surrounding an implant.

79 ng chemical vapor deposition (CVD) growth of fibrous carbon nanostructures from zirconia nanoparticle

80 ineered grafts contained a mixed hyaline and fibrous cartilage matrix.

81 sulted in the slow formation of micron-sized fibrous chukanovite (Fe2(OH)2CO3) particles.

82 ncrease in the equivalent shear stiffness of fibrous collagen gels occurs as cross-linking density is

83 We developed a micromechanical model of a fibrous collagen tissue undergoing enzymatic degradation

84 membrane and for invasive migration through fibrous collagen-enriched tissues surrounding the tumor.

85 s the cause by removing the anterior chamber fibrous complex after administration of antibody to vasc

86 d thread cells, which produce the mucous and fibrous components of the slime, respectively.

87 ent friction and thus tune the properties of fibrous composite materials.

88 reference to the evolution of enamel from a fibrous composite to a complex, tough, and damage-tolera

89 ng technique in terms of relative amounts of fibrous connective tissue (CT) and fatty/glandular tissu

90 ndons are prominent members of the family of fibrous connective tissues (FCTs), which collectively ar

91 equires optimized geometric organizations of fibrous connective tissues.

92 The fibrous constituent improves the mechanical properties o

93 ruited to the ROD-Zw10-Zwilch complex in the fibrous corona of unattached kinetochores.

94 00-kD ROD-Zwilch-ZW10 (RZZ) complex builds a fibrous corona that assembles on mitotic kinetochores be

95 that inhibits recognition by macrophages and fibrous deposition.

96 ts and beta-spectrin-binding activity with a fibrous domain nearly 150 nm in length.

97 pective review of patients with craniofacial fibrous dysplasia (FD), the clinical and radiological fi

98 atient with axial and peripheral polyostotic fibrous dysplasia and cafe au lait spots on clinical exa

99 was to assess the prevalence of polyostotic fibrous dysplasia and McCune-Albright syndrome among pat

100 ere retrospectively screened for polyostotic fibrous dysplasia based on their preoperative abdominal

101 OC complex: progenitor cell differentiation (fibrous dysplasia), extracellular matrix production (ost

102 perfunctioning endocrinopathies, polyostotic fibrous dysplasia, and cafe au lait pigmentation.

103 rome, and a combination of childhood injury, fibrous dysplasia, and pyarthrosis.

104 n McCune-Albright syndrome, characterized by fibrous dysplasia, precocious puberty, and cafe au lait

105 lting in their defective differentiation and fibrous dysplasia, we identify Galphas as a key regulato

106 Prkar1a(+/-) mice developed OMX, fibrous dysplasia-like lesions (FDL) and other tumors.

107 d tissues), with no inflammatory reaction or fibrous encapsulation occurring over the one-month perio

108 us sensor inflammatory response, fouling and fibrous encapsulation resulting from the host foreign bo

109 lar matrix deposition, scaffold degradation, fibrous encapsulation, and neovascularization) and a mea

110 gulates in vivo cell adhesion, inflammation, fibrous encapsulation, and vascularization of the materi

111 orces in response to changes in the external fibrous environment (outside-in).

112 ata, we demonstrate that cell migration in a fibrous environment requires the formation and propagati

113 l and endothelial cells interacting across a fibrous extracelluar matrix (ECM).

114 ignals over relatively long distances across fibrous extracellular matrices.

115 Cell emergence onto damaged or organized fibrous extracellular matrix (ECM) is a crucial precurso

116 fy the intricate interplay of a cell and its fibrous extracellular matrix (ECM).

117 Recent observations suggest that cells on fibrous extracellular matrix materials sense mechanical

118 ts and culminates in shunting migration in a fibrous fibronectin matrix.

119 First, particles embedded in fibrous filters are transferred to polished silicon or g

120 terogeneous urban dust particles captured on fibrous filters during high-volume air sampling.

121 synergistic advantages of porous filters and fibrous filters with a sievelike outer surface and a fib

122 Beta-glucans are a heterologous group of fibrous glucose polymers that are a major constituent of

123 or desmoid tumor refers to a group of benign fibrous growths without metastatic potential but with a

124 The structural elements identified are: fibrous, helical, gradient, layered, tubular, cellular,

125 A fibrous herringbone-modified helicoidal architecture is

126 cells, shares 99.5% identity with malignant fibrous histiocytoma-amplified sequences with leucine-ri

127 teal sarcoma, synovial sarcoma and malignant fibrous histiocytoma.

128 orm both isotropic hydrogels and electrospun fibrous hydrogels through a photoinitiated polymerizatio

129 along the cell base and are reticular and/or fibrous in character.

130 article size, mostly seen as aggregates, and fibrous in nature.

131 ch on histology demonstrated corneal keloid, fibrous infiltration of the angle, ectropion uvea, retin

132 tiorgan autoimmune disorder characterized by fibrous inflammation, IgG4-positive plasma cell infiltra

133 In this study, transcription profiling of fibrous, intermediate and storage roots at eight weeks o

134 modifying the eutectic Si from flake-like to fibrous is a key factor in improving the properties of A

135 asts called keratocytes, which reside in the fibrous lamellae of the stroma.

136 d up with encapsulation by a dense avascular fibrous layer enriched in extracellular matrix.

137 ng basal epithelium, in addition to a deeper fibrous layer that contains the main sensory nerve trunk

138 ngate and remodel into highly organized thin fibrous leaflets.

139 a shift from CD44- "protoplasmic" to CD44+ "fibrous"-like astrocytes.

140 Biomass, the fibrous material derived from plant cell walls, is a pot

141 k between the fibroblasts and the underlying fibrous material on which they move.

142 racellular matrices, we designed a synthetic fibrous material with tunable mechanics and user-defined

143 o show great expectations of better and more fibrous materials of 2D nanomaterials.

144 In contrast to flat hydrogel surfaces, these fibrous materials recapitulated cell-matrix interactions

145 nduced lung disease casts a long shadow over fibrous materials to date.

146 les lost more silver during wash compared to fibrous materials.

147 mes, and building blocks for the assembly of fibrous materials.

148 he importance of the nonlinear elasticity of fibrous matrices in regulating cell-ECM interactions wit

149 Dividing cells embedded in fibrous matrices remained anchored to the matrix by long

150 l to capture cell-mediated remodeling within fibrous matrices using finite element-based discrete fib

151 ls migrate on complex three-dimensional (3D) fibrous matrices, which has made investigation of the ke

152 ey role played by the nonlinear mechanics of fibrous matrices.

153 l channels of cell-cell communications in 3D fibrous matrices.The structure and mechanics of tissues

154 mers are the collagens, which constitute the fibrous matrix outside cells and which can also self-ass

155 Physics-based models of fibrous matrix, cytoskeletal force dipoles, and the lami

156 tial of MWCNT films as a novel class of nano-fibrous mats for tissue engineering and regenerative med

157 lated macular degeneration, characterized by fibrous membrane formation after choroidal neovasculariz

158 w that surface omniphobicity of the modified fibrous membrane increased with higher level of re-entra

159 cone oil into the vitreous cavity to dissect fibrous membranes from the retinal surface and use the s

160 dition, a comparison between the 3D AuNR/PCL fibrous mesh and a 2D AuNR/PCL film reveals that the enh

161 aterials such as collagen gel or electrospun fibrous mesh.

162 s during the carbonation of Ca(OH)2 within a fibrous mesh.

163 Suramin ionically cross-linked MDP into a fibrous meshwork as determined by scanning and transmiss

164 ate appeared capable of provoking widespread fibrous metaplasia of the pigment epithelium that was ma

165 t epithelium had undergone extensive placoid fibrous metaplasia with focal ossification.

166 consistent method for preparing standardised fibrous microplastics, with widths similar to those obse

167 The fibrous microstructure of the substrate makes it permeab

168 The formation of fibrous minerals by intertwining filaments confers shear

169 chical structure in biological and synthetic fibrous nanocomposites entails considerable difficulties

170 d biocompatibility of recombinant phage, the fibrous nanostructure of phage, and the inherent merits

171 ubstrates with aligned or randomly organized fibrous nanostructured topographies.

172 ide-functionalized PBIs form one-dimensional fibrous nanostructures as the thermodynamically favored

173 be attributed to the nonlinear elasticity or fibrous nature of collagen matrices, yet the mechanism w

174 y, we explore an alternative hypothesis: the fibrous nature of the ECM makes long-range stress transm

175 the material alone and is likely due to the fibrous nature of the proteins.

176 nimal cells of many types are supported by a fibrous network that forms the main structural component

177 ral component of the blood clot is fibrin, a fibrous network that forms within the blood clot, thereb

178 The resulting fibrous networks are thermally treated on glass in order

179 We show how fibrous networks composed of fibrin utilize irreversible

180 Typically, self-assembled fibrous networks were observed.

181 BO is defined as a progressive fibrous obliteration of the small airways, thought to be

182 nto microspheres, which are either smooth or fibrous on the nanoscale, and either nonhollow, hollow,

183 The fibrous or adipose area was smaller in RARgamma agonist-

184 s testing issues specific to MN particulate, fibrous, or colloidal properties.

185 Fibrous organelles are removed just prior to nuclear mig

186 This constriction is blocked by fibrous organelles, structures that pass through P cells

187 e developed constructs, nascent matrix lacks fibrous organization and is retained in the immediate pe

188 this technique present complete maps of the fibrous organization of the human atria.

189 o digest and extract valuable nutrition from fibrous plant foods.

190 ed teeth and jaws were capable of processing fibrous plant foods.

191 uartiles had a higher percentage of soft and fibrous plaque (18.7% +/- 3.3 vs 17.4% +/- 3.5 [P = .008

192 levels of expression in atheromatous than in fibrous plaques.

193 domains bound hydrogel droplets composed of fibrous polymers of the low-complexity domain of heterog

194 t inflammation was present in all cases, and fibrous proliferation resulted in cyclitic membrane form

195 cleated globes displayed retinal detachment, fibrous proliferation with cyclitic membrane formation,

196 patterns not only of silks but also of other fibrous protein (bio)polymers.

197 Cross-beta fibrous protein aggregates (amyloids and amyloid-based p

198 cells derive their mechanical strength from fibrous protein scaffolds, which typically have a comple

199 s and ligand type, the degree of coupling of fibrous protein to the surface of the underlying substra

200 A structural analysis of fibrous proteins often requires labeling approaches or d

201 r the remarkable physical properties of many fibrous proteins, such as silk, or proteins forming plaq

202 sue-engineered constructs (hetTECs) with non-fibrous proteoglycan-rich microdomains engineered into t

203 g fracture and a subsequent development of a fibrous pseudarthrosis.

204 Fibrous pseudotumor is a rare benign paratesticular lesi

205 rity with imaging findings of paratesticular fibrous pseudotumor may eventuate in an unnecessary orch

206 features of three cases with paratesticular fibrous pseudotumor were presented after a retrospective

207 (i.e. supernatant, green-protein pellet and fibrous pulp) were characterised in terms of composition

208 Cashew apple fibrous residue is a by-product of the cashew juice indu

209 iofilm formation relies on the assembly of a fibrous scaffold formed by the protein TasA.

210 etic approach to generate protease-sensitive fibrous scaffolds for biomedical applications.

211 ssue engineering applications is to engineer fibrous scaffolds using electrospinning.

212 ding appropriate bioactive cues within these fibrous scaffolds, various cellular functions such as ce

213 d due to the controlled Dex release from the fibrous scaffolds.

214 scle cells, but also filled with adipose and fibrous scar tissue in both RARgamma-treated and control

215 extracellular matrix proteins that form this fibrous scar.

216 vation of myofibroblasts, and formation of a fibrous scar.

217 Ordered, fibrous, self-seeding aggregates of misfolded proteins k

218 alisading granulomas in widened interlobular fibrous septa were detected.

219 Fibrous septae separated adipocyte lobules.

220 oid tumours, which had nuclear pleomorphism, fibrous septation and increased galectin-3 expression, c

221 Furthermore, multiple nodule with fibrous septum could suggest subtype AB.

222 ent, risk of aggressiveness, and nodule with fibrous septum were evaluated in low (A, AB) versus high

223 s) are similar to asbestos in terms of their fibrous shape and biopersistent properties and thus may

224 immobilization of glycolytic enzymes on the fibrous sheath of mammalian sperm, here we show a comple

225 e fibers and accumulate improperly assembled fibrous sheath proteins.

226 e tumor cells may block the formation of the fibrous sheath, we determined whether tumor cells secret

227 lated hMSC cell monolayer formation, whereas fibrous side facilitated cell penetration into scaffold.

228 esion and proliferation rate compared to the fibrous side.

229 vere chronic pancreatitis or PDA with severe fibrous stroma).

230 : mild chronic pancreatitis or PDA with mild fibrous stroma); 3) progressive enhancement with maximum

231 lanin granules, glial tissue (1 case), and a fibrous stroma.

232 x with overall distribution of collagen-rich fibrous structure in the anterior/posterior (AP) bands a

233 Accurate knowledge of the human atrial fibrous structure is paramount in understanding the mech

234 tive extracellular matrix (ECM) is a complex fibrous structure loaded with bioactive cues that affect

235 glycan-rich microdomains engineered into the fibrous structure, and show that these hetTECs match the

236 spontaneously aggregates in solution to form fibrous structures and hydrogels, suggesting an assembly

237 Ripley's K-function to quantitatively assess fibrous structures in 2D SMLM datasets.

238 sembled by forming a network of entangled 1D fibrous structures on the micrometer scale.

239 nt signaling expand to form micrometer-scale fibrous structures over CENP-A-free chromatin, whereas a

240 now well developed, techniques for analyzing fibrous structures remain poorly explored.

241 ese properties in artificial one-dimensional fibrous structures with the aim to arrive at multi-compo

242 oes reversible self-assembling into extended fibrous structures, reminiscent of those observed in liv

243 Maturation often coincides with formation of fibrous structures.

244 on the lysine-rich surface of the resulting fibrous structures.

245 ssed perfectly aligned fibers giving rise to fibrous strut orientation, variable inter-strut pore siz

246 udy show that MC3T3 cells cultured on a soft fibrous substrate attain the same spread cell area as th

247 Positive charges on the PCL fibrous substrate were established via polyelectrolyte l

248 h entrapment, and subsequently coated onto a fibrous support.

249 with regard to the thermodynamically stable fibrous supramolecular polymers obtained.

250 e sidedness of BP scaffolds (i.e., serous or fibrous surface), this study aims to determine the effec

251 TCFA causes included smooth muscle cell-rich fibrous tissue (12%) and loose connective tissue (9%).

252 o highly regular bone formation with minimal fibrous tissue and increased bone density in rabbit radi

253 The increased fibrous tissue at the fracture site was rescued by local

254 chordae were separated from the superimposed fibrous tissue by their black-staining elastic membranes

255 nd fibrotic response that leads to expansive fibrous tissue deposition and chronic functional deficit

256 turn causes stromal fibroblasts to increase fibrous tissue deposition.

257 We present a model for fibrous tissue growth based on 3D-electron microscopy of

258 al EMF is characterized by the deposition of fibrous tissue in the endomyocardium, leading to restric

259 tudy the integrity of papillary muscles, the fibrous tissue of cardiac valve and chordae tendineae an

260 The superimposed fibrous tissue on both leaflet and chordae is likely the

261 overlooked: 1) the presence of superimposed fibrous tissue on both surfaces of the leaflets and surr

262 shown by lack of wall thickening and lack of fibrous tissue or smooth muscle in their constitution.

263 rofibrosis, abnormal scarring in which dense fibrous tissue prevents normal range of motion, develops

264 sed its potential role in controlling atrial fibrous tissue production.

265 ing in MVP is mainly due to the superimposed fibrous tissue rather than to an increased volume of the

266 l sheets, they fail to capture how a wounded fibrous tissue rebuilds its 3D architecture.

267 ss engineered tissues maintained a cellular, fibrous tissue throughout, whereas empty tooth roots rem

268 al tissues (e.g., striated muscle, bone, and fibrous tissue).

269 Amounts of residual viable tumor, necrosis, fibrous tissue, inflammatory infiltrate, and Ki-67 proli

270 The identification of hyaline fibrous tissue, with numerous crystalline basophils depo

271 ually reflect the myocardial accumulation of fibrous tissue.

272 the MC layer leads to reduced development of fibrous tissue.

273 kening was primarily due to the superimposed fibrous tissue.

274 idden (i.e., covered up) by the superimposed fibrous tissue.

275 caused by excess deposition of interstitial fibrous tissue.

276 discriminate the tumor stroma from nontumor fibrous tissue.

277 ng myotomy, the EAS muscle was replaced with fibrous tissue.

278 ning of the anterior capsule with a layer of fibrous tissue.

279 growth mechanisms later in development when fibrous tissues account for the bulk of adult vertebrate

280 s important implications for growth of other fibrous tissues and fibrosis.

281 activation and formation of more supportive fibrous tissues in the infarcts.

282 seudotumor, is a benign disorder composed of fibrous tissues, myofibroblasts and inflammatory cell pr

283 , homeostatic, degenerating and regenerating fibrous tissues.

284 g processes during the transition stage from fibrous to intermediate roots, while homeostasis and sig

285 interactions, our platform accounts for the fibrous topography of the basal membrane and allows for

286 n a patient with a highly malignant solitary fibrous tumor (SFT) enrolled in our clinical sequencing

287 Isolated fibrous tumor of the pleura (SFTP - Solitary fibrous tum

288 For solitary fibrous tumor, LR was uncommon (<10%), but early distant

289 esumable tumor-initiating events in solitary fibrous tumors (SFT).

290 Solitary fibrous tumors (SFTs) are rare mesenchymal tumors.

291 Solitary fibrous tumors (SFTs) of the prostate are a rare type of

292 In contrast to solitary fibrous tumors of soft tissue and sinonasal tract origin

293 sion model for studying transport in benign, fibrous tumors.

294 Of the 14 examined patients, fibrous tumour occurred in 8 men and 6 women.

295 Fibrous tumour of the pleura is a pleura-based neoplasm

296 Fibrous tumour of the pleura was more often associated w

297 ge, selected cases of patients with isolated fibrous tumour of the pleura were chosen from the archiv

298 itary fibrous tumour of the pleura/localized fibrous tumour of the pleura) is a rare primary tumour o

299 fibrous tumor of the pleura (SFTP - Solitary fibrous tumour of the pleura/localized fibrous tumour of

300 Pili are surface-attached, fibrous virulence factors that play key roles in the pat