ライフサイエンスコーパス: silicone

1 for mineral oil and 3.4 and 11.2mugL(-1) for silicone.

2 eterostructures that are partially locked in silicone.

3 rature-sensitive miscibility of hydrocarbon, silicone and fluorocarbon liquids, and is applied to bot

4 ibrium sampling with multiple thicknesses of silicone and in situ pre-equilibrium sampling with low d

5 to the lower desorption temperature that EG Silicone and PA coatings can be submitted to, respect to

6 effect of each coating type was studied; EG Silicone and PA coatings showed a higher memory effect f

7 nol, obtained greater area response using EG-Silicone and PA coatings, regardless the temperatures.

8 For this purpose, EG-Silicone and PDMS polymeric phases were compared and, af

9 Implantation of GDD, using silicone and polypropylene Ahmed glaucoma valve.

10 rom unity were indicated within the group of silicones and between silicones and LDPE.

11 ed within the group of silicones and between silicones and LDPE.

12 ethylene glycol) (PEG)-modified silicone (EG-Silicone) and polyacrylate (PA), in comparison with poly

13 nt, measuring chemical concentrations in the silicone, and applying lipid/silicone partition ratios t

14 n were developed from commercially available silicone, and chromatographic background interference wa

15 ystal is immobilized in and regenerated from silicone, and the other functional end is left exposed.

16 Using body dynamics generated from a soft silicone arm, we show that they can be employed to emula

17 tripping for CNTPE containing mineral oil or silicone as binder.

18 s a distinct advantage in processing optical silicones, as the high peak intensity achieved in the fo

19 nsor mounted on the surface of an inflatable silicone balloon affixed to the tip of an interrogating

20 sutured onto the sclera using an encircling silicone band.

21 The silicone-based implant e-dura embeds interconnects, elec

22 QMS) connected to the capillary probe with a silicone-based membrane.

23 he compounds and on the concentration of the silicone-based polymeric surfactant Abil EM 90 used.

24 involving one or more commercially available silicone-based products was developed to create hydropho

25 gmentation, migration, and fusion, we coated silicone-based substrates ranging from 2 to 100 kPa with

26 Using silicone-based wheels, these motors enable a new class o

27 In vivo silicone biodegradation is initiated by tearing among su

28 cocultures presented a further gone level of silicone biodegradation.

29 y of antibiotic function were tested using a silicone biofilm model.

30 The controversial association between silicone breast surgery and SSc has not been proven and,

31 mL borosilicate vials that are sealed with a silicone cap and Teflon septum and allow syntheses to be

32 ing either Greens medium or M2 medium, and a silicone carrier pretreated with 20% carboxylic acid dep

33 Silicone catheter insulation, larynx prostheses undergo

34 s: 40 via a subcutaneous port connected to a silicone catheter tunneled to the PC, 40 via direct need

35 Silicone catheters were precoated with S. aureus to faci

36 calculations explore the optimization of the silicone coating properties.

37 h terrestrial organisms: Passive dosing from silicone controlled the chemical activity of phenanthren

38 "Whole fish" lipid-silicone distribution coefficients (Dlip-sil) were calcu

39 ed over time (range, 2-8 months) despite the silicone droplets still being present on ophthalmoscopic

40 s, 60 cases (35 [58%] women) of intravitreal silicone droplets were identified.

41 tigating experimental approach curves toward silicone droplets, as well as finite element modeling of

42 ealthy volunteers with normal hearing wore a silicone earplug continuously in one ear for 7 days.

43 ddition, embedded micro-glass spheres in the silicone effectively reduced the effective density of th

44 atings, poly(ethylene glycol) (PEG)-modified silicone (EG-Silicone) and polyacrylate (PA), in compari

45 so transfer arrays of PZT nanoribbons onto a silicone elastomer and measure mechanical deformations o

46 sed a novel vaginal ring device comprising a silicone elastomer body into which three freeze-dried, r

47 The printing process combines soft silicone elastomer printing and liquid metal processing

48 cated using buckypaper electrodes cured on a silicone elastomer soft contact lens.

49 cle size, initial levonorgestrel loading and silicone elastomer type were demonstrated to be key para

50 t coating with electrodeposition paint and a silicone elastomer.

51 from poly(dimethylsiloxane), a biocompatible silicone elastomer.

52 e on the solubility of levonorgestrel in the silicone elastomer.

53 Biofilms grown on silicone-elastomer catheter discs in these media were co

54 y technology that exploits thin, low modulus silicone elastomers as substrates, with a segmented desi

55 long history of incorporating steroids into silicone elastomers for drug delivery applications, litt

56 lly with hydrosilane groups in addition-cure silicone elastomers has been thoroughly investigated.

57 specific HWP1 promoter, biofilm formation on silicone elastomers, and pathogenesis in a nematode infe

58 elloides (D. c.) was immobilized into porous silicone films and their photosynthetic activity was mon

59 By combining silicone flower parts with real floral organs, we create

60 fer a unique method for the cross-linking of silicone fluids with well-defined carbon spacers.

61 mbranes from the retinal surface and use the silicone for retinal tamponade.

62 eature channels made by precision-cut 0.8 mm silicone gaskets.

63 We measure this angle for water on a silicone gel and develop a theory based on the substrate

64 Silicone gel breast implants were removed from the U.S.

65 clarify the strength of associations between silicone gel implants and health outcomes.

66 s inconclusive about any association between silicone gel implants and long-term health outcomes.

67 evidence was most frequently not specific to silicone gel implants, and studies were rarely adequatel

68 methods have been used to prepare a class of silicone gel particles that display a range of programma

69 , and cell spreading areas increase with the silicone gel substrate rigidity.

70 tiation of stem cells plated on hydrogel and silicone gel substrates on the rigidity and porosity of

71 rning transition-metal-doped ZnS embedded in silicone gels and transfer printing onto an elastomeric

72 ls plated on soft, medium rigidity, and hard silicone gels we show that harder gels are more osteogen

73 curable materials, thermally curable optical silicones have a number of advantages, such as strong UV

74 The new field sampler allows SPME fibers and silicone hollow fibers to be immersed and equilibrated i

75 hydrogel (etafilcon A, modulus 0.30 MPa) and silicone hydrogel (galyfilcon A, 0.43 MPa) design of sim

76 tive events (CIEs) during continuous wear of silicone hydrogel (SH) contact lenses.

77 . marcescens were added in the presence of a silicone hydrogel contact lens, and we examined corneal

78 quantifying total cholesterol extracted from silicone hydrogel contact lenses and, potentially, the m

79 Fusarium grown as a biofilm on silicone hydrogel contact lenses can induce keratitis on

80 al defects that failed to heal with extended silicone hydrogel contact lenses healed with PROSE.

81 bility of F. oxysporum grown as a biofilm on silicone hydrogel contact lenses to induce keratitis.

82 Ten wearers of silicone hydrogel contact lenses were asked to keep one

83 e Advance; Vistakon, Inc., Jacksonville, FL) silicone hydrogel contact lenses were independently incu

84 Four types of silicone hydrogel lens materials were tested.

85 The fit of the stiffer material silicone hydrogel lens was better able to be predicted a

86 tis should be similar for daily and extended silicone hydrogel lens wear over 1 year when preservativ

87 th bandage contact lens; however, continuous silicone hydrogel lens wear was not effective in prevent

88 Subjects were fitted with silicone hydrogel lenses and followed for two months.

89 /lens, respectively, compared with all other silicone hydrogel lenses investigated (P < 0.03).

90 mers showed the lowest adsorption of all the silicone hydrogel lenses tested at 0.4 and 1.5 microg/le

91 rers were imaged when they wore two types of silicone hydrogel lenses, balafilcon A on one eye and ga

92 th Sudan IV visualized domains on and within silicone hydrogel lenses.

93 in surface modification and lipophilicity of silicone hydrogel lenses.

94 Certain silicone hydrogel materials demonstrate more affinity fo

95 n A and B polymers than for any of the other silicone hydrogel polymers tested.

96 ZnO nanorod array deposited on the synthetic silicone hydrogel.

97 Use of multipurpose care products (2.86x), silicone hydrogels (1.85x), and extended wear (2.37x) we

98 The wearing of silicone hydrogels (as opposed to hydrogels) was protect

99 Hydrogel and most silicone hydrogels appear to adsorb lipids relatively qu

100 Nanoparticle incorporation in the silicone hydrogels results in reduction in ion and oxyge

101 ens wear, use of multipurpose care products, silicone hydrogels, and extended wear were all significa

102 ied who (a) had breast cancer, (b) underwent silicone implant oncoplastic surgery, and (c) underwent

103 In total, 923 women with breast cancer and silicone implants were included (median age, 46 years; r

104 Silicone impressions were taken of mandibular and maxill

105 ved, and attempted to eat model fish made of silicone in preference to other silicone objects showing

106 lorine pesticides (OCPs) by equilibrating 13 silicones, including polydimethylsiloxane (PDMS) and low

107 age after light treatment of a medical grade silicone incorporating crystal violet, methylene blue an

108 Silicone instrumentation showed moderate reflectivity wi

109 Fresh silicone-insulated lead was cut into fragments.

110 es cocultures initiate the biodegradation of silicone insulation.

111 based ECG sensor consisted of an ultra-soft silicone integrated jacket designed to wrap around the f

112 receiving non-HSM polymethylmethacrylate or silicone IOLs.

113 The custom-made, flexible silicone iris prosthesis ArtificialIris (HumanOptics, Er

114 The thermal degradation of silicones is exploited and engineered to make super-hydr

115 The Young's modulus of this silicone jacket matched with the fish surface, and an ex

116 demonstrate embedding the material within a silicone lattice to create mechanically robust, gas-perm

117 Silicone lead fragments in cocultures presented a furthe

118 phylococcus aureus (S aureus) strains in the silicone lead insulation degradation.

119 udy were to verify the conviction that outer silicone lead insulation is biostable and inert in addit

120 3-piece lenses with anterior round edges (13 silicone lenses and 1 hydrophobic acrylic lens) without

121 Surface calcification of silicone lenses associated with asteroid hyalosis accoun

122 Surface calcification of silicone lenses suggests that this type of lens is not a

123 cribes the preparation of composite catalyst-silicone materials for incorporation into the 3D-printed

124 ch combines thin, ultralow modulus, cellular silicone materials with elastic, strain-limiting fabrics

125 and DF injection using pig skin and SimSkin (silicone) materials, respectively.

126 The silicone matrix immobilizes the epitaxial nucleation sit

127 apment efficiency (93%) was observed for the silicone matrix.

128 ssue expansion without requiring an external silicone membrane, and thus, they can be cut or reshaped

129 ter) cell culture chamber on a thin flexible silicone membrane.

130 cm2) with widths of 15, 30, and 60 microm on silicone membrane.

131 se are used to fabricate either microgrooved silicone membranes or silicone molds for microfluidic ap

132 we micropatterned neuronal cell cultures on silicone membranes to induce dynamic stretch exclusively

133 Silicone membranes were attached to 96 well plate tops t

134 lacement of hooks attached to small circular silicone membranes.

135 However, advances made by the silicone metacarpophalangeal arthroplasty (SMPA) group r

136 site or breast reconstruction, and external silicone models.

137 te either microgrooved silicone membranes or silicone molds for microfluidic application of extracell

138 patterned silicon metal wafers to casting of silicone molds, microfluidic patterning and cell isolati

139 1-piece hydrophobic acrylic (n = 6), 3-piece silicone (n = 4), or 1-piece hydrophilic acrylic (n = 2)

140 We used arrays of flexible, silicone nanoposts to measure the contractility of indiv

141 olycyclic aromatic hydrocarbons (PAHs) using silicone O-rings to control exposure during C. elegans t

142 Silicone O-rings were integrated into a Dunn chemotaxis

143 fish made of silicone in preference to other silicone objects showing that tactile cues are important

144 When silicone oil 200 cSt (SO200) was added to the systems, t

145 icone oil endotamponade (DSOE) of both heavy silicone oil and conventional 'light' silicone oil.

146 go(ethylene glycol) to be solubilised within silicone oil and provide hydrogen bond acceptor sites to

147 propose a microscale gasometric assay using silicone oil as matrix.

148 An increase in intravitreal silicone oil associated with bevacizumab prepared with i

149 Viscosity and elasticity of various silicone oil blends (Siluron 1000, Siluron 2000, Siluron

150 ments with PVR, tamponade with either gas or silicone oil can be considered.

151 Induction of the CCM, as measured by silicone oil centrifugation, was hindered in the presenc

152 The incidence of silicone oil droplet injections was 0.03% (1 of 3230) fr

153 uble protein via protein adsorption onto the silicone oil droplet surface.

154 To determine the incidence of presumed silicone oil droplets after intravitreal bevacizumab was

155 R system can potentially distinguish between silicone oil droplets and protein particles in a size ra

156 injection had a higher risk of intravitreal silicone oil droplets compared with priming the syringe

157 on is further complicated by the presence of silicone oil droplets in solution.

158 of 60 patients who experienced intravitreal silicone oil droplets in the eye after intravitreal beva

159 ool for monitoring the effects of subvisible silicone oil droplets on the stability of protein formul

160 eneous protein aggregates due to exposure to silicone oil droplets, although oil droplets with surfac

161 emoval revealed RPE cells with intracellular silicone oil droplets, singly dispersed membrane-bound m

162 d protein from adsorbing onto the surface of silicone oil droplets.

163 serum albumin (BSA) aggregate particles and silicone oil emulsion droplets with adsorbed BSA.

164 Flow cytometric analyses revealed that silicone oil emulsions induced the loss of soluble prote

165 was also used to investigate the effects of silicone oil emulsions on the stability of BSA, lysozyme

166 ith pars plana vitrectomy (PPV) and a double silicone oil endotamponade (DSOE) of both heavy silicone

167 Double silicone oil endotamponade is a safe and effective treat

168 vitrectomy for retinal detachment and later silicone oil endotamponade owing to redetachment.

169 e in eyes undergoing vitrectomy surgery with silicone oil for PVR.

170 0 patients requiring vitrectomy surgery with silicone oil for retinal detachment with established PVR

171 difficult to differentiate microdroplets of silicone oil from particles formed by aggregated protein

172 Postoperative complications included silicone oil in a deep anterior chamber (3 eyes in each

173 nor S-nitroso-acetylpenicillamine (SNAP) and silicone oil in commercial medical grade silicone rubber

174 ilure rate between tamponade with gas versus silicone oil in patients with grade B or C-1 PVR.

175 actors, large retinal lesion size and use of silicone oil in retinal detachment repair are potentiall

176 % underwent further RD surgery, and 8.3% had silicone oil in situ at last review.

177 last patient had a pars plana vitrectomy and silicone oil instillation combined with phacoemulsificat

178 Injecting 50 mm KCl or silicone oil into the intercellular spaces also caused s

179 optimum surgery was the injection of liquid silicone oil into the vitreous cavity to dissect fibrous

180 side of the eye; however, drug solubility in silicone oil is poor and release from this hydrophobic d

181 findings underscore that direct contact with silicone oil may affect the behavior of the RPE, which m

182 in protein aggregates and is contaminated by silicone oil microdroplets.

183 ecture and composition to play a role in the silicone oil miscibility of the targeted polymers.

184 The insertion of silicone oil offers the opportunity to also deliver drug

185 f small sample volumes that uses layering of silicone oil on solution surfaces but still allows the u

186 o the vitreous cavity; the direct effects of silicone oil on the RPE are only beginning to be underst

187 The device is equipped to use either silicone oil or coconut oil.

188 t the release of all-trans retinoic from the silicone oil phase was extended to >72days.

189 atogenous retinal detachment (RRD) (n = 17), silicone oil removal (n = 16), dislocated intraocular le

190 retinal proliferations peeled at the time of silicone oil removal revealed RPE cells with intracellul

191 anatomical success (retinal attachment after silicone oil removal) was achieved in 20 (83.3%) eyes at

192 At the time of silicone oil removal, the pigmented membranes were prese

193 t the time of (1) vitrectomy surgery and (2) silicone oil removal.

194 cities (n = 8), endophthalmitis (n = 4), sub-silicone oil retinal detachment (n = 3), retained lens m

195 acoemulsification with IOL implant, PPV with silicone oil tamponade associated with 180 degrees infer

196 All patients subsequently underwent PPV and silicone oil tamponade at our Institution.

197 rectomy, 180 degrees inferior retinotomy and silicone oil tamponade combined with phacoemulsification

198 an intravitreal tamponade, one patient with silicone oil tamponade developed band keratopathy and ph

199 undergone large relaxing retinectomies with silicone oil tamponade for PVR-related retinal detachmen

200 lowing vitrectomy surgery with endolaser and silicone oil tamponade for retinal detachment.

201 Silicone oil tamponade is more frequently reserved for c

202 s undergoing pars plana vitrectomy (PPV) and silicone oil tamponade with or without scleral buckling

203 ternal limiting membrane peeling, and gas or silicone oil tamponade.

204 group required a third vitrectomy with heavy silicone oil tamponade.

205 s humour within the eye and replacement with silicone oil to aid healing of the retina.

206 f TTR105-115 amyloid fibrils in water and in silicone oil to be 2.6 and 8.1 GPa, respectively.

207 cated by formulation components, such as the silicone oil used for the lubrication of prefilled syrin

208 etected in 12 (33.3 %) patients in which the silicone oil was used as an intravitreal tamponade, one

209 of flow cytometry were exploited by staining silicone oil with BODIPY 493/503 and model proteins with

210 speed of a helix in a high-molecular weight silicone oil with predictions for the swimming speed in

211 stable retinal reattachment with removal of silicone oil without additional vitreoretinal surgical i

212 distinguish between buoyant particles (e.g., silicone oil) and dense particles (e.g., protein particl

213 droplet generation (FC-70 Fluorinert oil and silicone oil) were also tested against the different sol

214 of these biologically active compounds into silicone oil, acting as lipophilic binder of glassy carb

215 luoride, 1.8% were with air, 17.9% were with silicone oil, and 10.7% were with cataract surgery.

216 takes place at the triple interface between silicone oil, water, and a penetrating solder-patterned

217 A new silicone oil-based tamponade was developed with a viscos

218 5 mum in the inner diameter) and a rotating, silicone oil-coated Teflon filter substrate at 1 rpm to

219 investigate droplet dynamics in concentrated silicone oil-in-water nanoemulsions using light scatteri

220 oach to cell sheet release surfaces based on silicone oil-infused polydimethylsiloxane.

221 Additionally, as silicone oil-lubricated prefilled syringes become a favo

222 moving droplet in direct contact with heated silicone oil.

223 fluoride (SF6), 2.2% with air, and 0.4% with silicone oil.

224 heavy silicone oil and conventional 'light' silicone oil.

225 d samples, most of the particles were due to silicone oil.

226 with higher cataract risk (if repaired with silicone oil: adjusted hazard ratio [aHR], 10.37; 95% CI

227 in vitro lipid phase and tissue-based lipid-silicone partition coefficients.

228 trations in the silicone, and applying lipid/silicone partition ratios to yield concentrations in lip

229 od agreement with recently published LDPE to silicone partition ratios.

230 Silicone passive samplers and macroinvertebrates were us

231 geners, composed of 2-4 rings, were found in silicone passive samplers and macroinvertebrates.

232 d a novel photo-lithographically fabricated, silicone(PDMS)-based side-view flow chamber to dynamical

233 In two hot asphalt occupational settings, silicone personal samplers sequestered 25 PAHs during 8-

234 ing glass jars with mum thin coatings of the silicone polydimethylsiloxane (PDMS) was validated and a

235 h from chemically dissociated rat tissue and silicone polymer as a proof of concept.

236 en in the characteristic Si-O-Si linkages of silicone polymers is investigated with hybrid density fu

237 d derivatives that more faithfully model the silicone polymers of industrial and environmental import

238 filing an organic reaction, decomposition of silicone polymers, and the desorption of rhodamine B fro

239 ng droplets of common commercially available silicone precursors in suspension followed by surface fu

240 esiveness compared to commercially available silicone products of similar stiffness.

241 trations in fish-implanted and water-exposed silicone provided information on the bioaccumulation for

242 circumvent this artifact, we incorporated a silicone rod as an absorption sink into the PBET to cont

243 The silicone rod provided fast enrichment when applied to th

244 The inclusion of the silicone rod sink (1) increased the extraction capacity

245 The silicone rod was then solvent extracted and the HOCs mea

246 enhance desorption from the matrix, while a silicone rod was used as a dominating sink that continuo

247 for this study include a popular variety of silicones routinely used for space and terrestrial appli

248 ng balloon was then fabricated from 10 mL of silicone RTV catalyst mixed with 1 mL of base and 50 mg

249 oratory-based infinite sink extractions with silicone rubber (SR) as the extractor phase demonstrated

250 f plasticized poly(vinyl chloride) (PVC) and silicone rubber (SR) based calcium-selective membranes w

251 We designed and fabricated implants with silicone rubber and elastic thin-film metallization.

252 However, PDMS, a silicone rubber material, is very hydrophobic and tends

253 y of hollow steel cylinders coated with thin silicone rubber shells.

254 rt a "subtractive" stamping process in which silicone rubber stamps, activated by oxygen plasma, sele

255 and silicone oil in commercial medical grade silicone rubber tubing through a solvent swelling proces

256 partition coefficients of PAHs and PCBs for silicone rubber, a material used in Dutch passive sampli

257 Although this study exclusively focused on silicone rubber, qualitatively the results will also app

258 ased on the obtained data, location-specific silicone rubber-water partition coefficients (Ksr-w; adj

259 d in polyurethane hydrogels and dispersed in silicone rubber.

260 tion to restore the original strength of the silicone sample.

261 umption I can be obviated by equilibrating a silicone sampler with chemicals in sediment, measuring c

262 polyelectrolyte multilayer films built on a silicone sheet and where RGD-grafted polyelectrolytes ar

263 Two inert substrates (polyvinyl chloride and silicone sheets) and three candidate plasma-polymerized

264 Conventional tissue expanders require a silicone shell inflated either by external injections of

265 liquid carbonate cores and highly permeable silicone shells are produced by microfluidic assembly.

266 ers' properties did not significantly affect silicone-silicone partition coefficients.

267 hybridization of organo-silicon structures (silicones, siloxanes, silsesquioxanes) with organic semi

268 12 doses) or a transcervical Foley catheter (silicone, size 18 F with 30 mL balloon).

269 with removal of concretions and tubing with silicone stent for six weeks resolved this chronic infec

270 e interventions (60%) were intubation with a silicone stent with a 54% success rate.

271 There is increasing evidence that silicone stents are of limited benefit, whereas mucosal

272 ere is limited evidence that intubation with silicone stents improves the outcomes.

273 thesis, we observe a contact angle of a soft silicone substrate on rigid silica spheres that depends

274 yer and multilayers of graphene supported on silicone substrates by measuring the deformation of the

275 we show that priming on physiologically soft silicone substrates suppresses fibrogenesis and desensit

276 he indentation of glass particles into soft, silicone substrates using confocal microscopy.

277 obic contaminants through the insertion of a silicone tag into brown trout (Salmo trutta).

278 ated compounds measured in whole fish and in silicone tags of 13 fish.

279 As the ink is made of porous, biocompatible silicone that can be printed directly inside aqueous med

280 polymeric materials (polyurethane, latex and silicone), through entrapment, and subsequently coated o

281 c and polyamide subretinal needles, and soft silicone-tipped instruments, with and without diamond du

282 r matched and cast using scent-free surgical silicone, to which we could add scent.

283 ast, were wrapped in turn on a 6-mm diameter silicone tube and incubated in culture medium for 30 day

284 ify the cut ends of the canaliculus allowing silicone tube intubation of the lacrimal system.

285 n the murine urinary tract when an implanted silicone tube is present.

286 ments are based on (222)Rn diffusion through silicone tube membranes, either wrapped around a pole (M

287 ends of the canaliculus to insertion of the silicone tube was 5 minutes.

288 To activate cardiac nociceptors, a silicone tube was placed in the pericardial sac over the

289 In the absence of the silicone tubing implant, E. faecalis induced only minima

290 i 83972 shows a low efficacy of adherence to silicone urinary catheter material, possibly because the

291 ed, with the most aggressive reaction toward silicone visible in the cocultures.

292 Passive dosing from silicone was applied to tightly control exposure levels

293 electron microscope analysis, diminution in silicone was observed.

294 cation using adult 25-gauge cannulas and 270-silicone watzke sleeves, enabling these instruments to b

295 Coating silicone with these 'hit' materials achieved up to a 30-

296 We used 72 low-cost silicone wristbands as noninvasive passive samplers to a

297 ion for measuring bioavailable exposure with silicone wristbands as personal passive samplers.

298 Silicone wristbands could serve as sensitive passive sam

299 Silicone wristbands have been used as passive air sample

300 Here we investigated the utility of silicone wristbands in measuring exposure and internal d