ライフサイエンスコーパス: filler

1 for grade 4 FLA (1 mL equals 1 syringe of HA filler).

2 ng pore size and porosity of the MOF used as filler.

3 containing 9.09, 23.08, or 33.33 mass% CaF2 filler.

4 y more uses than simply scaffolding or space filler.

5 nt option is cosmetic surgery with synthetic fillers.

6 operons, transport systems and pathway-hole fillers.

7 m in the resin for substantial reinforcement fillers.

8 operons, transport systems, and pathway hole-fillers.

9 .51) or barium (refractive index 1.53) glass fillers.

10 o include predicted operons and pathway hole fillers.

11 were partially adherent, and 19% were excess fillers.

12 rtially adherent and were highest for excess fillers.

13 n additional innocuous particles are used as fillers.

14 (3) insulating polymers, and (4) conductive fillers.

15 r than what could be achieved with fullerene fillers.

16 enhanced flexibility versus zero-dimensional fillers.

17 operons, transport systems, and pathway-hole fillers.

18 the injection of neuromodulators and dermal fillers.

19 in-based systems containing no ion-releasing fillers.

20 (89%) provided training with hyaluronic acid fillers.

21 operons, transport systems and pathway-hole fillers.

22 Total costs for excess fillers (14,044 US dollars) were substantially higher th

23 A single treatment of hyaluronic acid (HA) filler, 20 mg/mL, may provide an immediate, natural-appe

24 s, with botulinum toxin (30 of 32 [94%]) and fillers (27 of 32 [84%]) most prevalent and with vascula

25 RECENT FINDINGS: When a filler agent is chosen, the aim is to provide some lift,

26 rs provide an objective parameter of how the filler agent will perform in a specific area.

27 or concurrently, botulinum toxin and dermal filler agents offer an affordable, minimally invasive ap

28 d and midface restoration/rejuvenation using filler agents.

29 All dermal fillers aim to achieve the same goal: long-lasting soft-

30 Sufficient mobility from these fillers allows the process to happen at a low temperatur

31 lyimide (PI)-modified aluminum nitride (AlN) fillers, AlN@PI.

32 se with wheat starch being the discontinuous filler, an outcome that is explored in the in vitro stud

33 t is useful in building and agriculture as a filler and insulating agent.

34 These particles are hybrids of filler and nanoscale additives because their lengths are

35 atically studied using CaCu3Ti4O12 (CCTO) as filler and P(VDF-TrFE) 55/45 mol.% copolymer as the matr

36 By designing the inorganic filler and polymer matrix, which are both relaxor ferroe

37 s that both the orientation of the nanoscale filler and the orientation of X-type covalent bonds at t

38 esin matrix and/or the interface between the filler and the resin matrix.

39 using a reduced scoring threshold to provide fillers and extensions between highly significant segmen

40 cts of (left) anterior negativity between wh-fillers and gaps in English and German, but with a right

41 including drug-delivery systems, bone-graft fillers and medical devices.

42 dense packing of multiwalled carbon nanotube fillers and report strong viscoelastic behaviour with up

43 oiting both the high permittivity of ceramic fillers and the high breakdown strength of the polymer m

44 hanging the initiation system, monomers, and fillers and their coupling agents, and by developing nov

45 ves the thermal and dielectric properties of fillers and these can be used extensively for electronic

46 enhancement using facial neuromodulators and fillers and to present advanced techniques using facial

47 ncreases with the volume content of metallic filler, and anisotropy increases with alignment.

48 extractable monomer, reduced adhesion to the filler, and the potential for increased swelling.

49 he material investigated contained 23 wt% of filler, and the ratios of calcium fluoride to chlorhexid

50 Bio-Alcamid has many advantages over other fillers, and has become widely used.

51 ion, or with specific alignment (the way the fillers are arranged in the matrix).

52 These fillers are composed of core-shell structures that exhib

53 Nanoparticle fillers are highly attractive for this purpose, because

54 Nanoscale carbon-based fillers are known to significantly alter the mechanical

55 Nonpermanent or semi-permanent fillers are most widely accepted by physicians mainly be

56 Cosmetic facial fillers are not approved for use in the forehead, but of

57 These fillers are used for electronic encapsulation in high pe

58 ds are usually non-specific, acting as space-fillers at the protein-DNA interface.

59 conductivity associated with the addition of filler atoms into the void site.

60 tational optimization of the interfacial and filler bonds arising from its three-dimensional branched

61 as well as allografts may serve as biologic fillers, but do not apparently contribute to osteoinduct

62 e currently available, mainly as bone defect fillers, but it is still required a versatile processing

63 with amorphous calcium phosphate (ACP) as a filler can release supersaturating levels of calcium and

64 erials with different biotemplates/hosts and fillers can achieve even higher anisotropic ratios, allo

65 Botulinum toxin and dermal fillers can be used to diminish facial rhytides, restore

66 Dermal injection of cosmetic fillers can lead to irreversible blindness when injected

67 Soft-tissue augmentation with dermal fillers can successfully address these signs of aging by

68 s the interaction between storage medium and filler, cast doubt on the clinical relevance of in vitro

69 ly by weekly addition of irradiated, splenic filler cells and IL-2, with or without E.G7-OVA.

70 th methacrylate monomers and silanized glass fillers (CHX or CHX@MSN + glass filler particle = 70 wt%

71 Rubber-filler composites are a key component in the manufacture

72 r aim was to determine how matrix selection, filler composition, and filler silanization affect fille

73 of variance revealed that storage solution, filler composition, and total time in the storage soluti

74 By systematically varying filler concentration, morphology, and size, we identify

75 The filler concentrations were 9.1, 23.1, or 33.3 wt%, and t

76 ene) nanocomposites reinforced by nanocarbon fillers consisting of graphene flakes and fullerenes.

77 mechanical properties of particle- or fiber-filler-containing indirect dental resin composite materi

78 s containing CaF2 particles as a function of filler content and pH.

79 Increasing the filler content from 9.09 to 33.33 mass% increased the fl

80 rticle-deposited boron nitride nanosheets as fillers could effectively enhance the thermal conductivi

81 Injection of dermal filler, cross-linked hyaluronic acid, into the skin of i

82 cturers' information are included for dermal fillers currently approved for use by the US Food and Dr

83 e and tendon, aspiration biopsies and dermal fillers (DF).

84 r target sequences, although the addition of filler DNA and small duplications or deletions of genomi

85 ions displayed microhomologies and contained filler DNA from nearby sequences, suggesting an origin b

86 flanked by the same sequences that flank the filler DNA in the deletion.

87 repeats flanking the deletion junctions and filler DNA in the donor Ac.

88 pproximately half of the Ds elements contain filler DNA inserted at the deletion junction that is der

89 In the remaining two, extra sequences or filler DNA is inserted at the junction.

90 Filler DNA was found at some of the junctions.

91 , non-homologous exogenous DNA (also termed 'filler DNA') can be incorporated at the site of a DSB.

92 hromosomal duplications and the insertion of filler DNA.

93 nts of the delivered DNA flanked by genomic (filler) DNA that did not originate from the integration

94 plants, the recombination products contained filler-DNA or an inversion of an endogenous segment.

95 The filler DNAs are identical to sequences found close to th

96 Short filler DNAs were also present in several junctions.

97 Filler silanization was followed by a filler drying at 60 degrees C for 24 h.

98 en two apposed bilayers and as a lipid "hole-filler," effectively preventing defect holes from develo

99 hange occurring at the filler surfaces, more filler elements leach from composites stored in a salt s

100 Though dental composite materials leach filler elements when stored in distilled water, it is no

101 To evaluate the safety and efficacy of an HA filler for treatment of HIV-associated FLA during a 12-m

102 ety and efficacy and supports use of this HA filler for treatment of HIV-associated FLA with durable

103 safety, efficacy, and durability of this HA filler for treatment of HIV-associated FLA.

104 years, the use of botulinum toxin and dermal fillers for aesthetic purposes has risen sharply.

105 rafast saturable absorbers to gas sensors to fillers for composite reinforcement.

106 When used as the fillers for isotropically electrically conductive compos

107 rder and chain upturns, thus they may act as fillers for the pore.

108 The hybrid filler formulations reported herein resulted in a synerg

109 epsins (CTPs) subsequent to application of a filler-free (Res.A) or an ion-releasing resin (Res.B) to

110 O4 (10%) and placed in direct contact with a filler-free (RESIN) or 2 experimental ion-releasing resi

111 neralized dentin specimens in contact with a filler-free or 2 ion-releasing resins containing microme

112 ations of these minor alkaloid levels in the filler from 50 popular cigarette brands were found to be

113 A whisker composite with 74% fillers had a wear depth of 77.7 +/- 6.9 mum, less than

114 Neuromodulators and hyaluronic acid gel fillers have been shown to be well tolerated and efficac

115 Poly-L-lactic acid and dermal fillers have potential therapeutic applications in child

116 14 MPa.m(1/2) for whisker composite with 74% fillers, higher than 1.13 +/- 0.19 MPa.m(1/2) for a pros

117 d as a carrier of an active compound or as a filler in bioplastics.

118 infection in the presence of polyacrylamide filler in cosmetic surgery, possibly due to a biofilm mo

119 ctive glass incorporated as micrometer-sized filler in dental composites may offer greater beneficial

120 e and pozzolans in cements and concretes, as filler in paper, in the take-up of Cs and Sr from nuclea

121 lications associated with Bio-Alcamid facial filler in patients with HIV-related facial lipoatrophy (

122 s of central retinal artery occlusion due to fillers in 3 patients shortly after their cosmetic proce

123 One promising use of carbon nanotubes is as fillers in a composite material to improve mechanical be

124 The composite with 75% fillers in a NaCl solution (133 mmol/L, pH = 7.4, 37 deg

125 f nanotubes, particularly inorganic ones, as fillers in composite materials makes it essential to und

126 Polymer modified fillers in composites has attracted the attention of num

127 The glass fillers in composites provide only limited reinforcement

128 were detected in the presence of binders and fillers in intact formulations using LEMS.

129 xchange materials, fire retardants, and nano-fillers in polymer nanocomposites.

130 Magainin monomers play the role of fillers in the expansion region thereby stabilizing the

131 terials, as well as their use as nanocluster fillers, in nanocomposites, mouthwashes, medicines, and

132 been no prior reports of blindness caused by filler injected into the forehead.

133 Filler injection for face augmentation is a common cosme

134 old women received a Calcium Hydroxylapatite filler injection to her nose bridge for the correction o

135 ery emboli following Calcium Hydroxylapatite filler injection to the nose bridge.

136 tituted by aluminum, (ii) neutral amine pore fillers instead of rigid and large quaternary amine SDAs

137 our observations in human skin, injection of filler into dermal equivalent cultures causes elongation

138 ynthesis and separation of high-aspect-ratio fillers is challenging, stiffness increases with the vol

139 nofillers with stable and strong reinforcing fillers is promising to yield a nanocomposite with both

140 useful screening tool to assess addition of filler juices and water to pomegranate juices.

141 al mixtures at different levels of water and filler juices.

142 composition, and filler silanization affect filler leachability of composites after storage in the s

143 It was further hypothesized that whisker filler level and heat-cure temperature and time signific

144 combat dental caries, and to investigate the filler level effects.

145 The whisker composite with 70% filler level had a flexural strength in MPa (mean +/- SD

146 Filler level had a significant effect on composite prope

147 es, and to investigate the effect of whisker filler level on composite properties.

148 properties of composite resins; the whisker filler level plays a key role in determining composite p

149 positional factors including degree of cure, filler level, and silanation directly affected the wear

150 ompositional factors such as degree of cure, filler level, and silanation level should be optimized.

151 st increased, then plateaued with increasing filler level.

152 us and hardness increased monotonically with filler level.

153 gree of conversion decreased with increasing filler level.

154 P) were incorporated into PE and PEHB at 40% filler level.

155 Greater wear was correlated with lower filler levels (r2 = 0.88; p < 0.05), significantly incre

156 PO(4), and F release can be achieved at low filler levels in the resin, because of the high surface

157 nanoparticles produced high F release at low filler levels, thereby making room in resin for reinforc

158 The higher level of filler loading reduced the degree of polymerization, lea

159 are complex and can be tuned via changes in filler loading, that is, the character of polymer bridge

160 At 40 wt% of filler loading, the highest thermal conductivity of AlN@

161 The whisker composite with a filler mass fraction of 55% had a flexural strength (mea

162 The whisker filler mass fraction was varied from 0% to 79%, the heat

163 rsion were measured as a function of whisker filler mass fraction, which ranged from 0% to 70%.

164 nitride whiskers at a 1:1 ratio were used at filler mass fractions of 0-75%.

165 ngineering, and also as protein mimics and a filler material for nanocomposites.

166 bone mineral (BBM) is extensively used as a filler material in periodontal reconstructive surgery of

167 he composites are fabricated from an organic filler material possessing very high dielectric constant

168 e been combined with the assumption that the filler material will help maintain the space necessary f

169 Given the wide variety of filler materials available, clinicians and surgeons must

170 ron microscopy was used to investigate three filler materials for packing fungus biofilm.

171 om which the films were cast was varied, and filler materials such as hydrophobic, amorphous silica o

172 g and densification of polymer chains at the filler-matrix interface, thereby providing insights into

173 hereas a higher viscosity filler or a harder filler may be better indicated for structure and support

174 etic enhancement procedures involving facial fillers need to be aware of this potential complication

175 Simulations of filler network formation using attractive, repulsive and

176 on the bulk mechanical properties and of the filler network structure (both imaging and by simulation

177 substantially improved by reinforcement with fillers of ceramic whiskers fused with silica glass part

178 is proposed to quickly screening some common fillers of pomegranate juice that could decrease the ant

179 y being used for commercial purposes such as fillers, opacifiers, catalysts, semiconductors, cosmetic

180 o their use in catalyst, adsorption, polymer filler, optical devices, bio-imaging, drug delivery, and

181 ness is required, whereas a higher viscosity filler or a harder filler may be better indicated for st

182 se nanocomposites with either combination of fillers or polymer matrix help in further improving the

183 GDMA (5:3:2, with 25 wt% silanated inorganic fillers) or to one commercial composite cement (Relyx Ul

184 anized glass fillers (CHX or CHX@MSN + glass filler particle = 70 wt%).

185 tly does not exist any work directly linking filler particle spacing and mechanical properties.

186 It was shown that the smallest studied filler particles (500 nm) have the potential to aid the

187 in the linear elasticity) by the addition of filler particles is phenomenologically understood, consi

188 Filler particles of various sizes were added at differen

189 The presence of the filler particles resulted in electric field distortions

190 Either silica or barium glass filler particles were incorporated into these matrices.

191 likely arises from interactions between the filler particles, mediated by the rubber matrix.

192 tive to the orientation of high aspect ratio filler particles.

193 nipple, areola, or flap; malfunction of the filler port of a tissue expander; and wound dehiscence.

194 predicted operons and predicted pathway hole fillers-predictions of which enzymes may catalyze pathwa

195 Each dermal filler preparation available for patient use has unique

196 re also observed, presumably from zinc oxide fillers present in the stoppers.

197 The filler presumably enters the central retinal artery via

198 rocedures, including energy, neurotoxin, and filler procedures, are safe when performed by experience

199 The filler provides mechanical reinforcement and additional

200 Optimizing filler/resin refractive index mismatch provides increase

201 ure depths related to monomer reactivity and filler/resin refractive index mismatch with significant

202 pth are influenced by monomer reactivity and filler/resin refractive index mismatch.

203 conducting linkages eliminates the need for fillers, resulting in a material which achieves 99.9% ac

204 on the fiber surfaces enhancing the ceramic filler's interconnection, which may be the reason for th

205 t the breakpoint was contiguous with a 35 bp filler sequence followed by a satellite III DNA-containi

206 binary vector sequences, and other unknown "filler" sequences.

207 modulus of such composites as a function of filler shape.

208 ow matrix selection, filler composition, and filler silanization affect filler leachability of compos

209 Filler silanization was followed by a filler drying at 6

210 surimi were kept constant by adding an inert filler, silicon dioxide in inverse concentrations to the

211 +/- 39) at 0% fillers to (114 +/- 23) at 75% fillers, similar to (112 +/- 22) of a non-releasing comp

212 A new tobacco filler Standard Reference Material (SRM) has been issued

213 mer matrix is blended with nanoparticles (or fillers)-strengthen under sufficiently large strains.

214 Then, nanocomposites of conductive fillers such as carbon nanotubes, graphene and inorganic

215 The tests can detect binders and fillers such as chalk, talc, and starch not revealed by

216 olatile solutions having carbon materials as fillers such as graphene oxide (GO), carbon nanotubes (C

217 ith decreasing interparticle spacing for two filler surface treatments are quantitatively equivalent

218 as that due to ion exchange occurring at the filler surfaces, more filler elements leach from composi

219 most of the development concentrating on the filler technology.

220 her improvements have been achieved by using fillers (the conductive component) with increased aspect

221 lymer films that do not contain carbon black filler to relate the QCM frequency change and the ellips

222 er composites ranged from (106 +/- 39) at 0% fillers to (114 +/- 23) at 75% fillers, similar to (112

223 s relies on adding high thermal-conductivity fillers to improve the thermal-diffusion-based charging

224 ental sizes (~0.1-1 mum), we expect graphene fillers to provide substantial reinforcement, which also

225 o use ceramic single-crystalline whiskers as fillers to reinforce composites, and to investigate the

226 A novel filler transition route was introduced (Ti6Al4V --> V --

227 In series III (D, J-M), the portion of fillers treated with a silane coupler (MPS) was 100, 80,

228 which describes ideal behavior of flake-like fillers uniformly imbedded in a polymer.

229 ogy of long-lasting adverse reactions to gel fillers used in cosmetic surgery is not known.

230 ugh an addition of high thermally conductive fillers usually cannot provide an expected value, especi

231 enrichment of low-abundance yeast cells when filler volume fractions approximately 1 x 10(-5) v/v are

232 t% group, due to the dilution of the overall filler volume, which also led to decreased stress.

233 precise coating thickness or the presence of fillers was identified as the source of error for partit

234 ed linearly as the percent of silane-treated fillers was reduced (r2 = 0.99; p < 0.05).

235 Through addition of fiber-based fillers, we demonstrate printing of electrically conduct

236 Fillers were mixed (70 wt%) with 4 bisphenol-A diglycidy

237 d of SU-8 polymer added with graphite carbon filler which enables patterning of conductive thin films

238 Fillers with different shapes have been found to cause s

239 fective pathway that modifies the surface of fillers with polymer coating.

240 osite contained NACP and reinforcement glass fillers, with QADM in the resin.

241 copolymers can accommodate a high loading of fillers without a significant loss of mechanical strengt

242 othesis that combining nano-CaF(2) and glass fillers would yield nanocomposites with high mechanical