ライフサイエンスコーパス: screw

1 played progressive bony encapsulation of the screw.

2 site immediately after removing the healing screw.

3 rtex near the mandible angle with a titanium screw.

4 ate residues and folded as a twofold helical screw.

5 o the head of the implant with the retaining screw.

6 ecessive embryonic lethal alleles of dpp and screw.

7 together or held together by a transocclusal screw.

8 e toward the IRE was enabled by a micrometer screw.

9 ithin 1 mm of the apical end of the internal screw.

10 existing "seal" between implant and healing screw.

11 human oral mucosa adjacent to titanium cover screws.

12 retains an impression of the threads of the screws.

13 and implants were held together by abutment screws.

14 to the surface of the tibia with fixed-angle screws.

15 this principle using a simplified molecular screw, a collagen peptide triple-helix composed of eithe

16 Turning the screws actuated the valves by collapsing the PDMS layer

17 ss of performing instrumented (rigid pedicle screws affixed to titanium alloy rods) lumbar spinal fus

18 Translation-libration-screw analysis showed that the inherent anisotropic moti

19 splayed bone changes at the interface of the screw and bone, but not deeper in the peri-implant bone.

20 nalyzed with regard to implant design (solid screw and hollow cylinder), type of restoration (single

21 We propose that both the screw and the M111 dislocations are jointly responsible

22 orientations of highest Peierls stress, the screw and the M111 orientations, both moving by kink mec

23 The use of tenting screws and resorbable membranes with a combination of os

24 d in the animals and held in place with mini screws and sutures for anywhere from 1 to 12 months.

25 d in the animals and held in place with mini screws and sutures for anywhere from 1 to 12 months.

26 and as much foreign material (bone anchors, screws and sutures) as possible should be removed and th

27 prostheses, shoulder prostheses, or pedicle screws) and (68)Ga-labeled prostate-specific membrane an

28 ak von Mises stress (EQV stress) in abutment screw, and the bone-implant relative displacement.

29 in this work by the analysis of fast-moving screw-and-nut-type weevil hip joints.

30 Both BMP ligands, DPP and Screw, are required for nuclear co-SMAD responses during

31 Percutaneous fixation with internal cemented screws as performed by the interventional radiologist is

32 ithin 1 mm of the apical end of the internal screw at T1 and remained in this zone during the second

33 pace groups with mirror image 3-fold helical screw axes P32 and P31 for each motif, respectively.

34 ssembled into continuous helices with 6-fold screw axes that are analogous to helices seen previously

35 fold axis parallel with the crystallographic screw axis along c (needle axis).

36 The 2-fold screw axis of the ligand is mirrored in the orientation

37 es (3-fold symmetry) form chains having a 21 screw axis symmetry, but these chains pair in a manner s

38 in has one-fold symmetry but the pair has 21 screw axis symmetry, in an arrangement that aligns the p

39 ed, half-staggered beta strands related by a screw axis, can be fit in the crystal lattices, but mode

40 ng to a point-group symmetry combined with a screw axis.

41 NPs are arranged in three dimensions about a screw axis.

42 cation, the SD helix moves along its helical screw axis.

43 ubstituted face of xylan in a 2-fold helical screw can hydrogen bond to the hydrophilic surfaces of c

44 divalent cations, P4 is poised to act as a "screw cap" on preQ1 recognition to block ligand exit and

45 e.g., opening different bottles with cork or screw cap), and an abstract level that additionally gene

46 mp loader complex locks onto primed DNA in a screw-cap-like arrangement, provides a simple explanatio

47 Sterile screws or screws colonized with bacteria were placed in the tibia

48 It is suggested that the screw component of an axial dislocation provides the sel

49 mated magnitude of 6 +/- 2 angstroms for the screw component.

50 differences in the mobility of the edge and screw components of the twinning dislocations.

51 ecursor H(2)S and initiate dislocations with screw components that then propagate anisotropically to

52 With the extruder and screw configuration used, extrusion at 40% moisture and

53 Extrusion, at 109 degrees C under expansion screw configuration, further increased the wound-induced

54 109 degrees C and at continuous or expansion screw configurations.

55 nd X-ray analysis indicated that 6b adopts a screw conformation (C2) rather than a crown conformation

56 We show that xylan is mainly in a three-fold screw conformation due to dense arabinosyl substitutions

57 e microfibrils, but reverts to the threefold screw conformation in the cellulose-deficient irx3 mutan

58 The flexibility of the 3-fold screw conformation of xylan in solution is enhanced by t

59 simulation, we found that a twofold helical screw conformation of xylan is stable in interactions wi

60 xylan adopts a flattened ribbon-like twofold screw conformation when bound to cellulose in the cell w

61 the xylan binds to cellulose in the two-fold screw conformation.

62 se and favor the stabilization of the 2-fold screw conformation.

63 lans with 3-fold or distorted 2-fold helical screw conformations, indicative of xylans not closely as

64 lations support the stable binding of 2-fold screw conifer xylan to the hydrophilic face of cellulose

65 Two kinds of implant-screw connection were compared: 1) internal hexagon; and

66 Specifically, the pedicle screw construct can provide excellent curve correction a

67 -colonized screws; n = 26 C. acnes-colonized screws (covering all three main subspecies)].

68 This indicates that Mg-based plate and screw devices may undergo different degradation even whe

69 ng according to the Gertzbein scale, pedicle screw diameters were simulated on the placed Jamshidi ne

70 he Eshelby twist, which is associated with a screw dislocation (a chiral topological defect), can dri

71 that any nanotube can be viewed as having a screw dislocation along the axis.

72 that in iridium, two core structures for the screw dislocation are possible: a glissile planar core a

73 distortion of the interstitial sites at the screw dislocation core creates a very strong but short-r

74 into the properties of a surface-terminated screw dislocation in MgO we provide atomistic insight in

75 n technique, the structure of the 1/2a <100> screw dislocation in nanoporous zeolite A has been model

76 at 1200 degrees C, which comprise hexagonal screw dislocation networks formed by basal dislocation r

77 these spirals are single, i.e., they host a screw dislocation with a Burgers vector connecting neigh

78 By controlling the degree of crystal screw dislocation, a single through pore with diameter r

79 n proceed via a number of mechanisms such as screw dislocation, vapor-liquid-solid process, or seeded

80 The key requirements of screw dislocation-driven nanowire growth are summarized.

81 eates a rich scenario of domain-boundary and screw-dislocation formation.

82 cribing the growth of layered materials with screw-dislocation spirals on non-Euclidean surfaces and

83 ic factors, which allows the choice bet ween screw-dislocation-driven and layer-bylayer growth, and t

84 fered an amount of strain, resulted from the screw-dislocation-driven growth mechanism as well as the

85 ubstrates by molecular beam epitaxy reveal a screw-dislocation-driven growth mechanism.

86 The existence of axial screw dislocations and the associated Eshelby twist in t

87 In the synthesis, axial screw dislocations are first introduced into nanowires g

88 ence lengths and an increase in the edge and screw dislocations are seen as the Al(x)Ga(1-x)N composi

89 and imaged the 3D core structure of edge and screw dislocations at atomic resolution.

90 d concept to the three-dimensional motion of screw dislocations at high strain rates, and suggest a n

91 Using the example of a-type screw dislocations in Mg, we compute accurately the Peie

92 ematic study of the dissociated vacancies at screw dislocations in MgO is carried out.

93 dsorbing on to distinct steps emanating from screw dislocations on COM surfaces.

94 Screw dislocations play an important role in materials'

95 However, imaging the atomic displacements in screw dislocations remains challenging.

96 ioning at theta -> 0 to a hexagonal array of screw dislocations separating large-area 2H domains.

97 e interaction between oxygen and the core of screw dislocations that mainly glide on prismatic planes

98 characteristics of nanowire growth driven by screw dislocations were investigated by synthesizing hie

99 are the consequence of the Eshelby twist of screw dislocations with a dislocation Burgers vector alo

100 daries are replaced by growth spirals around screw dislocations, and that the nature of these spirals

101 s interact weakly with the elastic fields of screw dislocations, it has long been accepted that solut

102 ular, the dissociated nature of vacancies at screw dislocations, or more generally, at a wide range o

103 tions from the conventional end-on view, for screw dislocations, the atoms are predominantly displace

104 arginally effective in materials with mobile screw dislocations.

105 elines for further nanowire growth driven by screw dislocations.

106 enerated by two-dimensional nucleation or by screw dislocations.

107 d have a strong propensity for forming axial screw dislocations.

108 hysical properties of WSe2 are influenced by screw dislocations.

109 that nanotube growth can be driven by axial screw dislocations: Self-perpetuating growth spirals ena

110 l growth of spiral-type nanosheets driven by screw-dislocations.

111 n efficacy was defined as the absence of any screw dislodgement or development of a pathologic fractu

112 on (n = 1), tumor track seeding (n = 1), and screw displacement (n = 2).

113 l to the dislocation line, and therefore the screw displacements are parallel to the electron beam an

114 Here we show that screw displacements can be imaged directly with the disl

115 islocation in GaN allows direct imaging of a screw dissociation with a 1.65-nm dissociation distance,

116 the temporal response of the device, using a screw-driven push-pull peristaltic micropump to robustly

117 ") BaO lattice, which comprises a network of screw-edge dislocations.

118 orary MCA occlusion EEG was monitored from a screw electrode and changes in cerebral blood flow (rCBF

119 ignals, the so-called tornillo (Spanish for "screw") events are considered to belong to a unique clas

120 On SEM analysis, the surface of the screws exhibited depressions and irregularities.

121 tinuous synthesis of COFs by means of a twin screw extruder and in situ processes of COFs into differ

122 Extrusion was done using a single-screw extruder at two temperature regimes: 135/170/170 d

123 The pomace was processed in a single-screw extruder at various barrel temperatures (X1; 115-1

124 A new method involving concurrent single screw extruder combined with continuous headspace dynami

125 on, flour samples were extracted from a twin-screw extruder that had been brought to a sudden stop an

126 sion-cooking process (Brabender 10 DN single-screw extruder with a 3:1 compression ratio).

127 lour was extruded through a co-rotating twin-screw extruder with constant barrel temperature.

128 The extrusion was performed using a twin screw extruder with constant feed moisture and screw spe

129 isotactic polypropylene (iPP) within a twin-screw extruder.

130 ides and perylene diimides (PDIs) using twin-screw extrusion (TSE) is reported.

131 ion in all patients despite one translaminar screw failure.

132 m percutaneous fixation by internal cemented screw (FICS).

133 percutaneous fixation with internal cemented screws (FICS) for impending pathologic fractures of the

134 T- and fluoroscopy-guided percutaneous facet screw fixation is a rapid, safe, and effective method.

135 ively treated by means of percutaneous facet screw fixation with CT and fluoroscopic guidance.

136 maging studies in mice to include a turnable screw for controlled compression (acute or chronic) and

137 found between the hinge and the distraction screw for the group without barrier membrane at 2 weeks

138 ofol anesthesia, included placement of skull screws for bilateral EEG monitoring, skull shaving for l

139 Simulated pedicle screw grading resulted in a clinical accuracy of 100%.

140 The valves consist of small machine screws (> or =500 microm) embedded in a layer of polyure

141 hypothesis that the microgap of the implant-screw healing junction could cause differences in bacter

142 High predictability with titanium screw implants can be expected under certain circumstanc

143 d non-submerged hollow cylindrical and solid-screw implants for 5 years after loading.

144 ty of xylan, which forms a threefold helical screw in solution, flattens into a twofold helical screw

145 leading to the formation of a unidirectional screw in the bisporphyrin moiety that allowed us an accu

146 lyurethane is cured photochemically with the screws in place; on curing, it bonds to the surrounding

147 in groups A, B, and C or non-welded (2-piece screwed) in D, E, and F.

148 Of these 14, permanent DHBP using a fixed screw-in lead was successful in 12 patients.

149 programmed HB pacing was delivered from the screwed-in HB pacing lead.

150 ement may undergo spinal fusion with pedicle screw instrumentation.

151 g capability of dental implants with healing screw interfaces.

152 ologic pelvis fractures by internal cemented screw is a safe and effective approach that can reduce p

153 n tissue over several weeks or months as the screw is progressively extended against the brain tissue

154 r the safe and accurate placement of pedicle screws is the palpable difference between the cortical a

155 ., restoration emergence angle, and internal screw length/diameter) on the marginal bone loss around

156 fashion and enables the cell to escape by a screw-like backward motion.

157 couples to thermodynamic chirality to propel screw-like droplet motion.

158 In the center of the monomer, the two screw-like pathways have a left-handed twist, undergoing

159 0% and 2 patients required a second surgery (screw malposition and epidural hematoma).

160 g to previously established methods, and the screw mechanism can be readily manufactured in-house.

161 ransition conformations based on the helical screw mechanism for the transition from the open to the

162 seen in the mucosa in contact with the cover screws might be associated with the presence of titanium

163 predictions from the translation, libration, screw model and a liquid-like dynamics model.

164 otein secretion, and supports the Archimedes screw model for the type 2 secretion mechanism.

165 in the original "sliding helix" or "helical screw" models coupled with a rolling motion of the S1-S3

166 72-152 and 204-258) has been described as a screw motion composed of a rotation by 140 degrees and a

167 A helical screw motion for the alpha-helical part of S4 and a simp

168 nstraints require a right-handed 220 degrees screw motion of the N-terminal rigid body rather than th

169 ding to the active site triggers a clockwise screw motion, producing torque on the RNA.

170 er than the proposed 140 degrees left-handed screw motion.

171 imit of a continuous one-parameter family of screw-motion invariant minimal surfaces, also asymptotic

172 erile screws; n = 6 S. epidermidis-colonized screws; n = 26 C. acnes-colonized screws (covering all t

173 tibia of 38 adult Wistar rats [n = 6 sterile screws; n = 6 S. epidermidis-colonized screws; n = 26 C.

174 D) coronary artery in dogs was produced by a screw occluder.

175 ra-implant oral mucosa adjacent to the cover screw of submerged dental implants were analyzed.

176 omprises two interleaved hydrophobic helical screws of interacting cross-sectional a and d layers tha

177 etry comprises three interleaved hydrophobic screws of interacting helices linked by short turns that

178 Abutments were screwed onto the implants, and the units were subsequent

179 Solid-screw or hollow-cylinder implants with a titanium plasma

180 Sterile screws or screws colonized with bacteria were placed in

181 separations range from ~3.5-4.5 nm near the screw orientation to ~5-8 nm near the edge, yielding a s

182 The ARSN system was used for planning screw paths and directing the robot.

183 ptional targets of the early Decapentaplegic/Screw patterning gradient, to establish a competency zon

184 Spinal fixation in the form of pedicle screw placement is a common form of instrumentation meth

185 a semi-automated surgical robot for pedicle screw placement provides an accuracy well above what is

186 e neural elements of the spinal canal during screw placement provides manual feedback to the surgeon,

187 semi-automated, minimally invasive, pedicle screw placement.

188 ul controlled injection, but coupling of the screw plunger with interchangeable disposable standard s

189 During percutaneous vertebroplasty, a screw-plunger syringe provides a powerful controlled inj

190 and characterize a new family of resorbable screws prepared from silk fibroin for craniofacial fract

191 The screw profile and moisture feed content had the most sig

192 to the dipole moment of the enantiomers and screw propels them in opposite directions.

193 ters with a wirelessly controlled Archimedes screw pumping mechanism are engineered.

194 to three implants restored with cemented or screwed restorations and 5 years of follow-up were recru

195 Implants were restored using a one-piece, screw-retained ceramic crown at 3 months.

196 e and immediately functionally loaded with a screw-retained definitive prosthesis.

197 d group and 22 patients (46 implants) in the screw-retained group.

198 P. micra and Fusobacterium nucleatum for the screw-retained group.

199 high prevalence of bacterial penetration of screw-retained implant-abutment assemblies.

200 orse taper internal connection and 14 with a screw-retained internal hexagon abutment.

201 quent at peri-implant sulci of cemented than screw-retained prostheses.

202 rs, i.e., platform switching design, cement-/screw-retained restoration, and flapped/flapless surgica

203 nd peri-implant mucositis for cement- versus screw-retained restorations were 1.43 (0.45, 4.60) and 0

204 tween retention type (cement-retained versus screw-retained restorations) and prevalence of peri-impl

205 ayed loaded and were fixed with non-splinted screw-retained restorations.

206 omized into group A, restored with a 1-piece screw-retained single crown made of a prefabricated zirc

207 logically contaminated for both cemented and screw-retained superstructures.

208 in solution, flattens into a twofold helical screw ribbon to bind intimately to cellulose microfibril

209 of motion types such as hinge, shear, twist, screw, rotameric side chains, normal modes and essential

210 We use screw rotation analysis to carry out a quantitative pair

211 cating two distinct positions with different screw rotation angles in the membrane, along with an inc

212 n of approximately 2.1-2.5 nm, and a twofold screw rotation, which combines these two motions.

213 ifferent directions as defined by rigid-body screw rotation.

214 decapentaplegic (Dpp) a BMP2/4 ortholog and screw (Scw) a BMP5/6/7/8 family member.

215 ophila orthologs Glass Bottom Boat (Gbb) and Screw (Scw) and human BMP7.

216 odimer of the BMPs Decapentaplegic (Dpp) and Screw (Scw) in a protein shuttling complex.

217 imilar to that described for dpp and the BMP screw (scw) in the embryo, we show that the mechanisms u

218 tein (BMP) family, Decapentaplegic (Dpp) and Screw (Scw), are broadly transcribed but promote recepto

219 rm embryo requires Decapentaplegic (Dpp) and Screw (Scw), two BMP family members.

220 nt the activity of Decapentaplegic (Dpp) and Screw (Scw), two members of the Bmp subgroup of the Tgf

221 BMP family members Decapentaplegic (DPP) and Screw (SCW).

222 ificant anisotropy in mobilities of edge and screw segments.

223 Helical polymers with switchable screw sense are versatile frameworks for chiral function

224 Conformational control over the screw sense of a helical 17-mer of achiral amino acids,

225 ces complete conformational control over the screw sense of an otherwise achiral helical peptide fold

226 c of the solvent shell restored the original screw sense of the parent molecule, thus establishing th

227 cate a conformational preference, inducing a screw sense preference in the achiral domain of the male

228 Evidence for the induced screw sense preference is provided by NMR and CD, and al

229 s noncovalent interaction, a global absolute screw sense preference, detectable by (13)C NMR, is indu

230 elation was established between the absolute screw sense, either (P)- or (M)-, of this helical foldin

231 The similarities in screw sense, pitch, and polarity between peptide alpha-h

232 erminus of the oligomer induce a left-handed screw sense, while quaternary L-amino acids induce a rig

233 aternary L-amino acids induce a right-handed screw sense.

234 omers of both families induce a right-handed screw sense.

235 rmations, the equally populated enantiomeric screw-sense conformers of which are in slow exchange on

236 Screw-sense inversion in these helical foldamers is coup

237 ange on the NMR timescale, with a barrier to screw-sense inversion of about 70 kJ mol(-1) .

238 hich a strong preference for a single-handed screw-sense is communicated.

239 Aib adopt helical conformations in which the screw-sense may be controlled by a single N-terminal res

240 ads to the conclusion that maximal levels of screw-sense preference are induced by bulky chiral terti

241 and to the N-terminal binding site induces a screw-sense preference in a helical oligo(aminoisobutyri

242 minus of the peptide leads to induction of a screw-sense preference in the helical chain, which may b

243 A screw-sense preference may also be induced from the seco

244 A screw-sense preference may furthermore be induced in the

245 The persistent right-handed screw-sense preference of the helix enables remote react

246 a helical oligomer, interconverting M and P screw-sense preference.

247 lectively protected termini display moderate screw-sense preferences.

248 magnetic fields in under-dense plasma using screw-shaped high intensity laser pulses.

249 Seventy-two custom-made, screw-shaped, commercially pure titanium implants (3.25

250 At low screw speed (150 rpm), significantly (p < 0.05) higher a

251 mperature (100, 120, and 140 degrees C), and screw speed (80 and 160 rpm) were varied to examine thei

252 barrel temperature (BT: 60-80 degrees C), screw speed (SS: 200-300 rpm), moisture content (MC: 10-

253 /100g), feeding rate (q=15, 20, 25kg/h), and screw speed (v=300, 390, 480rpm), on reduction rate of t

254 s (temperature, roasting, use of whole nuts, screw speed and nozzle diameter), and compare it with th

255 xtrusion at different barrel temperature and screw speed on the hempseed hull was investigated.

256 used, extrusion at 40% moisture and 300 rpm screw speed retained carotenoid maximally at more than 8

257 Doubling the screw speed when processing a 10% MPT formulation does n

258 ture, 129 degrees C; feed moisture, 15%; and screw speed, 299 rpm.

259 g variables (feed moisture, FM, 20% and 50%; screw speed, SS, 200 and 400rpm) and storing of the extr

260 rew extruder with constant feed moisture and screw speed.

261 s C), feed moistures (X2; 10-18 g/100g), and screw speeds (X3; 230-350 rpm).

262 long-term results after fusion using pedicle screw stabilization, a relatively new technique for whic

263 healthy implants restored with cemented and screwed superstructures.

264 contains two protofilaments intertwined with screw symmetry and linked by a tightly packed hydrophobi

265 Peptide 3FD-IL displays 3-fold screw symmetry in a helical conformation and self-assemb

266 shear strain in the Te film that breaks the screw symmetry of the crystal.

267 long the needle axis according to the 3-fold screw symmetry.

268 formed by three step-motor-driven micrometer screws that allow adjustment of the electrode orientatio

269 per nanowires (PdCu NWs) with random-gapped, screw-threaded, and spiral shapes achieved by wet-chemic

270 ot bore its way through the mucus gel like a screw through a cork as has previously been suggested, b

271 isorder is provided by translation-libration-screw (TLS) analysis and multiconformer models of protei

272 ADP/GroES bound, using translation-libration-screw (TLS) analysis.

273 f the crystallographic translation libration screw (TLS) model are used to calculate mean square fluc

274 an underlying overall translation-libration-screw (TLS) model.

275 ibosome dynamics using translation-libration-screw (TLS) refinement against experimental X-ray diffra

276 obility derived from translation, libration, screw (TLS) refinement, and with a composite of slowest

277 ta, cryo-cooling and translation, libration, screw (TLS) refinement.

278 refinement, we tested translation-libration-screw (TLS), liquid-like motions (LLM), and coarse-grain

279 xylan backbone to fold as a twofold helical screw to facilitate alignment along, and stable interact

280 = 24) or B (healing abutment used as tenting screw to sustain the soft tissues, n = 23), soft tissue

281 In vivo assessment in rat femurs shows the screws to be self-tapping, remain fixed in the bone for

282 ot arm autonomously aligned with the planned screw trajectory, and the surgeon inserted the Jamshidi

283 The implants presented a screwed trilobed connection (group 1), a cemented connec

284 The screw-type flagellar arrangement enables a unique mode o

285 Two similarly designed, screw-type, commercially pure titanium implants, one dua

286 Implants were titanium self-tapping screw-type.

287 ts with chronic periodontitis comprising 164 screw-typed implants with peri-implantitis were included

288 ith chronic periodontitis and a total of 164 screw-typed implants with peri-implantitis were included

289 the membrane, membrane fixation, and tenting screw use were assessed.

290 site of placement, smoking, bone type, arch, screw versus press-fit, diameter, length, manufacturer,

291 The surface of the cover screws was evaluated by scanning electron microscopy (SE

292 All rats receiving sterile screws were culture-negative at euthanasia and displayed

293 ats inoculated with S. epidermidis-colonized screws were culture-positive and displayed minor changes

294 Two 4.0-mm cannulated screws were placed per level to fix facet joints by usin

295 le (n = 182) and translaminar facet (n = 56) screws were successfully placed in one attempt.

296 Laboratory screws were used to attach the denture with gold cylinde

297 dominated by interactions between three-fold screw xylan and amorphous cellulose.

298 This suggests that 2-fold screw xylan binds hydrophilic faces of cellulose in eudi

299 emical shifts, shows both two- and threefold screw xylan conformations are present in fresh Arabidops

300 The twofold screw xylan is spatially close to cellulose, and has sim