ライフサイエンスコーパス: freedom

1 y of molecular complexity and conformational freedom.

2 ccording to only three structural degrees of freedom.

3 gid bodies and rotatable bonds as degrees of freedom.

4 that naturally entangle multiple degrees of freedom.

5 erplay between charge and lattice degrees of freedom.

6 ltaneous monitoring of additional degrees of freedom.

7 ing of electronic and vibrational degrees of freedom.

8 tests required movements along 3 degrees of freedom.

9 in-orbit coupling and spin-valley degrees of freedom.

10 d to the membrane's compositional degrees of freedom.

11 frequency at the first follow-up or seizure freedom.

12 ssess coupling of spin and valley degrees of freedom.

13 tion and orbital angular momentum degrees of freedom.

14 gery was an independent predictor of seizure freedom.

15 ium counterparts with identical 5 degrees of freedom.

16 (0.70-0.71) for predicting long-term seizure freedom.

17 erial properties through external degrees of freedom.

18 es of Mn(3+) and Mn(4+) and charge degree of freedom.

19 stration between spin and orbital degrees of freedom.

20 subsequently determined the proper degree of freedom.

21 , i.e. has only a small number of degrees of freedom.

22 tructure, electronic and magnetic degrees of freedom.

23 epileptic drugs to achieve sustained seizure freedom.

24 s to increase the catalytic site vibrational freedom.

25 een the electronic and structural degrees of freedom.

26 arge number of quantum-mechanical degrees of freedom.

27 between multiple internal quantum degrees of freedom.

28 the translational and rotational degrees of freedom.

29 terplay between spin and motional degrees of freedom.

30 tromagnetic, mechanical, and spin degrees of freedom.

31 a consistent definition of long-term seizure freedom.

32 etween the lattice and electronic degrees of freedom.

33 omena, anharmonicity, and the spin degree of freedom.

34 re indistinguishable in all their degrees of freedom.

35 As learning was better in the maze, movement freedom, active vision and behavioral context might be i

36 centage seizure frequency reduction, seizure freedom, adverse events, neuropsychological outcome and

37 inversion asymmetry, an additional degree of freedom allowing spin manipulation can be induced by bre

38 e has evolved to restrict the conformational freedom along its reaction path over the energy landscap

39 o Operation Enduring Freedom/Operation Iraqi Freedom and 1,655 not deployed) who completed an online

40 the translational and rotational degrees of freedom and by calculating the binding committor, our si

41 r women who received 3 years of denosumab in FREEDOM and continued in the extension (long-term group)

42 on the nature of the interacting degrees of freedom and is higher than three for all models.

43 The large number of degrees of freedom and lack of symmetry pose a challenge to studyin

44 phase of the wave as an additional degree of freedom and lower footprint area compared to conventiona

45 l components layer by layer increases design freedom and manufacturing flexibility, thereby enabling

46 energy distribution among various degrees of freedom and reveal the nature of and the impact of strai

47 norms in the direction of greater individual freedom and self-actualization.

48 g between experimentally measured degrees of freedom and subunit rotation.

49 g molecular internal and external degrees of freedom and the resulting interaction processes.

50 It has seven degrees of freedom and therefore admits a large space of dynamic fl

51 n would provide access to coupled degrees of freedom and ultrafast response functions on the characte

52 primers for this method has many degrees of freedom and would benefit from an automated process to e

53 hod introduced here delivers more degrees of freedom, and allows for encoding highly complex informat

54 w statistical power, researcher's degrees of freedom, and an emphasis on publishing surprising positi

55 ements to study binding kinetics, rotational freedom, and dwell time distributions of a Cy5-labeled O

56 Operation Enduring Freedom, Operation Iraqi Freedom, and Operation New Dawn, and who received care f

57 s they may enhance safety, increase resident freedom, and reduce staff burden.

58 decoupled more thoroughly, or new degrees of freedom are added to the overall optimization problem.

59 n problems with a large number of degrees of freedom are intractable by classical computers, since th

60 ial modes of light with entangled degrees of freedom, as a basis for encoding information.

61 To take advantage of the extra degree of freedom associated with tilting we have performed first

62 e previous year has a probability of seizure freedom at 5 years of approximately 0.19).

63 In the long-term group, BMD increased from FREEDOM baseline by 21.7% at the lumbar spine, 9.2% at t

64 ronment where they have (a) lower degrees of freedom because they are fixed into position within the

65 o the subtle difference in ligand rotational freedom between the Zn(II)- and Fe(II)-cornered cubes.

66 e perovskites of novel structural degrees of freedom beyond the familiar dipolar terms responsible fo

67 MEA had slightly lower long-term arrhythmia freedom, but showed marked and significantly shorter pro

68 tential applications of this novel degree of freedom by dynamically addressing the modulation bandwid

69 al pulses, electronic and lattice degrees of freedom can be transiently decoupled, giving the opportu

70 quantum discord between distinct degrees of freedoms can be extracted from a small controllable part

71 primary outcome was the risk adjusted 5-year FREEDOM composite of all-cause mortality, nonfatal myoca

72 principle, scalability, and single-degree-of-freedom contractile actuation motions.

73 Charge and orbital degrees of freedom determine properties of many materials, and are

74 elihood ratio test (LRT) = 73.58, degrees of freedom (df) = 1, P = 4.83 x 10(-18)), which contributed

75 n the control of the electron spin degree of freedom (DOF) in materials such as multiferroics and con

76 computations only take use of one degree of freedom (DoF) of photons.

77 hnique is applied to decrease the Degrees-of-Freedom (DoFs) and computational requirements.

78 overall low probabilities of 5-year seizure freedom (eg, a normal MRI and convulsive seizures in the

79 th defect-induced frozen magnetic degrees of freedom.Experimental studies of frustrated spin systems

80 uch structures offer an additional degree of freedom for adjusting optical properties with the angle

81 wavelengths, providing additional degrees of freedom for agile polarization conversion in nanophotoni

82 transport by providing additional degrees of freedom for electron transfer.

83 The threads in COF-505 have many degrees of freedom for enormous deviations to take place between th

84 wo high intensity beams opens new degrees of freedom for manipulating electromagnetic waves in air.

85 etal oxide may provide additional degrees of freedom for post-fabrication control of properties of so

86 e the interplay between molecular degrees of freedom, framework topology, and supramolecular interact

87 The primary safety end point was freedom from a composite of all death, target limb amput

88 t was met, and superiority was demonstrated; freedom from a primary safety event was 94.1% (193 of 20

89 Trends for lower freedom from acute cellular rejection were observed for

90 On follow-up, freedom from AF after a single FIRM procedure for the en

91 at CA of AF is superior to AMIO in achieving freedom from AF at long-term follow-up and reducing unpl

92 The primary efficacy end point was freedom from AF between 90 and 365 days after a single a

93 Freedom from AF recurrence at 1 year was 44% for ablatio

94 ), 83% (PeAF), and 82% (LPeAF) at 1 year and freedom from all atrial arrhythmias was 77% (PAF), 75% (

95 The primary endpoint was freedom from all systemic immunosuppressive drugs withou

96 Freedom from AMR significantly decreased for those recip

97 scularization, 3.8% versus 5.9%; P=0.24; and freedom from angina, 93.6% versus 90.2%; P=0.35).

98 Our primary end point was freedom from any grade 3 or higher toxicities.

99 e remission with no residual MG symptoms and freedom from any ongoing MG therapy (MGFA postinterventi

100 Freedom from any Ross-related reintervention was 92.9% a

101 Although freedom from aortic valve reintervention is superior aft

102 Effectiveness outcomes included freedom from atrial arrhythmias after ablation and propo

103 Freedom from atrial arrhythmias at 12 months postprocedu

104 Freedom from atrial arrhythmias was demonstrated in 12 o

105 ical isolation of the LAA improved long-term freedom from atrial arrhythmias without increasing compl

106 gery approximately doubles the likelihood of freedom from atrial fibrillation, atrial flutter, or atr

107 nificant difference was observed in 12-month freedom from atrial tachyarrhythmias between an index ab

108 After the initial AVNRT ablation, calculated freedom from AVNRT was 96% at 1 year, 94% at 3 years, 93

109 l end point of AVNRT ablation did not impact freedom from AVNRT.

110 Additional outcomes were freedom from biochemical failure (FFBF), prostate cancer

111 improved disease-free survival and improved freedom from breast cancer and distant recurrence compar

112 The primary endpoint was freedom from bronchiolitis obliterans syndrome (BOS).

113 dence interval, 0.38-2.16; P=0.83), although freedom from cardiac- and valve-related mortality was im

114 age frequency to achieve autopleurodesis and freedom from catheter has not been determined.

115 , but there was no significant difference in freedom from chronic lung allograft dysfunction (CLAD) o

116 The coprimary end points were freedom from clinical evidence of ischemic stroke (repor

117 The primary end point was freedom from clinical or radiographic CNS infarction at

118 Freedom from clinically driven target lesion revasculari

119 68 [96.1%] completed the trial), the rate of freedom from CNS infarction at 7 days was 32.0% with suc

120 icy that provided renewable work permits and freedom from deportation for a large number of undocumen

121 primary safety end point was a composite of freedom from device- and procedure-related death through

122 The primary safety end point was freedom from device- and procedure-related death through

123 ent Invasive EEG study and 11 (52%) achieved freedom from disabling seizures with a mean duration of

124 Eight (73%) of 11 patients with MTS achieved freedom from disabling seizures, whereas 3 (30 %) of 10

125 3 (30 %) of 10 patients without MTS achieved freedom from disabling seizures.

126 Associations with EFS (ie, freedom from disease progression or recurrence) were eva

127 Freedom from distant failure rates were 96% and 95% in a

128 all survival, progression-free survival, and freedom from extracerebral progression in univariable an

129 Freedom from failure of the integrated driveline was 79%

130 When compared with group 2, freedom from Fontan failure was significantly lower in g

131 ned directly with the goal of patient safety-freedom from harm.

132 M 3 trial, the HM3 LVAS demonstrated greater freedom from HRAEs in comparison with the HMII LVAS at 6

133 Kaplan-Meier analysis was used to estimate freedom from ICD shock, heart transplantation, and death

134 Primary endpoints were safety (freedom from immune response or infection, aneurysm, or

135 The concept of freedom from infection, routinely used in veterinary epi

136 Freedom from interventional catheterization was 53% at 1

137 though 1-year post-HCT median CD4 counts and freedom from IV immunoglobulin were improved after the u

138 Freedom from local failure rates were 90% in the apex LD

139 12-month freedom from local recurrence was 43% (95% CI 31-59) in

140 Freedom from LRR at 5 years ranged from 86% to 97% by cl

141 Freedom from major adverse events at 1 year was 89.3% fo

142 th MTVt and TLGt were highly correlated with freedom from progression and were dichotomized with 80th

143 ically nonsignificant trends toward improved freedom from pulsed-steroid therapy and biopsy-confirmed

144 Five- and 10-year freedom from radiation retinopathy and optic neuropathy

145 The primary study end point was freedom from recurrence of any atrial tachyarrhythmia, o

146 tial ablation may be a step toward long-term freedom from recurrent arrhythmia.

147 rs to provide equal benefits to survival and freedom from reintervention as on-pump CABG.

148 Freedom from reintervention was 51% at 1 month and 23% a

149 Freedom from reintervention was equivalent after both pr

150 ates of distant metastasis-free survival and freedom from relapse were also higher in the combination

151 survival, distant metastasis-free survival, freedom from relapse, and safety.

152 Freedom from reoperation was 69% at 15 years and 63% at

153 nt of not only mitral repair rates, but also freedom from reoperation, and survival.

154 The primary end point was freedom from repeat coronary revascularization.

155 There was a higher freedom from repeat revascularization among patients rec

156 y surgery had a significantly higher rate of freedom from seizures and better scores with respect to

157 The primary outcome was freedom from seizures at 12 months.

158 At 12 months, freedom from seizures occurred in 44 patients (77%) in t

159 risk of relapse and the chance of long-term freedom from seizures.

160 One-year freedom from sustained VT/ICD shock and ICD shock, trans

161 One-year freedom from symptomatic atrial tachyarrhythmia was 77.2

162 rate-modification group patients, for 1-year freedom from tachyarrhythmia recurrence after a single a

163 eath through 30 days after the procedure and freedom from target limb major amputation and clinically

164 procedure-related death through 30 days, and freedom from target limb major amputation and clinically

165 Lower freedom from the development of de novo DSA was observed

166 or ETAR, an increased negative impact on the freedom from the development of de novo DSA was observed

167 Freedom from waitlist death or delisting was not affecte

168 patients experienced a trend toward greater freedom from xanthomata after PEBD.

169 dy was to assess the generalizability of the FREEDOM (Future REvascularization Evaluation in Patients

170 a post hoc, nonrandomized analysis from the FREEDOM (Future REvascularization Evaluation in patients

171 charge, spin, lattice, or orbital degrees of freedom, giving rise to remarkable phenomena such as col

172 This new degree of freedom has enabled reaching unprecedented CHF levels an

173 The elimination of unnecessary degrees of freedom has opened up large-scale simulations of the lip

174 how the changes in FMN domain conformational freedom impact the following: (i) the NADPH interaction;

175 between electron spin and orbital degrees of freedom in 5d oxides can lead to exotic electronic groun

176 al CA is effective in achieving long-term VT freedom in 69% of cases, with a substantial improvement

177 propose a method that reduces the degrees of freedom in a stepwise manner and leads to a dynamic flux

178 based on manipulation of electron degrees of freedom in a well-characterized environment.

179 silicon, valley states represent a degree of freedom in addition to spin and charge.

180 e features of stepping, revealing a striking freedom in an otherwise precisely controlled system.

181 results demonstrate the control of degree of freedom in bilayer with magnetic field, which makes bila

182 ically relevant seizure reduction or seizure freedom in children with early infantile epilepsies (<3

183 e of OTEDs can be attributable to the design freedom in device shapes and the low-cost fabrication by

184 probe the impact of the internal degrees of freedom in each amino acid residue of VVD on its overall

185 in turn interact with electronic degrees of freedom in graphene, including the collective plasmon mo

186 rease fundamental frequency range is greater freedom in joint rotation or gliding of two cartilages (

187 The spin degree of freedom in magnetic devices has been discussed widely fo

188 ut the vibrational and rotational degrees of freedom in molecules pose a challenge for controlling th

189 t imaging of the valley pseudospin degree of freedom in monolayer transition metal dichalcogenides.

190 ul tool for engineering the charge degree of freedom in strongly correlated materials, which can be u

191 tween charge, orbital and lattice degrees of freedom in superlattices of alternating lead titanate an

192 nergy dissipation into electronic degrees of freedom in surface chemistry.

193 the participation of the protein degrees of freedom in the reaction coordinate and the error associa

194 omising way towards using the spin degree of freedom in very fast, low-power electronic devices.

195 ally involves cooperation of many degrees of freedom including orbitals, fluctuating local moments, m

196 t, determined by spin and orbital degrees of freedom, increases with increasing valence bond length.

197 However, post-operative seizure freedom is currently sub-optimal, suggesting that the pr

198 Seizure freedom is feasible in a large proportion of patients.

199 clerosis (MS) after a long period of relapse freedom is frequently considered, but data on post-cessa

200 erized by valley and spin quantum degrees of freedom, making it possible to explore new physical phen

201 conomic policies aimed at expanding economic freedom may have inadvertently shifted risk to household

202 Integration of all three degrees of freedom-mechanical, optical and microwave-would enable a

203 yers, as a result of an additional degree of freedom, namely the layer pseudospin, and spin-valley-la

204 : Optimal management of Multivessel disease [FREEDOM]; NCT00086450).

205 l who have returned from Operations Enduring Freedom (OEF) and Iraqi Freedom (OIF).

206 ional space, which represents all degrees of freedom of a specified segment of protein chain that mai

207 At the same time, the integrity (defined freedom of aggregates measured by SEC-HPLC) and bioactiv

208 hotons interact with the motional degrees of freedom of an optical resonator, for example, by imparti

209 a powerful restriction on the conformational freedom of an RNA molecule.

210 ompact optical components from the degree of freedom of angle.

211 Freedom of atrial fibrillation for MEA and STA was 86.4%

212 ly probe spin and orbital/lattice degrees of freedom of Ba2NaOsO6 provide such tests.

213 The electronic and nuclear spin degrees of freedom of donor impurities in silicon form ultra-cohere

214 The valley degree of freedom of electrons in solids has been proposed as a ne

215 selection of spatial channels and degrees of freedom of entanglement should be carefully considered.

216 useful strategy for reducing the degrees of freedom of flexible chains, enabling them to adopt what

217 The reduced conformational freedom of holo-PhuS H212R combined with the increase in

218 The estimated "freedom of incisional hernia" curves (Kaplan-Meier estim

219 ained from the European Medicines Agency via Freedom of Information requests.

220 ing inhibitory constraints through increased freedom of MBD1-3 motions.

221 estriction of orientation and conformational freedom of membrane proteins.

222 We also show that the intrinsically enhanced freedom of motion of the iodine atoms enables large defo

223 domains B on the E2 glycoproteins have less freedom of movement in the immature virus, keeping the f

224 g information in high-dimensional degrees of freedom of photons has led to new avenues in various qua

225 eometric complexity and number of degrees of freedom of proteins, while element specific persistent h

226 powerful restrictions on the conformational freedom of RNA molecules, they are too erratic in their

227 The conformational freedom of the benzyl substituent of the substrate was a

228 ino acid residues predicted to influence the freedom of the catalytic site vibrational modes linked t

229 ical flagellum and the rotational degrees of freedom of the cell body and flagellum, and we use numer

230 nin alleles by increasing the conformational freedom of the complex at the cost of its normal, all-or

231 Conformational freedom of the FMN domain is thought to be essential for

232 llustrate how the charge and spin degrees of freedom of the minimal DQD may be used to obtain a singl

233 al contacts that restrict the conformational freedom of the polypeptide chains.

234 ctronic state and the vibrational degrees of freedom of the probe ion.

235 e strong hydrogen bond reduces the degree of freedom of the substrate and acts as a structural anchor

236 of the electronic and structural degrees of freedom of these systems on the time scales of femtoseco

237 chitectures to study the internal degrees of freedom of this many-body phenomenon.

238 rrence were more likely to achieve long-term freedom off antiarrhythmic drugs (hazard ratio, 2.2; 95%

239 Operations Enduring Freedom (OEF) and Iraqi Freedom (OIF).

240 s of aryl electron demand and conformational freedom on the rate of reductive elimination from diaryl

241 95% confidence interval, 1.5-3.2; P<0.0001), freedom on/off antiarrhythmic drugs (hazard ratio, 2.5;

242 of hydrodynamics with rotational degrees of freedom, once linearized around a non-equilibrium steady

243 ns deployed in support of Operation Enduring Freedom, Operation Iraqi Freedom, and Operation New Dawn

244 embers (1,443 deployed to Operation Enduring Freedom/Operation Iraqi Freedom and 1,655 not deployed)

245 least one dose of investigational product in FREEDOM or the extension were included in the combined s

246 potential benefits (e.g. increased resident freedom) or ethical concerns (e.g. resident privacy); 2.

247 xt of its application as a curative (seizure freedom) or palliative (seizure reduction) measure for b

248 ol of the electronic and motional degrees of freedom, preparation of a fiducial initial state with io

249 s planarity because of restricted rotational freedom promoting aggregation-induced emission.

250 However, due to increased model freedom, proper deployment of MCR-ALS requires careful c

251 By changing the degrees of freedom, protonation further affects the thermodynamic o

252 spin, charge, orbital and lattice degrees of freedom provides a plethora of exotic phases and physica

253 n achieved using the electron spin degree of freedom, realizing a robust CNOT gate has been challengi

254 l dichalcogenides provide further degrees of freedom requisite for information processing and spintro

255 where a rich variety of material degrees of freedom reside, remains an experimental challenge.

256 nce (QCM) substrate to form a two-degree- of-freedom resonance system (QCM-P).

257 keys exposed to control a multiple-degree-of-freedom robot arm.

258 This freedom served him well making it possible for him to de

259 tion and trunk orientation as the degrees of freedom shaping this behavior; and cocaine as the parame

260 panded by exploiting its multiple degrees of freedom: spatial, temporal, and polarization.

261 nipulation and control of quantum degrees of freedom (spin and pseudospin), confinement of excitons,

262 The Ising model-in which degrees of freedom (spins) are binary valued (up/down)-is a corners

263 factors for epilepsy and the odds of seizure freedom stratified by the presence of depression were pe

264 ab group during the first three years of the FREEDOM study, and lower than rates projected for a virt

265 une 1, 2005, 7808 women were enrolled in the FREEDOM study.

266 e, which generally involves other degrees of freedom such as spin.

267 hat the transition state has less structural freedom than that of the reactants.

268 quantum coherent spin and charge degrees of freedom that allow all-electrical initialization of low-

269 but are limited by the number of degrees of freedom that can be followed at one time.

270 -body states possess a pseudo-spin degree of freedom that corresponds with the two direct-gap valleys

271 lectron pockets, offering a valley degree of freedom to charge carriers.

272 In 1993, the freedom to choose one's sickness fund was formally intro

273 pore structures add an additional degree of freedom to create advanced membranes by providing entrop

274 greatest gift a scientist can receive - the freedom to do whatever they wanted.

275 itters, with micron-scale dimensions and the freedom to fully control radiation parameters, offer nov

276 both space and time provides new degrees of freedom to manipulate light-matter interaction on the ul

277 ional liquid crystals, there is considerable freedom to prescribe the electromagnetic properties thro

278 evice structure offers additional degrees of freedom to select for optimal material properties in eac

279 Exploiting the valley degree of freedom to store and manipulate information provides a n

280 top-most layer adds an additional degree of freedom to the phase matching conditions for Bloch surfa

281 alyses were done according to the randomised FREEDOM treatment assignments.

282 rtery disease, we combine the results of the FREEDOM trial (Future Revascularization Evaluation in Pa

283 All participants who completed the FREEDOM trial without discontinuing treatment or missing

284 d, double-blind, placebo-controlled, phase 3 FREEDOM trial, postmenopausal women aged 60-90 years wit

285 the translational and rotational degrees of freedom under inversion.

286 Recently, a new degree of freedom, valley, has been demonstrated in two-dimensiona

287 Arrhythmia freedom was compared with a control group (66 patients)

288 CVRF freedom was defined as no current smoking and untreated

289 he odds of failing to achieve 1-year seizure freedom were significantly higher for those with depress

290 ch OAM is a completely independent degree of freedom which can be readily integrated with other state

291 r of components would increase the degree of freedom which can provide more flexibility in tuning the

292 egated into systems with multiple degrees of freedom, which are able to produce controllable motions

293 vices using the photon's internal degrees of freedom, which form photonic crystals in such synthetic

294 property, the walls own internal degrees of freedom, which is potentially related to the controllabi

295 of biomolecules involving bosonic degrees of freedom with a digital-analog approach.

296 electronic, magnetic and orbital degrees of freedom with the crystal structure across the MIT in rar

297 ed the strongest restraint on conformational freedom with the effect being most apparent in topologic

298 Due to the many degrees of freedom within even short peptides, the design and optim

299 uch timing correlations among the degrees of freedom within proteins.

300 ader utilization of the available degrees of freedom within the optical field.