ライフサイエンスコーパス: diffusivity

1 here were also less robust increases in mean diffusivity.

2 al (energy) diffusivity that describes chaos diffusivity.

3 ncrease of the apparent activation energy of diffusivity.

4 or both cortical thickness and cortical mean diffusivity.

5 ibited any correlation to the differences in diffusivity.

6 , especially for porous structure with small diffusivity.

7 redict the long-time bacterial translational diffusivity.

8 aging derived fractional anisotropy and mean diffusivity.

9 cessing in living cells scaled with rhomboid diffusivity.

10 and report non-monotonic evolution of cation diffusivity.

11 al anisotropy with increased mean and radial diffusivity.

12 into two modeling approaches used to predict diffusivity.

13 tation, fiber configuration, anisotropy, and diffusivity.

14 ival, directionality, distance travelled and diffusivity.

15 rics, such as fractional anisotropy and mean diffusivity.

16 titative visualizations of spatially varying diffusivity.

17 he proportion of BCR trajectories with lower diffusivity.

18 ation of the bulk-like and interfacial water diffusivities.

19 ar reach increases reaction efficacy for all diffusivities.

20 density, fractional anisotropy and decreased diffusivities.

21 443 (SD 0.017) P = 0.003] and increased mean diffusivity [747 x 10-6 mm2/s (SD 26 x 10-6) versus 723

22 terized by changes in perpendicular (radial) diffusivity (a measure of myelin integrity) that extende

23 reorientations with 1.5 rad(2)/s rotational diffusivity, a value that compares with that measured in

24 ity (MD), radial diffusivity (RD), and axial diffusivity (AD) for these 151 individual regions and lo

25 We found that right axial diffusivity (AD) in the STG-OFC connectivity inversely c

26 vity (MD), Radial Diffusivity (RD) and Axial Diffusivity (AD) were estimated and co-registered to the

27 measures: fractional anisotropy (FA), axial diffusivity (AD), and radial diffusivity (RD).

28 nal anisotropy (FA), mean diffusivity, axial diffusivity (AD), and radial diffusivity between groups.

29 T2w ratio, fractional anisotropy (FA), axial diffusivity (AD), radial diffusivity (RD) and mean diffu

30 induced changes in tumor perfusion and water diffusivity (ADC) using dynamic contrast-enhanced MRI (D

31 -) play a major role in enhancing Li(+) -ion diffusivity, along with increased site disorder and a hi

32 ermography mapping that measures the thermal diffusivity (alpha) of the graphene nanocomposite and re

33 , energy dissipation, conductivity, and mass diffusivity also need to be considered.

34 using single-cell tracking to calculate mean diffusivities and compare motility between cells in diff

35 xponential distribution in the time-averaged diffusivities and non-Gaussian behavior of individual tr

36 clear negative correlation between the EGFR diffusivities and the breast cancer luminal differentiat

37 opore-network characteristics, and hence the diffusivity and adsorption profiles(14,15).

38 ssessed using fractional anisotropy and mean diffusivity and analyzed with maternal prenatal depressi

39 In the whole bvFTD group, both cortical mean diffusivity and cortical thickness correlated with measu

40 The addition of liquefied CO(2) increases diffusivity and decreases viscosity, which inherently le

41 Modulation of solute diffusivity and ECS could explain diverse outcomes of tD

42 we show a clear evidence that increased EGFR diffusivity and enlarged EGFR confinement size in the pl

43 Diffusivity and extrusion rate emerged as the two most i

44 Diffusivity and fiber tractography measures were calcula

45 tion of a brain metastasis and assessed mean diffusivity and fractional anisotropy (FA).

46 The diffusion biomarkers mean diffusivity and fractional anisotropy effectively discri

47 demonstrate the importance of maximizing the diffusivity and fractional contribution of interfacial w

48 that accounts for spatial variations in the diffusivity and free energy.

49 Additionally, right mean diffusivity and left AD in the NAcc-OFC tract also showe

50 on dioxide (CO(2)) to compensate for the low diffusivity and potential depletion of CO(2) in water.

51 lysis indicated widespread increases in mean diffusivity and radial diffusivity delineating extensive

52 on rate, which depends on the effective eddy diffusivity and surface area of the enriched patches.

53 al integrity (fractional anisotropy and mean diffusivity) and cerebrovascular risk factors better exp

54 llar tissue microstructure metrics (eg, mean diffusivity), and (3) functional connectivity in the vis

55 determined TMJ disc metabolic rates, solute diffusivities, and disc morphometry, and through subject

56 ch simultaneously provides the size, average diffusivity, and anomalous coefficient of ISGs, without

57 by increased grey matter volume, higher mean diffusivity, and enhanced functional connectivity along

58 roperties, such as voltage, capacity, alkali diffusivity, and other electrochemically relevant comput

59 noscale fine-mapping of membrane topography, diffusivity, and packing order in live mammalian cells t

60 ct and indirect contributions to microscopic diffusivity, arising from the H-bond strength of the co-

61 cted zones where GEMs display especially low diffusivity at hyphal tips and near some nuclei, showing

62 Results showed constant diffusivity at the implant shell ((1.17 +/- 0.13) x 10(-

63 whole-brain fractional anisotropy (FA), mean diffusivity, axial diffusivity (AD), and radial diffusiv

64 n diffusivity, fractional anisotropy, radial diffusivity, axial diffusivity), voxel-based morphometry

65 tal procedure to accurately measure moisture diffusivity based on thermogravimetric approach.

66 diffusivity (beta = .177, q = .007), radial diffusivity (beta = .133, q = .026), and mean diffusivit

67 e left uncinate fasciculus, and higher axial diffusivity (beta = .142, q = .026) in the right uncinat

68 iffusivity (beta = .133, q = .026), and mean diffusivity (beta = .149, q = .012) in the left uncinate

69 nts scores were associated with higher axial diffusivity (beta = .177, q = .007), radial diffusivity

70 ompared cortical thickness and cortical mean diffusivity between bvFTD (both using the whole sample a

71 fusivity, axial diffusivity (AD), and radial diffusivity between groups.

72 bing their polymerization dynamics decreased diffusivity by ~30%, suggesting that microtubule polymer

73 that is well known, it is found that thermal diffusivity can be abnormally lowered from the true valu

74 epileptic seizures, that such a reduction in diffusivity can be achieved via external stimulation.

75 assivating agents, their high volatility and diffusivity cannot render perovskite films robust enough

76 g live channels was determined by attractant diffusivity, cell speed, and path complexity.

77 The density and diffusivity change across the fluid-fluid phase transiti

78 Radial diffusivity change in the optic radiations was also asso

79 Target antigens can be detected through diffusivity changes resulting from their immunoreactions

80 the nanoscale, and that variations in local diffusivity correlate with the ultrastructure of the act

81 Decreased dentate gyrus mean diffusivity correlated with a higher apnea hypopnea inde

82 possible bvFTD subgroup, only cortical mean diffusivity correlated with the modified frontotemporal

83 Our data suggest that cortical mean diffusivity could be a sensitive biomarker for the study

84 hin them followed the same rule: Total water diffusivity could be represented by a linear combination

85 Physical parameters (e.g., diffusivity) could then be used for direct comparison to

86 In the normal state, the sound diffusivity D monotonically decreases upon lowering the

87 earning methods for predicting the effective diffusivity (D(e)) of two-dimensional porous media from

88 est performing parameter for IVIM was tissue diffusivity (D), and the pooled sensitivity, specificity

89 Analyses of thermal diffusivity data on complex insulators and on strongly c

90 ead increases in mean diffusivity and radial diffusivity delineating extensive loss of white matter i

91 l subjects and superficial white matter mean diffusivity derived from diffusion tensor imaging was co

92 rome-specific fractional anisotropy and mean diffusivity differences were most pronounced in patients

93 We thus determine a trend that the membrane diffusivity drops with increased lipid packing order whe

94 Second, increased analyte diffusivity due to autothermal runaway Joule heating is

95 y also explains the lowered abnormal thermal diffusivity during phase transitions in other materials

96 from both altered heat capacity and thermal diffusivity during phase transitions, which is well demo

97 s, particle size fraction, and environmental diffusivity estimates based on air changes per hour.

98 The procedure is capable to measure diffusivity even at elevated temperatures (>70 degrees C

99 nized maps of fractional anisotropy and mean diffusivity for each participant, and fibre tracts were

100 10 control subjects with calculation of mean diffusivity, fractional anisotropy, and sheetlet orienta

101 dy of diffusion tensor imaging metrics (mean diffusivity, fractional anisotropy, radial diffusivity,

102 iers and diffusors, allows us to disentangle diffusivity from free-energetic effects.

103 Different surface diffusivities give rise to different protein distributio

104 Novel marker the white-gray matter diffusivity gradient demonstrated the highest separation

105 Cortical mean diffusivity has been proposed as a novel biomarker for t

106 Although the surface diffusivity has previously been shown to correlate with

107 these observations suggest that the thermal diffusivity has pronounced electronic as well as phononi

108 ulated by a Chordin-mediated increase in BMP diffusivity have gained recent prominence.

109 ing is a useful adjunct with relatively high diffusivity (high ADC values) suggesting diagnosis of al

110 em can be rendered stable via a reduction in diffusivity-i.e., by lowering the rate at which neuronal

111 Fractional anisotropy (FA) and mean diffusivity images were also derived.

112 e, novel fit model with randomly distributed diffusivities implementing medium heterogeneities suits

113 espread reductions in mean, axial and radial diffusivities in 22q11DS, most pronounced in regions wit

114 e mapping, it is found that in-plane exciton diffusivities in layered perovskites are sensitive to bo

115 ify the mechanisms underlying ion motion and diffusivities in poly(1-butyl-3-vinylimidazolium-hexaflu

116 xperiments, we present variations in analyte diffusivities in the mobile phase, analyte elution tempe

117 white matter fractional anisotropy and mean diffusivity in 13 players compared with 15 control parti

118 study to date, we examined WM anisotropy and diffusivity in 1305 MDD patients and 1602 healthy contro

119 of corticofugal fibers, showed higher axial diffusivity in 22q11DS.

120 ere, we observe a universal quantum limit of diffusivity in a homogeneous, strongly interacting atomi

121 capable of efficiently calculating hydrogen diffusivity in alpha-Zr and Zircaloy, without altering t

122 hoton excitation microscopy to map nanoscale diffusivity in ex vivo brain slices.

123 D subgroup, we found increased cortical mean diffusivity in frontotemporal regions, but only minimal

124 Single-crystal diffusivity in postperovskite displays at least 3 orders

125 c analyses showed higher FA and lower radial diffusivity in several tracts.

126 quantify spatial-temporal changes in implant diffusivity in situ.

127 The thermal diffusivity in the [Formula: see text] plane of underdop

128 scores were positively associated with mean diffusivity in the amygdala-frontal tract and the cingul

129 Mean diffusivity in the anterior and posterior CB was increas

130 t revealed an anterograde increase of radial diffusivity in the anterior part of optic radiations whi

131 apping capability, we further unveil reduced diffusivity in the ER membrane at ER-plasma membrane con

132 In contrast, the drug diffusivity in the first 10 mum of the upper skin layer

133 ite matter volumes; significantly lower mean diffusivity in the inferior vermis of the cerebellum (pa

134 systematic, and remarkable impact on Li-ion diffusivity in the lattice.

135 Mean diffusivity in the left parahippocampal region of the ci

136 erior thalamic radiation, and increased mean diffusivity in the middle cerebellar peduncle, right med

137 ity, the intraspecies comparison of particle diffusivity in the mucus obtained from adult pigs vs. 2-

138 sed fractional anisotropy and decreased mean diffusivity in the right anterior CB, but not in the pos

139 combination of a substantially reduced drug diffusivity in the stratum corneum (the outermost epider

140 nalysis showed significantly increased axial diffusivity in widespread locations, demonstrating white

141 th similar effects on mean, axial and radial diffusivity) in our cohort and that surgery was associat

142 iffusion, two-state diffusion, and diffusing diffusivity) in variable-length-scale FCS.

143 nt in the Southern Ocean found the turbulent diffusivity inferred from the vertical spreading of a tr

144 Qualitative information about solute diffusivity inside the membrane was also extracted from

145 d represented as images, and their effective diffusivity is computed by lattice Boltzmann (LBM) simul

146 Finally, we show that thermal diffusivity is even more greatly reduced than thermal co

147 for defects to reach other sinks when defect diffusivity is high at boundaries.

148 When defect diffusivity is low, most of the defects segregated to ST

149 Unfortunately, measuring moisture diffusivity is not trivial, especially at low moisture v

150 the binding affinity, and hence the surface diffusivity, is modulated by varying IS.

151 The diffusivity, majorly influenced by the membrane anchor o

152 re we introduce single-molecule displacement/diffusivity mapping (SMdM), a super-resolution strategy

153 s to achieve super-resolution topography and diffusivity mapping.

154 Spatial diffusivity maps of the implant were generated using DWI

155 The cortical mean diffusivity maps, in the whole cohort and in the probabl

156 these key parameters: chemokine production, diffusivity, matrix binding site availability, and CCR7

157 Although the magnitude of the diffusivity may suggest that it originates from phonons,

158 tter volume, fractional anisotropy, and mean diffusivity (MD) analyses of MRI data.

159 tent effect fractional anisotropy (FA), mean diffusivity (MD) and tractography.

160 essed by fractional anisotropy (FA) and mean diffusivity (MD) by using DTI.

161 T(1) relaxation time from qMRI and mean diffusivity (MD) from dMRI provide independent and compl

162 ivity (AD), radial diffusivity (RD) and mean diffusivity (MD) in 25 bilateral (10 grey matter; 15 whi

163 ation of fractional anisotropy (FA) and mean diffusivity (MD) in MR diffusion tensor imaging (DTI) re

164 DTI revealed an increase in mean diffusivity (MD) in the ventral thalamus and a decrease

165 isphere and a subnetwork with increased mean diffusivity (MD) involving similar regions bilaterally (

166 ), axial (AK), radial (RK) kurtosis and mean diffusivity (MD) metrics were calculated for lobar and s

167 In patients following hyperoxia, mean diffusivity (MD) was unchanged despite baseline values l

168 age, and fractional anisotropy (FA) and mean diffusivity (MD) were computed.

169 sured by fractional anisotropy (FA) and mean diffusivity (MD) with diffusion tensor imaging.

170 hite matter fractional anisotropy (FA), mean diffusivity (MD), and from T1-weighted imaging (n = 333)

171 ces such as Fractional Anisotropy (FA), Mean Diffusivity (MD), Radial Diffusivity (RD) and Axial Diff

172 eviation of fractional anisotropy (FA), mean diffusivity (MD), radial diffusivity (RD), and axial dif

173 crostructure (fractional anisotropy and mean diffusivity [MD]) in the UK Biobank Imaging Study.

174 volume, and fractional anisotropy, and mean diffusivity [MD]), and feelings of guilt in 1196 healthy

175 ion in transmural myofiber helix angle, mean diffusivity (mean +/- standard deviation, [0.89 +/- 0.09

176 (T2(water)), fractional anisotropy (FA), and diffusivity (mean, axial, and radial).

177 h the molar conductivity calculated from ion diffusivities measured by pulse field gradient nuclear m

178 fluxes span a wide range due to the range of diffusivity measured.

179 ns (to avoid potential effects of lesions on diffusivity measures) (n = 30, 25 females, 37.9 +/- 10.8

180 arger effect sizes were observed for FA than diffusivity measures; significantly higher mean and radi

181 ting multiple metric maps (including various diffusivity metric maps derived from DTI, and also the f

182 eir structural (e.g. size) and dynamic (e.g. diffusivity, mode of motion) properties.

183 fractional anisotropy (N = 17,663) and mean diffusivity (N = 17,467).

184 The aqueous bulk diffusivities of several near-spherical (icosahedral) an

185 supported by directly comparing the apparent diffusivities of the two Beta samples.

186 spectroscopy to quantify real-time, in situ diffusivities of water subspecies, bulk-like and nonbulk

187 ctahedral distortion yields a record exciton diffusivity of 1.91 cm(2) s(-1) and a diffusion length o

188 ed can be explicitly determined by comparing diffusivity of an unknown concentration of target molecu

189 Furthermore, loss of N-WASP reduces the diffusivity of CD19, a stimulatory co-receptor, but not

190 bin was verified by demonstrating restricted diffusivity of CO(2), an acidic gas, from the dissipativ

191 rticle tracking shows enhanced intracellular diffusivity of eLNPs relative to LNPs, suggesting eLNP t

192 Unexpectedly, the effective diffusivity of GEMs was similar inside the dense metapha

193 cant cell-to-cell variability in the average diffusivity of GEMs.

194 measure the diffusion flux and determine the diffusivity of hydrogen peroxide.

195 Moreover, the diffusivity of interfacial water was consistently larger

196 its aggregated nature and the resulting low diffusivity of its quinone- and hydroquinone-containing

197 Diffusivity of nanocarriers in fibrin matrices was limit

198 is, fractional anisotropy decreased and mean diffusivity of non-lesional, normal-appearing white matt

199 he difference, we systematically studied the diffusivity of particles according to their size and int

200 such intermediates was attributed to the low diffusivity of Pb(2+) ions inside the host lattice and t

201 We have investigated the chemical diffusivity of perovskite and postperovskite phases by e

202 hat the amount of spheres did not affect the diffusivity of peroxide through the enamel discs.

203 The same diffusivity of polyphenols (4 x 10(-11) m(2)/s) was obta

204 The trained model predicts the effective diffusivity of porous structures with computational cost

205 directed mutagenesis increases the effective diffusivity of probe chains.

206 for characterization of the in-plane thermal diffusivity of semitransparent polymer films.

207 The diffusivity of semivolatile organic compounds (SVOCs) in

208 g disrupter, LiClO(4), it was found that the diffusivity of solute becomes positively correlated to t

209 Here, we investigate the bulk diffusivity of SVOCs formed from photo-oxidation of isop

210 ata and external capsule, and increased mean diffusivity of the anterior corona radiata.

211 The diffusivity of the components in non-ideal solution is d

212 We demonstrate lower mean diffusivity of the dentate gyrus in children with OSAS,

213 Calculated thermal conductivity and diffusivity of the different flours used, and its correl

214 matter microstructure, specifically by axial diffusivity of the right corona radiata, (maximum indire

215 urely phenotypic, such as that between axial diffusivity of the right superior longitudinal fasciculu

216 Diffusivity of these taste stimuli, determined mostly by

217 on produces a very complex dependence of the diffusivity on the number of heliums.

218 such as boundary and depletion layers, mass diffusivity, or surface tension.

219 The rich-club also revealed lower diffusivities over time with controls, potentially indic

220 Structural GM and WM metrics and diffusivity parameters were evaluated at baseline and 18

221 icantly higher FA and RD and lower AD and MD diffusivity parameters when compared to other regions.

222 As yet, a comprehensive evaluation of the diffusivity parameters within the feline brain has not b

223 Using this pipeline to analyze spatial diffusivity patterns, we found that there is substantial

224 Measurements of the in-plane thermal diffusivity performed on semitransparent polymer films c

225 (the ratio of fluid viscosity to the scalar diffusivity), point out some fundamental aspects of turb

226 The diffusivity predicted by this DFT + KMC approach agrees

227 unction of temperature, increase in the slow diffusivity previously observed in planarian flatworms a

228 the main factor contributing to the altered diffusivity profile detected using DTI.

229 imate the position-dependent free-energy and diffusivity profiles by solving the conjugated minimizat

230 encoded in the model via antagonistic cross-diffusivities, provides a generic mechanism for the emer

231 r crystal growth relative to liquid phase Ca diffusivity (R/D).

232 Even at the maximum classical (3)He/(4)He diffusivity ratio of 1.15, the expected R would be only

233 holds based on the ratio of radial and axial diffusivities (RD/AD = 0.40 +/- 0.02) and fractional ani

234 isotropy (FA), Mean Diffusivity (MD), Radial Diffusivity (RD) and Axial Diffusivity (AD) were estimat

235 sotropy (FA), axial diffusivity (AD), radial diffusivity (RD) and mean diffusivity (MD) in 25 bilater

236 lower FA, higher mean, and radial diffusivity (RD) in 23.9%, 11.8%, and 22.2% of WM tracts

237 Widespread higher radial diffusivity (RD) was also observed (all Cohen's d betwee

238 isotropy (FA), mean diffusivity (MD), radial diffusivity (RD), and axial diffusivity (AD) for these 1

239 opy (FA), axial diffusivity (AD), and radial diffusivity (RD).

240 fractional anisotropy (FA) and higher radial diffusivity (RD).

241 regression model based on dentate gyrus mean diffusivity reached 85.8% (cross validated).

242 22q11DS was associated with more substantial diffusivity reductions in multiple regions.

243 orly than those observed in parallel (axial) diffusivity (reflecting axonal integrity).

244 upramolecular nanofibers exhibit the highest diffusivities reported for H-aggregates so far.

245 Anisotropic chemical diffusivity results in anisotropic diffusion creep, text

246 reater distances through alteration of their diffusivities, secondary interaction-energy minima, and

247 overall membrane performance is dominated by diffusivity selectivity of CO(2) over Xe in DD3R zeolite

248 P <= 0.001), while average white matter mean diffusivity showed a strong correlation with plasma lyso

249 Skeleton mean diffusivity showed the closest correlation with cognitio

250 pithelial-mesenchymal transition (EMT), EGFR diffusivity significantly increased for the non-tumorige

251 ation of porosity (0.28-0.98), and effective diffusivity spanning more than one order of magnitude (0

252 The system can be configured so that low diffusivity species experience a ballistic transport reg

253 e advected through the chamber, whereas high diffusivity species experience a diffusion dominated reg

254 anisotropy (t = -2.22, p = 0.032) and axial diffusivity (t = -2.38, p = 0.022) in the left UF compar

255 Our results showed gradual changes in diffusivity that are indicative of degenerative processe

256 gesting that it is only the thermal (energy) diffusivity that describes chaos diffusivity.

257 idespread areas with increased cortical mean diffusivity that partially overlapped with cortical thic

258 ables the nanoscale mapping of intracellular diffusivity through local statistics of the instantaneou

259 ene expression) and limitations due to CO(2) diffusivity through the mesophyll and supply of CO(2) to

260 determined nutrient metabolic rates, solute diffusivities, TMJ anatomy, and loading areas, subject-s

261 Implants formed in vivo followed the same diffusivity trend as those in vitro.

262 upramolecular architectures enhances exciton diffusivities up to 1 order of magnitude.

263 itions, electrochemical activity, and Li-ion diffusivity upon lithium removal and uptake in the NFA c

264 fractional anisotropy (FA), and global mean diffusivity using linear regression.

265 od agreement was also found between measured diffusivity values and values predicted with the Stokes-

266 ided Laplace transform, by assuming constant diffusivity, velocity, and reactivity.

267 tional anisotropy, radial diffusivity, axial diffusivity), voxel-based morphometry, and Mann-Whitney

268 measured at steady-state conditions, and the diffusivity was calculated.

269 In CA, mean diffusivity was correlated with extracellular volume (r=

270 Results Mean diffusivity was elevated and fractional anisotropy reduc

271 Diffusivity was extracted from experimental data based o

272 0.002] while mean average white matter mean diffusivity was higher (749 x 10-6 mm2/s (SD 32 x 10-6)

273 Global mean diffusivity was negatively associated with callous trait

274 asures; significantly higher mean and radial diffusivity was observed for schizophrenia patients comp

275 overy rate adjusted) = .028) and global mean diffusivity was positively associated with delinquent be

276 ty (lower fractional anisotropy, higher mean diffusivity) was associated with worse behavior in boys.

277 incorporating cholesterol to reduce membrane diffusivity, we demonstrate that this k (on) is not limi

278 hanical strain-dependent glucose and lactate diffusivities were measured using a custom diffusion cha

279 er erosion, polymer degradation, and implant diffusivity were analyzed in vitro over 21 days.

280 ties for both fractional anisotropy and mean diffusivity were anatomically widespread.

281 Cortical thickness and cortical mean diffusivity were computed using a surface-based approach

282 Fractional anisotropy (FA) and mean diffusivity were derived from diffusion tensor imaging (

283 Fractional anisotropy and mean diffusivity were measured by means of diffusion-tensor i

284 the areas of correlation with cortical mean diffusivity were more extensive.

285 Global fractional anisotropy and mean diffusivity were not associated with broad measures of d

286 The effect sizes of cortical mean diffusivity were notably higher than the effect sizes of

287 kite exhibits a 12.8-fold increase in oxygen diffusivity, which matches well with the 10-fold improve

288 ign optimization problem by considering drug diffusivity, which yields a two-fold tumor size decrease

289 electron systems we further show that charge diffusivity, while also reaching the Planckian relaxatio

290 s can be used to create CRNs with controlled diffusivity, while DNA gels similarly represent a new me

291 crostructure (fractional anisotropy (FA) and diffusivity), white matter lesions (WMLs), and cerebral

292 ement of the TEM fluid cell lead to abnormal diffusivities with timescales for rotation much less tha

293 ntia (bvFTD); and to correlate cortical mean diffusivity with clinical measures of disease severity a

294 ase in viscosity and the decrease in protein diffusivity with protein volume fraction, which both exc

295 ed in less than 30 s using the difference in diffusivities within parallel microfluidic flows.

296 The diffusivity within the aged alpha-pinene SOA remains app

297 7 +/- 0.13) x 10(-3) mm(2)/s) and increasing diffusivity within the interior over time (from (0.268 +

298 ing disease, the observed increase in radial diffusivity within the optic radiations was validated by

299 age values of fractional anisotropy and mean diffusivity within the white matter and performed voxelw

300 in which reaction front velocity ~ (thermal diffusivity x reaction rate)(1/2).