ライフサイエンスコーパス: transit time

1 roups (45 and 30 mg), except for DCE CT mean transit time.

2 als without CCSVI, without any delay in mean transit time.

3 al pressure multiplied by the hyperemic mean transit time.

4 ness, with the compliant cells having faster transit time.

5 inversely reduced the erythrocyte capillary transit time.

6 bacter hepaticus, influence small intestinal transit time.

7 including distention of colon and slowed GI transit time.

8 ayed gastric emptying and increased total GI transit time.

9 he antro-duodenum and also reduces oro-cecal transit time.

10 tanol by the enterocyte nor small intestinal transit time.

11 d gastric emptying, and increased intestinal transit time.

12 no significant difference in cardiopulmonary transit time.

13 d there was a prolongation of the TC biliary transit time.

14 ributes to establishing their lymphoid organ transit time.

15 ow, relative cerebral blood volume, and mean transit time.

16 f capillary geometry and fMLP-stimulation on transit time.

17 atively correlated with the gastrointestinal transit time.

18 er breast size was associated with increased transit time.

19 % for distribution volume, and 0.0% for mean transit time.

20 r distribution volume, and 0.2-1.8% for mean transit time.

21 rtic elastic modulus and increased the pulse transit time.

22 layers, offering the prospect of ultra-fast transit times.

23 uses are the major factor contributing to LN transit times.

24 on of polysomes and an increase in ribosomal transit times.

25 unterparts in both topological mechanism and transit times.

26 , and that isoprenoid stepping ensures short transit times.

27 s rolling interactions and prolongs monocyte transit times.

28 ament mass was the primary driver of network transit times.

29 ntrols (p = 0.43)--or total gastrointestinal transit time--1.6 days (range 0.5-2.9) in patients and 2

30 ood volume (6-33% decrease), and tissue mean transit time (10-54% increase) were observed in the gray

31 fe (0.79 +/- 0.25 days; 19 hours) and marrow transit time (5.80 +/- 0.42 days).

32 ileum filling also decreased as small bowel transit time accelerated and the meal reached the termin

33 mall intestine and a slower gastrointestinal transit time allow the bacterial lactase to be active, d

34 mize these modified spirals suggest equating transit times along the inner and the outer track of the

35 secondary to enhanced proliferation, faster transit time and altered differentiation in epidermis.

36 Mean transit time and blood volume fraction were comparable b

37 Brain perfusion (mean transit time and blood volume fraction) was comparable b

38 quantitative voxel based thresholds for mean transit time and cerebral blood volume (CBV).

39 atal necrosis in an 8-month-old infant, mean transit time and cerebral blood volume were low relative

40 l lesions, striatal flow was normal but mean transit time and cerebral blood volume were low, consist

41 mulations of runoff generation, stream water transit time and evaporation-transpiration partitioning.

42 ment session, the animals were tested for GI transit time and galactose absorption, and fecal weight

43 (Slc10a2, Slc51a) and increases in whole gut transit time and intestinal permeability.

44 was accompanied by more rapid intrarenal dye transit time and slight increase in renal extraction rat

45 The transit time and the size of each cell were accurately m

46 -doubling time, shorten the duration of G(1) transit time and/or G(1)-S transition, and transform NIH

47 dramatically shortening the duration of G(1) transit time and/or G1-S transition, and transforms NIH3

48 No significant correlation was found between transit times and age, sex, weight, and height.

49 al completion rates, gastric and small bowel transit times and diagnostic yield were analyzed.

50 Cardiopulmonary transit times and dispersions (full widths at half maxim

51 Transit times and FWHM values for the patients with hear

52 Cardiopulmonary transit times and FWHM values were significantly prolong

53 nists stimulate intestinal motility, shorten transit times and in a pilot trial accelerated transit i

54 s characterized by higher loss rates, faster transit times and lower throughput, suggesting that neur

55 is a new method for ambulatory assessment of transit times and motility throughout the gastrointestin

56 eters from the vesicle and by monitoring the transit times and the number of released molecules that

57 Dynamical (e.g., velocimetry and transit timing) and statistical methods have confirmed a

58 coefficient, tissue oxygen saturation, mean transit time, and blood volume fraction in the cortex an

59 group); local brain oxygen saturation, mean transit time, and blood volume fraction were subsequentl

60 Laxation response, oral-cecal transit time, and central opioid withdrawal symptoms wer

61 luation of glomerular filtration rate, renal transit time, and differential renal function.

62 celeration time of mitral E velocity, A wave transit time, and end diastolic volume/pressure ratio wa

63 increased stool frequency, reduced total GI transit time, and increased contractions of ileal circul

64 cimens were initially positive regardless of transit time, and incubation yielded another 19 positive

65 on of multipolar spindles, increases mitotic transit time, and induces micronucleation in response to

66 culate tissue blood flow, blood volume, mean transit time, and permeability-surface area product.

67 ment of tumor blood flow, blood volume, mean transit time, and permeability-surface area product.

68 ntral venous pressure, prolonged fluorescein transit time, and the presence of any retinal ischemia w

69 ct, we measured exhaled H2 and CH4, oro-anal transit time, and the severity of psychological and gast

70 Appetite, gastric-emptying and orocecal transit times, and selected endocrine responses were mon

71 han filament orientation in reducing average transit times, and transport properties were optimized i

72 The short transit time ( approximately 4.5 s) between electrochemi

73 ficantly smaller than the arteriolar-venular transit time ( approximately 500 ms), indicating an arte

74 of capillary geometry and fMLP on neutrophil transit time are presented as a simple dimensionless exp

75 ons between bacterial species abundances and transit times are diet dependent.

76 Cell transit times are inferred to be proportional to the ins

77 on, raptor levels, cell size, and cell cycle transit times are not diminished in these cells.

78 cifically UbcH7 in the regulation of S phase transit time as well as in cell proliferation.

79 ysis and fluorescence detection and the fast transit times (as low as 10 ns) of the fluorescent molec

80 arent occupancy states exceeded the expected transit times assuming simple diffusion by orders of mag

81 The oral-cecal transit times at baseline for subjects in the methylnalt

82 IGE patients exhibited prolonged arterial transit time (ATT) in the left superior temporal gyrus.

83 ns, more rapid gastric-emptying and orocecal transit times, attenuated insulin and glucagon-like pept

84 --that newly arrived cargo exhibits a lag or transit time before exiting the Golgi.

85 in cell cycle regulatory gene expression and transit times between normal and chronic myeloid leukemi

86 power broadening, collisional broadening and transit time broadening.

87 , probiotics significantly reduced whole gut transit time by 12.4 h (95% CI: -22.3, -2.5 h) and incre

88 elevated cerebral blood volume and high mean transit time/cerebral blood flow and cerebral blood volu

89 in SM/ICC-GCKO mice, which had increased gut transit time compared with controls.

90 a, gastroparesis, prolonged gastrointestinal transit time, constipation and difficulty with defecatio

91 Transit time correlated directly with LV end-diastolic a

92 ended to take the heterogeneity of capillary transit times (CTH) into account.

93 rointestinal transit time (TGTT) and colonic transit time (CTT) were measured in mice lacking D2, D3,

94 as to determine normative ranges for colonic transit time (CTT), Patient Assessment of Constipation-S

95 d cells with various target cell ratios, the transit time delay increased approximately linearly with

96 Thus, from the transit time delay we can identify target cells and quan

97 correlation and compared the results to mean transit time derived using bolus tracking.

98 Gut transit time did not change in SM-GCKO or ICC-GCKO mice

99 However, transit time did not correlate strongly with age, body s

100 tions, calcium balance, and gastrointestinal transit time did not decrease as fiber intake increased.

101 ipid secretion and taurocholate (TC) biliary transit time during high ASBT activity.

102 had low cerebral blood flow, prolonged mean transit time, elevated cerebral blood volume and high me

103 effectiveness), and colonic motor function (transit time) examinations.

104 receptor (TCR)-independent factors to the LN transit time, exposing the divergent surveillance strate

105 Transit time flow (TTF) probes may be useful for predict

106 Two methods, transit time flow measurement and intraoperative fluores

107 h amniotic and vascular catheters and with a transit-time flow probe around a femoral artery.

108 h amniotic and vascular catheters and with a transit-time flow probe around a femoral artery.

109 A transit-time flow probe was placed on the ascending aort

110 otic and femoral vascular catheters and with transit-time flow probes around the contra-lateral femor

111 Coronary artery flow was measured with a transit time flowmeter during baseline, pharmacological

112 flow (RBF) was measured using an ultrasonic transit-time flowmeter and a non-cannulating V-shaped pr

113 ference was observed in mean cardiopulmonary transit time for SonoVue or Levovist (9.1 seconds +/- 2.

114 n was consistent with a longer half-ribosome transit time for the synthesis of apoB in MTP-inhibited

115 The slow diffusion also led to much longer transit times for barrier crossing, allowing transition

116 tein-coding sequence, consistent with longer transit times for ribosomes translating longer coding se

117 These results combined with longer transit times for the T = 4 capsids indicated that the c

118 lower arterial fraction and higher vascular transit time, fractional volume of the vascular space, a

119 Lymph transit time from hand to axilla, ttransit, was 9.6+/-7.

120 Aortic pulse wave transit time from the root of the subclavian artery to a

121 ir effects on sentinel node localization and transit times from injection to arrival at the sentinel

122 ity (BCVA), area of CNP, retinal fluorescein transit time (FTT), and an evaluation for rubeosis iridi

123 Total GI transit time, galactose absorption, zonulin levels in pl

124 in health, gastrointestinal processes (e.g., transit time, gastric acidity), medication use, and diet

125 minal ultrasound, and total gastrointestinal transit time (GITT) determined with radio-opaque markers

126 A prolonged gastric transit time has been recognized as a risk factor for in

127 The inverse of the hyperemic mean transit time has been shown to correlate with absolute f

128 found in the first 75% of capsule endoscopy transit time have a high probability of being found on o

129 Capillary transit time heterogeneity remained unchanged, suggestin

130 cited changes in capillary volume, such that transit time heterogeneity remained unchanged.

131 above baseline levels indicated hepatic vein transit time (HVTT).

132 ability, as determined by alterations in RBC transit time in a microfluidic channel assay, as well as

133 e laxation and reverse slowing of oral cecal-transit time in subjects taking high opioid dosages.

134 2)+/- lines also exhibit a faster cell cycle transit time in the absence of RA.

135 proliferation, which resulted from decreased transit time in the G(0)/G(1) phase of cell cycle.

136 Substitution of this marrow transit time in the heavy water analysis gave a better-d

137 The MS group showed prolonged mean transit time in the periventricular NAWM, as compared wi

138 on in tumors and normal tissue, and for mean transit time in tumors; however, permeability values did

139 rations of microbial metabolites and digesta transit time in woodrats (Neotoma spp.).

140 BC adhesion, but overswelling prolonged sRBC transit times in capillary-sized microchannels.

141 rated by a 3-fold increase in ribosomal mean transit times in cell-free extracts from hibernators (ac

142 Transit times in patients and control subjects were comp

143 Transit times in patients with heart disease, including

144 A new method to define and to measure transit times in the step mode ETOF experiments was deve

145 tributions of flow and capillary erythrocyte transit times in two segments of small intestine in anes

146 f curvature has a significant effect on cell transit time, in addition to minimum capillary radius an

147 H, stomach emptying kinetics, and intestinal transit time, in order to design a relevant set-up for t

148 blocked the 81% shortening of distal colonic transit time induced by CRF.

149 kly, and spending approximately 1/3 of their transit time interacting with MHCII on DC.

150 c acid, and 15% dairy fat), small-intestinal transit time, intestinal cholesterol absorption, biliary

151 ed to mouth-to-caecum (MCTT) and large bowel transit times (LBTTs) in 4 groups of 8 individuals: (1)

152 logy and includes such factors as intestinal transit time, length of remnant bowel, presence of intac

153 than did those on blood flow and tracer mean transit time maps (r approximately 0.6), likely as a res

154 he difference between lesion volumes on mean transit time maps and DW images, divided by DW lesion vo

155 rithm identifies hypoperfused tissue in mean transit time maps by simultaneously minimizing the mean

156 en predictions of the model and the measured transit times may be explained by lymphocytes undergoing

157 Transit times measured with MR imaging may help in discr

158 er, along with in vivo blood T1 and arterial transit time measurements.

159 PMN transit time (median) in group 1 (n = 11) was 3.34 ms, i

160 ates (hundreds per second), and single cargo transit times (milliseconds).

161 absolute cerebral blood flow (CBF), and mean transit time (MTT) (referenced to an arterial input func

162 e (BV), and lower (>0.30 and >0.39) for mean transit time (MTT) and permeability surface area product

163 Parameter maps for mean transit time (MTT) and plasma flow (PF) were evaluated q

164 The parenchymal mean transit time (MTT) is theoretically superior to other me

165 rain perfusion: hypoperfusion volume on mean transit time (MTT) map decrease >30% from baseline to 2-

166 ion (PV), distribution volume (DV), and mean transit time (MTT) of gadopentetate dimeglumine.

167 lomerular filtration rate (GFR) and the mean transit time (MTT) of the tracer for the vascular compar

168 n CBF, cerebral blood volume (CBV), and mean transit time (MTT) were determined between hemispheres i

169 Blood flow (BF), blood volume (BV), mean transit time (MTT), and capillary permeability-surface a

170 Blood flow (BF), blood volume (BV), mean transit time (MTT), and permeability-surface area produc

171 Blood flow (BF), blood volume (BV), mean transit time (MTT), and permeability-surface area produc

172 Distribution volume (DV), mean transit time (MTT), and portal fraction (PF) of blood in

173 e tissue blood flow (BF), blood volume, mean transit time (MTT), and vascular permeability-surface ar

174 Blood flow, blood volume, mean transit time (MTT), permeability-surface area product, e

175 blood volume (BV), blood flow (BF), and mean transit time (MTT), were calculated at the primary site.

176 meters, pulmonary blood flow (PBF), and mean transit time (MTT).

177 (CBF), cerebral blood volume (CBV), and mean transit time (MTT).

178 ing Blood Flow (BF), Blood Volume (BV), Mean Transit Time (MTT)] and permeability parameters [includi

179 eased renal vascular resistance (measured by transit time nanoprobes) and urinary excretion of kidney

180 w folders exhibit topological mechanisms and transit times nearly identical with those of their Go-li

181 y, and also agrees with the transition-state transit time observed in slower folding proteins by sing

182 These data are consistent with a ribosomal transit time of 3.2 min for serum-deprived cells and 1.6

183 ity imaging revealed a significantly shorter transit time of 4 hours for the D4 cells upon in vivo bl

184 ore label appeared at the skin surface and a transit time of 4-5 weeks.

185 minary study suggests that analysis of liver transit time of a bolus of ultrasound contrast agent pro

186 st duration was consistent with the expected transit time of a single molecule through the laser beam

187 t cells were retarded by the magnetic field; transit time of a target cell (bound with magnetic beads

188 x at a rate of approximately 1.7 mm/d with a transit time of approximately 6 days.

189 ing protein signaling axis is inhibited, the transit time of EGF receptor through early endosomes are

190 itogenic signals are enhanced due to delayed transit time of EGFR through early endosomes, and cells

191 ces endosomal maturation, which shortens the transit time of EGFR through early endosomes, thereby li

192 The transit time of fX activated on the reaction chamber was

193 letely explained by the approximately 30 min transit time of Pol II across the alpha2-Mlocus.

194 ftware, it is possible to calculate the mean transit time of room-temperature saline injected down a

195 The transit time of sucrose through a sieve tube is found to

196 ery after chemobleaching (FRAC) to probe the transit time of the Kir2.1 K+ channel to reach the cell

197 amplitude, change in volume, reflecting the transit time of the ligand through the protein, followed

198 00 msec was demonstrated, revealing arterial transit times of 750, 950, and 1100 msec to consecutive

199 In comparison, transit times of a nontarget cell remained nearly the sa

200 hod employs Node-Pore Sensing to measure the transit times of cells as they interact with a series of

201 ological systems have been demonstrated, the transit times of fertilizer N in the pedosphere-hydrosph

202 ytochalasin did not affect the mean cellular transit times of FITC-GC (2.8 and 2.5 minutes for contro

203 e reaction chamber was prolonged relative to transit times of nonreacting tracers or preformed fXa.

204 4 and 39 minutes per orbit; in addition, the transit times of the inner body display an alternating v

205 The inferred midnight transit times of the three bulges, using the rotation ra

206 stribution, residual water contents, crystal transit times) of clasts produced by key eruptions.

207 culiar, power-law logarithmic dependences of transit time on ligand concentration.

208 volume (SE = 80%; SP = 97%), Increased mean transit time on PCT was predictive of the tissue at risk

209 high amounts of dietary fiber do not change transit time or defecation frequency if they are already

210 ther flow characteristics, such as capillary transit time or RBC velocity, also vary significantly ov

211 e effect of TM(inh)-23 on baseline whole-gut transit time or time to diarrhea induced by castor oil.

212 s is the relative invariance of single cargo transit times out to large size (even as macroscopic tra

213 treatment (P = 0.03), prolonged fluorescein transit time (P = 0.0001), and the presence of some capi

214 lumes (P < 0.001, ANOVA) and delayed colonic transit times (P = 0.01, Kruskal-Wallis).

215 /IMR, where TmnBase referred to nonhyperemic transit time; PaBase and PdBase, the nonhyperemic aortic

216 al blood flow, distribution volume, and mean transit time) parameters were calculated by placing regi

217 lues were determined for esophageal transit (transit time, percentage emptying at 10 s), liquid-only

218 ermine tissue blood flow, blood volume, mean transit time, permeability, and hepatic arterial fractio

219 Blood flow, mean transit time, permeability, and hepatic arterial fractio

220 avitational effects) implied by the observed transit times permit the planetary masses to be measured

221 including gastric acidification, intestinal transit time, presence of gastric lipase, sample/digesti

222 divided by the inverse of the hyperemic mean transit time provides an index of microcirculatory resis

223 s, tautp, and the distribution of individual transit times, PTP(t).

224 iation between wearable limb BCG-based pulse transit time (PTT) and BP.

225 Pulse transit time (PTT) is being widely pursued for cuff-less

226 Pulse transit time (PTT) represents a potential approach for c

227 ll patients underwent assessments of colonic transit time (radiopaque markers); compliance, allodynia

228 that substrate molecules spend most of their transit time randomly moving in the central pore of the

229 older vs. young as indicated by a higher RBC transit time (RCTT) measured by blood filtrometry (RCTT:

230 A longer PMN pore transit time reflects increased PMN rigidity.

231 time ASL sequences to assess alterations of transit time, reproducibility and quantification of cere

232 nated by the deformability of cells, and the transit time required for the fully deformed cell to tra

233 blood flow, cerebral blood volume, and mean transit time, respectively.

234 significant retardation of small-intestinal transit times (resulting in increased cholesterol absorp

235 Probiotics may improve whole gut transit time, stool frequency, and stool consistency, wi

236 investigate the effect of probiotics on gut transit time, stool output, and constipation symptoms in

237 F(V), volume of distribution V(D), and blood transit time tau were determined.

238 F(V), volume of distribution V(D), and blood transit time tau.

239 Total gastrointestinal transit time (TGTT) and colonic transit time (CTT) were

240 r portal flow, distribution volume, and mean transit time than did the background liver (all P < .05)

241 We show that stiffer cells have longer transit times than less stiff ones and that cell size si

242 aphy allows determination of cardiopulmonary transit times that are significantly prolonged in heart

243 The high pH, simple gut structure, and fast transit times that typify caterpillar digestive physiolo

244 correlation function of these data indicated transit times that were consistent with the observed ele

245 the pulmonary microcirculation affect their transit time, their tendency to contact and interact wit

246 ntibody against TLR2 had prolonged whole gut transit times; their colonic LMMP had reduced total neur

247 a particular state is related to the average transit time through that state.

248 equence cleavage position that regulates its transit time through the endoplasmic reticulum and diffe

249 rom these carbohydrates during their limited transit time through the gut.

250 ubstrate in solution that is slower than the transit time through the membrane, a situation that can

251 sulting in significantly shortened leukocyte transit times through venules.

252 olesterol absorption caused small intestinal transit time to return to normal.

253 e oligonucleotides accelerated their S phase transit time to that of CD3-activated PBTs.

254 ipermissive temperatures, carboxypeptidase Y transit time to the vacuole was slower in Sec(-) cells c

255 out to calibrate the devices by relating the transit times to the known D values of Ru(NH3)6(2+) in a

256 and static images were analyzed to determine transit times to the sentinel node, the number of nodes

257 ing regulates EGFR signaling response by the transit-time to late endosomes where it is switched-off

258 hane anaesthesia with vascular catheters and transit-time ultrasonic flow probes around a carotid art

259 Direct PV transit-time ultrasonography (US) and fluorescent micros

260 19-24 kg) were instrumented chronically with transit time ultrasound flow probes on both external ili

261 s enter and leave the LN more slowly, with a transit time unaffected by the absence of MHCI molecules

262 robability for debris to reach the EIE, with transit times under 2 years.

263 women with intractable constipation and slow transit time underwent colectomy and 6 women who underwe

264 e-contrast MR imaging and that measured with transit-time US (mean difference, -3.5 mL/min/100 g; 95%

265 r volume flow consisted of measurements with transit-time US flowmetry.

266 positive correlation was found between mean transit time values and disability scales in patients wi

267 ed for both continuous and pulsed radiation; transit time values for the ion chambers included in thi

268 ntinuous monitoring by Kepler, the method of transit timing variations (TTVs) has blossomed as a new

269 a period P(b) = 33.6 days and exhibits large transit timing variations indicative of a perturber.

270 Here we report transit timing variations of the four planets in the Kep

271 y induced deviations from a constant period (transit timing variations) also shows no significant sig

272 The transit-time variations depend on the mass of the additi

273 in a factor of a few of systems that exhibit transit-timing variations (TTVs).

274 ed on gender differences in gastrointestinal transit time, visceral sensitivity, central nervous syst

275 The mean arterial transit time was 1538 msec +/- 123 (standard deviation)

276 Median transit time was 17.5 min (range, 1 min to 18 h) after i

277 ted by MTS-1, and the total gastrointestinal transit time was assessed by radiopaque markers and abdo

278 trol values by using two-tailed t tests, and transit time was correlated with standard LV functional

279 vascular volume, and the renal arteriovenous transit time was determined with an intravenous microbub

280 , interval from biopsy, or tumor location on transit time was found.

281 Transit time was influenced by breast size.

282 In 11 autoregulating preparations, proximal transit time was likewise unchanged from the control val

283 With six different volumes, bubble transit time was linearly related to volume (r=.91).

284 Median gastric transit time was lower after erythromycin compared to do

285 Total gut transit time was measured to monitor the functional cons

286 Mean colonic transit time was similar in both groups at baseline and

287 Arterial elastic modulus and pulse wave transit time were assessed using ultrahigh frequency ult

288 e (CBV), cerebral blood flow (CBF), and mean transit time were assessed with dynamic susceptibility c

289 e cerebral blood flow and tracer mean tissue transit time were computed, as were maps of apparent dif

290 men was traced, and the net transit area and transit time were noted.

291 higher arterial fraction and lower vascular transit time were observed for HCCs (P < 0.05).

292 Colon volume and transit times were assessed with CT scans and radiopaque

293 Transit times were calculated as the ratio of capillary

294 Transit times were measured.

295 Median small bowel transit times were similar in both groups (236 min versu

296 iolabeled meal, their gastric and intestinal transit times were studied with a gamma camera.

297 lf-life, but parameters, particularly marrow transit time, were poorly defined.

298 deformability is measured by evaluating the transit time when each individual RBC squeezes through a

299 host functions such as gastrointestinal (GI) transit time, which in turn can further affect the micro

300 e rolling through E-selectin results in long transit times, which are essential for efficient leukocy