ライフサイエンスコーパス: wall thickness

1 n length, 3.6 mm outer diameter, and 200 mum wall thickness.

2 Fc showed improved fistula patency with less wall thickness.

3 n of inactive Eph-B4-Y774F increased fistula wall thickness.

4 out mice showed reduced fistula diameter and wall thickness.

5 phil and macrophage infiltration, and airway wall thickness.

6 liably assesses electrode-tissue contact and wall thickness.

7 ased aortic root elastin disorganization and wall thickness.

8 functional assessments of LV mass (mLV) and wall thickness.

9 as the product of Young's modulus and aortic wall thickness.

10 d increasing with airspace fraction and cell wall thickness.

11 tic (P < 0.001; multiple r(2) = 0.55) airway wall thickness.

12 n area), while US was used to assess carotid wall thickness.

13 narrowing, and plaque was not related to RCA wall thickness.

14 P < .01) were positively correlated with RCA wall thickness.

15 concentric or eccentric based on LV relative wall thickness.

16 ion and a partial rescue of left ventricular wall thickness.

17 e local pulse wave velocity and the arterial wall thickness.

18 ssion in PTFE tubes improves with increasing wall thickness.

19 septum thickness, and mean left ventricular wall thickness.

20 maintaining normal left ventricular mass and wall thickness.

21 eased number of plaques or abnormal arterial wall thickness.

22 urements of cell turgor, cell geometries and wall thicknesses.

23 sinophil group had slightly increased airway wall thickness (0.02 mm difference, p=0.032), higher St

24 .2 versus 6.0 cm; P=0.001), greater relative wall thickness (0.41 versus 0.35 mm Hg; P=0.009), and lo

25 vs healthy, 22 mL [15-25] mL; p < 0.001] and wall thickness (0.45 mm [0.15 mm] vs 0.26 mm [0.08 mm];

26 95+/-25 g/m2; P<0.0001), increased relative wall thickness (0.61+/-0.15 versus 0.50+/-0.11; P<0.0001

27 ian; range, 10%-70%), and increased relative wall thickness (0.75 +/- 0.19).

28 RF status was associated with higher carotid wall thickness (0.99+/-0.11 mm) and lipid-rich necrotic

29 .004) with stable LV wall thickness (DeltaLV wall thickness, 0.3+/-0.1 mm; P=0.63).

30 ion, the PET/MR index was defined as (0.87 x wall thickness) + (1.97 x edema) + (0.83 x ulceration) +

31 attributable to LV wall thickening (Delta LV wall thickness, 1.1+/-0.4 mm; P=0.004) with stable LV ch

32 6), and hazard ratio per 1 SD increase in RV wall thickness=1.37 (95% CI, 1.16-1.61; P<0.001).

33 crystalline carbides (macroporous, ~10-20 nm wall thickness, ~10 nm crystallinity) show high energy s

34 /-3.1 mm; P<0.0001), greater septal systolic wall thickness (12.6+/-3.2 versus 11.2+/-2.1 mm; P=0.03)

35 at baseline (median maximal left ventricular wall thickness, 13 mm; interquartile range, 8-21 mm), an

36 ed patients had a small reduction in maximum wall thickness (14.8+/-5.9 versus 14.4+/-5.7 mm; P=0.028

37 (2) , P = 0.03) and maximal left ventricular wall thickness (16 +/- 1 vs. 8 +/- 1 mm, P < 0.001) but

38 women; mean age, 50.1+/-13.5 years; maximal wall thickness, 16.7+/-3.7 mm) had CT included in histol

39 d left ventricular (LV) hypertrophy (maximal wall thickness 18 +/- 5 mm vs. 24 +/- 6 mm; p < 0.001) a

40 trophy became less marked over time (maximum wall thickness: 20+/-6 versus 18+/-5 versus 17+/-5 mm, P

41 yopathy matched for demographics and maximum wall thickness (60.1+/-14.8 years, 85% male), and 20 hyp

42 nal boron nitride microtubes with nanoscopic wall-thickness, acting as an artificial solid fog, capab

43 ficantly reduced wall thickness and relative wall thickness after 2 weeks of therapy.

44 all and interventricular septal and relative wall thicknesses (all P<0.05), reduced ejection fraction

45 iomyopathies with increased left ventricular wall thickness (amyloidosis, septal HCM, and apical HCM)

46 the Limberg index on the basis of (a) bowel wall thickness and (b) size and extent of Doppler signal

47 posomes was also associated with reduced AVF wall thickness and both M1- and M2-type macrophages; how

48 interstitial fibrosis and increases anterior wall thickness and cardiac contractility after infarctio

49 line hypertension, mildly increased arterial wall thickness and cardiac hypertrophy.

50 atal TNF inhibition normalizes the increased wall thickness and cardiomyocyte hypertrophy in vivo.

51 ict the effects of intracellular INH on cell wall thickness and cell viability.

52 remodeling after MI, maintaining ventricular wall thickness and contractile function.

53 In a mouse AVF model, Akt1 regulates fistula wall thickness and diameter.

54 correlation between laryngeal and subglottic wall thickness and duration of intubation, suggestive of

55 Prior models often assume uniform aortic wall thickness and fusiform geometry.

56 s, there was an association between arterial wall thickness and global cognitive score (B = -0.176, P

57 The myocardial wall thickness and image intensity ratio defined as left

58 and above extracellular volume fraction, LV wall thickness and indexed LV mass.

59 small airways revealed increased mean airway wall thickness and inflammatory cell counts in lungs fro

60 ers, have higher ejection fraction, relative wall thickness and left atrial volume, and worse New Yor

61 ar, early disease controls increased maximum wall thickness and left ventricular mass index (9.8+/-2.

62 arotid atherosclerosis (overall mean carotid wall thickness and lipid-rich necrotic core) at follow-u

63 osis, ATTRwt was characterized by greater LV wall thickness and lower ejection fraction.

64 ic exposure was related to an increase in LV wall thickness and LV hypertrophy in young American Indi

65 Left ventricular (LV) wall thickness and LV mass were greater in men (P<0.001)

66 early atherogenesis as measured by coronary wall thickness and may be important targets for CVD risk

67 mean of 3.5 years, left ventricular relative wall thickness and mean left ventricular wall thickness

68 tachycardia (nsVT), maximum left ventricular wall thickness and obstruction were significant prognost

69 Coronary wall thickness and plaque were evaluated in all epicardi

70 less elastin as well as concurrent increased wall thickness and reduced lumen diameter (all P < 0.05)

71 ophic cardiomyopathy patients with increased wall thickness and reductions in both circumferential an

72 se of adaptation characterized by increasing wall thickness and regression in LV twist.

73 sfunction in HFpEF, it significantly reduced wall thickness and relative wall thickness after 2 weeks

74 The increases in RV wall thickness and RV dimension were more evident when c

75 were measured at the basal free wall, and RV wall thickness and RV internal dimension were measured i

76 creased E/E' (P<0.001), and greater relative wall thickness and septal thickness (both P<0.05); lower

77 the following 4 categories based on relative wall thickness and sex-specific cutoffs for the LV mass

78 is, apoptosis, and maintenance of xylem cell wall thickness and strength.

79 Conclusion Maximum colonic wall thickness and subjective severity of acute divertic

80 Bead appearance, size, wall thickness and surface characteristics did not chang

81 ic resonance to investigate left ventricular wall thickness and the presence of asymmetrical hypertro

82 er asthma severity and was related to airway wall thickness and ventilation defects.

83 ensions and areas of heart chambers, cardiac wall thickness and wall velocities.

84 s associated with increased intima and total wall thickness and with modest decrease of inner lumen d

85 a thin polypropylene hollow fiber (50 mum of wall-thickness and 280 mum i.d.), this setup allowed for

86 mportant information about catheter contact, wall thickness, and ablation lesion formation.

87 maging variables, including airway diameter, wall thickness, and air trapping, have been found to be

88 sted mean values of LVM, LVM index, relative wall thickness, and ankle-brachial index (all P <0.01).

89 x, normalized systolic volume, normalized LV wall thickness, and average filling rate differed by gro

90 wheat glumes including their structure, cell wall thickness, and chemical composition.

91 MRI was used to measure scar, perfusion, wall thickness, and contractility at baseline, at 3, 6,

92 d cardiomyocytes, increased left ventricular wall thickness, and decreased fractional shortening.

93 increased systolic BP, increased myocardial wall thickness, and elevated expression of mRNAs of seve

94 myogenic vasoconstriction, increases medial wall thickness, and elicits no change in the mechanical

95 quantitative evaluation of emphysema, airway wall thickness, and expiratory gas trapping.

96 d included left ventricular (LV) size, mass, wall thickness, and hypertrophy patterns and function; l

97 measure proximal right coronary artery (RCA) wall thickness, and multidetector computed tomography (C

98 oplastic lesions showed higher inflammation, wall thickness, and PBG activation compared to nonneopla

99 ventricular septal wall thickness, posterior wall thickness, and relative wall thickness at month 18

100 (GLS), global circumferential strain (GCS), wall thickness, and short-axis diameter, was derived fro

101 interactions between intracellular INH, cell wall thickness, and the rate of cell wall synthesis.

102 mean left ventricular fractional shortening, wall thickness, and thickness-to-dimension ratio z score

103 There was no correlation with age, maximal wall thickness, and type of gene mutation.

104 for elongation rate, osmotic pressure, cell wall thickness, and wall mechanical compliances and coup

105 m in improving cardiac function, ventricular wall thickness, angiogenesis, cardiac muscle survival, a

106 l beads of diameter approximately 350mum and wall thickness approximately 65mum.

107 of annular protofibrils revealed a constant wall thickness as a common feature.

108 was confirmed by marked reduction in airway wall thickness as well as eosinophil and neutrophil infi

109 and echocardiography showed increased heart wall thickness as well as increased heart rate.

110 reatment entropy and uniformity with maximal wall thickness assessment, respectively, performed bette

111 s 36%; P = .008), and an increased posterior wall thickness at 1 year (5.4 mm vs 4.4 mm; P = .01) tha

112 y, but only CC1 treatment preserved anterior wall thickness at 18 weeks.

113 CCs improved left ventricular anterior wall thickness at 4 weeks post injury, but only CC1 trea

114 ness, posterior wall thickness, and relative wall thickness at month 18 compared with placebo.

115 Airway wall thickness (AWT) is affected by both environmental a

116 to ventricles of reduced size and increased wall thickness because of excessive trabeculae, whereas

117 rophic cardiomyopathy (HCM) and increased LV wall thickness because of systemic hypertension.

118 RF status was associated with higher carotid wall thickness (beta-coefficient, 0.015; 95% CI, 0.004-0

119 48), reduced concentricity (beta=-0.50), and wall thickness (beta=-0.28, P<0.0001 for all).

120 ith wall thickness >10 mm, 75% of cases with wall thickness between 3-10 mm and none in normal wall t

121 ents with ATTRwt had a statistically greater wall thickness but lesser mortality than those with AL a

122 ted for CT morphometric indices of bronchial wall thickness (BWT) and wall area percentage (WAP).

123 values of LV mass (LVM), LVM index, relative wall thickness, CAC, and cIMT were increasingly abnormal

124 sted mean values of LVM, LVM index, relative wall thickness, CAC, ankle-brachial index, and cIMT were

125 tal models explored the addition of variable wall thickness, calcifications, and intraluminal thrombu

126 he establishment of a steep gradient in cell wall thickness can compensate for the variation in tip c

127 Wall thickness can vary greatly among species, with Gram

128 e and decreases in left ventricular anterior wall thickness, cardiac contractility, tetrahydrobiopter

129 ure, lung aeration measured via CT, alveolar wall thickness, cell infiltration, and surfactant protei

130 proteins with nonoverlapping functions: cell wall thickness, cell wall homogeneity, and the pattern a

131 re expressed as a function of the changes in wall thickness, chamber diameter and volume, ventricular

132 E2A changes correlated with wall thickness changes (in vivo r(2) = 0.75; in situ r(2

133 y associated with biventricular dilation and wall thickness changes.

134 aortic walls from HF+LVAD had an increase in wall thickness, collagen, and smooth muscle content acco

135 ed by patient, and adjusting for left atrial wall thickness, conduction velocity was associated with

136 sa and Pseudotsuga menziesii, including cell-wall thickness (CWT) and lumen area (LA), along with the

137 lume, 9+/-3 mL/m(2); P=0.004) with stable LV wall thickness (DeltaLV wall thickness, 0.3+/-0.1 mm; P=

138 PEM microchambers "cap" and "wall" thickness depend on the number of PEM bilayers, wh

139 and sham mice (n = 22, each) had similar LV wall thickness, diameter, and ejection fraction (59.6% v

140 In those who developed asymmetry, the wall thickness/diastolic volume ration remained normal (

141 hickness (RWT), defined as 2 times posterior wall thickness divided by the left ventricular (LV) dias

142 d elongation, and reduced root epidemic cell wall thickness due to decreased cellulose synthesis.

143 on offspring growth, adiposity, and arterial wall thickness during infancy.

144 Better preprocedural appreciation of cardiac wall thickness, early echocardiographic diagnosis, and s

145 The two groups differed regarding bowel wall thickness, echogenicity, and perfusion in sonograhy

146 eters studied include capillary material and wall thickness, electrode spacing and length, Faraday sh

147 ively in order to assess left ventricle (LV) wall thickness (full width at half maximum of the medial

148 ac end points included mean left ventricular wall thickness, global longitudinal strain, and N-termin

149 Patisiran decreased mean left ventricular wall thickness, global longitudinal strain, N-terminal p

150 ith greater LGE heterogeneity ( P<0.001) and wall thickness gradient ( P<0.001) exhibited slower CV.

151 of LGE in the local neighborhood of 5 mm and wall thickness gradient as SD within 5 mm.

152 an of CV per unit change (LGE heterogeneity, wall thickness gradient).

153 thinning, high LGE heterogeneity, and a high wall thickness gradient.

154 This activity is required to maintain cell wall thickness gradients that enable tip-biased diffuse

155 ients with severe LV hypertrophy, defined as wall thickness greater than 1.5 cm.

156 dial disease defined by cardiac hypertrophy (wall thickness >/=15 mm) that is not explained by abnorm

157 to 1.97 per decade; p = 0.001), and relative wall thickness >0.42 (HR: 2.01; 95% CI: 1.86 to 2.33; p

158 us mucosal lining was seen in all cases with wall thickness >10 mm, 75% of cases with wall thickness

159 and compared with ATH with left ventricular wall thickness >13 mm.

160 ed patients with a baseline left ventricular wall thickness >=13 mm and no history of hypertension or

161 laxation to quantitate subcellular values of wall thickness (h) and bulk elastic moduli (Y) in large

162 ith ultra-smooth surfaces and sub-micrometer wall thicknesses have been fabricated and have been show

163 synthesis to make ~140 nm length and ~15 nm wall thickness hollow Au-Ag nanoboxes with smooth and ro

164 r cavity size (HR, 1.1 [95% CI, 1.0-1.3] and wall thickness (HR, 1.3 [95% CI, 1.1-1.4]), left ventric

165 gadolinium enhancement (LGE) and myocardial wall thickness in a swine model of healed left ventricul

166 ing birth weight, birth length, and arterial wall thickness in early childhood, but not adiposity or

167 n produced cardiac hypertrophy and increased wall thickness in MyBPC(PKA-) and DBL(PKA-) mice, and in

168 rrence were determined to be maximum colonic wall thickness in the inflamed segment (hazard ratio [HR

169 The difference in maximum wall thickness in the inflamed segment (HR, 1.05 per mil

170 to determine the involved segments, maximum wall thickness in the inflamed segment, severity of dive

171 Cell lumen diameter and cell wall thickness in the pre-scarring fossilized wood show

172 MRC showed increased colon wall thickness in TNBS group compared to controls (p < 0

173 Radial artery intima and total wall thickness increased 3 hours after puncture and pers

174 Left ventricular myocardial wall thickness increased in both end diastole (11.5 +/-

175 ion and speckle-tracking imaging worsened as wall thickness increased, whereas apical LS was preserve

176 LVM and relative wall thickness increased, whereas prevalence of normal g

177 show reduced vasoactivity, increased medial wall thickness, increased calcification and apoptosis re

178 s associated with reduced pulmonary vascular wall thickness, increased lung levels of ANP (atrial nat

179 monstrated increased interventricular septal wall thickness (interventricular septum in diastole Z va

180 Incorporating variable wall thickness, intraluminal thrombus, and calcification

181 The following features were studied - wall thickness, intramural nodules, pericholecystic stra

182 Thus cell wall thickness is maintained in a dynamic equilibrium (D

183 ities are present even when left ventricular wall thickness is normal.

184 on), patisiran reduced mean left ventricular wall thickness (least-squares mean difference +/- SEM: -

185 regression analysis, LV mass index, relative wall thickness, left atrial volume index, and decelerati

186 ns in the index of regional work by pressure-wall thickness loop area (121 +/- 45 to 73 +/- 37 mm x m

187 iate analysis: maximum appendiceal diameter, wall thickness, loss of mural stratification, hyperemia,

188 In the challenging subgroups (maximum wall thickness </=16 mm and EF>55%), EF global longitudi

189 n the gray zone of mild hypertrophy (maximum wall thickness </=16 mm) or normal ejection fraction (EF

190 ); ratio of maximal wall thickness:posterior wall thickness <1.46 (0), 1.47 to 1.70 (1), 1.71 to 1.92

191 remote regions, wall thinning+ as those with wall thickness <2 SD than the mean of remote regions.

192 sarcomere mutation carriers with normal echo wall thickness (<12 mm or z score <2.5 in children) unde

193 Wall thickness/lumen ratio was increased, lumen diameter

194 ed with lower left ventricular (LV) mass, LV wall thickness, LV diastolic dimension, and left atrial

195 ar (LV) end-diastolic diameter, LV posterior wall thickness, LV mass (LVM), and LV mass index (LVMI),

196 sional echocardiography to quantify relative wall thickness, LV mass, and diastolic and systolic LV f

197 2) to investigate the correlation between LV wall thickness (LVWT) and other disease features in muta

198 resent study is to examine the sinus lateral wall thickness (LWT) of atrophic posterior maxilla (<10

199 osis was measured by quantifying mean aortic wall thickness (MAWT) and aortic plaque burden.

200 The chamber wall thickness measured by NFUS correlated well with int

201 Wall thickness measurements were made at 222 sites (excl

202 ernotomy performed and miniature sensors for wall-thickness measurements attached to the epicardium a

203 and separable influence on the experimental, wall-thickness measurements.

204 ding left ventricular volumes, mass, maximal wall thickness, morphology, left atrial volume, and mitr

205 of sudden death and left ventricular maximal wall thickness (MWT), but there are few data in patients

206 ified the diameter of the lumen and arterial wall thickness obtained during autopsy.

207 al [CI]: 1.03, 1.21; P = .006) and abdominal wall thickness (odds ratio, 2.50; 95% CI: 1.32, 4.74; P

208 Higher left ventricular wall thickness (odds ratio, 2.61; CI, 1.04-6.57; P=0.04)

209 from normal pregnancy were left ventricular wall thickness of >/=1.0 cm, exaggerated reduction in E/

210 ment, as well as of hypertensive patients LV wall thickness of >15 mm (P<0.0001).

211 LV was hypertrophied with maximum wall thickness of 22+/-4 mm and nondilated (end-diastoli

212 Through combination of compartments having wall thickness of 600 or 1200mum, composed of promptly s

213 The ultra-thin FEP-foil cuvettes have a wall thickness of about 10-12 um.

214 disease was measured by using the CT airway wall thickness of airways with an internal perimeter of

215 s index (LVMI) >=95 g/m(2.7) or (2) relative wall thickness of LV >=0.42.

216 Airway wall thickness of male and female human smokers at risk

217 treated with placebo had an increased medial wall thickness of peripheral pulmonary vessels (41.9 +/-

218 The wall thickness of the MGNT arrays also increased while t

219 The size and wall thickness of the microcapsules are precisely contro

220 ts with intestinal murmurs had greater bowel wall thickness of the sigmoid and descending colon, sugg

221 Structures were made with wall thicknesses of 5 to 60 nanometers and densities of

222 s in starch granules, lipid bodies, and cell walls thickness of the SAM in C. lanceolata during the t

223 her left ventricular end-diastolic posterior wall thickness or end-diastolic ventricular septal thick

224 n be maintained in ventricles with increased wall thickness or reduced diameter, despite reductions i

225 be compensated by a small increase of GCS or wall thickness or reduced diameter.

226 can vary their growth rate without changing wall thickness or strain by maintaining a constant ratio

227 persistent periapical radiolucency and root wall thickness ( P = 0.02).

228 the alveolar ridge (P = 0.007) and in buccal wall thickness (P = 0.003).

229 cant even after correcting for LGE, ECV, and wall thickness (p = 0.036).

230 thickness between 3-10 mm and none in normal wall thickness (p=0.03).

231 diastolic volume (P<0.0001 for each) and not wall thickness (P=0.21).

232 R], 1.07 per every millimeter of increase in wall thickness; P < .001), presence of a complication (H

233 pretreatment texture parameters and maximal wall thickness performed better in survival models than

234 t study suggests that increased gall bladder wall thickness, pleural effusion, ascites, hepatomegaly,

235 +/-0.4 mm, P=0.017), interventricular septal wall thickness, posterior wall thickness, and relative w

236 ); morphology category (5); ratio of maximal wall thickness:posterior wall thickness <1.46 (0), 1.47

237 t bladder, using cryostat sections and whole wall thickness preparations.

238 re associated with increased rate of carotid wall thickness progression and risk of new plaque format

239 ntricular mass ( r=-0.79; P<0.0001), maximum wall thickness ( r=-0.79; P<0.0001), Sokolow-Lyon Index

240 (indexed LV mass, r=0.32, P=0.01; maximum LV wall thickness, r=0.34, P=0.009; number of segments>/=15

241 Wall thickness ranged from 0.9 mm to 3.81 mm at T1 and 0

242 The mean bowel wall thickness ranged from 1.2 to 3.2 mm in the control

243 tegy is largely based on the control of cell wall thickness rather than fluctuations in cell wall mec

244 ersus 3 [19%]; P<0.001), and basal to mid LV wall thickness ratio >1.5 (22 [61%] versus 4 [25%]; P=0.

245 ening LV function correlated with increasing wall thickness regardless of pathogenesis.

246 was increased, lumen diameter decreased, but wall thickness remained unchanged in IUGR placentas.

247 mass index, relative, septal, and posterior wall thickness, respectively.

248 By multivariate analysis increased relative wall thickness (RWT) [HR 6.70; 95% CI 2.45-18.30), older

249 Relative wall thickness (RWT), defined as 2 times posterior wall

250 .001), LV mass (sbeta = 0.22; P < .001), and wall thickness (sbeta = 0.27; P < .001) were positively

251 essment of left ventricular volume and mass, wall thickness, segmental wall thickening percent, segme

252 ple leaf (S(mes)) and M cell (including cell wall thickness) structural traits.

253 tation carriers with normal left ventricular wall thickness (subclinical HCM; n=28), and healthy cont

254 iomyopathies with increased left ventricular wall thickness such as cardiac amyloidosis, septal hyper

255 atal densities (SD(aba) ) and mesophyll cell wall thickness (T(CW) ).

256 stress MBF was independently associated with wall thickness, T2, extracellular volume fraction, and l

257 tramural nodules, pericholecystic stranding, wall thickness, THAD, fat in gallbladder wall, cholelith

258 ities, and a significant increase in cardiac wall thickness that was accompanied by disrupted myofibr

259 psoidal model, which considered varying cell wall thickness, to obtain the dielectric properties of c

260 As a result, LV end-diastolic wall thickness-to-chamber radius (h/R) ratio increased,

261 ion experiments revealed that optimizing the wall thickness-to-radius ratio of the tubes can suppress

262 ; 95% CI, 104.6-108.0 g/m2) compared with LV wall thickness (unadjusted mean, 10.5 mm; 95% CI, 10.3-1

263 African American athletes had increased LV wall thickness (unadjusted mean, 11.2 mm; 95% CI, 11.1-1

264 of the pore-size distribution and the filter wall thickness under steady-state as well as transient,

265 We computed wall thickness, wall/cavity contrast, and contrast-to-no

266 the primary cohort, maximal left ventricular wall thickness was 17+/-4 mm for adults and Z score 7.0+

267 Maximum left ventricular wall thickness was 18 +/- 8 mm, and left ventricular eje

268 The maximum left ventricular wall thickness was 22.9 +/- 8.7 mm and left ventricular

269 Maximal LV wall thickness was 9.5 mm +/- 1.4, 9.8 mm +/- 2.2, and 1

270 he ratio of inner fat core diameter to outer wall thickness was greater than 1.0 in all ileocolic int

271 ventricular diameter as right ventricle free wall thickness was increased and an increase in tricuspi

272 lar magnetic resonance, the left ventricular wall thickness was measured in all 17 segments and a nor

273 LV wall thickness was not significantly different among all

274 Considerable variation in wall thickness was observed across the ventricle with pr

275 The wall thickness was significantly decreased (P < 0.05) wi

276 RCA vessel wall thickness was significantly increased in HIV-infect

277 ar vertebrae reduced vertebral body area and wall thickness were accompanied by a proportionate reduc

278 lthough CMR measurements of left ventricular wall thickness were approximately 19% lower than echo.

279 ar ejection fraction, and increased relative wall thickness were associated with limited survival of

280 ircumference >/=102 cm or increased parietal wall thickness were associated with LSM failures when us

281 -derived metrics for emphysema and bronchial wall thickness were calculated.

282 al pulse wave velocity and the mean arterial wall thickness were determined in the ascending and the

283 ive wall thickness and mean left ventricular wall thickness were independent predictors of VTE.

284 Blood pressure (BP) and myocardial wall thickness were measured in male and female adult of

285 Intestinal blood flow and bowel wall thickness were measured using ultrasound.

286 , internal ventricular dimension, and septal wall thickness were not significantly different between

287 on, femoral length and cortical diameter and wall thickness were reduced, the weakening of the calcif

288 patients, the overall vascular diameter and wall thickness were statistically significantly larger w

289 r, interventricular septum, and LV posterior wall thickness, were positively and significantly relate

290 RV remodeling, as indicated by increased RV wall thickness, were the 2 pathophysiologic markers most

291 ition of PLA allowing for a decrease in cell wall thickness when MCF was added.

292 romoters, PtrMYB152 increased secondary cell wall thickness, which is likely caused by increased lign

293 LS treatment led to an increase in cell wall thickness, whilst the quantity and sugar compositio

294 ritoneal injections of rapamycin reduced AVF wall thickness with no change in diameter.

295 Control rabbits showed normal wall thickness with no presence of plaque tissue composi

296 ght to compare maximal left ventricular (LV) wall thickness (WT) measurements as obtained by routine

297 performance of absolute wall motion (WM) and wall thickness (WT) measurements for the detection of my

298 Luminal area and wall thickness (WT) of third- and fourth-generation airw

299 CT measurement of airway wall thickness (WT-Pi10) was used to assess airway remod

300 in patients with DCM, and a higher posterior wall thickness Z-score was the sole risk factor identifi