ライフサイエンスコーパス: wet weight

1 lly relevant concentrations (100-800 pmol/g (wet weight)).

2 variation in energy density (energy per unit wet weight).

3 me period (72 h C(algae)/C(water): 2200 L/kg wet weight).

4 wet weight) and (134)Cs (18.2-356 mBq/kg of wet weight).

5 measured by changes in body weight and ileal wet weight.

6 human muscle as small as approximately 10 mg wet weight.

7 -deoxyuridine labeling index and the uterine wet weight.

8 the maximum allowable level of 0.5 mg kg(-1) wet weight.

9 l of this material is 1168 +/- 278 ng/g worm wet weight.

10 cifically contributed toward maintaining gel wet weight.

11 at an average annual rate of -14.9 pg g(-1) wet weight.

12 38 (char), and 9.9 +/- 5.9 (trout) ng g(-1) wet weight.

13 y standards (EQS) for biota are expressed as wet weight.

14 e total Hg (tHg) concentration of 0.77 mg/kg wet weight.

15 ish species ranged from 0.021 to 0.568 mug/g wet weight.

16 ts and showing concentrations up to 16 mug/g wet weight.

17 and degradates ranged from 0.36 to 8.0 ng/kg wet weight.

18 or congeners ranged from 0.11 to 170.42 ppb, wet weight.

19 roponin C (TNC) molecules, 33.8 mumol per kg wet weight.

20 d amount of collagen normalized to construct wet weight.

21 A, ranging from 0.7 to 4.2 nmol.min(-) (1).g wet weight(-1) (slope = 0.98, r(2) = 0.94).

22 ucose uptake was 0.61+/-0.08 micromol x g of wet weight(-1) x 30 min(-1) (mean+/-SEM).

23 t control levels (0.6+/-0.05 micromol x g of wet weight(-1) x 30 min(-1)), compared with hearts with

24 ificantly lower (0.42+/-0.05 micromol x g of wet weight(-1) x 30 min(-1); P</=0.05).

25 concentrations ranging from 1.5 to 5 nmol.g wet weight-(1).

26 The mean TSC for MIs (59 micromol/g wet weight +/- 10) was 30% higher than that for noninfar

27 lucosyl unit) concentration was 38.1 mmol/kg wet weight+/-14.4.

28 ty, 3,6-bis-(GSyl)TBHQ increased the bladder wet weight 2-fold and caused severe hemorrhaging of the

29 and border zone (for all samples n=60, mean wet weight 2.037+/-0.046 mg).

30 iation for the test, 36 mmol per kilogram of wet weight +/- 2 [range, 34-37 mmol/kg]; for the retest,

31 ights (11.2%, n = 74 retina pairs) than with wet weights (20.5%, n = 93 retina pairs).

32 ielded a total [Na] value of 28.4 mmol/kg of wet weight +/- 3.6 (SD) in normal muscle, consistent wit

33 and was found to be 8.6 mmol per kilogram of wet weight+/-3.1 (range, 3.8-17.6; n=44).

34 infarcted (remote) LV regions (45 micromol/g wet weight +/- 5, P < .001) and that for healthy control

35 elded a total creatine value of 36.2 mmol/kg wet weight +/- 5.0, consistent with prior biopsy data.

36 a decrease (P = < 0.001, both cases) in gel wet weight (53% versus 82%, 100 U/gel; 57%, versus 86%,

37 for tissue adjacent to the MI (50 micromol/g wet weight +/- 6) was intermediate between that for the

38 U/gel) resulted in a slight reduction in gel wet weight (90% versus 96%, P = < 0.001) and depolymeriz

39 th intestinal failure, increasing intestinal wet weight absorption and reducing diarrhea.

40 ng an average loss of 30% in skeletal muscle wet weight and a 50% decrease in myofiber density.

41 ed tumors was reflected by a 29% increase in wet weight and a 58% increase in volume compared with co

42 bining extracellular diffusion analysis with wet weight and dry weight measurements.

43 ation of hypertrophy measured by both muscle wet weight and fiber cross-sectional area occurred in sa

44 ounds (TICs), ranged from 0.05 to 35.03 ng/g wet weight and from 0.03 to 3.32 muM in tuna lipid.

45 fish levels ranged from 0.16 to 138.29 ng/g wet weight and lipid-normalized concentrations from 0.1

46 l content in cells) was normalized to muscle wet weight and protein concentration.

47 as determined by assaying for a reduction in wet weight and proteoglycan content after 3 days of cocu

48 hat proteins constitute 1.24% of the biofilm wet weight and that the compared methods varied in their

49 L/M/S tumor wet weight and volume increased by 1.6- and 2.4-fold, re

50 ers in mothers ranged from 897 to 13620 ng/g wet weight and were associated with altered adipose tiss

51 For both diets, the urogenital wet weights and lymph node wet weights in the 20-mg/kg t

52 concentrations of (137)Cs (234-824 mBq/kg of wet weight) and (134)Cs (18.2-356 mBq/kg of wet weight).

53 s in the variety Kale (13.3 +/- 0.58 mg/100g wet weight) and Cherry plum (1.96 +/- 0.28 mg/100g) for

54 il (6.48 +/- 1.82 and 1.54 +/- 0.90 ng g(-1) wet weight) and corn plants (2.55 +/- 2.61 and 31.1 +/-

55 creased from the initial study year (31 ng/g wet weight) and peaked around the late 1990s, followed b

56 d 0.6 (range 0.21-1.43) mg BCFA per g natto (wet weight) and was highly variable.

57 arly time points using the myeloperoxidase, %wet weight, and %contraction band necrosis assays; trans

58 otein concentration was normalized to muscle wet weight, and citrate synthase activity (standard meas

59 quired for proteoglycan degradation, loss of wet weight, and macrophage infiltration of cocultured di

60 cle tissue ranged from 1.10 to 58.5 ng g(-1) wet weight, and perfluorocarboxylic acids (PFCAs) were d

61 tivities in mammary gland morphology/uterine wet weight assay in ovariectomized rats.

62 effects of estradiol benzoate in the uterine wet weight assay using immature rats.

63 a pregnancy maintenance assay and a uterine wet weight assay, the two eutomers displayed potent prog

64 cetyl aspartate (NAA) concentration (mmol/kg wet weight), assessed by cerebral MR imaging and thalami

65 0.15 versus 1.5 +/- 0.10 mumol/min per gram wet weight at 1.25 minutes, P < .01).

66 ollected for biochemical analysis of biofilm wet weight (biomass), protein concentration, soluble (S-

67 titution showed significantly decreased lung wet weight, bronchoalveolar lavage fluid (BALF) lactate

68 CDD cotreatment inhibited EE-induced uterine wet weight by 37, 23, and 45% at 12, 24, and 72 h, respe

69 e converted to absolute concentrations (g/kg wet weight) by using water as an internal reference.

70 +/- 0.30 compared with 2.40 +/- 0.33 mmol/kg wet weight; change: 0.53 +/- 0.21 mmol/kg wet weight, P

71 (PFNA) was the dominant PFCA (up to 640 ng/g wet weight) closely followed by the C10 and C11 homologu

72 0 mug/g mean (0.08 mug/g SD) length-adjusted wet weight concentration), and averaged more than double

73 The mean wet weight concentrations of PCB-153 were ~3-5 times hig

74 rized; when digested with 100 U/gel, the gel wet weight decreased (to 57% of original wet weight vers

75 Kidney wet weight, DNA, and protein all were significantly high

76 The increase in kidney wet weight, DNA, and protein was significantly lower in

77 Wet weights, DNA content, and protein content were quant

78 The water content, defined as (wet weight-dry weight)/wet weight, of a typical isolated

79 nd WT mice after MI (P=NS), whereas the lung wet weight/dry weight ratio was increased in the KO mice

80 Wet weight/dry weight ratios (WW/DW) and histologic scor

81 ed to high CO2 had decreased skeletal muscle wet weight, fiber diameter, and strength.

82 +/- 24 (standard deviation) (n = 8) ng/g of wet weight for noncoastal condors, and simulations predi

83 etection ranged from 0.01 to 1.01 mug g(-1) (wet weight) for all analytes except for methyl paraben.

84 ors ranged from 1.3, 3.7, 4.0, and 4.4 L/kg (wet weight) for fish muscle, zooplankton, predatory inve

85 S concentrations ranged from 0.53 to 53 ng/g wet weight from black-browed albatross to giant petrels,

86 rogenesis (higher cell numbers, wet weights, wet weight GAG fractions, and collagen type II levels we

87 sults were obtained by correlation of tissue wet-weight gain with morphological evidence of cell swel

88 following decreasing order: liver (931 ng/g wet weight) > bile > pancreas > lung > kidney > blood >

89 uoranthene) were between 3 and 12 mug kg(-1) wet weight in all samples.

90 hose measured in urine (median: 393-666 ng/g wet weight in feces vs 216-464 ng/mL in urine).

91 ts of quantification: 0.36 and 0.04 pg TEQ/g wet weight in fish, and 0.73 and 0.08 pg TEQ/g (12 % moi

92 s (PCr=5.4+/-1.2 versus 9.6+/-1.1 micromol/g wet weight in MI versus control subjects, respectively,

93 ic measurements was 0.11 +/- 0.07 micromol/g wet weight in normal myocardium.

94 at concentrations up to 44.2 +/- 2.1 ng/g of wet weight in some of the samples and species, still not

95 the fetal kidney but increased to 17% of the wet weight in the adult kidney.

96 tal protein represented less than 10% of the wet weight in the fetal kidney but increased to 17% of t

97 s, the urogenital wet weights and lymph node wet weights in the 20-mg/kg treatment groups were signif

98 echols were estrogenic and increased uterine wet weights in these neonates.

99 [MD], -2.62 [95% CI, -3.34 to -1.89] mmol/kg wet weight) in the 48-hour and 9.02 (1.79) mmol/kg wet w

100 (MD, -1.96 [95% CI, -2.66 to -1.26] mmol/kg wet weight) in the 72-hour hypothermia group.

101 on of tissue TG content (milligrams per gram wet weight) in the control, at-risk, and infarct regions

102 The mean metal concentrations (wet weight) in the examined species ranged from 1.420 to

103 Before lipid adjustment, wet-weight levels of all four PBDE congeners were highes

104 34% (95% CI: - 2.4 to 84%, p = 0.07) higher wet-weight levels of BDE-47 than residents living in the

105 pha mRNA and peptide (1543 +/- 496 pg/g lung wet weight) localized to alveolar macrophages by in situ

106 r protein concentration normalized to muscle wet weight (lowest vs middle tertile; HR = 2.93; P = 0.0

107 orrelated well with observed changes in lung wet weights, lung collagen content, and histological evi

108 d similar oral potency to MPA in the uterine wet weight/mammary gland morphology assay in ovariectomi

109 ight) in the 48-hour and 9.02 (1.79) mmol/kg wet weight (MD, -1.96 [95% CI, -2.66 to -1.26] mmol/kg w

110 tration of ascorbate was 1.33 +/- 0.48 mg/gm wet weight (mean +/- SD), estimated to be 14 times its c

111 2) mmol/kg wet weight vs 8.36 (1.23) mmol/kg wet weight (mean difference [MD], -2.62 [95% CI, -3.34 t

112 alleviation -- as measured by MRI and by dry/wet weight measurement of water content -- but did not a

113 a was estimated at 24 hrs using wet - dry) / wet weight method.

114 cycle flux (Vtca = 0.33 +/- 0.09 micromol/g wet weight/min) in liver.

115 from 8.5 ng/kg (norfluoxetine) to 420 ng/kg wet weight (norsertraline).

116 Wet weight of bladder, stomach, intestine, uterus, and a

117 lization were determined and correlated with wet weight of bowel.

118 ortex of diabetic animals as assessed by DNA/wet weight of brain and protein/DNA content.

119 s of EC-SOD (mean +/- SEM 18.8 +/- 3.8 ng/gm wet weight of cartilage).

120 ks of life from 0.313 +/- 0.09 microgram (mg wet weight of slice)-1 (mean +/- S.E.M.) at 1 week to 0.

121 The size and wet weight of the cartilage pellets and glycosaminoglyca

122 100 mg/kg/day) for 14 consecutive days, the wet weight of the prostate was significantly reduced by

123 P F1 (BxT) mice exhibited an increase in the wet weight of the prostate.

124 The wet weight of the testes was obtained.

125 igmaPFASs ranged between 0.66-45 ng per g of wet weight of the whole body.

126 HA content per wet weight of tissue decreased from tip to base of the p

127 imately 20 cal of Gibbs free energy per gram wet weight of tissue).

128 d tumor volume by 35 and 58% (P < 0.05), and wet weight of tumor by 29 and 40% (P < 0.05), respective

129 lume by 44 and 59% (P<0.002 and 0.0001), and wet weight of tumor by 41 and 53% (P<0.05), respectively

130 ets for a total of 63 days, tumor volume and wet weight of tumor were reduced by 53-64% (P < 0.001-0.

131 The wet weights of bovine vitreous gels were compared before

132 There was a trend of a decrease in average wet weights of the urogenital tract and prostate gland i

133 ion and continued for 8 wk; tumor volume and wet weights of tumor were reduced by 39 and 53% (P<0.01

134 Moreover, the average wet-weight of LAP-treated tumors was reduced 46% compare

135 tion limit was <1 ng of muramic acid/100 mg (wet weight) of tissue.

136 content, defined as (wet weight-dry weight)/wet weight, of a typical isolated cerebellum (including

137 se activity when normalized to either muscle wet weight or protein concentration.

138 .07 versus 0.78 +/- 0.12 mumol/ min per gram wet weight [P < .001] for glycogenolysis, respectively,

139 0.04 versus 1.06 +/- 0.06 mumol/min per gram wet weight [P < .01] for glycolysis and 0.15 +/- 0.07 ve

140 kg wet weight; change: 0.53 +/- 0.21 mmol/kg wet weight, P = 0.01).

141 1; ATP=3.4+/-1.1 versus 5.5+/-1.3 micromol/g wet weight, P<0.001).

142 PCr (10.3 +/- 2.1 vs 4.3 +/- 2.0 micromol/g wet weight; P <.0001), ATP (6.4 +/- 1.4 vs 3.7 +/- 1.4 m

143 , ATP (6.4 +/- 1.4 vs 3.7 +/- 1.4 micromol/g wet weight; P <.001), and CR (24.7 +/- 6.1 vs 6.3 +/- 3.

144 weight versus LPS+HU: 71.25 +/- 17.75 pg/mg wet weight; P <0.05).

145 e (1.6 +/- 0.6 vs. 3.2 +/- 0.9 micromol/g of wet weight per sec, P <0.0005).

146 ons were between 65 000 and 830 000 ng g(-1) wet weight, possibly the highest burden recorded in terr

147 Exposure to cadmium increased uterine wet weight, promoted growth and development of the mamma

148 In the jejunum, wet weight, protein mass, and villus height were signifi

149 esulted in a significant reduction in tissue wet weight, proteoglycan content, and cell number and an

150 amples, with concentrations in the mug g(-1) wet weight range.

151 PFASs Log BAFs (wet weight) ranged from 2.6 +/- 0.8 for perfluorohexanes

152 s in lung to body weight ratios, lung dry to wet weight ratios, lung protein to body weight ratios, o

153 gh concentrations of progesterone (>19 ng/g, wet weight), recognised as an indicator of pregnancy in

154 were below the 0.5 mg kg(-1) (500 ng g(-1)), wet weight, recommended by the FAO/WHO.

155 Intriguingly, partial brain wet weight recovery was observed in mice treated with th

156 n and of chondroitin sulfate resulted in gel wet weight reduction but not gel destruction.

157 sting in landfill sites (median: 28-280 ng/g wet weight) relative to those from urban industrial and

158 high concentrations (1.6-12 and 7.8-40 ng/g wet weight, respectively) in 36% of the females approach

159 /- 1.05% and 10.12 +/- 3.16% injected dose/g wet weight, respectively).

160 be 1.9+/-0.6, 1.3+/-0.4, and 0.7+/-0.2nmol/g wet weight, respectively, for these tissues.

161 c Cd burden at levels of 0.95 and 6.04 mug/g wet weight resulting from 20-week Cd exposure at differe

162 itous at levels (E70 PCNs = 2.5-150 pg g(-1) wet weight) similar to those reported in other countries

163 to 3 x 10(6) MAP cell equivalents (CE) g(-1) wet weight soil with the majority of the positive PCR re

164 nd the limit of detection (500-5000 CE g(-1) wet weight soil).

165 Thalamic N-acetyl aspartate (NAA) mmol/kg wet weight, thalamic lactate to NAA peak area ratios, br

166 ntained more translocated particles per gram wet weight than larger fish).

167 regions of infarction (10 [9] SD micromol/g wet weight) than in non-infarcted regions (26 [11] micro

168 inyl esters (approximately 0.5-2 microg/gram wet weight) than the tumor tissues in all seven patients

169 ed in a small but significant loss of muscle wet weight that was concomitant with elevated autophagy

170 Based on protein yield per gram of cells (wet weight), the OE-SHI strain yields a 100-fold higher

171 total (E)PAH exposures as low as 29 ng/g of wet weight (tissue dose).

172 ction parameters were derived from ratios of wet weight to dry weight and the forced-oscillation tech

173 Wet weight to dry weight ratios of the lung contralatera

174 The wet-weight to dry-weight ratio and the interstitial spac

175 The wet-weight to dry-weight ratios, histologic changes in l

176 um amylase, histologic grading, and pancreas wet weight-to-body weight ratio.

177 significant differences between the groups: wet weight-to-dry weight ratio (P < 0.001), protein in t

178 tween the amount of virus material and brain wet weight up to day 30 postinfection.

179 ents in the samples, expressed in mug g(-1) (wet weight), varied from <0.01 to 0.20 with an average v

180 gel wet weight decreased (to 57% of original wet weight versus 86% for controls, P = < 0.001) and hya

181 andin E2 (PGE2) (LPS: 159.20 +/- 38.70 pg/mg wet weight versus LPS+HU: 71.25 +/- 17.75 pg/mg wet weig

182 normothermia group was 10.98 (0.92) mmol/kg wet weight vs 8.36 (1.23) mmol/kg wet weight (mean diffe

183 rlands, FBSA concentration was at 80.12 ng/g wet weight (w.w.) and was exceeded only by PFOS.

184 riod, decreasing by 39% from 0.171 mug g(-1) wet weight (w.w.) in 1980 to 0.104 mug g(-1) w.w.

185 ection was 67 nM in buffer and 2.0 mug g(-1) wet weight (w/w) in shellfish sample.

186 The results were expressed as mug/g of wet weight (w/w).

187 In the uterus, the increase in wet weight was accompanied by proliferation of the endom

188 A bioaccumulation factor of 16 L/kg fish wet weight was derived.

189 Cholesterol of 0.07-0.21% wet weight was detected.

190 Lung wet weight was equal to 0.78+/-0.08% of body weight in t

191 histology, and a permanent decrease in brain wet weight was observed after eGFP-CVB3 infection.

192 creased percentage of collagen per construct wet weight was secondary to decreased glycosaminoglycan

193 Following 14 days of DEX treatment, muscle wet weight was significantly decreased in the TS and TA

194 tomyces hyaluronan lyase (30 U/gel), the gel wet weight was the same as that of controls (incubated w

195 an concentration (in millimoles per kilogram wet weight) was 61 +/- 8 (SD) for GM, 69 +/- 10 for WM,

196 itochondrial respiration rates (pmol O2/s/mg wet weight) were 15.05 +/- 3.92 and 11.42 +/- 2.66 for t

197 ly high body burdens of Ag (0.5-3.3 mug Ag/g wet weight) were found in mosquito fish and chironomids

198 nits of C.O. activity (micromol/min/g tissue wet weight) were quantified in cellular compartments (ov

199 , egg SigmaPBDE concentrations (34-2281 ng/g wet weight) were some of the highest reported in birds f

200 he highest concentration found was 865 ng/g (wet weight [wet wt]) in the livers of bottlenose dolphin

201 ffected chondrogenesis (higher cell numbers, wet weights, wet weight GAG fractions, and collagen type

202 contains as much as 150 micro mol citrate/g wet weight, which suggests that salt concentrations may

203 concentrations ranged from 23 to 582 mug/kg wet weight, while mean delta(13)C and delta(15)N values

204 m concentrations ranged from 2.0 to 73.6 ppm wet weight with a mean of 12.8 +/- 2.6 ppm in tissue col

205 l concentrations ranged from 1.7 to 94.6 ppm wet weight with a mean of 15.9 +/- 3.5 ppm and chromium

206 s activity concentrations (103-272 mBq/kg of wet weight) with no detectable (134)Cs activity.

207 fish muscle (e.g. , PFOS: 0.28-2.1 ng g(-1) wet-weight), with little or no differences when comparin

208 lyzed, at concentrations of up to 2950 ng/g (wet weight (wt)) found in the liver of a sea otter from

209 4% of calculated basal metabolic rate (BMR), wet weight (WW) absorption <23 g .

210 getative compartments with up to 97 ng g(-1) wet weight (ww) and 94 ng g(-1) ww in birch leaves and s

211 f CBR values ranged from 2.1 to 16.1 mmol/kg wet weight (ww) within all combinations of chemicals and

212 PFCAs present in the biosolids (0.1-138 ng/g wet weight (ww)) and those produced from 6:2 diPAP degra

213 atorVMS concentrations (median: 178 ng g(-1) wet weight (ww)) compared with those from the urban indu

214 0 Hz) yielded the highest total lipid (16.2% wet weight (WW)), and phospholipid (46 mumol/g WW) conte

215 ted in more recent years (<MLOD to 42.8 ng/g wet weight (ww)).

216 n +/- standard deviation, 1.87 +/- 2.17 ng/g wet weight (ww), range of 0.112-15.3 ng/g ww) were 1-2 o

217 0.005-1.307) and 0.005 (< 0.010-0.143) ng/g wet weight (ww), respectively; beta-HBCD was present in

218 ranged between 187 and 2674 mug/g of sludge wet weight (ww), while sulfonamide concentrations were l

219 with a maximum concentration of 6800 mug/kg wet weight (ww).

220 oncentrations ranged from 70 to 366 ng g(-1) wet weight (ww).

221 Wet-weight (ww) and organic carbon (OC)-based biota soil

222 ct with the label contained BPS (<=1140 ng/g wet weight [ww]), 4-hydroxyphenyl 4-isoprooxyphenylsulfo

223 limit of detection [<LOD] to 1670.10 ng/g of wet weight [WW]).

224 breeding penguins (range of 4.2-7.3 ng g(-1) wet weight, ww).

225 Fat (32.3+/-9.8 ng/g wet weight; ww) contained the highest SigmaOP concentrat

226 142-1345 pmol/micromol lipid P; 1-7 microg/g wet weight) yet discovered in a mammalian tissue.

227 Alderenes comprise only 0.1% of slug wet weight, yet rendered live slugs or dead flesh unpala