ライフサイエンスコーパス: mineral oil

1 a RAFT dispersion polymerization directly in mineral oil.

2 rn oil approximately fish oil > orange oil > mineral oil.

3 r 4 weeks, whereas the control rats were fed mineral oil.

4 g in nonwetting surfaces with both water and mineral oil.

5 litarius significantly more than preloads of mineral oil.

6 Control groups received AdoMet or mineral oil.

7 not when incubated with enzyme inhibitors or mineral oil.

8 ining proteolytic enzyme inhibitors, or pure mineral oil.

9 s covered and separated from each other with mineral oil.

10 ection of 3.0 mL/kg; the other ones received mineral oil.

11 immunized with Mycobacterium tuberculosis in mineral oil.

12 d Mycobacterium butyricum suspended in light mineral oil.

13 as levels increased among those allocated to mineral oil.

14 epared via RAFT dispersion polymerization in mineral oil.

15 n of deuterated titanium powder suspended in mineral oil.

16 using beeswax, paraffin wax, olive oil, and mineral oil.

17 ent ethyl compared with pharmaceutical grade mineral oil.

18 statistics were obtained for transformer and mineral oils.

19 ivolumetric gastric preloads of corn oil and mineral oil administered to rats on postnatal day 12 (P1

20 the interface of a water droplet immersed in mineral oil, allowing manipulation of the droplets by ap

21 .Q.) of CNTPE were 10.3 and 34.5mugL(-1) for mineral oil and 3.4 and 11.2mugL(-1) for silicone.

22 xyl)phosphoric acid dissolved in kerosene or mineral oil and an acid strippant solution of 5 M nitric

23 demonstrated on the analysis of lubricating mineral oil and crude oil samples by ultra-high-resoluti

24 titution of the cell matrix with fluorinert, mineral oil and glycerol, as well as paraformaldehyde fi

25 Hemolymph sampling performed under mineral oil and in air at 30 s intervals up to 120 s aft

26 ls over a 54-day period after injection with mineral oil and Mycobacterium butyricum, respectively.

27 ery to receive either antibiotic or placebo (mineral oil and petrolatum-based) ointment after surgery

28 orescein derivatives from droplets formed in mineral oil and stored for hours in a reservoir on chip

29 Results from contact angle measurements with mineral oil and surfactant solution demonstrated that ov

30 inal segments were exposed, immersed in warm mineral oil and transected.

31 araffinization method, removing the wax with mineral oil, and a commercially available DNA extraction

32 ed to model OCT optical properties of water, mineral oil, and intralipid droplets and to investigate

33 ent experiments AmpliWax was substituted for mineral oil, and PCR was performed on 10(9) to 10(3) amp

34 thylene-butene/styrene triblock copolymer in mineral oil, and the second is a cross-linked poly(ethyl

35 on of the fatty acids takes place, while the mineral oils are not affected by the sulphuric acid.

36 was developed to detect chemical markers of mineral oil aromatic hydrocarbons (MOAH) from offset pri

37 ineral oil saturated hydrocarbons (MOSH) and mineral oil aromatic hydrocarbons (MOAH) in cereal-based

38 e sometimes adulterated with transformer and mineral oil as a means of illegally increasing profit.

39 h straight MWFs strengthens the evidence for mineral oils as a bladder carcinogen.

40 ning surfactant (sodium dodecyl sulfate) and mineral oil, as well as with shale gas produced water.

41 ymerization of benzyl methacrylate (BzMA) in mineral oil at 90 degrees C.

42 conventional carbon paste biosensor using a mineral oil binder and the dimethylferrocene electron ac

43 Karl Fischer titration, such as edible oils, mineral oils, biodiesel and fuels.

44 -tetramethyl-pentadecane (TMPD, pristane) or mineral oil causes lipogranuloma formation in mice, but

45 ere obtained even at concentrations of added mineral oils close to the LOQ (0.5 mg/kg for the total h

46 ethyl and 10.9% among those allocated to the mineral oil comparator.

47 ved polarization measurements carried out in mineral oil confirmed that the vibrationally resolved lo

48 cells and treated 5 days a week with either mineral oil (control group) or the vitamin D analogues c

49 cular and Supraoptic nuclei, but preloads of mineral oil did not.

50 oassay liquids was circumvented by employing mineral oil droplets.

51 Occupations with mineral oil exposure have been associated with bladder c

52 or both human health and the substitution of mineral oil for industrial applications.

53 te powder, multi-walled carbon nanotubes and mineral oil for the determination of carbofuran pesticid

54 fferences largely reflected increases in the mineral oil group with median percent differences of 2.4

55 rn oil approximately fish oil > orange oil > mineral oil > MCT.

56 ty, evidence is presented that insect DNA in mineral oil has even stronger adjuvant activity than CFA

57 Mineral oil hydrocarbons (MOH) contamination was evaluat

58 ter transport in jute bags contaminated with mineral oil hydrocarbons (MOH) showed that average satur

59 Mineral oil hydrocarbons (MOH), including saturated (MOS

60 l A (BPA), diethylhexyl phthalate (DEHP) and mineral oil hydrocarbons (MOHs), are evaluated within th

61 Mineral oil in food packaging was previously analysed by

62 The procedure has been applied to determine mineral oil in olive oil from the retailed market.

63 A procedure for the determination of mineral oils in edible oil has been fully developed.

64 Coconut oil and mineral oil, in comparison, allowed Fe(VI) to penetrate

65 ISG-15 was greatly increased in TMPD- versus mineral oil-induced lipogranulomas.

66 ne cell thick) slugs are produced in a glass-mineral oil interface where one can follow the movement

67 havior of a 10 % w/w copolymer dispersion in mineral oil is strongly temperature-dependent: the stora

68 aporation of the sample was prevented with a mineral oil layer, allowing for experiments lasting for

69 n in various n-alkanes, poly(alpha-olefins), mineral oil, low-viscosity silicone oils or supercritica

70 er seed oil (n=159) or Aquaphor (petrolatum, mineral oil, mineral wax, lanolin alcohol; n=157).

71 d i.p. with pristane (develop lupus) but not mineral oil (MO) (do not develop lupus).

72 Mineral oil (MO) also causes inflammation, but not lupus

73 d intake significantly more than preloads of mineral oil on P15 and P18.

74 nsory properties of preloads of corn oil and mineral oil on P9-12.

75 2mum) and oil digestibility (corn oil versus mineral oil) on the bioavailability of a model long chai

76 increased risk of incident AF compared with mineral oil or corn oil comparator.

77 odecane or tetradecane) and alkane mixtures (mineral oil or crude oil), but not monocyclic aromatic h

78 The myoglobin-doped mineral oil or Kel-F-based carbon-paste enzyme microelec

79 with cathodic stripping for CNTPE containing mineral oil or silicone as binder.

80 sis reaction is caused by the penetration of mineral oils (particularly paraffin) into the tissues su

81 min using 5% P. cruentum biomass in graphite-mineral oil paste.

82 eficient and granzyme B-intact mice with the mineral oil pristane.

83 ounds, kerosene range organic compounds, and mineral oil range organic compounds in soils.

84 the contribution of harvesting operations to mineral oil saturated (MOSH) and aromatic hydrocarbon (M

85 be conveniently used for rapid extraction of mineral oil saturated (MOSH) and aromatic hydrocarbons (

86 Mineral oil saturated (MOSH) and aromatic hydrocarbons (

87 t extraction and analytical determination of mineral oil saturated hydrocarbons (MOSH) and mineral oi

88 d to bacterial S30 extract and emulsified in mineral oil so that most of the aqueous droplets contain

89 Injection of mineral oils such as pristane into the peritoneal caviti

90 eptidoglycan and cord factor administered in mineral oil synergized to recapitulate the Th17-promotin

91 re injected with 10 mug of i.p. TDM in light mineral oil (TDM-IP).

92 lt was that preloads of 25% corn oil and 25% mineral oil that produced equivalent inhibition of II in

93 Such use of myoglobin-containing mineral oil thus offers an attractive alternative to the

94 ting and subsequently capped with a layer of mineral oil, thus creating limited volumes of saline aro

95 Dry membranes were lubricated with mineral oil to achieve brightness of the colored spots b

96 lysis time is very short, and (5) the use of mineral oil to isolate specimens provides a simple metho

97 ric gastric preloads of 25% corn oil and 25% mineral oil to pups on P9-12 and counted the number of c

98 increased over time among those allocated to mineral oil treatment; in this group at 12 months, the m

99 h either 4 grams daily of icosapent ethyl or mineral oil used as a comparator.

100 preloaded processing solutions separated by mineral oil valves.

101 corn oil was digestible, whereas emulsified mineral oil was indigestible.

102 samples adulterated with transformer oil and mineral oil were characterised using both NIRS and Raman

103 um, relative to animals that received either mineral oil (which contains no fatty acids) or no oil.

104 20 wt% beeswax, 40 wt% olive oil, and 40 wt% mineral oil, which compared to unlubricated skin, provid

105 scence anisotropy decay for all compounds in mineral oil with a viscosity of ca. 21.6 cP at 40 degree

106 We conclude that the replacement of mineral oil with AmpliWax can be useful in eliminating t