ライフサイエンスコーパス: mattress

1 atrix with physiological stiffness (Matrigel mattress).

2 y single-cell culture for 5 days on Matrigel mattress.

3 d low for plastic bag or wrap with a thermal mattress.

4 are regulated in children's toys but not in mattresses.

5 nones, and salicylates) in 16 new children's mattresses.

6 in a collection of twenty new and used crib mattresses.

7 documented and to receive pressure-reducing mattresses.

8 ations of chemicals released from their crib mattresses.

9 head; (3) skin-to-skin contact; (4) thermal mattress; (5) plastic bag or plastic wrap with a plastic

10 or plastic wrap along with use of a thermal mattress; (7) plastic bag or plastic wrap along with hea

11 e considerable agreement of richness between mattress and nasal samples, the association of richness

12 the combination of a HEPA room air cleaner, mattress and pillow covers, and cat exclusion from the b

13 placement, targeted cleaning, allergen-proof mattress and pillow encasements, and portable air purifi

14 specialized support surface with a standard mattress and repositioning.

15 admission, the use of (3) pressure-reducing mattresses and (4) planned repositioning in bed.

16 , Cimex hemipterus) are insects that live on mattresses and furniture and feed on blood nocturnally,

17 tions of all harmful chemicals in children's mattresses and improved oversight by manufacturers to mi

18 t within 24h of admission, pressure-reducing mattresses and planned repositioning in bed.

19 cumented, and of receiving pressure-reducing mattresses and planned repositioning.

20 g at risk patients and using systems such as mattresses and turning to relieve pressure.

21 onditions on VOC emissions from polyurethane mattresses, and provides first approximation for inhalat

22 The results suggest that crib mattresses are an important source of VOCs and infant ex

23 ed an identical type of a high-heat capacity mattress as a reproducible, non-disturbing way of body c

24 had higher odds of having pressure-reducing mattresses but were less likely to have planned repositi

25 ased mattresses was 0.5 times that for cloth mattresses, but levels in 21% of plastic-encased mattres

26 ironments, an increase in the temperature of mattress can cause a significant increase in emission of

27 om various products including sofas, chairs, mattresses, car seats and pillows.

28 TVOC SERs were greater for new mattresses compared to used ones and were influenced by

29 One mattress contained high levels of tris(2-chloroethyl) ph

30 increase in emission of phthalates from the mattress cover and make the concentration in the infant'

31 p1 were lower in the active than the placebo mattress cover group.

32 he type of foam material and the presence of mattress cover layer.

33 Information regarding electric blanket and mattress cover use and endometrial cancer risk factors w

34 t an association between electric blanket or mattress cover use and endometrial cancer.

35 ometrial cancer risk and electric blanket or mattress cover use as part of a population-based, case-c

36 e allergen-impermeable (n = 416) and placebo mattress covers (n = 394) or no intervention (n = 472).

37 ptoms of athlete's foot), and anti-dust mite mattress covers (which reduce mite-related allergies).

38 Dust was sampled monthly from the mattress covers and bedroom and living-room carpets.

39 een the number or concentrations of SVOCs in mattress covers and their polymer type, e.g., rigid poly

40 Early intervention with mite-impermeable mattress covers is successful in reducing exposure to De

41 an early intervention with mite-impermeable mattress covers on HDM allergen levels and the developme

42 Contribution of mattress covers to emission fluxes was also examined.

43 te alternatives from vinyl flooring and crib mattress covers were measured in a specially designed ch

44 treatment effect was due to the reduction in mattress dust and carpet Der p1.

45 DNA from mattress dust and nasal samples of 86 school age childre

46 nd Shannon index [aOR = 0.41 (0.21-0.83)] in mattress dust and to a lower extent in nasal samples [ri

47 Bacterial markers were assessed in floor and mattress dust and were related to cleanliness and allerg

48 iation of asthma with bacterial diversity in mattress dust as compared to nasal samples suggests micr

49 llergens from fish, egg, milk, and peanut in mattress dust collected from homes of 13-year-old adoles

50 ergens were measured by dot blot analysis in mattress dust from 143 homes in Oslo, Norway.

51 Der p1 was measured in mattress dust in a 10 percent random subsample of homes

52 mount of time children spent in the bedroom, mattress dust may be an important source of exposure to

53 ively associated with bacterial diversity in mattress dust samples as determined by richness (P = 8.1

54 Mattress dust samples collected at different time points

55 DNA was extracted from mattress dust samples of 489 school-age children from ru

56 milk in 39%, and egg allergen in 22% of the mattress dust samples; only three samples contained none

57 The concentration of Der p1 in mattress dust was significantly lower in the active-inte

58 .006) in analysis of covariance with initial mattress dust weights and bedroom carpet Der p1 load as

59 In mattress dust, the genera Clostridium, Facklamia, an unc

60 Mattress endotoxin in the first year of life was inverse

61 One mattress exceeded the Canadian regulatory limit of 0.1%

62 thing zone and interior pore air of the crib mattress foam were found to be greater than the bulk roo

63 ory limit of 0.1% (by weight) for children's mattresses for di-n-butyl phthalate (DnBP), while five h

64 rt surfaces are more effective than standard mattresses for preventing ulcers in higher-risk populati

65 of cat allergen were considerably higher in mattresses from homes with cats compared to homes withou

66 eight of dust collected from Goretex-covered mattresses had fallen by 98% at 1 month (from 386 to 9 m

67 Five mattresses had from 1 to 3% of several organophosphate e

68 Unlike control hiPSC-CMs, mattress hiPSC-CMs display robust contractile responses

69 Mattress hiPSC-CMs exhibit molecular changes that includ

70 Compared with control hiPSC-CMs, mattress hiPSC-CMs had more rod-shape morphology and sig

71 Contractile parameters of mattress hiPSC-CMs measured with video-based edge detect

72 Morphological and contractile properties of mattress hiPSC-CMs were consistent across cryopreserved

73 0.8-mm thick mattress of undiluted Matrigel (mattress hiPSC-CMs) and compared with hiPSC-CMs maintain

74 feed type, infant duration on the vibrating mattress in the newborn unit was associated with reducti

75 Thirty-seven dust samples from mattresses in homes were collected using a Duststream du

76 d allergens were more frequently detected in mattresses in small dwellings (< 100 m(2)) than larger d

77 coupled with further maturation on Matrigel mattress, is sufficient for T-tubule development, enhanc

78 na, Sekwia sp., an erniettid (bearing an air mattress-like "pneu" body construction), and the trace f

79 thcare or personal protective equipment-from mattresses manufacturers to big box stores-transitioned

80 easibility study of EarlySense's novel under-mattress MCPM technology in neonates at Pumwani Maternit

81 (MD, 0.62 C; 95% CrI, 0.37-0.88 C), thermal mattress (MD, 0.62 C; 95% CrI, 0.33-0.93 C), and plastic

82 re alone, plastic bag or wrap with a thermal mattress (mean difference [MD], 0.98 C; 95% credible int

83 The Matrigel mattress method enables the rapid generation of robustly

84 ed for 5 to 7 days on a 0.4- to 0.8-mm thick mattress of undiluted Matrigel (mattress hiPSC-CMs) and

85 hat clinicians should choose advanced static mattresses or advanced static overlays in patients who a

86 ACP recommends against using alternating-air mattresses or alternating-air overlays in patients who a

87 ted with ever having used electric blankets, mattress pads, or heated water beds among women under ag

88 k for pressure ulcers compared with standard mattresses (relative risk range, 0.20 to 0.60).

89 All mattress samples were found to emit VOCs and the mean va

90 me monitoring using novel, noninvasive under-mattress sensor technology indicates a global prevalence

91 ple that purchased a novel, validated, under-mattress sleep analyzer.

92 areas were sutured using one or two vertical mattress sutures per interdental area.

93 ing incision and the wound closed with ePTFE mattress sutures.

94 Matrigel mattress technology and single-cell RNA sequencing were

95 rates a correlation between servo-controlled mattress temperature during TH and short-term outcome.

96 of 45 SVOCs measured were emitted from eight mattresses tested at room temperature, rising to 20 dete

97 All neonates who required the mattress to provide a temperature >=32 degrees C to main

98 ody temperature compared to low rebound [LR] mattress toppers during the initial phase of nocturnal s

99 Sleeping on HR mattress toppers for four to six weeks improved some ath

100 onstrated that sleeping on high rebound [HR] mattress toppers induced a continuous and more rapid dec

101 he current study, we evaluated effects of HR mattress toppers on objectively-(actigraphy) and subject

102 on house size, curtains and carpets at home, mattress type, housekeeping frequency, and television us

103 min and mineral supplementation, specialized mattresses, ultrasound therapy, honey, cellular therapy,

104 cy (35.9%[0.4, 83.9%]) and BDE-209 with foam mattress use (48.9%[5.8, 109.7%]).

105 Notably, Matrigel mattress was necessary for T-tubule formation.

106 r = 10 microg/g of dust from plastic-encased mattresses was 0.5 times that for cloth mattresses, but

107 tiveness of low-air-loss and alternating-air mattresses was limited, with some trials showing no clea

108 ion, higher housekeeping frequency, and foam mattress were associated with prenatal PBDE exposure.

109 resses, but levels in 21% of plastic-encased mattresses were > or = 2 microg/g.

110 Eight types of polyurethane mattresses were tested in a parallel continues-flow cham

111 related to bacterial compounds on floors and mattresses, whereas home cleanliness effectively reduced

112 tion (SVS) using a uniquely constructed crib mattress with a 3-hour on-off cycle.

113 products, and health concerns about spraying mattresses with pesticides.

114 leeping on LR or sleeping directly on spring mattresses without a topper.