ライフサイエンスコーパス: overexposure

1 LC) of the lesion formation process to avoid overexposure.

2 de-efferentation without purposeful acoustic overexposure.

3 t normally occurs with aging and/or acoustic overexposure.

4 n the mediation of protection after auditory overexposure.

5 ze changes in auditory receptors after noise overexposure.

6 ge, resulting in "silent" chronic tacrolimus overexposure.

7 ommonly in instances of accidental radiation overexposure.

8 nt role in protecting the cochlea from noise overexposure.

9 We show that acoustic overexposure alters synaptic transmission originating fr

10 Acoustic overexposure and aging can damage auditory synapses in t

11 on, contributing to myocardial catecholamine overexposure and arrhythmogenic risk.

12 esults underscore the need to minimize noise overexposure and for strategies to personalize diagnosis

13 ural basis of hyperacusis by employing noise-overexposure and single-unit electrophysiology.

14 dent and human cardiomyocytes upon palmitate overexposure, and appeared as an early lipid-induced eve

15 monitor eculizumab effectiveness, avoid drug overexposure, and save money considering the extremely h

16 Exposure to loud sound (acoustic overexposure; AOE) induces hearing loss and damages cell

17 ch-perception problems associated with noise overexposure are pervasive in today's society, even with

18 fetuses to model excess prenatal androgenic overexposure associated with conditions such as polycyst

19 posure associated with rejection, as well as overexposure associated with toxicities.

20 Manganese (Mn) is an essential nutrient, but overexposure can be neurotoxic.

21 Acoustic overexposure can eliminate synapses between inner hair c

22 pite their integral role in sustaining life, overexposure can lead to deleterious neurological outcom

23 ICANCE STATEMENT A single incidence of noise overexposure causes damage at the hair cell synapse that

24 Noise overexposure causes oxidative stress, leading to auditor

25 ing of the inner ear in mouse, that acoustic overexposures causing moderate, but completely reversibl

26 Therefore, to prevent overexposure directly posttransplantation in HIV-infecte

27 tacrolimus seem a promising tool to prevent overexposure directly posttransplantation in patients on

28 Therefore, nutrient overexposures from supplements combined with typical foo

29 A neurotransmission, in-utero glucocorticoid overexposure had a modest or no effect on a range of con

30 Manganese occupational and dietary overexposure has been shown to result in specific clinic

31 (IHCs): following ototoxic drugs or acoustic overexposure, IHC death is rapid whereas SGN degeneratio

32 t earlier ages, implying that glucocorticoid overexposure in LP fetuses occurs via 11beta-HSD2-indepe

33 l to detect the pathological legacy of noise overexposure in mass stranded cetaceans as a key to unde

34 Manganese overexposure in non-human primates and humans causes a n

35 P450 (CYP) 3A4 and could lead to tacrolimus overexposure in patients genetically lacking the alterna

36 idence for the presence of hidden tacrolimus overexposure in patients with mild diarrhea while on tre

37 to assess the degree of unnoticed tacrolimus overexposure in renal transplant patients with mild diar

38 nt because occupational and environmental Mn overexposure is a global public health problem.

39 essing deficits.SIGNIFICANCE STATEMENT Noise overexposure is a major cause of central auditory proces

40 Noise overexposure is a major factor associated with tinnitus

41 Fetoplacental glucocorticoid overexposure is a significant mechanism underlying fetal

42 nese (Mn) is an essential trace element, but overexposure is characterized by Parkinson's like sympto

43 ulates skin tissue injury and pain after UVB overexposure, it is discussed whether TRPV4 downregulati

44 Here, we find that brief noise overexposure leads to distinct reorganizations of excita

45 UV overexposure leads to sunburn with tissue injury and pai

46 anganese accumulation in these structures on overexposure may be common to all primates, including hu

47 ental lactate production induced by cortisol overexposure may contribute to the adverse effects of ma

48 gs support the hypothesis that acute ethanol overexposure may increase the risk of infection and inhi

49 This overexposure occurs across crime types and geographic re

50 of white adipose tissues is associated with overexposure of lean organs to circulating triglycerides

51 ysiology and cognition in humans, and either overexposure or (more rarely) insufficiency can cause ne

52 In contrast, overexposure, particularly with APTMS, reduces performan

53 Acoustic overexposure, such as listening to loud music too often,

54 The moderate nature of this acoustic overexposure suggests that cochlear neurons are at risk

55 a channel's sensitivity is reduced following overexposure to adaptation stimuli that selectively stim

56 Overexposure to anti-thymocyte globulin leads to poor CD

57 Overexposure to corticosteroid hormones is harmful to hi

58 ory decrements can lead to food poisoning or overexposure to environmentally hazardous chemicals that

59 d fetal growth, both involving fetoplacental overexposure to glucocorticoids but from distinct source

60 The inner ear can be permanently damaged by overexposure to high-level noise; however, damage can be

61 Overexposure to intense noise can destroy the synapses b

62 Overexposure to intense sound can cause temporary or per

63 ethics of using a placebo, the potential for overexposure to iodine, and the possibility of community

64 including occlusions, glass reflections, and overexposure to light.

65 Overexposure to manganese (Mn) may lead to parkinsonian

66 Overexposure to manganese is an environmental risk facto

67 n 28 weeks may protect cerebral tissues from overexposure to oxygen.

68 cancer are cryptorchidism, infertility, and overexposure to pesticides or radiation.

69 However, acute and chronic overexposure to selenium can be neurotoxic.

70 thy, guinea pigs received a unilateral sound overexposure to the left ears.

71 of outer hair cells would be compatible with overexposure to underwater noise, affecting the region w

72 onal trauma, contact with bleaching phenols, overexposure to UV, and mechanical injury can lead to pr

73 iption of the sterile inflammation caused by overexposure to UVB irradiation (i.e., sunburn) in the m

74 ing use of commercial sunscreens to pre-empt overexposure to UVR.

75 sumption advisories are developed to prevent overexposure to various contaminants.

76 vertheless, it has long been recognized that overexposure to vitamin A or retinoic acid causes widesp

77 Noise overexposure triggers recruitment of the autophagosome-a