ライフサイエンスコーパス: age-related hearing loss

1 lowers tHcy levels potentially ameliorating age-related hearing loss.

2 that they play a role in the progression of age-related hearing loss.

3 Eps8 and is a candidate gene for progressive age-related hearing loss.

4 r leads to neurodegeneration and exacerbates age-related hearing loss.

5 association between 17 tagSNPs for MSRB3 and age-related hearing loss.

6 orms of deafness, as well as progressive and age-related hearing loss.

7 essing of the central auditory system during age-related hearing loss.

8 2 and Skp1 as potential genetic modifiers in age-related hearing loss.

9 a well-known correlation between smoking and age-related hearing loss.

10 as mutations in its gene cause deafness and age-related hearing loss.

11 jury and disease, and a major determinant of age-related hearing loss.

12 psychiatric treatments for older adults with age-related hearing loss.

13 ure and in analyses excluding those with non-age-related hearing loss.

14 uity has been identified as one component of age-related hearing loss.

15 t environmental exposures may play a role in age-related hearing loss.

16 d characterization of a novel mouse model of age-related hearing loss.

17 ying progressive sensorineural hearing loss (age-related hearing loss 5, ahl5) and audiogenic seizure

18 In addition to age-related hearing loss, a substantial number of cases

19 on to many inbred mouse strains, accelerates age-related hearing loss (AHL) and can worsen auditory p

20 Age-related hearing loss (AHL) in common inbred mouse st

21 Age-related hearing loss (Ahl) is a non-syndromic trait

22 Age-related hearing loss (AHL) is the progressive loss o

23 Inbred mouse strains with age-related hearing loss (AHL) provide valuable models f

24 iety of species and slows the progression of age-related hearing loss (AHL), a common age-related dis

25 of mice vary widely in onset and severity of age-related hearing loss (AHL), an important considerati

26 Age-related hearing loss (AHL), known as presbycusis, is

27 Mutations in cdh23 are associated with age-related hearing loss (AHL).

28 zer (v), modifier-of deaf waddler (mdfw) and Age-related hearing loss (Ahl).

29 mouse strains, A/J, NOD/LtJ and SKH2/J, with age-related hearing loss (AHL).

30 ng the genetic basis of human presbycusis or age-related hearing loss (AHL).

31 e whether deficiencies in Cu/Zn SOD increase age-related hearing loss and cochlear pathology, we coll

32 Age-related hearing loss and noise-induced hearing loss

33 ing an opportunity to study both progressive age-related hearing loss and possible interventional the

34 rtant models for immune response, leukaemia, age-related hearing loss and rheumatoid arthritis.

35 nd noise-induced hearing loss because of its age-related hearing loss and susceptibility to acoustic

36 vironmental, and sex-related determinants of age-related hearing loss and to identify potential inter

37 cluding cardiovascular disease, fatty liver, age-related hearing loss, and breast cancer.

38 ges and suffered a base to apex gradient and age-related hearing loss, and that mutations in cdh23 we

39 d outer hair cell loss characteristic of the age-related hearing loss (ARHL) in the background strain

40 ABSTRACT: Age-related hearing loss (ARHL) is associated with chang

41 Age-related hearing loss (ARHL) is associated with chang

42 ric hearing deficits are a common symptom of age-related hearing loss (ARHL), as are specific histopa

43 lude all those known to be affected in human age-related hearing loss (ARHL), or presbycusis.

44 To research in age-related hearing loss (ARHL), they offer economies of

45 conceptual framework for understanding human age-related hearing loss (ARHL, or presbycusis) holds th

46 occurs at older ages, corresponding with the age-related hearing loss associated with Cdh23ahl.

47 Mice with targeted deletion of Fbxo2 develop age-related hearing loss beginning at 2 months.

48 protective effects of caloric restriction on age-related hearing loss by promoting the mitochondrial

49 Accelerated age-related hearing loss disrupts high-frequency hearing

50 Age-related hearing loss frequently results in a loss in

51 earing thresholds in these mice demonstrated age-related hearing loss in all homozygous-null, but not

52 in a noisy environment, a classic symptom of age-related hearing loss in humans.

53 se SIRT3 was essential for the prevention of age-related hearing loss in mice fed a calorically restr

54 ts an age-noise interaction that exacerbates age-related hearing loss in previously noise-damaged ear

55 this kindred and may serve as one model for age-related hearing loss in the general population.

56 del suggests that the primary factor in true age-related hearing loss is an energy-starved cochlear a

57 A large proportion of age-related hearing loss is caused by loss or damage to

58 Age-related hearing loss is due to death over time, prim

59 The genetic contribution to age-related hearing loss is estimated to be 40%-50%.

60 Age-related hearing loss is typified by high-frequency t

61 However, the biological basis of age-related hearing loss is unknown.

62 Presbycusis -- age-related hearing loss, is the number one communicatio

63 he objective was to test the hypothesis that age-related hearing loss may be associated with poor vit

64 animal model by comparing noise-induced and age-related hearing loss (NIHL; AHL) in groups of CBA/Ca

65 m response (ABR) which confirmed that severe age-related hearing loss occurred in 8-month-old mice, w

66 hl8 is a key contributor to the early-onset, age-related hearing loss of DBA/2J mice.

67 ion cells, were consistent with the observed age-related hearing loss of these mice beginning with th

68 Age-related hearing loss or presbycusis, the most common

69 rol subjects and patients with noise- and/or age-related hearing loss (p < 0.05 at all dilutions test

70 ly subjects challenge the common belief that age-related hearing loss (presbyacusis) is based primari

71 Age-related hearing loss (presbycusis) is a major health

72 Age-related hearing loss (presbycusis) is a significant

73 e an important factor in the pathogenesis of age-related hearing loss-presbycusis.

74 Recent research has linked age-related hearing loss to impaired performance across

75 Significant levels of age-related hearing loss were detected in +/Myo7a(sh1-8J

76 er hair cells of the C57BL/6J mouse model of age-related hearing loss, which reveal that cholinergic