ライフサイエンスコーパス: hair color

1 new treatment intervention for lost skin and hair color.

2 associated with a shift from brown to blond hair color.

3 yme kinetics, which leads to gradual loss of hair color.

4 ated loci previously reported in the GWAS of hair color.

5 D risk increased with decreasing darkness of hair color.

6 ntly inherited defects in either skin and/or hair color.

7 that extend far beyond its determination of hair color.

8 oordinate or independent control of skin and hair color.

9 studied their association with skin type and hair color.

10 was no association between MC1R alleles and hair color.

11 hIP accrued in hair of subjects with natural hair color.

12 rs for epidermal thickness, melanin content, hair color and density, and dermal blood content.

13 ccount for substantial variation in skin and hair color and in skin cancer incidence.

14 Four patients with congenital red hair color and nephrotic syndrome caused by idiopathic m

15 ess was shown to be independent from natural hair color and not influenced by the presence of melanin

16 The associations between hair color and PD were particularly strong for relative

17 tal nevus count was associated with skin and hair color and tendency to burn, as measured by a sun se

18 m of the EDNRB gene on 13q22 associated with hair color and the strongest association was the single-

19 c effects: 7% associated to eye color, 6% to hair color, and 1% to reported skin type, which leaves 5

20 of severe sunburns, sunburn susceptibility, hair color, and Fitzpatrick skin types I, II, and III we

21 All other factors (eg, age, skin type, hair color, and melanoma thickness) showed no significan

22 were nevi, skin type, freckle density, age, hair color, and sunburn history.

23 Differences in skin and hair color are principally genetically determined and ar

24 1 receptor) gene, which determines skin and hair color, are associated with melanoma.

25 ell now shows that Foxn1 also contributes to hair color by marking which cells are to receive pigment

26 relationship between the asp84glu allele and hair color did not achieve statistical significance (chi

27 Hair color differences are among the most obvious exampl

28 series of genome-wide association studies on hair color, eye color, number of sunburns, tanning abili

29 riants, especially those associated with red hair color, fair skin, and poor tanning ability (RHC tra

30 association between risk of hearing loss and hair color (for black hair vs. red or blonde hair, multi

31 ts: family history of melanoma, blond or red hair colors, higher number of extremity moles, higher su

32 Information on natural hair color in early adulthood (age 18-21 years) was asse

33 ognized as a Mendelian determinant of yellow hair color in many different mammals, also causes reduce

34 s significantly associated with common blond hair color in northern Europeans.

35 riants that are strongly associated with red hair color increase melanoma risk.

36 Variation in human skin and hair color is one of the most striking aspects of human

37 was also a relation between MC1R status and hair color, most prominently for the b* axis (p<0.001),

38 n adverse events included fatigue, change in hair color, nausea, dysgeusia, and periorbital edema; ad

39 The risk prediction model included hair color, nevus density, first-degree family history o

40 We examined whether hair color, one of the most important phenotypes of pigm

41 MSC (OR, 1.66 [95% CI, 0.90-3.07]) and light hair color (OR, 1.17 [95% CI, 0.51-2.71]) did not reach

42 suspect or victim, such as their sex, race, hair color, or age.

43 s of the association between KITLG and blond hair color, presenting an intriguing example of how a si

44 96-2002 to test the hypothesis that lifetime hair-coloring product use increases non-Hodgkin's lympho

45 was observed among women who reported use of hair-coloring products before 1980 (odds ratio = 1.3, 95

46 was found only among women who started using hair-coloring products before 1980.

47 : 1.0, 4.0) for those using darker permanent hair-coloring products for more than 25 years and 1.7 (9

48 re and disease among women who started using hair-coloring products in 1980 or later.

49 ning ability-related loci are similar to the hair color-related loci previously reported in the GWAS

50 hearing loss and skin pigmentation by using hair color, skin tanning ability, and skin reaction to p

51 We report results using direct measures of hair color using objective colorimetric dimensions and H

52 m a genome-wide association study of natural hair color were assessed for associations with the risk

53 f nevi, history of severe sunburn, and light hair color were each associated with significantly eleva