ライフサイエンスコーパス: caffeine consumption

1 cups of coffee/day, or the third quintile of caffeine consumption).

2 more detailed study of the health effects of caffeine consumption.

3 nonsmokers who had moderate alcohol or heavy caffeine consumption.

4 ified in this population with relatively low caffeine consumption.

5 characterize GxE in the specific context of caffeine consumption.

6 Mean birth weight was reduced by reported caffeine consumption (-28 g per 100 mg of caffeine consu

7 Daily caffeine consumption above the 75(th) percentile for the

8 s may underlie associations between maternal caffeine consumption and adverse childhood metabolic out

9 examining the associations between momentary caffeine consumption and affective states in naturalisti

10 Analyses of caffeine consumption and fasting cardiometabolic profile

11 with lower IOP, and the association between caffeine consumption and glaucoma was null.

12 was used to evaluate the association between caffeine consumption and hepatic fibrosis.

13 rst prenatal visit and were questioned about caffeine consumption and important confounding factors.

14 The association between caffeine consumption and positive affect was strongest w

15 Studies investigating antenatal caffeine consumption and reproductive outcomes show conf

16 emiologic studies on the association between caffeine consumption and skin cancer risk.

17 evaluate the associations between coffee and caffeine consumption and various health outcomes, we per

18 Dietary caffeine consumption and withdrawal are potential confou

19 2 sessions were acquired without controlled caffeine consumption, and 2 sessions after oral ingestio

20 We observed that T2D, as well as higher BMI, caffeine consumption, and tobacco use, were associated w

21 Cigarette smoking and caffeine consumption are associated with a decreased inc

22 vels of plasma caffeine, but lower levels of caffeine consumption, as individuals with these variants

23 However, associations of caffeine consumption, based on both plasma concentration

24 Caffeine consumption before adenosine stress myocardial

25 previously associated with lower coffee and caffeine consumption behavior in GWAS.

26 role of systemic caffeine levels in dietary caffeine consumption behavior.

27 reductions were apparent even with levels of caffeine consumption below clinically recommended guidel

28 Prior studies have determined caffeine consumption by questionnaire.

29 They also suggest that caffeine consumption can lead to sexually dimorphic patt

30 dependent, the public health consequences of caffeine consumption cannot be determined without data o

31 Coffee caffeine consumption (CC) is associated with reduced hep

32 and STS and negatively with CS, and frequent caffeine consumption correlated positively with burnout

33 A reliable tool for measurement of caffeine consumption demonstrated that caffeine consumpt

34 Therefore, our data suggest that elevated caffeine consumption does not contribute to the increasi

35 esic effects of acupuncture, and controlling caffeine consumption during acupuncture may improve pain

36 Caffeine consumption during adolescence also increased t

37 Together these findings suggest that caffeine consumption during adolescence produced changes

38 Caffeine consumption during adolescence reduced basal do

39 a-analysis examining the association between caffeine consumption during pregnancy and risk of preter

40 Higher caffeine consumption during pregnancy has been associate

41 Whether caffeine consumption during pregnancy represents a fetal

42 Findings suggest that caffeine consumption during pregnancy, even at levels mu

43 lity in this cohort-smoking, alcohol intake, caffeine consumption, exercise, body mass index, and his

44 ifferences in the hemodynamic response after caffeine consumption exist.

45 individuals with these variants require less caffeine consumption for the same physiological effect.

46 h abnormalities with complete information on caffeine consumption from 12 US clinical sites between 2

47 Caffeine consumption has been associated with loss of bo

48 The resemblance in twin pairs for total caffeine consumption, heavy caffeine use, caffeine intox

49 However, the impact of genetic factors on caffeine consumption, heavy use, intoxication, tolerance

50 s been reported in association with smoking, caffeine consumption, higher serum urate concentrations,

51 n the AHR gene were associated with habitual caffeine consumption in a Costa Rican population.

52 eine intake in children, recent estimates of caffeine consumption in a representative sample of child

53 -date, nationally representative estimate of caffeine consumption in adults.

54 Greater caffeine consumption in pregnancy is associated with red

55 Self-reports of caffeine consumption in the first and third trimesters w

56 echanisms associated with habitual (chronic) caffeine consumption in the mouse hippocampus using unta

57 Caffeine consumption, in the form of brewed coffee, inst

58 Caffeine consumption is associated with a reduced risk o

59 It is somewhat controversial whether caffeine consumption is associated with an increased ris

60 rease in birth weight, observed for maternal caffeine consumption, is unlikely to be clinically impor

61 Caffeine consumption led to reduced stress MBF and MFR a

62 Caffeine consumption led to reduced stress MBF and MFR a

63 erval of 6.1 years, 44 patients with various caffeine consumption levels underwent clinical and imagi

64 cal studies have reported that coffee and/or caffeine consumption may reduce Alzheimer's disease (AD)

65 Caffeine consumption of 100 mg or less versus more than

66 We identified the effects of adolescent caffeine consumption on cocaine sensitivity and determin

67 nt of caffeine consumption demonstrated that caffeine consumption, particularly from regular coffee,

68 x (BMI), type 2 diabetes (T2D), tobacco use, caffeine consumption, pesticide exposure, head injury, a

69 Information on caffeine consumption, potential confounders, and POAG di

70 Increasing caffeine consumption predicted higher CBF (P < or =.05)

71 nimal studies have converged to suggest that caffeine consumption prevents memory deficits in aging a

72 1) and a positive association was found with caffeine consumption (R2beta*, 0.003; 95% CI, 0.000-0.00

73 027; 95% CI, 0.020-0.034; P < .001) and less caffeine consumption (R2beta*, 0.013; 95% CI, 0.009-0.01

74 studies, we investigated whether coffee and caffeine consumption reduced the risk of elevated alanin

75 Epidemiological studies indicate that caffeine consumption reduces the risk of Parkinson's dis

76 d cisplatin for ototoxicity and suggest that caffeine consumption should be cautioned in cancer patie

77 ght gain in participants who increased their caffeine consumption than in those who decreased their c

78 ost studies have used maternal self-reported caffeine consumption to estimate fetal exposure.

79 use a food-frequency instrument for dietary caffeine consumption to evaluate the relationship betwee

80 Women are recommended to limit caffeine consumption to less than 200 mg per day based o

81 , we examined the relationship of coffee and caffeine consumption to the risk of this disease among p

82 articipants whose cumulatively updated total caffeine consumption was <125 mg/day, participants who c

83 Habitual caffeine consumption was associated weakly with lower IO

84 on of caffeinated coffee as compared with no caffeine consumption was associated with 154 and 102 dai

85 st (>=232 mg/day) versus lowest (<87 mg/day) caffeine consumption was associated with a 0.10-mmHg low

86 est ( 232 mg/day) versus lowest (<87 mg/day) caffeine consumption was associated with a 0.10-mmHg low

87 andomization failed to provide evidence that caffeine consumption was associated with arrhythmias.

88 etic predisposition to elevated IOP, greater caffeine consumption was associated with higher IOP and

89 inated coffee, total coffee, tea, or overall caffeine consumption was associated with the risk of RA,

90 Higher caffeine consumption was further associated with a progr

91 Women whose caffeine consumption was heavy (>300 mg of caffeine per

92 % confidence interval 0.14-0.66).Those whose caffeine consumption was heavy also had a doubled risk f

93 association was also evident in those whose caffeine consumption was heavy who did not smoke (adjust

94 cohort of initially healthy women, elevated caffeine consumption was not associated with an increase

95 m paraxanthine concentration, which reflects caffeine consumption, was associated with a higher risk

96 Total coffee and total caffeine consumption were also not associated with the r

97 anthropometric measurements with increasing caffeine consumption were observed.

98 Usual mean +/- SE per capita caffeine consumption when nonusers were included was 186

99 Epidemiological studies have strongly linked caffeine consumption with a reduced risk of developing P

100 is consistent with an inverse association of caffeine consumption with development of PD based on pas

101 weight (mg/kg) to examine the association of caffeine consumption with sociodemographic factors and d