ライフサイエンスコーパス: calcium supplementation

1 ss, athletes received differential levels of calcium supplementation.

2 500-mg daily dose to a 1500-mg daily dose of calcium supplementation.

3 o significant interactions of genotypes with calcium supplementation.

4 ion pathways, which were largely reversed by calcium supplementation.

5 keletal healing, often necessitating dietary calcium supplementation.

6 ative PTH levels require oral calcitriol and calcium supplementation.

7 better periodontal health with vitamin D and calcium supplementation.

8 hanges were noted as early as 12 months into calcium supplementation.

9 phosphorus were lower in the group receiving calcium supplementation.

10 tly decreased in children with JRA receiving calcium supplementation.

11 ed if they reported data on preeclampsia and calcium supplementation.

12 two randomized, placebo-controlled trials of calcium supplementation (1 g per day) in postpartum wome

13 Calcium supplementation (1 g/d) does not promote postpar

14 ally randomized, placebo-controlled trial of calcium supplementation (1.5 g/d), which was also provid

15 th control groups (placebo/no intervention), calcium supplementation (600/1000 mg/d) had no significa

16 pooled RR for nonvertebral fractures between calcium supplementation (800-1600 mg/d) and placebo was

17 s study was to investigate whether pregnancy calcium supplementation affects offspring blood pressure

18 d for 9 months after transplant with minimal calcium supplementation after the procedure.

19 hemical indexes of bone metabolism than does calcium supplementation alone.

20 imed to determine whether daily vitamin D or calcium supplementation alters the risk of basal cell ca

21 Despite widespread use of calcium supplementation among elderly people, little is

22 dy BMD compared to participants on vitamin D/calcium supplementation and exercise alone.

23 dy BMD compared to participants on vitamin D/calcium supplementation and exercise alone.

24 These results suggest that calcium supplementation and exogenous estrogen positivel

25 rtum period, we determined whether long-term calcium supplementation and lactation status affected ir

26 show no reduction in hip fracture risk with calcium supplementation, and an increased risk is possib

27 es of vitamin D and their doses, the role of calcium supplementation, and effects in men should be co

28 nt (eg, comprehensive geriatric assessment), calcium supplementation, and vitamin D supplementation (

29 Calcium supplementation at 90% could delay 51,000 deaths

30 The objective was to test whether 12 mo of calcium supplementation at age 8-12 y to increase intake

31 We aimed to test the hypothesis that calcium supplementation before and in early pregnancy (u

32 ant decrease of systolic blood pressure with calcium supplementation, both for hypertensive persons a

33 If symptoms are mild, oral calcium supplementation can be given; otherwise, intrave

34 Combined vitamin D and calcium supplementation can reduce fracture risk, but th

35 the results statistically nonsignificant for calcium supplementation, cholecalciferol, and among men.

36 ar spine increased 2.1% with calcitonin plus calcium supplementation compared with -0.2%/y with calci

37 hs, Abcc6(-/-) mice exposed to vitamin D and calcium supplementation developed massive Randall's plaq

38 Calcium supplementation did not affect BP in pregnancy.

39 Calcium supplementation did not affect postpartum fat lo

40 Calcium supplementation did not significantly reduce the

41 findings provide reassurance that long-term calcium supplementation does not impair iron stores.

42 Calcium supplementation does not prevent bone loss durin

43 with the conclusions of the CPEP trial that calcium supplementation does not prevent preeclampsia in

44 Overall, the meta-analysis indicates that calcium supplementation does not provide clinically impo

45 ces of pre-eclampsia; however, the effect of calcium supplementation during placentation is not known

46 Calcium supplementation during pregnancy did not prevent

47 The World Health Organization recommends calcium supplementation during pregnancy for women with

48 Previous trials have suggested that calcium supplementation during pregnancy may reduce the

49 Maternal calcium supplementation during pregnancy was unrelated t

50 d, double-blind, placebo-controlled trial of calcium supplementation during pregnancy.

51 lyses of the primary outcomes indicated that calcium-supplementation effects vary over time.

52 particularly benefit from vitamin D3 and/or calcium supplementation for colorectal adenoma preventio

53 he effect is too small to support the use of calcium supplementation for preventing or treating hyper

54 The benefits of calcium supplementation for prevention of preeclampsia a

55 benefits and harms of combined vitamin D and calcium supplementation for the primary prevention of fr

56 f subjects who developed preeclampsia in the calcium supplementation group vs a control group were re

57 t other sites was assessed in single trials: calcium supplementation had a small to moderate effect o

58 al maintenance programs taking vitamin D and calcium supplementation had a trend for better periodont

59 Calcium supplementation had no effect on serum ferritin

60 ut not all) observational and RCT studies of calcium supplementation have suggested potential for car

61 When challenged with dietary calcium supplementation, however, these mice had signifi

62 may be due to relatively longer duration of calcium supplementation in older individuals.

63 arch has raised doubts about the efficacy of calcium supplementation in preventing fractures; however

64 Calcium supplementation in the second half of pregnancy

65 Calcium supplementation in the second half of pregnancy

66 g a randomized controlled trial of pregnancy calcium supplementation in which mothers were randomly a

67 nducted two independent randomized trials of calcium supplementation, in India and Tanzania, to asses

68 gested that maternal vitamin D (25[OH]D) and calcium supplementation increase birth weight.

69 Dietary calcium supplementation increased the rate of decline in

70 least one skeletal site to evaluate whether calcium supplementation influenced the efficacy of estro

71 Calcium supplementation is associated with a significant

72 , folate, and vitamin B6, remains uncertain, calcium supplementation is likely to be at least modestl

73 sk associated with short-term to medium-term calcium supplementation is unknown.

74 Calcium supplementation is unlikely to have clinically s

75 Calcium supplementation largely abrogated these changes.

76 he need for active vitamin D with or without calcium supplementation longer than 1 year after surgery

77 Calcium supplementation may be indicated postoperatively

78 ver the course of lactation, suggesting that calcium supplementation may constitute an important inte

79 These findings suggest that calcium supplementation may lower diastolic blood pressu

80 showed, in female offspring, that pregnancy calcium supplementation may lower systolic blood pressur

81 A blood pressure-lowering effect of calcium supplementation may thus be restricted to person

82 These findings suggest that the calcium supplementation met physiologic needs and caused

83 Vitamin D3 plus calcium supplementation mitigates the BMD loss seen with

84 is insufficient evidence to support routine calcium supplementation of all pregnant women.

85 Calcium supplementation of boys in late childhood advanc

86 Calcium supplementation of pregnant Gambian women with a

87 Studies have suggested that calcium supplementation of women receiving low-calcium d

88 trial was conducted to assess the effect of calcium supplementation on blood pressure in African Ame

89 ve was to investigate the effect of maternal calcium supplementation on blood pressure in offspring b

90 Pooled estimates of the effect of calcium supplementation on blood pressure were -0.18 mm

91 rts of trials studying the effect of dietary calcium supplementation on blood pressure were identifie

92 s in humans have found only small effects of calcium supplementation on blood pressure.

93 his study evaluated the long-term effects of calcium supplementation on bone accretion among females

94 There was no effect of either lactation or calcium supplementation on bone density in the forearm,

95 Clinical trials evaluating the effect of calcium supplementation on bone loss in lactating women

96 was to evaluate the effect of vitamin D and calcium supplementation on bone mass accrual in HIV-infe

97 We aimed to determine the effect of calcium supplementation on bone mineral density (BMD) in

98 The effect of calcium supplementation on bone physiology was determine

99 orms modify the effects of vitamin D3 and/or calcium supplementation on colorectal adenoma recurrence

100 nd CASR) modify the effects of vitamin D3 or calcium supplementation on colorectal adenoma recurrence

101 The net effect (+/-SE) of calcium supplementation on diastolic blood pressure was

102 ong-term effects of childhood probiotics and calcium supplementation on growth in adolescence.

103 The consequences of chronic calcium supplementation on iron status are unclear, howe

104 The effects of growth, menstrual status, and calcium supplementation on iron status were studied over

105 cal trials that have evaluated the effect of calcium supplementation on lipids are limited by a short

106 tudy was to determine the effect of maternal calcium supplementation on peripheral cortical and trabe

107 omized controlled trials examined effects of calcium supplementation on preeclampsia but did not cons

108 uated the effects of vitamin D combined with calcium supplementation on skin cancer in a randomized p

109 y in the forearm, and there was no effect of calcium supplementation on the calcium concentration in

110 confounders showed no significant effect of calcium supplementation on the change between P20 and P3

111 tudies that have reported adverse effects of calcium supplementation on vascular events have raised w

112 We investigated the effects of calcium supplementation on zinc absorption and balance i

113 y was to investigate the effect of long-term calcium supplementation on zinc utilization in 26 adoles

114 to 1.41]), or a combination of vitamin D and calcium supplementation (pooled relative risk, 1.04 [CI,

115 doses (approximately 1000 IU/d) but not with calcium supplementation (pooled relative risk, 1.14 [CI,

116 We studied whether calcium supplementation prevents bone loss during lactat

117 In general, calcium supplementation promotes the growth of both spec

118 Calcium supplementation protected both men and women fro

119 GFR and calcium excretion, and discontinuing calcium supplementation provide best treatment.

120 the clinical management of septic patients, calcium supplementation provides no benefit and may impo

121 In the longitudinal study, calcium supplementation reduced bone loss from the total

122 -analysis showed that combined vitamin D and calcium supplementation reduced fracture risk (pooled re

123 Calcium supplementation reduced heme and total iron with

124 athways, including interferon signaling, and calcium supplementation reversed these toward baseline.

125 Therefore, calcium supplementation should be used cautiously, striv

126 Calcium supplementation significantly influenced bone ac

127 d to subjects who did not take vitamin D and calcium supplementation, supplement takers had shallower

128 after weaning is greater in women receiving calcium supplementation than in women receiving placebo.

129 Calcium supplementation that commenced before pregnancy

130 A recent meta-analysis found calcium supplementation to be highly effective in preven

131 F) recommendation statement on vitamin D and calcium supplementation to prevent fractures in adults.

132 participants in this large clinical trial of calcium supplementation to prevent preeclampsia.

133 All women in the calcium supplementation trial (International Trial Regis

134 As part of a randomized calcium-supplementation trial in lactating and nonlactat

135 sted that the effect size was independent of calcium supplementation, type of vitamin D, duration of

136 To evaluate the impact of vitamin D and calcium supplementation (VitD/Ca) on lumbar spine bone m

137 Calcium supplementation was administered during year 2.

138 Calcium supplementation was associated with significant

139 Calcium supplementation was discontinued in two control

140 Sufficient calcium supplementation was given to bring all calcium i

141 In these two trials, low-dose calcium supplementation was noninferior to high-dose cal

142 index (in kg/m(2); mean: 14.0) and maternal calcium supplementation was observed in this study.

143 Calcium supplementation was provided to participants wit

144 om randomized clinical trials indicates that calcium supplementation, which raises serum calcium leve

145 supplementation was noninferior to high-dose calcium supplementation with respect to the risk of pree