ライフサイエンスコーパス: supplementation

1 hich enables an increased growth rate during supplementation.

2 fected by hypovirus infection or tannic acid supplementation.

3 e, sex, season of measurement, and vitamin D supplementation.

4 al effect modification by sex and folic acid supplementation.

5 ay be most likely to derive net benefit from supplementation.

6 omized placebo-controlled study of probiotic supplementation.

7 could be significantly improved by estrogen supplementation.

8 stunting reduction needs much more than food supplementation.

9 n profound metabolic health effects after NR supplementation.

10 to adhere to statins 1 year after vitamin D supplementation.

11 e, safety, and efficacy of intraoperative FC supplementation.

12 derlying mechanisms and randomized trials of supplementation.

13 ld be rectified via fortified food stuffs or supplementation.

14 ve, suggesting a sustained overall effect of supplementation.

15 rial function, which can be reversed by iron supplementation.

16 ere mimicked by acetate, but not by butyrate supplementation.

17 ed among subjects after initiation of legume supplementation.

18 which was completely prevented by glutamine supplementation.

19 istory plasticity, as does experimental food supplementation.

20 ange significantly as a result of probiotics supplementation.

21 significant weight gain despite nutritional supplementation.

22 robiotics and 83 episodes with no probiotics supplementation.

23 thality as well and could be rescued by PUFA supplementation.

24 ld mice were found to be upregulated upon UA supplementation.

25 leucine (LEU; n = 8) or placebo (PLA; n = 8) supplementation (15 g/d).

26 They were assigned to receive oral supplementation (3 sachets/d) of either a formula enrich

27 jority of patients improved under riboflavin supplementation (86%).

28 Most patients received AT supplementation (87%).

29 Glutamine supplementation abolishes the latter abnormality, sugges

30 Overall, it seems that high dietary taurine supplementation acted as a growth promoter and concurren

31 tions regarding calcium intake and vitamin D supplementation after HTx.

32 s (RCTs) to determine the effect of selenium supplementation alone and of antioxidant mixtures with o

33 , and all-cause mortality following selenium supplementation alone or after antioxidant supplement mi

34 Neither sodium nitrate nor sodium nitrite supplementation altered mitochondrial coupling efficienc

35 Amino acid supplementation altered uptake and plasma concentrations

36 determine whether daily vitamin D or calcium supplementation alters the risk of basal cell carcinoma

37 nd, placebo-controlled trial of vitamin D(3) supplementation among adults living with HIV who initiat

38 ence and trends in use of high-dosage biotin supplementation among US adults between 1999 and 2016.

39 ere with Mtb infection, including vitamin B5 supplementation.Analysis of blood from highly exposed ho

40 oactive case-finding strategy, micronutrient supplementation and endoscopic surveillance.

41 ompared to participants on vitamin D/calcium supplementation and exercise alone.

42 ogic states as well as the dose required for supplementation and food fortification.

43 esting therapeutic strategies (e.g., Omega-6 supplementation and IL-13 inhibition for amyotrophic lat

44 omarkers in relation to antenatal MM and IFA supplementation and maternal gestational micronutrient s

45 e care unit (ICU) admission, need for oxygen supplementation and mechanical ventilation, and in-hospi

46 further rapidly, to the extent that further supplementation and modification will prove necessary.

47 were used to examine interactions between FA supplementation and PM exposures, after controlling for

48 We collected information on their FA supplementation and pregnancy outcomes and estimated eac

49 atment of diarrhoea, and receiving vitamin A supplementation) and household characteristics (ie, type

50 s salad, for teas and tea blends, for coffee supplementation, and as a source for the inulin producti

51 nction by combining genetic dissection, diet supplementation, and behavioral, biochemical, and functi

52 ng in ethylenediaminetetraacetic acid (EDTA) supplementation, and its effects on muscle and parvalbum

53 response to interventions such as probiotic supplementation, antibiotic treatment or episodes of sus

54 mmary, our results support a role for Mg(2+) supplementation as a potential prebiotic to promote esta

55 the effect of chronic oral ketone ester (KE) supplementation as a prevention or treatment strategy in

56 ial risks of a more liberal approach to iron supplementation as well as the potential risks and benef

57 and low serum 25-(OH)D levels, vitamin D(3) supplementation at doses of 1000 IU/d or higher did not

58 ect of alpha-Fe(2)O(3)-nanoparticles (IONPs) supplementation at varying doses (0, 10, 20 and, 30 mg L

59 Vitamin D supplementation attenuated expression of key molecules i

60 fy individuals who can benefit from selenium supplementation, based, for instance, on individual sele

61 andomized controlled trials of micronutrient supplementation before and during pregnancy, as part of

62 n vitro, NRF2 activation or prostaglandin E2 supplementation blunted the induction of the innate immu

63 ty treatment, the use of folic acid and zinc supplementation by male partners, compared with placebo,

64 omega-3 treatment in vitro and omega-3 supplementation by the drink Smartfish (SMF) in vivo inc

65 nate's microbiome through maternal probiotic supplementation can improve offspring's neurodevelopment

66 our findings provide evidence that glutamine supplementation can serve as a potential dietary interve

67 Maternal LB supplementation, carried out by giving Lactobacillus aci

68 tives included tolerance, compliance to oral supplementation, chemotherapy interruptions and delays,

69 ansgenerational benefits of maternal choline supplementation (ChS; 5.0 g/kg choline chloride) in two

70 ce of 25-hydroxyvitamin D3 During Vitamin D3 Supplementation (CLEAR-PLUS), NCT03576716.

71 (Fo), feed conservation (Fe) and concentrate supplementation (Co): FoCo fed high-quality Napier grass

72 ms were more common with folic acid and zinc supplementation compared with placebo (abdominal discomf

73 Intravenous iron supplementation compared with placebo resulted in increa

74 asthma and low vitamin D levels, vitamin D3 supplementation, compared with placebo, did not signific

75 Vitamin D3 supplementation, compared with placebo, likewise did not

76 We examined whether FA supplementation could reduce the risk of PTD associated

77 Q8 supplementation decreased membrane fluidity in liposomes

78 NR supplementation decreases nicotinamide phosphoribosyltra

79 of 25(OH)D before versus after vitamin-D(3) supplementation did not differ.

80 Vitamin K2 supplementation did not improve vascular stiffness or ot

81 ted livers were iron deficient, dietary iron supplementation did not prevent steatosis; instead, diet

82 Vitamin D supplementation did not reduce major CVD events (HR, 0.9

83 Vitamin D supplementation did not result in a lower risk of tuberc

84 Compared with placebo, vitamin D3 supplementation did not significantly improve the time t

85 Furthermore, melatonin supplementation diminished the Ca.

86 Specifically, sucrose supplementation disrupted the homeostasis between acid-p

87 NR supplementation does not affect NAD metabolite concentra

88 Monthly high-dose vitamin D supplementation does not prevent ARI in older adults wit

89 ll, the meta-analysis indicates that calcium supplementation does not provide clinically important be

90 esults of subgroup analysis according to the supplementation duration showed that the pooled effect s

91 th < 10 months, 10-20 months and > 20 months supplementation duration were 0.05, 0.27, and 0.36, resp

92 nsidered as a risk factor for periodontitis, supplementation during periodontal treatment has not bee

93 t mitigate the effectiveness of vitamin D(3) supplementation during periodontal treatment.

94 increasing prevalence of indiscriminate iron supplementation during pregnancy also raises concerns ab

95 olled, multi-arm study of maternal vitamin D supplementation during pregnancy in Dhaka, Bangladesh (N

96 of gestation, maternal docosahexaenoic acid supplementation during the neonatal period did not signi

97 Both thrice-weekly and once-monthly supplementation effectively increases serum 1,25(OH)(2)D

98 Moreover, melatonin supplementation enhanced the endogenous contents of the

99 SCFA supplementation enhances IL-22 production, which protect

100 SO supplementation failed to alter circulating concentratio

101 nts received 6 wk NR (1000 mg/d) and placebo supplementation, followed by broad metabolic phenotyping

102 Vitamin D3 supplementation for 24 wk had no significant effect on s

103 mized controlled trials evaluating probiotic supplementation for allergy prevention in very preterm i

104 termining the overall effects of nutritional supplementation for children with MAM.

105 h T2D and argue against the use of vitamin D supplementation for the prevention of T2D.

106 child development improved during and after supplementation for treatment of MAM.

107 ent (MM) compared with iron folic acid (IFA) supplementation from early pregnancy improved birth outc

108 mester urine samples and assessed folic acid supplementation from reported intakes.

109 Dietary nitrate supplementation, from beetroot juice (BRJ), has been sho

110 rimary outcome) were 3.9 +/- 1.8 in the iron supplementation group and 4.0 +/- 2.2 in the placebo gro

111 s were randomly assigned to the vitamin D(3) supplementation group, and 1999 to the placebo group.

112 .030) but not CTL with no difference between supplementation groups.

113 lations, but they suggest that initiating FA supplementation >= 3 months prior to pregnancy may lesse

114 sites was assessed in single trials: calcium supplementation had a small to moderate effect on total-

115 Whether dosage of vitamin D supplementation has a differential effect on BP control

116 ciated with disease progression, and sKlotho supplementation has emerged as a potential therapeutic s

117 nd preterm delivery (PTD) by folic acid (FA) supplementation has not been studied.

118 ), randomized controlled trials of vitamin D supplementation have provided inconsistent results.

119 Mn(II) supplementation improved growth when cop- was cultured w

120 Moreover, methionine supplementation improved the expression of H3K79me2 and

121 We investigated whether intravenous iron supplementation improves fatigue and general health in n

122 nuation of the 25(OH)D response to vitamin D supplementation in asthma and COPD associated with reduc

123 Legume supplementation in breastfed, rural African infants did

124 arranted to examine the effects of vitamin D supplementation in early life on long-term cardiometabol

125 or body composition occurred with histidine supplementation in either study.

126 In this study, taurine supplementation in high plant protein diets (low fish me

127 In vivo kynurenine supplementation in IDO-deficient mice abrogates the prot

128 We aimed to determine if dietary NR supplementation in middle-aged, obese, insulin-resistant

129 cent published data on the effects of iodine supplementation in mildly-to-moderately deficient pregna

130 udy demonstrates the efficacy of maternal LB supplementation in modulating systemic and central nervo

131 upregulation of angiogenic pathways upon UA supplementation in murine muscle.

132 Trials of selenium supplementation in patients with chronic autoimmune thyr

133 al risks and benefits of IV versus oral iron supplementation in patients with CKD.

134 either the benefits nor the safety of iodine supplementation in pregnancy in areas of mild-to-moderat

135 o support current recommendations for iodine supplementation in pregnancy in areas of mild-to-moderat

136 suggest potential beneficial effects of BRJ supplementation in pregnancy, and emphasize the importan

137 light that early-life short-term nutritional supplementation in preterm lambs does not alter the micr

138 riven biomass production, dietary amino acid supplementation in tn mutants improves muscle mass.

139 nuous medium exchange and 8.2 mM lactic acid supplementation increased gametocytemia approximately 2-

140 CPE supplementation increased milk antioxidant capacity, sug

141 Supplementation increased phenolics content up to 72% in

142 Mechanistically, nervonic acid supplementation increased PPARalpha and PGC1alpha expres

143 In conclusion, cholecalciferol supplementation increases serum hepcidin-25 levels in th

144 The arrest was not rescued by LA supplementation, indicating that endogenous synthesis of

145 examining the association between vitamin D supplementation initiated after breast cancer diagnosis

146 ere is little information on how nutritional supplementation interacts with the developing microbiome

147 Nutritional supplementation is a common clinical intervention to sup

148 Testosterone supplementation is commonly used for its effects on sexu

149 oderate deficiency are well researched, such supplementation is increasingly being recommended by hea

150 e missed since high-dose riboflavin per oral supplementation is often highly efficient.

151 atients with Graves ophthalmopathy, selenium supplementation is widely used by clinicians for other t

152 aker's yeast production (with minor nutrient supplementation), is also proposed.

153 en between 6 and 24 mo old and the period of supplementation lasted >=6 mo.

154 Vitamin D supplementation may have an anti-rhinovirus effect.

155 Vitamin D supplementation may prevent falls in older persons, but

156 tation was observed with folic acid and zinc supplementation (mean of 29.7% for percentage of DNA fra

157 To determine if vitamin K supplementation might improve arterial stiffness in pati

158 Iron supplementation must be prescribed to avoid chronic iron

159 Therefore, supplementation needs to be judicious.

160 nd may explain some of the benefits of CoQ10 supplementation observed in mitochondrial diseases.

161 Oral taurine supplementation of 100 mg/kg/day resulted in maintenance

162 NR supplementation of 1000 mg/d for 6 wk in healthy overwei

163 Supplementation of animals and humans with essential fat

164 Supplementation of antithrombin might decrease the amoun

165 er diminished IFN-gamma levels in PBMCs, and supplementation of cells with nonsteroidal anti-inflamma

166 Supplementation of cookies with 10% DFC could be recomme

167 Supplementation of cultures with cobalamin (vitamin B(12

168 Supplementation of ex vivo expansion cultures of Tregs w

169 Exogenous supplementation of IAA to the unaged, germinating NS see

170 In addition, supplementation of LPA or S1P rescued proliferation and

171 In vivo deletion or supplementation of LXA(4) identified modulation of CC-ch

172 Therapeutic supplementation of miR-181a-5p and miR-324-5p reduces pr

173 severity criteria as follows: use of oxygen supplementation of more than 4 L/min flow; use of high-f

174 Supplementation of N-acetylcysteine (NAC), a scavenger o

175 These results suggest that CD38 deletion and supplementation of NAD(+) may protect transected axon ce

176 Supplementation of NAD(+) with nicotinamide riboside slo

177 The result suggested that nutraceutical supplementation of patients with knee/hip OA may lead to

178 H(2)O(2)) we developed a model of intranasal supplementation of polyethylene glycol-conjugated catala

179 rom adult liver, strongly supports increased supplementation of preterm parenteral nutrition with bot

180 In conclusion, the supplementation of ruminant diets with plant oils, in pa

181 Interestingly, dietary supplementation of selected n-6 PUFAs rescued the embryo

182 However, dietary supplementation of spermine does not appear to benefit S

183 Supplementation of stress-related EVs in cultured granul

184 In contrast, dietary supplementation of the antioxidant alpha-tocopherol decr

185 t (CRISPR)-mediated gene editing and acetate supplementation of the culture media.

186 Oral supplementation of the glycolytic product pyruvate stron

187 Either supplementation of the media with lysine and arginine or

188 mixture of the concentrates with or without supplementation of three limiting amino acids.

189 Half of the cows received a supplementation of vitamin E and plant extracts rich in

190 There was no effect of maternal vitamin D supplementation on asthma and recurrent wheeze in either

191 Supplementation on days 9 to 16 did not increase the qua

192 ts of vitamin D and omega-3 (n-3) fatty acid supplementation on endometriosis-associated pain in adol

193 investigate the effects of 6-mo resveratrol supplementation on metabolic health outcome parameters.

194 There was no effect of prenatal vitamin D supplementation on most of the prespecified secondary ou

195 lyzed the effect of CD38 deletion and NAD(+) supplementation on neuronal death and glial activation i

196 o not support a beneficial role of vitamin D supplementation on obesity-related inflammation.

197 gned to evaluate the effect of nutraceutical supplementation on pain intensity and physical function

198 here was no significant effect of vitamin D3 supplementation on serum cholesterol profile or surrogat

199 stigated the effects of oral cholecalciferol supplementation on serum hepcidin and parameters related

200 meal (FSM) and turmeric rhizome powder (TRP) supplementation on tissue lipid profile, lipid metabolis

201 hat stabilized resources, either by resource supplementation or degradation, eroded the benefits of i

202 95% CI, 2.3-3.5; P < .001), need for oxygen supplementation (OR, 4.2; 95% CI, .5-33.7; P = .175) and

203 abolism was altered in MS and that bile acid supplementation prevented polarization of astrocytes and

204 s of maternal and child protein-calorie food supplementation programmes.

205 Furthermore, maternal LB supplementation promoted neuronal and oligodendrocyte pr

206 eeze in young children, which suggested that supplementation provided a protective effect at the age

207 Median duration of oxygen supplementation (range) was 5.5 days (0-21) (BPD) compar

208 In adulthood, maternal MFGM-PL supplementation reduced adiposity and increased oxygen c

209 rial to assess whether cowpea or common bean supplementation reduced intestinal permeability or incre

210 Most RCTs found that supplementation reduced maternal thyroglobulin and in 3

211 In three murine colitis models, SBA supplementation reduces intestinal inflammation.

212 to capsaicin, whereas phosphoinositide lipid supplementation reduces TRPV1-mediated responses.

213 nical trial (N=535) of the effect of omega-3 supplementation, relative to placebo, on exploratory and

214 Interestingly, acetate supplementation rescues both histone acetylation and the

215 Oleic acid supplementation rescues viral RNA replication and produc

216 IN by low doses of paclitaxel and nucleoside supplementation, respectively.

217 Remarkably, iron supplementation restores cell proliferation under both p

218 Cysteine depletion or iron supplementation restores mitochondrial health in vacuole

219 Vitamin D3 supplementation resulted in greater reduction in campest

220 and increased drip loss, whereas, 10.0 g TRP supplementation reversed these negative effects of FSM.

221 Calcium and vitamin D supplementation should be the first step in correcting b

222 pregnancy, and highlights that progesterone supplementation should be used only when there is clear

223 However, in AOM/DSS-treated male mice, E2 supplementation showed significantly lower level of the

224 , we further demonstrate that dietary Mg(2+) supplementation significantly improves S. gordonii oral

225 At week 24, vitamin D3 supplementation significantly increased 25(OH)D concentr

226 The 100 g FSM along with 10.0 g TRP supplementation significantly increased the omega-3 PUFA

227 Taurine supplementation significantly reduced fillet drip loss,

228 ity has hindered efforts to identify optimal supplementation strategies.

229 y by genotype and increased modestly with BO supplementation, suggesting a key role for FADS variatio

230 terations in branching that improved with Mn supplementation, suggesting that the common variant exis

231 Overall, at 30 mg L(-1) IONPs supplementation, the cumulative enhancements in biomass,

232 ed proportionally to dose with 3 mo of daily supplementation.These trials were registered at clinical

233 enriched milk fat globule membrane (MFGM-PL) supplementation to high-fat diet (HFD) rats during pregn

234 cebo-controlled clinical trial of vitamin D3 supplementation to improve the time to severe exacerbati

235 Probiotic supplementation to mothers and/or their term-born infant

236 the results of a trial of prenatal vitamin D supplementation to prevent asthma and recurrent wheeze i

237 , randomized, controlled trials of vitamin D supplementation to prevent tuberculosis infection are la

238 pproval by the ethics committee, a long-term supplementation treatment was introduced.

239 G, AND PARTICIPANTS: The Folic Acid and Zinc Supplementation Trial was a multicenter randomized clini

240 ulated with a literature review of vitamin D supplementation trials.

241 his study investigated the effect of seaweed supplementation (Ulva lactuca (UL) or Sargassum hemiphyl

242 Mechanistically, we find that glutamine supplementation uniformly alters the transcriptome in tu

243 e to thrive, often necessitating nutritional supplementation via gastrostomy tube.

244 Vitamin D supplementation was associated with lower epigenetic age

245 suppressed neuroinflammation by maternal LB supplementation was associated with reduced astrocyte/mi

246 rsal of these outcomes through NAD(+) or NMN supplementation was independent of CD73.

247 For grafts intended for PKs, antifungal supplementation was less cost-effective than for EKs.

248 or full-thickness corneal grafts, antifungal supplementation was less cost-effective.

249 Supplementation was not associated with toxicity, relaps

250 Furthermore, aspartate supplementation was sufficient to reverse the antihypert

251 Nutritional supplementation were found to improve total WOMAC index

252 CFU) and most probable number (MPN) with Rpf supplementation were quantified.

253 s continuously exposed to 8.2 mM lactic acid supplementations were more infectious to Anopheles steph

254 gion-specific cell heterogeneity compared to supplementation, which resulted in a significant reducti

255 poxemic respiratory failure requiring oxygen supplementation whose Pao(2) increased >=20% with prone

256 overweight and obese children by vitamin D3 supplementation with 1000 or 2000 IU/d versus 600 IU/d d

257 Supplementation with a bile acid sequestrant, cholestyra

258 Supplementation with a nutraceutical consisting of spiru

259 Also, the supplementation with apple and goji fruits provided high

260 cal trials are necessary to evaluate whether supplementation with BCAAs might improve growth in UCDs.

261 Dietary supplementation with beneficial microbes might reduce th

262 ssociated GLP-1 pathway in the gut, and oral supplementation with butyrate provides new insights for

263 Furthermore, oral supplementation with butyrate, whether for remedy or pre

264 Cure was reached after supplementation with convalescent plasma.

265 Furthermore, supplementation with cruciferous broccoli powder rich in

266 Based on our findings, a dietary supplementation with DP could be an effective countermea

267 In laboratory growth experiments, supplementation with exogenous hydrogen peroxide enhance

268 Critically, supplementation with extra wild-type Prph2 protein elici

269 Supplementation with fish oil resulted in about half of

270 Maternal supplementation with formate prevented both ventriculome

271 These defects are preventable by maternal supplementation with formate, which acts as a 1-carbon d

272 Supplementation with hemoglobin allowed Spn to resume gr

273 Chronic oral supplementation with KE was effective in both prevention

274 Six months supplementation with Lab4P probiotic resulted in signifi

275 Finally, probiotic supplementation with Lactobacillus reuteri did not impos

276 A 5-wk dietary supplementation with leafy green vegetables or pills con

277 Maternal supplementation with LNS as a Bolus or Divided dose was

278 ndomized placebo-controlled trials, suggests supplementation with n-3 polyunsaturated fatty acids (PU

279 Furthermore, supplementation with nicotinamide riboside enhanced T ce

280 severity of coronary artery disease, whereas supplementation with nitrate can improve submaximal exer

281 Supplementation with omega-3 polyunsaturated fatty acids

282 tics use, of which 84 episodes that included supplementation with probiotics and 83 episodes with no

283 ite outgrowth defects that can be rescued by supplementation with SLIT3 and/or NTN1.

284 Furthermore, dietary supplementation with spermidine promotes homeostatic dif

285 We investigated whether supplementation with the dopamine-precursor L-dopa impro

286 P depletion and cell death were prevented by supplementation with the energy substrate pyruvate or ol

287 properties of breads, especially after their supplementation with the microencapsulated additives (an

288 Supplementation with the NAD precursor, nicotinamide rib

289 Here, we reveal that supplementation with the NAD(+) precursor nicotinamide r

290 Supplementation with these enzymes allows T. thermosacch

291 Moreover, maternal supplementation with these metabolites abrogated deficie

292 Nutritional supplementation with these proteins might aide in develo

293 Dietary supplementation with thymol partially and positively mod

294 Food supplementation with vitamin A is an efficient strategy

295 lead, cadmium, manganese, and mercury after supplementation with vitamin D during pregnancy.

296 It is unknown whether dietary supplementation with vitamin D or calcium prevents kerat

297 We aimed to determine whether supplementation with vitamin D or omega-3 fatty acids re

298 cient overweight and obese children, whether supplementation with vitamin D3 1000 or 2000 IU/d is mor

299 Effects were global; dietary supplementation with vitamin E and plant extracts was as

300 d that maternal early pregnancy progesterone supplementation would increase fetal progesterone, affec