ライフサイエンスコーパス: vitamin A deficiency

1 nematode infections, iodine deficiency, and vitamin A deficiency).

2 his occurrence is largely unknown except for vitamin A deficiency.

3 e prevalence of iron deficiency, anemia, and vitamin A deficiency.

4 schedule for vitamin A in areas of moderate vitamin A deficiency.

5 (ICDS) in India have high rates of iron and vitamin A deficiency.

6 Its etiology is multifactorial and includes vitamin A deficiency.

7 the accuracy of noninvasive tests to detect vitamin A deficiency.

8 y of 80% and a specificity of 100% to detect vitamin A deficiency.

9 y and should be an excellent animal model of vitamin A deficiency.

10 hool children in Zanzibar, a region of known vitamin A deficiency.

11 n vitamin A stores in populations at risk of vitamin A deficiency.

12 tect nearly 3 million children per year from vitamin A deficiency.

13 exhibited a skin phenotype characteristic of vitamin A deficiency.

14 pletely penetrant postnatal lethality during vitamin A deficiency.

15 At delivery, the infant also had vitamin A deficiency.

16 nd cardiac edema, phenotypes associated with vitamin A deficiency.

17 nervous system is particularly vulnerable to vitamin A deficiency.

18 n or night blindness, a symptom primarily of vitamin A deficiency.

19 amin A status, especially in women with mild vitamin A deficiency.

20 ificant change in rMuc1 mRNA expression with vitamin A deficiency.

21 Impaired dark adaptation occurs commonly in vitamin A deficiency.

22 ol for identifying patients with subclinical vitamin A deficiency.

23 ease morbidity are closely associated during vitamin A deficiency.

24 riectomy did not change the time to onset of vitamin A deficiency.

25 ea, are associated with an increased risk of vitamin A deficiency.

26 most notably hormonal contraceptive use and vitamin A deficiency.

27 arly, mid, and late weight plateau stages of vitamin A deficiency.

28 vitamin A is an efficient strategy to combat vitamin A deficiency.

29 hildren and other members of households from vitamin A deficiency.

30 lla burden in Slc11a1(-/-) mice or mice with vitamin A deficiency.

31 idely used in programmes designed to prevent vitamin A deficiency.

32 in the grain helps to address the problem of vitamin A deficiency.

33 fractive errors, pterygia, optic atrophy and vitamin A deficiency.

34 ld represent a new approach to fight against vitamin A deficiency.

35 B infection in a guinea pig model of dietary vitamin A deficiency.

36 be used as food-based supplements to reduce vitamin A deficiency.

37 ld deaths to estimate deaths attributable to vitamin A deficiency.

38 er the risk of chronic disease and to combat vitamin A deficiency.

39 RBP4 constitutes the only transport mode in vitamin A deficiency.

40 onventional breeding as a strategy to reduce vitamin A deficiency.

41 tients with chronic HCV infection have serum vitamin A deficiency.

42 otene is associated with chronic disease and vitamin A deficiency.

43 A is therefore not a constraint in combating vitamin A deficiency.

44 which accounts for the widespread nature of vitamin A deficiency.

45 NP on childhood rates of anemia and iron and vitamin A deficiency.

46 rations are a common method used to evaluate vitamin A deficiency.

47 ancy may reduce the risk of BV in areas with vitamin A deficiency.

48 igns of xerophthalmia were used to determine vitamin A deficiency.

49 heir offspring, in a population with chronic vitamin A deficiency.

50 ically reported failure to form lung buds in vitamin A deficiency.

51 sustainable agronomic approach to alleviate vitamin A deficiency.

52 nd aberrant spermatogenesis, which resembled vitamin A deficiency.

53 tional dairy products to overcome widespread vitamin-A-deficiency.

54 in but no effect on anthropometry or iron or vitamin A deficiencies.

55 , in Kenya, a lower prevalence of folate and vitamin A deficiencies.

56 andardized prevalence per 100,000 persons of vitamin A deficiency (25,155 to 19,187), undercorrected

57 Vitamin A deficiency (A(-)) remains a public health conc

58 Vitamin A deficiency, a global health burden, can be all

59 Moderate vitamin A deficiency abrogated Ag-specific T lymphocyte

60 1 resulted in beta-carotene accumulation and vitamin A deficiency accompanied by a BCO2-dependent pro

61 During gestational vitamin A deficiency Adh4 and Adh1/4 mutants exhibit com

62 Vitamin A deficiency adversely affects child morbidity a

63 ing Bureau were examined for risk of dietary vitamin A deficiency against its average requirement (AR

64 Vitamin A deficiency altered RALDH 1, but not RALDH 2 pr

65 Vitamin A deficiency alters the response of the cornea t

66 Existing data on vitamin A deficiency among children suggest persisting h

67 study aimed to investigate the prevalence of vitamin A deficiency among patients with chronic HCV inf

68 ta-carotene accumulation that will alleviate vitamin A deficiency among people who rely on sorghum as

69 Vitamin A deficiency and acute lower respiratory tract i

70 change the squamous metaplastic response to vitamin A deficiency and affect animal survival.

71 id cells was detected from an early stage of vitamin A deficiency and contrasted with essentially nor

72 kidney development has been demonstrated in vitamin A deficiency and gene targeting studies.

73 Vitamin A deficiency and hypervitaminosis A cause disrup

74 h1 and Th17 responses are constrained during vitamin A deficiency and in nuclear RA receptor alpha-de

75 Given the established link between vitamin A deficiency and increased susceptibility to inf

76 Vitamin A deficiency and mesenchymal factors may play a

77 Vitamin A deficiency and resulting night blindness have

78 at LRAT-/- mice are much more susceptible to vitamin A deficiency and should be an excellent animal m

79 r four weeks reduced biochemical evidence of vitamin A deficiency and slightly decreased the risk of

80 beta-carotene (pro-vitamin A) to help combat vitamin A deficiency, and it has been predicted that its

81 stigated whether hormonal contraceptive use, vitamin A deficiency, and other variables were risk fact

82 In comparison, trachoma, onchocerciasis, vitamin A deficiency, and refraction and accommodation d

83 to modulate chronic disease risk and prevent vitamin A deficiency, and renewed emphasis has been plac

84 preterm birth but modest levels of maternal vitamin A deficiency, antenatal vitamin A or beta-carote

85 ajor impact on vision and the visual system: vitamin A deficiency; antioxidants and their proposed ro

86 The skeletal alterations seen in vitamin A deficiency are associated with posterior shift

87 mage to the eye, individuals who suffer from vitamin A deficiency are plagued by night blindness and

88 animal studies support the role of baseline vitamin A deficiency as a determinant of future TB disea

89 mother and her newborn infant, who developed vitamin A deficiency as a result of iatrogenic maternal

90 P flour could be used for the eradication of vitamin A deficiency as they were found to meet 29 and 8

91 causes show improved control of measles and vitamin A deficiency, as well as increased services for

92 atients with cystic fibrosis are at risk for vitamin A deficiency because of fat malabsorption as wel

93 pancreatic insufficiency (PI) are at risk of vitamin A deficiency because of steatorrhea, despite pan

94 imed to estimate trends in the prevalence of vitamin A deficiency between 1991 and 2013 and its morta

95 tinol concentrations or in the prevalence of vitamin A deficiency between the fortified- and nonforti

96 ations in children with and without clinical vitamin A deficiency (Bitot spots and night blindness).

97 is low, infectious diseases can precipitate vitamin A deficiency by decreasing intake, decreasing ab

98 is work defines a nutritional model in which vitamin A deficiency can be induced during fetal develop

99 ecause early identification of patients with vitamin A deficiency can lead to the relief of symptoms

100 and pathophysiological conditions, including vitamin A deficiency, cardiopulmonary diseases, and hypo

101 mal axial skeletal patterning and shows that vitamin A deficiency causes anterior homeotic transforma

102 Dietary vitamin A deficiency causes eye disease in 40 million ch

103 ion to the nearly 100-yr-old question of why vitamin A deficiency causes so many pathologies that are

104 particularly corneal scarring as a result of vitamin A deficiency, congenital cataract and retinopath

105 Vitamin A deficiency continues to be a major public heal

106 f asthma in industrialized countries whereas vitamin A deficiency continues to increase mortality fro

107 chronic HCV infection and to assess whether vitamin A deficiency could be associated with unresponsi

108 red with 5.3%, respectively; P = 0.001), and vitamin A deficiency (decrease of 7.5% compared with an

109 archical model to estimate the prevalence of vitamin A deficiency, defined as a serum retinol concent

110 In particular, vitamin A deficiency diminishes antibody-mediated respon

111 Vitamin A deficiency diminishes Th2-mediated Ab response

112 n formulating treatments aimed at correcting vitamin A deficiency, especially in drinking populations

113 R, the sensitivity and specificity to detect vitamin A deficiency for each test was, respectively: se

114 storical account of the recognition of human vitamin A deficiency from ancient Egypt to the present c

115 ) and could contribute to the alleviation of vitamin A deficiency from cassava-based food systems.

116 Vitamin A deficiency has been associated with widespread

117 Vitamin A deficiency has been correlated with increased

118 Vitamin A deficiency has been shown to exacerbate allerg

119 Accordingly, mice with vitamin A deficiency have increased numbers of IL-10-com

120 Vitamin A deficiency impairs epithelial integrity and sy

121 Vitamin A deficiency impairs epithelial integrity, incre

122 Vitamin A deficiency impairs innate immunity by impeding

123 xt of coexisting moderate-to-severe zinc and vitamin A deficiencies in the population.

124 00) deaths from measles were attributable to vitamin A deficiency in 2013, which accounted for 1.7% (

125 rminant of embryonic alveolar formation, and vitamin A deficiency in a mother during pregnancy could

126 with decreased rates of anemia and iron and vitamin A deficiency in children in a resource-poor sett

127 Although supplementation helps to prevent vitamin A deficiency in children with CF and PI, their h

128 n in improving vitamin A status and reducing vitamin A deficiency in children.

129 Estimates of vitamin A deficiency in individuals with no raised acute

130 propose that STRA6KD could lead to cellular vitamin A deficiency in keratinocytes.

131 a simple, inexpensive tool for assessment of vitamin A deficiency in population studies.

132 orroborated by data from an in vivo model of vitamin A deficiency in rats.

133 ity of distal bowel aganglionosis induced by vitamin A deficiency in Rbp4(-/-) animals.

134 In an area of moderate vitamin A deficiency in rural Gambia, 220 mother-infant

135 visual cycle and were considered a model for vitamin A deficiency in the retina.

136 t is the most effective means of identifying vitamin A deficiency in these subjects.

137 There is increasing evidence that vitamin A deficiency in utero correlates with abnormal a

138 The most common underlying etiologies for vitamin A deficiency included history of gastrointestina

139 However, it was reported, in 2008, that vitamin A deficiency increased despite the mandatory for

140 Vitamin A deficiency increases susceptibility to skin in

141 that mouse hillock expansion is the cause of vitamin A deficiency-induced squamous metaplasia.

142 ltiple proximal risk factors (e.g., iron and vitamin A deficiencies, inflammation, malaria, and body

143 Conversely, in a state of vitamin A deficiency, inflammatory T cell reactions may

144 In vitamin A deficiency, iNKT cells fail to express P2X7 an

145 y immune deficiency disorders, malnutrition, vitamin A deficiency, intense exposures to measles, and

146 In rural Vietnam, vitamin A deficiency is a concern.

147 Vitamin A deficiency is a major public health problem in

148 vely, these data support the hypothesis that vitamin A deficiency is a non-genetic risk factor that i

149 Maternal vitamin A deficiency is a public health concern in the d

150 Vitamin A deficiency is a public health issue in develop

151 Vitamin A deficiency is a public health problem in sub-S

152 Vitamin A deficiency is a risk factor for blindness and

153 Vitamin A deficiency is associated with carcinogenesis,

154 Although previous studies have shown that vitamin A deficiency is associated with incident tubercu

155 Night blindness due to vitamin A deficiency is common during pregnancy among wo

156 In developing countries where vitamin A deficiency is endemic, dietary counseling for

157 Vitamin A deficiency is highly prevalent in much of the

158 Vitamin A deficiency is one of the major causes of morta

159 Vitamin A deficiency is one of the most common micronutr

160 In conclusion, vitamin A deficiency is relatively common in children wh

161 Furthermore, mortality due to vitamin A deficiency is usually attributed to infection

162 To control vitamin A deficiency, large therapeutic doses are admini

163 producible and penetrant state of late fetal vitamin A deficiency (late VAD) was induced in the organ

164 Vitamin A deficiency leads to increased susceptibility t

165 Vitamin A deficiency may exacerbate acute Lyme arthritis

166 After adjustment for CD4 count, severe vitamin A deficiency, moderate deficiency, and low norma

167 We aimed to estimate vitamin A deficiency more accurately by measuring change

168 acular degeneration, infectious disease, and vitamin A deficiency, myopia is one of the most importan

169 = 3), branch retinal vein occlusion (n = 1), vitamin A deficiency (n = 1), digoxin/age-related macula

170 n for postpartum women in areas of prevalent vitamin A deficiency; neonatal dosing is under considera

171 Vitamin A deficiency normalized PPAR gamma expression in

172 his functional test it was shown that tissue vitamin A deficiency occurs over a wide range of serum v

173 peripheral tissues, such as lung, whereas in vitamin A deficiency, ocular retinoid uptake was favored

174 the relative risks (RRs) for the effects of vitamin A deficiency on mortality from measles and diarr

175 We investigated the impact of vitamin A deficiency on TB disease progression.

176 However, the impact of vitamin A deficiency on the immunogenicity and protectiv

177 Here we show that vitamin A deficiency, one of the most prevalent micronut

178 ealth strategies to prevent ocular injuries, vitamin A deficiency, perinatal infections and retinopat

179 Vitamin A deficiency predisposes the host for a strong i

180 binding protein (RBP) and a 56% reduction in vitamin A deficiency (RBP < 0.70 umol/L), with little ev

181 or use in developing country settings, where vitamin A deficiency remains a major public health probl

182 Vitamin A deficiency remains a nutritional concern in su

183 Vitamin A deficiency remains prevalent in parts of Asia,

184 Vitamin A deficiency remains prevalent in south Asia and

185 with a plant-food-based approach to address vitamin A deficiency, reports the analysis of total caro

186 We describe a case of night blindness due to vitamin A deficiency resulting from bile duct strictures

187 Vitamin A deficiency results in a deterioration of these

188 Vitamin A deficiency results in multiple derangements th

189 with 93% sensitivity and 75% specificity and vitamin A deficiency (retinol < 0.70 micro mol/L) with 9

190 eficiency (ferritin <15 ng/mL or 32 pmol/L), vitamin A deficiency (retinol-binding protein <14.7 mug/

191 ng/mL for children or <15 ng/mL for women), vitamin A deficiency (retinol-binding protein or retinol

192 Vitamin A deficiency retinopathy is uncommon in the deve

193 ention of irreversible retinal degeneration, vitamin A deficiency should always be considered in the

194 e for both prevalence and absolute burden of vitamin A deficiency should be used to reconsider, and p

195 We recommend that surveys to estimate vitamin A deficiency should include measurements of seru

196 Vitamin A deficiency significantly declined in east and

197 upport of programs for the global control of vitamin A deficiency still face vocal opposition by some

198 Vitamin A deficiency strongly predicted the risk of inci

199 ses to calculate changes in anemia, iron and vitamin A deficiencies, stunting, wasting, and underweig

200 ryos that now recapitulate both the original vitamin A-deficiency syndrome and exhibit a host of new

201 revealed a collection of defects called the vitamin A-deficiency syndrome.

202 ryos at later stages of development with the vitamin A-deficiency syndrome.

203 hether LRAT-/- mice were more susceptible to vitamin A deficiency than wild type (WT) mice.

204 ultraviolet irradiation causes a functional vitamin A deficiency that may have deleterious effects o

205 icity, whereas ADH4 promotes survival during vitamin A deficiency, thus demonstrating largely non-ove

206 ve investigated the contribution of maternal vitamin A deficiency to these outcomes.

207 uggests a bidirectional relationship between vitamin A deficiency (VAD) and gut microbiota, with impl

208 Vitamin A deficiency (VAD) and soil-transmitted helminth

209 Vitamin A deficiency (VAD) can produce a Th1 bias, where

210 Vitamin A deficiency (VAD) has been hypothesized to play

211 vitamin A and a potential tool for fighting vitamin A deficiency (VAD) in developing countries.

212 Reduction of vitamin A deficiency (VAD) in Malawi coincided with intr

213 Vitamin A deficiency (VAD) is a major public health prob

214 Biochemical vitamin A deficiency (VAD) is believed to be a serious p

215 The accurate estimation of the prevalence of vitamin A deficiency (VAD) is important in planning and

216 Vitamin A deficiency (VAD) is one of the most prevalent

217 We examined how prenatally acquired vitamin A deficiency (VAD) modulates innate immune respo

218 a is facing a double burden of malnutrition: vitamin A deficiency (VAD) prevails, whereas the nutriti

219 field evaluation in a population at risk for vitamin A deficiency (VAD) resulted in close correlation

220 In vitamin A deficiency (VAD), both serum retinol and RBP d

221 tes that 190 million preschool children have vitamin A deficiency (VAD).

222 ein (RBP), an established model of embryonic vitamin A deficiency (VAD).

223 possible confounders, we found that baseline vitamin A deficiency was associated with a 10-fold incre

224 Vitamin A deficiency was highly predictive of vaginal HI

225 iron and zinc deficiency were comparable but vitamin A deficiency was lower by the probability method

226 Her vitamin A deficiency was untreated until she delivered h

227 er the effects, treatment, and prevention of vitamin A deficiency, while faced with intense criticism

228 productive and developmental blocks found in vitamin A deficiency with atRA, the block in embryonic d

229 Cross-sectional analyses have associated vitamin A deficiency with genital shedding of herpes sim

230 Equimolar RBP cutoffs predict vitamin A deficiency with high sensitivity and specifici

231 Observational studies have associated vitamin A deficiency with vaginal shedding of human immu

232 edicted that its contribution to alleviating vitamin A deficiency would be substantially improved thr