ライフサイエンスコーパス: nutritional deficiency

1 direct (ie, neurotoxicity) or indirect (eg, nutritional deficiency).

2 4200-6300 kJ/d) then to severe (<4200 kJ/d) nutritional deficiency.

3 opecia or hair loss without a known baseline nutritional deficiency.

4 uries have been linked to food shortages and nutritional deficiency.

5 available tools for accurately diagnosing a nutritional deficiency.

6 ction abnormalities, focal direct injury, or nutritional deficiency.

7 onically ill or hospitalized or have a known nutritional deficiency.

8 gh salinity, a stress not directly linked to nutritional deficiency.

9 ns can lead a provider to the diagnosis of a nutritional deficiency.

10 more effective in populations suffering from nutritional deficiencies.

11 ssociated with significant malabsorption and nutritional deficiencies.

12 ascular disorders, bacterial overgrowth, and nutritional deficiencies.

13 oss, dehydration, electrolyte imbalance, and nutritional deficiencies.

14 se and lipid homeostasis with a low risk for nutritional deficiencies.

15 ce the risk of these complications and other nutritional deficiencies.

16 micronutrients and can help prevent multiple nutritional deficiencies.

17 horter interpregnancy intervals and possible nutritional deficiencies.

18 d with additional surgical interventions and nutritional deficiencies.

19 at the cost of occasional protein and other nutritional deficiencies.

20 ith a mild clinical phenotype and infrequent nutritional deficiencies.

21 omised antioxidant defenses as the result of nutritional deficiencies.

22 result in dietary adaptations that may cause nutritional deficiencies.

23 nts with chronic pancreatitis are at risk of nutritional deficiencies.

24 commonly, vitamin B-12 deficiency, or other nutritional deficiencies.

25 iron deficiency is among the most prevalent nutritional deficiencies.

26 suggested for dietary therapy and to address nutritional deficiencies.

27 from the diet increases the risk of certain nutritional deficiencies.

28 populations that are at risk for developing nutritional deficiencies.

29 an contribute to an increased risk of infant nutritional deficiencies.

30 th problems and the risk of subsequent child nutritional deficiencies.

31 es, fertility, contraception, pregnancy, and nutritional deficiencies.

32 Tuberculosis (TB) often coincides with nutritional deficiencies.

33 st we see increasing evidence of unnecessary nutritional deficiencies.

34 with the smallest surgical case volumes were nutritional deficiencies (13), neonatal conditions (204)

35 are to inpatients medically hospitalized for nutritional deficiency, a clinical practice guideline fo

36 Nutritional deficiency, a global problem, remains uncomm

37 Latest estimates indicate that nutritional deficiencies account for 3 million child dea

38 tions in mortality from infectious diseases, nutritional deficiencies and anaemia, diabetes, and card

39 Treatment of nutritional deficiencies and diabetes is an important as

40 ossible explanations for bee decline include nutritional deficiencies and exposures to pesticides and

41 Aging is accompanied by a wide array of nutritional deficiencies and health complications associ

42 ut the importance of diagnosing and treating nutritional deficiencies and inherited disorders to reve

43 risk profile but also with increased risk of nutritional deficiencies and lower BMC and height.

44 rition transition that increases the risk of nutritional deficiencies and noncommunicable diseases.

45 ves from evidence showing covariance between nutritional deficiencies and other life stressors.

46 Alternatively, strict veganism can cause nutritional deficiencies and predispose to osteopenia, s

47 ncomes to understand and address the role of nutritional deficiencies and restricted access to learni

48 atment should be geared toward correction of nutritional deficiencies and study of bone mineral densi

49 ts of therapy, including oral health issues, nutritional deficiencies and the role of physical therap

50 uce metabolic functions that complement host nutritional deficiencies and to induce virulence functio

51 Similarly, nutritional deficiency and certain nutragenomic interact

52 termediate link between fetal and early-life nutritional deficiency and later disease.

53 Poor dietary intake with nutritional deficiency and overweight have been describe

54 Third-trimester exposure to severe nutritional deficiency and prenatal exposure to moderate

55 tific information available to demonstrate a nutritional deficiency and/or identify a public health p

56 ation between dietary quality (and potential nutritional deficiencies) and mental health, and for the

57 esistance syndrome, hypertension, associated nutritional deficiencies, and a sedentary lifestyle or a

58 One third of the cases were due to nutritional deficiencies, and one third was due to chron

59 h as modifications of offending medications, nutritional deficiencies, and parvovirus infection.

60 ossible) of underlying causes, correction of nutritional deficiencies, and the administration of anti

61 e followed up closely for dietary adherence, nutritional deficiencies, and the development of possibl

62 sible, of any underlying cause, attention to nutritional deficiencies, and the use of antibiotics.

63 d related issues, such as social inequality, nutritional deficiency, and political concerns, need to

64 ly significant impact, such as low weight or nutritional deficiency, and with fear of weight gain as

65 ng from the same soil." Fetal and early-life nutritional deficiencies appear to predispose persons to

66 could serve as a modifying factor in thiamin nutritional deficiency as well as when the high affinity

67 The differential diagnoses included nutritional deficiencies, autoimmune disorders, systemic

68 ial proton pump inhibitors (PPIs), including nutritional deficiencies (B12 and magnesium), rebound ac

69 Evidence continues to accumulate that nutritional deficiencies, bacterial, viral and parasitic

70 ree and timing of their prenatal exposure to nutritional deficiency based on their birthdate and birt

71 Vegetarians showed less pronounced nutritional deficiencies but, unexpectedly, a less favor

72 Nutritional deficiencies can blunt both the innate and a

73 Infant nutritional deficiencies can influence the development o

74 y goal of this article was to illustrate how nutritional deficiencies can translate into adult or chi

75 There is evidence to support that nutritional deficiency can reduce the body's immune func

76 aluate the potential health impacts of C15:0 nutritional deficiencies caused by population-wide avoid

77 This article will review the most common nutritional deficiencies causing a periorificial and/or

78 erstanding of the clinical manifestations of nutritional deficiencies comes from old literature; howe

79 Reports of nutritional deficiency continue to surface in developed

80 hronic deficiency of vitamin B12 is the only nutritional deficiency definitively proved to cause opti

81 lso observed in mortality from tuberculosis, nutritional deficiencies, diarrhoeal diseases, lower res

82 Throughout the world, the most common nutritional deficiency disorder of infants is iron defic

83 ebral palsy, autism spectrum disorder trait, nutritional deficiency, Down syndrome and Non-specific n

84 e side effects, especially gastrointestinal; nutritional deficiencies due to calorie reduction; muscl

85 therapies to prevent anorexia and concurrent nutritional deficiencies during cancer treatment.

86 Men exposed prenatally to severe maternal nutritional deficiency during the first and/or second tr

87 icant long-term sequelae, including exocrine/nutritional deficiencies, endocrine pancreatic dysfuncti

88 to explore the mechanisms by which prenatal nutritional deficiency enhances risk for schizophrenia i

89 ission, where the dual burden of malaria and nutritional deficiencies exacerbates paediatric morbidit

90 This syndrome of poverty, nutritional deficiency, fishery dependence, and extrinsi

91 rt specifically on the frequency and type of nutritional deficiencies following OAGB surgery.

92 h to care, addressing wider issues including nutritional deficiencies, food intake, diet diversity an

93 By overcoming this nutritional deficiency, H. subflexa larvae achieve numer

94 Nutritional deficiency has been associated with an incre

95 weight loss and 58 (72%) showed some type of nutritional deficiency; health-care consumption (hospita

96 ntrol comorbidity, environmental insult, and nutritional deficiency, however, confound the ability to

97 Nutritional deficiencies in adolescence can lead to loss

98 decreased essential amino acids may point to nutritional deficiencies in AMD.

99 cture and function may result, in part, from nutritional deficiencies in culture media.

100 This review will focus on nutritional deficiencies in obese and postbariatric surg

101 We characterized dietary intake and nutritional deficiencies in patients with diabetic and i

102 Nutritional deficiencies in postbariatric patients alrea

103 study confirmed that mycelium might prevent nutritional deficiencies in the diet through use of func

104 lth problem should refocus attention on this nutritional deficiency in Angola and other areas of Afri

105 tial for optimal innate immune function, and nutritional deficiency in either metal leads to increase

106 Iron deficiency (ID) is the most common nutritional deficiency in the world and remains relative

107 Iron deficiency is the most common nutritional deficiency in the world, but iron supplement

108 Iron deficiency is the most common nutritional deficiency in the world; zinc deficiency is

109 ors acting early in life, perhaps related to nutritional deficiencies, in the development of ESCC and

110 fits from this diet trend, the potential for nutritional deficiencies including iron needs to be moni

111 , and although acute interstitial nephritis, nutritional deficiencies (including B12 and hypomagnesem

112 parts of the nonindustrialized world, where nutritional deficiencies, including micronutrients, rema

113 voidance may increase the risk of developing nutritional deficiencies, including poor growth in child

114 phthous stomatitis had a higher frequency of nutritional deficiencies, including vitamin B12 (OR, 3.7

115 ons target most of the population to prevent nutritional deficiencies, inclusion of genomic criteria

116 a variety of causes, but it may also involve nutritional deficiencies, increased RBC destruction, or

117 edisposes to common causes of anemia such as nutritional deficiencies, inflammatory disorders, chroni

118 Because of the nutritional deficiencies inherent in LC-HP diets and the

119 e pathogens or the effects of pesticides and nutritional deficiencies is the lack of controlled in vi

120 rient for multiple immunologic processes and nutritional deficiency is a common problem worldwide.

121 y treatment may prevent the development of a nutritional deficiency is not known.

122 Nutritional deficiency is prevalent in developing countr

123 pid intervention crop management to mitigate nutritional deficiency is the foliar supply of B and Zn.

124 tries and developing countries, where severe nutritional deficiency is widespread and often exacerbat

125 ugh two mechanisms: (i) the creation of host nutritional deficiencies leading to a compromised host-s

126 y; and examination for signs and symptoms of nutritional deficiencies, malignancy, and other autoimmu

127 ions, autoimmune destruction, sequestration, nutritional deficiency, malignancy, and congenital neutr

128 rature has focused on the relationship among nutritional deficiency, malnutrition and poverty, recent

129 e less able to actively cope with stressors, nutritional deficiencies may accentuate the negative imp

130 st that outbreaks of disease attributed to a nutritional deficiency may actually result from infectio

131 Prenatal nutritional deficiency may play a role in the origin of

132 ension, hyperglycemia, hypercholesterolemia, nutritional deficiencies, metal ion imbalance, oxidative

133 e causal pathways or are biomarkers of fetal nutritional deficiency needs to be explored in large, we

134 h disability mostly due to a few conditions (nutritional deficiencies, neuropsychiatric conditions, v

135 g milk with alternative milk - could lead to nutritional deficiencies, notably iodine, which, if not

136 Many more nutritional deficiencies occurred in the gastric bypass

137 tic criteria (at least two of the following: nutritional deficiency, ocular signs, cerebellar signs,

138 Nutritional deficiency of zinc is widespread throughout

139 tcomes is to first understand the effects of nutritional deficiencies on the mammalian system includi

140 e north and south were subjected to moderate nutritional deficiency only.

141 steine levels, such as those associated with nutritional deficiencies or genetic polymorphisms in the

142 of macrocytic anemias, for instance, due to nutritional deficiency or exposure to chemotherapy.

143 ic disease worldwide, and is responsible for nutritional deficiencies, particularly hindering the phy

144 is often one of the first organs affected in nutritional deficiency, providing a key to the diagnosis

145 wth outcomes, health outcomes resulting from nutritional deficiencies, quality of life, mortality, an

146 he alimentary system results in digestive or nutritional deficiencies requiring intervention.

147 Exposure of the organ chip to such nutritional deficiencies resulted in congruent changes i

148 epithelium or with EED epithelium exposed to nutritional deficiencies resulted in severe villus blunt

149 a, globe damage due to trauma, infection and nutritional deficiency, retinal disorders, and other con

150 ated with lower under-5 mortality rates from nutritional deficiencies (RR 0.55, 95% CI 0.52-0.58), an

151 h retinoid receptor null mutants and classic nutritional deficiency studies have demonstrated that re

152 understanding the genetic basis of inherited nutritional deficiencies such as acrodermatitis enteropa

153 s a heterotrophic lifestyle with conspicuous nutritional deficiencies, suggesting the need for metabo

154 Older adults are at greater risk for nutritional deficiencies than are younger adults due to

155 The gastric bypass group experienced more nutritional deficiency than the lifestyle-medical manage

156 bacteria adapt to environmental stresses and nutritional deficiencies through the synthesis and hydro

157 disease, ranging from 131 412 procedures for nutritional deficiencies to 45.8 million procedures for

158 ue suggests numerous diagnoses, ranging from nutritional deficiencies to a myelodysplastic syndrome.

159 liar with the clinical signs and symptoms of nutritional deficiencies to facilitate diagnosis.

160 yndromes to chronic kidney disease, and from nutritional deficiencies to inflammatory processes inclu

161 guidance has changed from the prevention of nutritional deficiencies to the prevention of chronic di

162 ttributable to blockage of its blood supply, nutritional deficiencies, toxins, and diseases affecting

163 than that of current consumption, reflecting nutritional deficiencies underlying Indonesia's burden o

164 e findings of an earlier study that prenatal nutritional deficiency was a determinant of schizophreni

165 ved diabetes control, but adverse events and nutritional deficiencies were more frequent.

166 Comorbidity resolution rates and nutritional deficiencies were similar across groups, whi

167 deficiency and prenatal exposure to moderate nutritional deficiency were not associated with risk for

168 ndice are associated with other symptoms and nutritional deficiencies which result in impairment of H

169 ective CFTR in the intestinal tract leads to nutritional deficiency which in turn contributes to comp

170 and effective, but carries with it long-term nutritional deficiencies, which need to be assessed and

171 Persons with celiac disease (CD) may develop nutritional deficiencies, while individuals following a

172 ron deficiency is also among the most common nutritional deficiencies worldwide.

173 ts are continuously challenged with combined nutritional deficiencies, yet very little is known about