ライフサイエンスコーパス: malnutrition

1 pticaemia, and one was diarrhoea with severe malnutrition).

2 inal pain, excessive feces, steatorrhea, and malnutrition.

3 unction is both a cause and a consequence of malnutrition.

4 y anemia is one of the most serious forms of malnutrition.

5 entially improve the triage of children with malnutrition.

6 owing attention deficits after developmental malnutrition.

7 rne diseases, food and water insecurity, and malnutrition.

8 ay contribute to intergenerational cycles of malnutrition.

9 the treatment of uncomplicated severe acute malnutrition.

10 ridium as a cause of diarrhoea and childhood malnutrition.

11 were independent predictors of outcomes for malnutrition.

12 ated as the primary measure for diagnosis of malnutrition.

13 le of antibiotics as magic bullets for human malnutrition.

14 quent to the development of oral lesions and malnutrition.

15 hat Hpse2 mutants have renal dysfunction and malnutrition.

16 compromised by sickle cell disease or severe malnutrition.

17 hildren after severe anaemia or severe acute malnutrition.

18 s viral component in populations at risk for malnutrition.

19 CKD suffer from food aversion, anorexia, and malnutrition.

20 il-transmitted helminth infection, and child malnutrition.

21 erventions, and children with moderate acute malnutrition.

22 d, in particular, in children with edematous malnutrition.

23 ld mortality in countries with high rates of malnutrition.

24 ursor to later interactions of infection and malnutrition.

25 ient treatment of uncomplicated severe acute malnutrition.

26 ing for adequacy of diet and moderate-severe malnutrition.

27 iated with malaria, such as coinfections and malnutrition.

28 varieties rich in micronutrients to overcome malnutrition.

29 when using other definitions of malaria and malnutrition.

30 mass index z-score < -2) was a surrogate for malnutrition.

31 n lipid, protein, and iron are used to treat malnutrition.

32 ts nutritive quality that can help to combat malnutrition.

33 agriculture and with potential against human malnutrition.

34 ent of serious infectious diseases and acute malnutrition.

35 2% rabies-vaccine recipients), five cases of malnutrition (2% RTS,S/AS01 recipients vs 3% rabies-vacc

36 severe undernutrition (15.4%), severe acute malnutrition (34.8%), and symptom duration of more than

37 sarca 12 days postvaccination and one due to malnutrition 70 days postvaccination.

38 Further, these data indicate that, during malnutrition, a switch to innate type 2 immunity may rep

39 o 5.77 [95% CI, 1.55-21.55]), 10% to 17% for malnutrition (adjusted odds ratio [OR], 0.88 [95% CI, 0.

40 unger, with a higher prevalence of male sex, malnutrition, advanced tumor stage, squamous cell carcin

41 ctors varied by age, with child and maternal malnutrition affecting the younger age groups (aged 28 d

42 Early childhood malnutrition affects 113 million children worldwide, imp

43 Malnutrition affects body growth, leading to a proportio

44 of these pathogens remained associated with malnutrition after adjusting for sociodemographic factor

45 um metabolites in 315 children without acute malnutrition, aged 12-59 months, in rural Malawi.

46 There is an increasing recognition of malnutrition among infants under 6 mo of age (U6M).

47 red to children in CCI's, suggesting chronic malnutrition among them.

48 in neurons that suppress appetite can cause malnutrition and a severe reduction in body weight.

49 By multivariable analysis, age >/=60 years, malnutrition and cardiovascular comorbidity were indepen

50 aken adequate notice of the double burden of malnutrition and continue to focus on stunting and to a

51 rity is also evident in less severe forms of malnutrition and correlates with anthropometric measurem

52 Malnutrition and cryptosporidiosis form a vicious cycle

53 mechanism underlying the interaction between malnutrition and cryptosporidiosis through immunostainin

54 with enhanced rehabilitation, management of malnutrition and depressive symptoms, and fall preventio

55 itation to 12 months and added management of malnutrition and depressive symptoms, and fall preventio

56 enteric infections and its interactions with malnutrition and development of young children.

57 ng factors that hinder tuberculosis control, malnutrition and diabetes are key challenges.

58 use of zinc to prevent the vicious cycle of malnutrition and diarrhea.

59 usly established a murine model of childhood malnutrition and found that malnutrition decreased the l

60 his regard, but it is a major contributor to malnutrition and growth faltering in children in the dev

61 ir of gut microbiota immaturity in childhood malnutrition and improve clinical outcomes.

62 ine expression are reduced in the setting of malnutrition and increased in obesity, potentially due t

63 plored further in settings with a high child malnutrition and infection burden.

64 iseases are a result of historical childhood malnutrition and infection.

65 mitigate the later adverse vicious cycle of malnutrition and infection.

66 used in populations with high incidences of malnutrition and infections, in whom the effectiveness o

67 ther mechanisms leading to anemia, including malnutrition and infectious diseases, may also play a ro

68 Dyslipidemia, malnutrition and inflammation are common in patients wit

69 In CKD patients on dialysis, malnutrition and inflammation pose a higher risk for CVD

70 ction is a major contributor to diarrhea and malnutrition and is associated with significant morbidit

71 Pregnant women with malnutrition and malaria infection are at increased risk

72 ses were searched with key terms relating to malnutrition and nutrition training.

73 Acinar cell damage and dysfunction cause malnutrition and pancreatitis, and inflammation of the e

74 Stress, malnutrition and physical inactivity are three maternal

75 re is a well established association between malnutrition and poorer clinical outcomes in patients wi

76 tion in the context of helminth infection or malnutrition and propose that enhanced FA usage and FA-d

77 ally vulnerable, and that the combination of malnutrition and recurrent diarrhoea leads to stunted gr

78 ulations, hosts are at risk of parasites and malnutrition and resource costs of defence may be diffic

79 t remains important to avoid protein calorie malnutrition and sarcopenia.

80 Malnutrition and starvation limit nutrients and are asso

81 , and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health (MAL-

82 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

83 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

84 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

85 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

86 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

87 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

88 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

89 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

90 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

91 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

92 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

93 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

94 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

95 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

96 s and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health and D

97 s provide new insights in both the degree of malnutrition and the discordant combinations such as obe

98 how genes are specifically affected by early malnutrition and the implications for males and females

99 ced by the persistence of child and maternal malnutrition and the low use of maternity-related servic

100 barrier defenses and microbiome dysbiosis in malnutrition and the proinflammatory contribution of adi

101 ical volume are primarily the consequence of malnutrition and unlikely to reflect premorbid trait mar

102 The terms acute malnutrition and wasting should not be used interchangea

103 The overlap between edematous malnutrition and wasting was assessed, and the impact of

104 ng causes of hospital admission, followed by malnutrition and wasting, haematological disorders, and,

105 ecific causes of hospital admission included malnutrition and wasting, parasitic infections, and haem

106 We studied links between human malnutrition and wild meat availability within the Rainf

107 concentrations, plus z scores (indicators of malnutrition), and age <3 years, were highly ranked pred

108 iagnoses, 118 (65%) were pneumonia, 58 (32%) malnutrition, and 27 (15%) suspected tuberculosis.

109 ol, multiple definitions of what constitutes malnutrition, and challenges with interpreting body comp

110 ittle is known about the burden of edematous malnutrition, and few large-scale surveys measure it.

111 irrhosis is characterized by muscle wasting, malnutrition, and functional decline that confer excess

112 The epidemics of food insecurity, malnutrition, and human immunodeficiency virus (HIV) fre

113 Malaria causes low birth weight, malnutrition, and inflammation, all of which are associa

114 dney function, history of affective illness, malnutrition, and inflammation.

115 hird esophageal tumor location, preoperative malnutrition, and pathological stage III.

116 A = well nourished, SGA B = mild or moderate malnutrition, and SGA C = severe malnutrition), Nutritio

117 eals have been associated with micronutrient malnutrition, and the biofortification of them, has been

118 ns to improve the underlying causes of child malnutrition are crucial.

119 alnutrition, but the terms wasting and acute malnutrition are often used interchangeably.

120 Malabsorption and malnutrition are prevalent in survivorship of esophageal

121 clinically relevant outcomes associated with malnutrition are reviewed.

122 Recent research has shown that hypoxia and malnutrition are strong predictors of mortality in child

123 Malnutrition as assessed with the use of body-compositio

124 ssessment of the characteristics of prenatal malnutrition-associated differentially methylated region

125 ost recent data (2012), the double burden of malnutrition at the household level was estimated and de

126 ECU) was used to estimate the dual burden of malnutrition at the national, household, and individual

127 dor to explore the evolving double burden of malnutrition at the national, household, and individual

128 African population with profound poverty and malnutrition, but a strong community-based research infr

129 It includes both wasting and edematous malnutrition, but the terms wasting and acute malnutriti

130 The risk of malnutrition can be considered as a possible prognostic

131 Reduced food intake, avoiding malnutrition, can ameliorate aging and aging-associated

132 tiated a community-based management of acute malnutrition (CMAM) program for children aged 6-59 mo wi

133 aling up community-based management of acute malnutrition (CMAM), an important child survival strateg

134 ailty, functional and cognitive limitations, malnutrition, comorbidities, and polypharmacy, as well a

135 dation phase (5-9 years), when infection and malnutrition constrain growth, and mortality is higher t

136 ivity, suggesting that tooth dysfunction and malnutrition contribute to growth and skeletal defects r

137 Severe acute malnutrition contributes to 1 million deaths among child

138 odels incorporated 3 causal pathways whereby malnutrition could act to increase the incidence of seve

139 Hence, pancreatic failure after in utero malnutrition could result from transgenerational transmi

140 n developing countries, the double burden of malnutrition (DBM) has become a public health problem, p

141 del of childhood malnutrition and found that malnutrition decreased the lymph node barrier function a

142 lawi among 1828 pregnant women with moderate malnutrition, defined as a midupper arm circumference (M

143 cific care in conjunction with management of malnutrition, depression, and falls.

144 an HIV, and noncommunicable diseases such as malnutrition, diarrheal disease, hypertension and diabet

145 1.5 or 12.5 cm) for field screening of acute malnutrition did not track along the same percentile.

146 moderate or severe underweight, severe acute malnutrition, disease duration of more than 21 days, and

147 only 1 risk factor or none, but malaria and malnutrition do not act synergistically.

148 Malnutrition during pregnancy in sub-Saharan Africa is a

149 ants is focused on the prevention of protein malnutrition during the first postnatal weeks.

150 Dietary restriction (DR) without malnutrition encompasses numerous regimens with overlapp

151 This diet should prevent early malnutrition, enhance neurodevelopment, and limit the in

152 Early childhood malnutrition entails long-lasting epigenetic signatures

153 me may occur in children who are treated for malnutrition, even with moderately low plasma phosphate,

154 Calorie restriction (CR) in the absence of malnutrition exerts a multitude of physiological benefit

155 Caloric restriction (CR) without malnutrition extends lifespan and delays the onset of ag

156 such as functional and cognitive impairment, malnutrition, facility residence, and frailty to postope

157 riate analysis revealed that weight loss and malnutrition, fluid and electrolyte disorders, male sex,

158 nce greater than 2% in one population; child malnutrition for ten of 16 populations with a difference

159 d high levels of inflammatory biomarkers and malnutrition; group 3 comprised young children with mode

160 l intestine, causing iron-deficiency anemia, malnutrition, growth and development stunting in childre

161 e calorie restriction (CR) in the absence of malnutrition has been consistently shown to have a syste

162 rs studying the role of antibiotics in acute malnutrition have had to navigate a more complicated pub

163 d internationally as a key means of tackling malnutrition; however, there is a lack of clear evidence

164 ronchiectasis (HR 1.55, 95 % CI: 1.17-2.04), malnutrition (HR 1.43, 95 % CI: 1.10-1.86) and male (HR

165 We showed that protein malnutrition impaired growth and had major metabolic con

166 s for death in children who were treated for malnutrition in a hospital.

167 y and readmission to refine the detection of malnutrition in acute care.

168 to identify enteropathogens associated with malnutrition in Bangladesh.Malnourished children [weight

169 to enteropathogens has been associated with malnutrition in children in low-resource settings.

170 besity was associated with a reduced risk of malnutrition in children.

171 d to correctly evaluate the double burden of malnutrition in Chile.

172 the magnitude of the effect of tooth loss on malnutrition in CKD populations.

173 well as serum albumin levels, biomarkers of malnutrition in CKD.

174 National estimates of the dual burden of malnutrition in Colombia are lower than expected.

175 he national prevalence of the dual burden of malnutrition in Colombia at the individual and household

176 assess the prevalence of the dual burden of malnutrition in Colombia to better target programs and p

177 Maternal and child malnutrition in low-income and middle-income countries e

178 nal recovery from uncomplicated severe acute malnutrition in Niger.

179 S), the Screening Tool for the Assessment of Malnutrition in Pediatrics (STAMP), and the Screening To

180 and quality of life, and reduce the risk of malnutrition in sarcopenic elderly persons.

181 a minimum set is needed for the diagnosis of malnutrition in the acute care setting.

182 and have been regarded as a risk factor for malnutrition in the elderly.

183 ements are used widely for the management of malnutrition in the elderly.

184 t we can model the metabolic consequences of malnutrition in the mouse to help dissect relevant pathw

185 ubset of enteropathogens was associated with malnutrition in this setting.

186 n between maternal body mass index (BMI) and malnutrition in U5s has changed over time.

187 past 15 y was accompanied by a reduction in malnutrition in U5s.

188 eiving in-hospital treatment of severe acute malnutrition in Uganda with therapeutic formulas F-75 an

189 present and future disease burden caused by malnutrition in women of reproductive age, pregnancy, an

190 nterventions reduce morbidity and mortality, malnutrition, including obesity, remains highly prevalen

191 ment protocol for children with severe acute malnutrition, including routine antibiotic use at admiss

192 Molecular signatures after childhood malnutrition, including the potential for intergeneratio

193 Protein malnutrition increased stool shedding and the number of

194 Caloric restriction (CR) without malnutrition increases longevity and delays the onset of

195 ndeed, mounting evidence shows that maternal malnutrition increases the risk of type 2 diabetes (T2D)

196 to increase further since the prevalence of malnutrition increases with age.

197 he U5DR increases as the prevalence of acute malnutrition increases.

198 ion (DR), a reduction in food intake without malnutrition, increases most aspects of health during ag

199 iagnose a wide range of conditions including malnutrition, inflammation, and cancer.

200 kidney transplant recipients enrolled in the Malnutrition-Inflammation in Transplant-Hungary study.

201 Malnutrition is a challenge to the health and productivi

202 In children and adolescents with CD, malnutrition is a common problem that adversely affects

203 Severe acute malnutrition is a major cause of child death in developi

204 Acute malnutrition is a major public health issue in low-incom

205 Childhood malnutrition is a risk factor for mental disorders, such

206 Malnutrition is a significant risk factor for the develo

207 Malnutrition is one of the key issues affecting the heal

208 Malnutrition is one of the most common complications of

209 Malnutrition is prevalent in mechanically ventilated chi

210 Malnutrition is thought to contribute to more than one-t

211 Although malnutrition is well described in long-term follow-up, a

212 nger than 6 months, 300 (17%) had oedematous malnutrition (kwashiorkor), and 1221 (69%) were stunted

213 Cirrhosis is characterized by sarcopenia and malnutrition, leading to progressive functional decline.

214 were identified by the Maternal Malaria and Malnutrition (M3) initiative using a convenience samplin

215 Children with moderate acute malnutrition (MAM) are treated with lipid-based nutrient

216 Children who recover from moderate acute malnutrition (MAM) have high rates of relapse in the yea

217 e management of children with moderate acute malnutrition (MAM) is based on food supplementation in o

218 Management of moderate acute malnutrition (MAM) is, currently, focused on food supple

219 in the treatment of childhood moderate acute malnutrition (MAM) remains unsettled.

220 Moderate acute malnutrition (MAM), defined as weight-for-length z score

221 s for diarrhoeal diseases and protein-energy malnutrition markedly decreased, ranking Mexico well abo

222 Although malnutrition may be associated with a poor outcome, the

223 find that even very brief periods of protein malnutrition may enhance (or intensify) cryptosporidiosi

224 pigenetic modulation of pathways by prenatal malnutrition may promote an adverse metabolic phenotype

225 Most acute malnutrition might be captured by the measurement of was

226 or moderate malnutrition, and SGA C = severe malnutrition), Nutrition Risk Screening (2002), body wei

227 counteract the impact of maternal stress and malnutrition/obesity on the developing fetus.

228 eceive in-hospital treatment of severe acute malnutrition often have high mortality rates, and the re

229 We tested the effect of short-term protein malnutrition on Cryptosporidium parvum infection in a mu

230 The long-term impact of early malnutrition on human capital outcomes remains unclear,

231 sub-Saharan Africa and assess the impact of malnutrition on lung function.

232 protocol to evaluate the effects of maternal malnutrition on placental and fetal development.

233 to organs that developed under conditions of malnutrition or in the setting of growth factor mutation

234 % confidence interval [CI], 3.1-52.4), acute malnutrition (OR, 7.6; 95% CI, 1.3-44.3), and admission

235 n <93% (when not at high altitude), moderate malnutrition, or an unknown human immunodeficiency virus

236 l discuss the effects of prenatal stress and malnutrition (over and undernutrition) on perinatal prog

237 have been the major contributing factors in malnutrition pathogenesis.

238 ing maternal through to fetal protein-energy malnutrition (PEM) and compromised fetal kidney developm

239 Protein energy malnutrition (PEM) increases susceptibility to infectiou

240 d poor dietary intakes on the development of malnutrition, poor cognitive development, and diminished

241 When wasting and global acute malnutrition prevalence estimates as well as severe wast

242 s as well as severe wasting and severe acute malnutrition prevalence estimates overall were compared,

243 impact of including/excluding edema on acute malnutrition prevalence estimates was evaluated.

244 ate the current nutrition policies to inform malnutrition prevention efforts in Colombia and to share

245 information is needed, the double burden of malnutrition probably does not exist in Chile, unlike in

246 obal deaths yearly from non-communicable and malnutrition-related diseases by 1.42 million (1.38-1.48

247 rdens of non-communicable, communicable, and malnutrition-related diseases with the Global Burden of

248 Collectively, these results suggest that the malnutrition-related reduction in the lymph node barrier

249 Undernutrition and micronutrient malnutrition remain problems of significant magnitude in

250 Malnutrition results from disordered nutrient assimilati

251 The identification and classification of malnutrition risk varied across the pediatric tools used

252 m is disrupted in children with severe acute malnutrition (SAM) and that their persistent gut microbi

253 Children treated for severe acute malnutrition (SAM) are at risk of refeeding hypophosphat

254 Community-based management of severe acute malnutrition (SAM) has been shown to be safe and cost-ef

255 Children with complicated severe acute malnutrition (SAM) have a greatly increased risk of mort

256 estimating numbers of cases of severe acute malnutrition (SAM) in children aged 6-59 months.

257 Tackling severe acute malnutrition (SAM) is a global health priority.

258 Severe acute malnutrition (SAM) is reported to affect 19 million chil

259 uced mortality in children with severe acute malnutrition (SAM), but incomplete restoration of health

260 27.1% are wasted and 8.3% have severe acute malnutrition (SAM).

261 eine in children with edematous severe acute malnutrition (SAM).

262 n suffering from noncomplicated severe acute malnutrition (SAM).

263 ion Indian children suffer from severe acute malnutrition (SAM).

264 rge proportion of children with severe acute malnutrition (SAM).

265 creening tools [i.e., the Pediatric Yorkhill Malnutrition Score (PYMS), the Screening Tool for the As

266 Data collected included preoperative Malnutrition Screening Tool (MST) score, 3-d food record

267 Several malnutrition screening tools have been advocated for use

268 Our proposed pathway connecting early malnutrition, sex-independent regulatory changes in Egr1

269 , liver disease, obesity, renal failure, and malnutrition showed good discrimination (C-statistic, 0.

270 Stunting malnutrition (suboptimal linear growth) also has long-te

271 n, including 10.6% for correction of protein malnutrition, the latter exclusively in non-super obese

272 munodeficiency virus infection, malaria, and malnutrition; the case fatality ratio was 22.1% (71/321)

273 f life for moderate to severe protein-energy malnutrition, then followed up to 48 years in the Barbad

274 HIV-infected patients across a spectrum from malnutrition to obesity.

275 hs of age and had uncomplicated severe acute malnutrition to receive amoxicillin or placebo for 7 day

276 en, 6 to 59 months of age, with severe acute malnutrition to receive amoxicillin, cefdinir, or placeb

277 How the immune system adapts to malnutrition to sustain immunity at barrier surfaces, su

278 ditions in global child health, ranging from malnutrition to the nuances of care for immigrant and re

279 chronic liver disease frequently suffer from malnutrition, together with a decline in their health-re

280 ure and 2 patients developed protein-caloric malnutrition treated by elongation of the common channel

281 tritional Assessment Questionnaire (SNAQ) or Malnutrition Universal Screening Tool (MUST) and its rel

282 The prevalence of edematous malnutrition varied from 0% to 32.9%, and children were

283 male and female mice, solely due to maternal malnutrition via high-fat or low-protein diets.

284 -Saharan Africa is facing a double burden of malnutrition: vitamin A deficiency (VAD) prevails, where

285 rlying infant HIV prevalence is highest (eg, malnutrition wards).

286 In multivariable analysis, malnutrition was associated with a lower seroprevalence

287 The dual burden of malnutrition was defined as the coexistence of overweigh

288 is, stunting of children, a measure of human malnutrition, was greater in MRD areas.

289 ace a cycle of poor infant and child health, malnutrition, waterborne illness, and lack of obstetric

290 t been comprehensively applied to studies of malnutrition.We sought to identify enteropathogens assoc

291 large proportion of children with edematous malnutrition were not wasted [62% and 66% based on midup

292 ormer prejudices that vegetarianism leads to malnutrition were replaced by scientific evidence showin

293 Malnutrition, which encompasses under- and overnutrition

294 symptoms like watery diarrhea, meteorism and malnutrition, which start a few days after birth by the

295 nor reinfection was associated with moderate malnutrition, which was present in 21% of the children.

296 fact alone does not prove that improving the malnutrition will improve outcome.

297 Malnutrition with regard to these vitamins has been link

298 rrent understanding of immune dysfunction in malnutrition, with a view to therapeutically targeting i

299 h HIV, tests correlated less with contact as malnutrition worsened.

300 Malnutrition (Z score height/age, weight/age) and serum