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Objective:To analyze the urine of normal healthy left-behind children under 1 year old and left-behind children with zinc deficiency under 1 year old in Zunyi area using hydrogen nuclear magnetic resonance ( 1HNMR), thus providing a new biomarker for the early diagnosis of zinc deficiency. Methods:From January to August 2018, a total of 40 normal healthy left-behind children under 1 year old in Zunyi area(healthy control group)[22 males and 18 females, average age of (7.78±3.62) months, average height of (65.01±2.67) cm and average body mass of (7.15±1.59) kg] and 40 age-matched left-behind children with zinc deficiency in the same region(zinc deficiency group)[19 males and 21 females, average age of (7.89±3.57) months, average height of (64.25±2.95) cm and average body mass of (7.02±1.68) kg] were included for a cross-sectional study by stratified sampling.The urine 1HNMR spectra of children in the 2 groups were measured, and the age, height, body mass and serum zinc content of children in the 2 groups were compared.The metabolites of the 2 groups were compared by metabono-mics technology combined with multivariate statistical analysis, and the differential metabolites of children with zinc deficiency were screened out. Results:There were no significant differences in age, height and body mass between the 2 groups (all P>0.05). The serum zinc level of healthy control group was significantly higher than that of zinc deficiency group [(54.3±3.06) mmol/L vs.(39.2±3.77) mmol/L, t=22.65, P<0.05]. Urine 1HNMR spectrogram results showed that compared with healthy controls, 4-hydroxyphenylpyruvic acid, phenyl acetyl glycine, and hippuric acid salt water were significantly lower in zinc deficiency group ( r=-0.620, -0.689, and -0.721, respectively, all | r|>0.602, all P<0.05). Conclusions:Zinc deficiency in left-behind children under 1 year old in Zunyi area is mainly manifested by decreased metabolites of 4-hydroxyphenylpyruvic acid, phenylacetyl glycine and horse-urate, suggesting metabolic disorder of intestinal flora.Differentially expressed metabolites have a potential application value in the early diagnosis of zinc deficiency.
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Objective:Explore the hydrogen-nuclear magnetic resonance ( 1H-NMR) application potential of metabolomics in early screening of vitamin A deficiency(VAD). Methods:From January to June 2019, 40 cases of left-behind children with confirmed VAD <1 year old were enrolled in Zunyi area as VAD group, and 40 healthy children were selected as healthy control group.Urine from the 2 groups of children was collected and 1H-NMR spectrum was measured.By combining metabonomics technology and multivariate statistical analysis, the 2 groups of metabolites were compared, and the differential metabolites of children with VAD were screened out. Results:Compared with VAD group [(0.56±0.10)μmol/L], the difference in the serum retinol concentration of healthy control group [(1.35±0.18)μmol/L] was statistically significant ( t=23.93, P<0.001). Compared with healthy group, VAD group showed higher level of methylmalonate, 2-ketoisovalerat, N-acetyl glycoprotein signal, dimethylglycine and betaine, with statistically significant differences (| r|>0.602, all P<0.05). The level of Isovalerylglycine, 2-hydroxyisobutyrate, creatine, phosphate choline/glycerophosphocholine, 4-PY and Hippurate were significantly decreased, with statistically significant differences (| r|>0.602, all P<0.05). Conclusions:Compared with healthy children, children with VAD have differences in urine Metabolites.Differential metabolites are closely correlated with intestinal microecological ba-lance, digestive system diseases, respiratory system diseases, immune-related diseases, energy metabolism, growth and development.Urine 1H-NMR metabolomics analysis has potential application value in the early screening of VAD.
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Objective To explore the characteristic changes in urinary metabolites in left-behind children with vitamin D deficiency under 1 year old in Zunyi area by metabolomic nuclear magnetic resonance (NMR) in order to provide new biomarkers for early diagnosis of vitamin D deficiency.Methods From January to August 2018,blood tests and urine collection were carried out on the left-behind children under 1 year old in Fenggang county,Bozhou district and Zheng'an county under Zunyi city by stratified sampling.Forty children diagnosed as a vitamin D deficiency were selected as a vitamin D deficiency group,and 40 children with normal urine test were selected as a healthy control group.For urine sampling,SIMCA-P + software was applied to analyze the integral value of hydrogen spectrogram by principal component analysis (PCA) and partial least squares discriminant analysis (PLS-DA) was used to distinguish the difference in urine metabolites between two groups of the left-behind children.Orthogonal partial least squares discriminant analysis (OPLS-DA) was used to screen different metabolites.Results The serum level of 25-hydroxy vitamin D [25-(OH) D] [(32.0 ± 3.6) nmol/L] in the healthy control group was higher than that in the vitamin D deficiency group [(15.8±2.3) nmol/L],and the difference was statistically significant (P < 0.05).PCA and PLS-DA analysis showed significant differences in urine metabolites between the healthy control group and the vitamin D deficiency group (P < 0.05).OPLS-DA indicated R2X =0.365,Q2 =0.978,which further verified the difference of metabolites.Compared with the healthy control group,the urine of methyl malonic acid,3-hydroxy butyrate,N-acetyl glycoprotein signal,glutamic acid,dimethyl glycine,2-ketone glutaric acid,taurine,fumaric acid salt level increased significantly in the vitamin D deficiency group,and the differences were statistically significant (| r| > 0.602,all P < 0.05,df =39).However,the levels of ethyl malonic acid,creatine,choline,glycerophosphalocholine and equine were significantly decreased,and the differences were statistically significant (| r | > 0.602,all P < 0.05,df =39).Conclusions The left-behind children under 1 year old with vitamin D deficiency in Zunyi region are mainly characterized by disorder in energy metabolism,lipid metabolism,amino acid metabohsm and intestinal microbial metabolism disorders,and their differential metabolites have potential application value in early diagnosis and pathogenesis of vitamin D deficiency.
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Objective@#To explore the characteristic changes in urinary metabolites in left-behind children with vitamin D deficiency under 1 year old in Zunyi area by metabolomic nuclear magnetic resonance (NMR) in order to provide new biomarkers for early diagnosis of vitamin D deficiency.@*Methods@#From January to August 2018, blood tests and urine collection were carried out on the left-behind children under 1 year old in Fenggang county, Bozhou district and Zheng′an county under Zunyi city by stratified sampling.Forty children diagnosed as a vitamin D deficiency were selected as a vitamin D deficiency group, and 40 children with normal urine test were selected as a healthy control group.For urine sampling, SIMCA-P+ software was applied to analyze the integral value of hydrogen spectrogram by principal component analysis (PCA) and partial least squares discriminant analysis (PLS-DA) was used to distinguish the difference in urine metabolites between two groups of the left-behind children.Orthogonal partial least squares discriminant analysis (OPLS-DA) was used to screen different metabolites.@*Results@#The serum level of 25-hydroxy vitamin D[25-(OH)D][(32.0±3.6) nmol/L ] in the healthy control group was higher than that in the vitamin D deficiency group[(15.8±2.3) nmol/L], and the difference was statistically significant (P<0.05). PCA and PLS-DA analysis showed significant differences in urine metabolites between the healthy control group and the vitamin D deficiency group (P<0.05). OPLS-DA indicated R2X=0.365, Q2=0.978, which further verified the difference of metabolites.Compared with the healthy control group, the urine of methyl malonic acid, 3-hydroxy butyrate, N-acetyl glycoprotein signal, glutamic acid, dimethyl glycine, 2-ketone glutaric acid, taurine, fumaric acid salt level increased significantly in the vitamin D deficiency group, and the differences were statistically significant (|r|>0.602, all P<0.05, df=39). However, the levels of ethyl malonic acid, creatine, choline, glycerophosphalocholine and equine were significantly decreased, and the differences were statistically significant (|r|>0.602, all P<0.05, df=39).@*Conclusions@#The left-behind children under 1 year old with vitamin D deficiency in Zunyi region are mainly characterized by disorder in energy metabolism, lipid metabolism, amino acid metabolism and intestinal microbial meta-bolism disorders, and their differential metabolites have potential application value in early diagnosis and pathogenesis of vitamin D deficiency.