The Urinary Metabolome of Healthy Newborns

López, Jesús Adrián; Oropeza-Valdez, Juan José; Blanco-Sandate, Jorge O.; Oostdam, Ana Sofía Herrera-Van; Guo, An Chi; Lima‐Rogel, Victoria; Rajabzadeh, Rahmatollah; Salgado‐Bustamante, Mariana; Adrián-López, Jesús; Castillo, Claudia G.; Arguelles, Emilia Robles; Monárrez‐Espino, Joel; Mandal, Rupasri; Wishart, David S.

doi:10.3390/metabo10040165

Cited by 21 publications

(22 citation statements)

References 59 publications

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“…Since then, several compilations of reference ranges for urine metabolites have been published, with a very good book being published by N. Blau et al [ 8 ]; and there are extensive Internet resources which are also worth being mentioned [ 48 , 49 , 50 ]. Valuable reference concentrations in urine for infants and children [ 51 , 52 ], and neonates and infants [ 24 , 51 , 53 ], have been recently published. In most cases ranges of normal concentrations previously published represent compilations of single samples (one shot) from a large number of control cases.…”

Section: Resultsmentioning

confidence: 99%

“…Orotic Acid (Orot) 0.029 (0.007-0.066) n = 18/95 Case 5 (2-11 yo) [MMAA] 0.066 (0.066-0.066) n = 1/5 Case 5-No Diet (2-11 yo) 0.027 (0.007-0.061) n = 17/90 Case 5-Diet (2-11 yo) Orotidine (Orotid) 0.082 (0.035-0.047) n = 19/95 Case 5 (2-11 yo) [MMAA] 0.097 (0.097-0.097) n = 1/5 Case 5-No Diet (2-11 yo) 0.081 (0.035-0.132) n = 18/90 Case 5-Diet (2-11 yo) L-Carnitine (Car) 0.247 (0.147-0.333) n = 6/9 Case 1 (7 do-9 mo) [MMUT] 0.0 n = 0/3 Case 1-No Diet (7 do-4 mo) 0.247 (0.147-0.333) n = 6/6 Case 1-Diet (19 do-9 mo) 0.538 (0.156-1.334) n = 34/38 (6 do-1 1 2 yo) [MMUT] 0.0 n = 0/4 Case 2-No Diet (11 do-1 mo) 0.538 (0.156-1.334) n = 34/34 Case 2-Diet (3 mo-1 1 2 yo) 0.218 (0.096-0.456) n = 5/11 Case 3 n = 0/9 Case 4-No Diet (4y9mo-4y11mo) 0.299 (0.068-0.782) n = 17/18 Case 4-Diet (5yo-5 1 2 yo) 0.221 (0.024-0.667) n = 13/28 Case 5 (2-11 yo) [MMAA] 0.0 n = 0/5 Case 5-No Diet (2-11 yo) 0.221 (0.024-0.667) n = 13/23 Case 5-Diet (2-11 yo) 0.009 ± 0.007 (1 do) [53]. Propionylcarnitine (PrCar) 0.715 (0.156-1.390) n = 6/9 Case 1 (7 do-9 mo) [MMUT] 0.0 n = 0/3 Case 1-No Diet (7 do-4 mo) 0.715 (0.156-1.390) n = 6/6 Case 1-Diet (19 do-9 mo) 0.003 (0.001-0.008) n = 34/38 Case 2 (6 do-1 1 2 yo) [MMUT] 0.0 n = 0/4 Case 2-No Diet (11 do-1 mo) 0.922 (0.253-2.266) n = 34/34 Case 2-Diet (3 mo-1 1 2 yo) 0.361 (0.182-0.612) n = 5/11 Case 3 n = 0/9 Case 4-No Diet (4y9mo-4y11mo) 0.099 (0.036-0.245) n = 17/18 Case 4-Diet (5yo-5 1 2 yo) 0.128 (0.044-0.199) n = 11/28 Case 5 (2-11 yo) [MMAA] 0.0 n = 0/5 Case 5-NoDiet (2-11 yo) 0.128 (0.044-0.199) n = 11/23 Case 5-Diet (2-11 yo)<1.20[8]; 0.002 (1 do)[53].…”

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confidence: 99%

“…Orotidine (Orotid) 35 (21-55) n = 19/95 Case 5 (2-11 yo) [MMAA] 32 n = 1/5 Case 5-No Diet (2-11 yo) 36 (21-55) n = 18/90 Case 5-Diet (2-11 yo) l-Carnitine (Car) 346 (189-838) n = 6/9 Case 1 (7 do-9 mo) [MMUT] 0 n = 0/3 Case 1-No Diet (7 do-4 mo) 346 (189-838) n = 6/6 Case 1-Diet (19 do-9 mo) 520 (162-1028) n = 34/38 Case 2 (6 do-1 1 2 yo) [MMUT] 0 n = 0/4 Case 2-No Diet (11 do-1 mo) 520 (162-1082) n = 34/34 Case 2-Diet (3 mo-1 1 2 yo) 153 (95-226) n = 5/11 Case 3 0/9 Case 4-No Diet (4y9mo-4y11mo) 165 (40-342) n = 17/18 Case 4-Diet (5yo-5 1 2 yo) 109 (15-429) n = 13/28 Case 5 (2-11 yo) [MMAA] 0 n = 0/5 Case 5-No Diet (2-11 yo) 109 (15-429) n = 13/23 Case 5-Diet (2-11 yo) 5.0 (0.7-16.4) (19-67 yo) [58]; 2.01 (0.79-5.67) (1 do) [53]. 1186) n = 6/9 Case 1 (7 do-9 mo) [MMUT] 0 n = 0/3 Case 1-No Diet (7 do-4 mo) 700 (206-1186) n = 6/6 Case 1-Diet (19 do-9 mo) 902 (404-1624) n = 34/38 Case 2 (6 do-1 1 2 yo) [MMUT] 0 n = 0/4 Case 2-No Diet (11 do-1 mo) 902 (404-1624) n = 34/34 Case 2-Diet (3 mo-1 1 2 yo) 262 (187-356) n = 5/11 Case 3 0/9 Case 4-No Diet (4y9mo-4y11mo) 55 (21-106) n = 17/18 Case 4-Diet (5yo-5 1 2 yo) 65 (40-124) n = 11/28 Case 5 (2-11 yo) [MMAA] 0 n = 0/5 Case 5-No Diet (2-11 yo) 65 (40-124) n = 11/23 Case 5-Diet (2-11 yo) 0.07 (0.01-0.20) (19-67 yo) [58];0.03 (0.01-0.07) (1 do)[53].…”

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Monitoring Methylmalonic Aciduria by NMR Urinomics

Nicolescu

Daniela²,

Boiciuc³

et al. 2020

Molecules

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The paper reports on monitoring methylmalonic aciduria (MMA)-specific and non-specific metabolites via NMR urinomics. Five patients have been monitored over periods of time; things involved were diet, medication and occasional episodes of failing to comply with prescribed diets. An extended dataset of targeted metabolites is presented, and correlations with the type of MMA are underlined. A survey of previous NMR studies on MMA is also presented.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

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Monitoring Methylmalonic Aciduria by NMR Urinomics

Nicolescu

Daniela²,

Boiciuc³

et al. 2020

Molecules

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“…Plasma/serum and urine metabolomics and proteomics have been studied in healthy neonates as well as in various neonatal conditions including, but not limited to, perinatal asphyxia, patent ductus arteriosus, inborn errors of metabolism, sepsis, and NEC (97)(98)(99)(100). Current data regarding the detection of surrogate biomarkers for prediction, diagnosis, and prognosis of NEC derived from experimental and clinical studies using metabolomics and proteomics approach is limited ( Table 2).…”

Section: Metabolomics and Proteomics Studies In Necrotizing Enterocolmentioning

confidence: 99%

Emerging Biomarkers for Prediction and Early Diagnosis of Necrotizing Enterocolitis in the Era of Metabolomics and Proteomics

et al. 2020

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Necrotizing Enterocolitis (NEC) is a catastrophic disease affecting predominantly premature infants and is characterized by high mortality and serious long-term consequences. Traditionally, diagnosis of NEC is based on clinical and radiological findings, which, however, are non-specific for NEC, thus confusing differential diagnosis of other conditions such as neonatal sepsis and spontaneous intestinal perforation. In addition, by the time clinical and radiological findings become apparent, NEC has already progressed to an advanced stage. During the last three decades, a lot of research has focused on the discovery of biomarkers, which could accurately predict and make an early diagnosis of NEC. Biomarkers used thus far in clinical practice include acute phase proteins, inflammation mediators, and molecules involved in the immune response. However, none has been proven accurate enough to predict and make an early diagnosis of NEC or discriminate clinical from surgical NEC or other non-NEC gastrointestinal diseases. Complexity of mechanisms involved in NEC pathogenesis, which remains largely poorly elucidated, could partly explain the unsatisfactory diagnostic performance of the existing NEC biomarkers. More recently applied technics can provide important insight into the pathophysiological mechanisms underlying NEC but can also aid the detection of potentially predictive, early diagnostic, and prognostic biomarkers. Progress in omics technology has allowed for the simultaneous measurement of a large number of proteins, metabolic products, lipids, and genes, using serum/plasma, urine, feces, tissues, and other biological specimens. This review is an update of current data on emerging NEC biomarkers detected using proteomics and metabolomics, further discussing limitations and future perspectives in prediction and early diagnosis of NEC.

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“…There has been a progressive increase in indepth metabolic studies for biomarkers specic to many human diseases such as neurological 1 and cardiovascular disease, [2][3][4] cancer, 5 and in-born errors of metabolism (IEM) diseases. 6 NMR-based metabolomics relies mainly on one-dimensional 1 H NMR spectroscopy. The signicant limitations of 1D NMR include inherently modest sensitivity and substantial signal overlap.…”

Section: Introductionmentioning

confidence: 99%