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Literature DB >> 18282650

Dimethylamine and diet.

Abstract

Forty-six different foods eaten by six healthy male volunteers were investigated as potential sources of the aliphatic secondary amine, dimethylamine. None that were representatives from the fruit and vegetable, meat, dairy and grain produce categories afforded any measurable elevation in urinary dimethylamine output following ingestion. All of the statistically significant increases occurred after consumption of fish and seafoods. However, within this category a wide variation was observed. The highest values were obtained for coley, squid and whiting with cod, haddock, sardine, skate and swordfish also producing substantial increases. Freshwater trout, plaice and prawns gave no discernable effect. It seems that not all fish and seafoods may be treated equally with regards to human dimethylamine exposure and that the situation is more complicated than at first appears.

Entities: Chemical Species

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Year: 2008 PMID： 18282650 DOI： 10.1016/j.fct.2008.01.010

Source DB: PubMed Journal: Food Chem Toxicol ISSN： 0278-6915 Impact factor: 6.023

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Cited

7 in total

1. Metabolomics analysis revealed metabolic changes in patients with diarrhea-predominant irritable bowel syndrome and metabolic responses to a synbiotic yogurt intervention.

Authors: Hamid Noorbakhsh; Masoud Yavarmanesh; Seyed Ali Mortazavi; Peyman Adibi; Ali A Moazzami
Journal: Eur J Nutr Date: 2018-11-03 Impact factor: 5.614

2. Urinary metabolomics reveals glycemic and coffee associated signatures of thyroid function in two population-based cohorts.

Authors: Nele Friedrich; Maik Pietzner; Claire Cannet; Betina H Thuesen; Torben Hansen; Henri Wallaschofski; Niels Grarup; Tea Skaaby; Kathrin Budde; Oluf Pedersen; Matthias Nauck; Allan Linneberg
Journal: PLoS One Date: 2017-03-02 Impact factor: 3.240

3. Activated L-Arginine/Nitric Oxide Pathway in Pediatric Cystic Fibrosis and Its Association with Pancreatic Insufficiency, Liver Involvement and Nourishment: An Overview and New Results.

Authors: Folke Brinkmann; Beatrice Hanusch; Manfred Ballmann; Sebene Mayorandan; Alexander Bollenbach; Kristine Chobanyan-Jürgens; Kathrin Jansen; Anjona Schmidt-Choudhury; Nico Derichs; Dimitrios Tsikas; Thomas Lücke
Journal: J Clin Med Date: 2020-06-26 Impact factor: 4.241

Review 4. The Microbial Metabolite Trimethylamine N-Oxide Links Vascular Dysfunctions and the Autoimmune Disease Rheumatoid Arthritis.

Authors: Marion M Chan; Xiaofeng Yang; Hong Wang; Fatma Saaoud; Yu Sun; Dunne Fong
Journal: Nutrients Date: 2019-08-07 Impact factor: 5.717

5. Derivatization-free determination of short-chain volatile amines in human plasma and urine by headspace gas chromatography-mass spectrometry.

Authors: Peter Neyer; Luca Bernasconi; Jens A Fuchs; Martina D Allenspach; Christian Steuer
Journal: J Clin Lab Anal Date: 2019-10-08 Impact factor: 2.352

6. Effect of Oral Ranitidine on Urinary Excretion of N-Nitrosodimethylamine (NDMA): A Randomized Clinical Trial.

Authors: Jeffry Florian; Murali K Matta; Ryan DePalma; Victoria Gershuny; Vikram Patel; Cheng-Hui Hsiao; Robbert Zusterzeel; Rodney Rouse; Kristin Prentice; Colleen Gosa Nalepinski; Insook Kim; Sojeong Yi; Liang Zhao; Miyoung Yoon; Susan Selaya; David Keire; Joyce Korvick; David G Strauss
Journal: JAMA Date: 2021-07-20 Impact factor: 56.272

Review 7. Urinary Dimethylamine (DMA) and Its Precursor Asymmetric Dimethylarginine (ADMA) in Clinical Medicine, in the Context of Nitric Oxide (NO) and Beyond.

Authors: Dimitrios Tsikas
Journal: J Clin Med Date: 2020-06-12 Impact factor: 4.241

7 in total