trimethylamine has been researched along with Cardiovascular Diseases in 39 studies
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 0 (0.00) | 18.7374 |
1990's | 0 (0.00) | 18.2507 |
2000's | 1 (2.56) | 29.6817 |
2010's | 15 (38.46) | 24.3611 |
2020's | 23 (58.97) | 2.80 |
Authors | Studies |
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Chang, D; Dong, J; Ma, T; Nie, J; Xu, X; Yang, Z | 1 |
Drapała, A; Grzywacz, T; Karwowski, WJ; Konop, M; Kłodzińska, EM; Laskowska, AK; Nowiński, A; Rybka, M; Waraksa, E | 1 |
Chen, G; Dou, X; He, L; Liu, T | 1 |
Bo, Y; Bogaert, D; Cai, X; Chen, J; Fang, A; He, D; He, Y; Larsson, SC; Li, D; Li, X; Lu, Y; Song, P; Theodoratou, E; Tsilidis, K; Wu, Q; Yu, H; Yuan, S; Zhu, H; Zhu, Y | 1 |
Abecia, L; Anguita, J; Fornari, T; García-Cañas, V; García-Risco, MR; Peña-Cearra, A; Rodríguez, H; Simó, C | 1 |
Bean, LD; Harris, RE; Milks, MW; Raman, SV; Smart, SM; Wing, JJ | 1 |
Ren, Y; Wang, Z; Xue, J | 1 |
Bode, LM; Eggers, M; Jahn, D; Jasper, J; Lubitz, W; Moser, J; Neubauer, K; Piskol, F; Reijerse, E; Slusarenko, A | 1 |
Buawangpong, N; Chattipakorn, N; Chattipakorn, SC; Chindapan, N; Devahastin, S; Phrommintikul, A; Pinyopornpanish, K | 1 |
Blanco, R; Daimiel, L; Dávalos, A; Díez-Ricote, L; Micó, V; Ordovás, JM; Ruiz-Valderrey, P; Tomé-Carneiro, J | 1 |
Huang, Y; Liu, J; Peng, L; Tang, C; Wang, H; Wei, X; Yuan, X | 1 |
An, JP; Lee, H; Liu, X; Wang, Y | 1 |
Bielak-Zmijewska, A; Grochowska, M; Hutsch, T; Jaworska, K; Konop, M; Mosieniak, G; Perlejewski, K; Radkowski, M; Sikora, E; Ufnal, M | 1 |
Bielak-Zmijewska, A; Filipiak, K; Gasecka, A; Hering, D; Hołyst, R; Jaworska, K; Kapłon-Cieślicka, A; Konwerski, M; Mosieniak, G; Pilz, M; Sikora, E; Ufnal, M | 1 |
Dai, Q; Liu, Y; Zhang, H | 1 |
Arnal, ME; Brugère, JF; Camponova, P; Fadhlaoui, K; Martineau, M; O'Toole, PW; Ollivier, B | 1 |
von Eckardstein, A | 1 |
Rossing, P; Winther, SA | 1 |
Chen, C; He, Y; Huang, Z; Lei, W; Liang, Z; Luo, H; Qi, Y; Shui, X; Zhu, Y | 1 |
Allison, J; Arboleya, S; Arias, JL; Arias, N; Gueimonde, M; Higarza, SG; Kaliszewska, A | 1 |
Anderson, CAM; Bradley, R | 1 |
He, M; Liu, Y; Tan, CP; Xu, YJ | 1 |
Mueller, NT; Tilves, C | 1 |
He, S; Jiang, H; Jiang, W; Zhuo, C | 1 |
Bordoni, L; Gabbianelli, R; Kalinowski, L; Lewicki, L; Olek, RA; Pelikant-Malecka, I; Petracci, I; Piangerelli, M; Radulska, A; Samulak, JJ | 1 |
Chen, ZY; He, Z | 1 |
Aadland, EK; Bertram, HC; Brejnrod, AD; Eng, Ø; Graff, IE; Holthe, A; Jacques, H; Kiilerich, P; Kristiansen, K; Lavigne, C; Liaset, B; Mellgren, G; Schmedes, M; Sundekilde, UK; Young, JF | 1 |
Allayee, H; Buffa, JA; Cajka, T; DiDonato, JA; Fiehn, O; Gu, X; Han, Y; Hartiala, JA; Hazen, SL; Hurd, AG; Kerby, RL; Li, L; Li, XS; Lüscher, TF; Nemet, I; Obeid, S; Rey, FE; Roberts, AB; Romano, KA; Shahen, CJ; Skye, SM; Tang, WHW; Wagner, MA; Wang, Z; Wu, Y | 1 |
Chen, Y; Jameson, E; Quareshy, M | 1 |
Kris-Etherton, PM; Petersen, KS; Tindall, AM | 1 |
Bry, L; Crothers, J | 1 |
Miller, MJ | 1 |
Arduini, A; Lopaschuk, GD; Ussher, JR | 1 |
Hazen, SL; Tang, WH | 1 |
Kirsop, J; Li, D; Tang, WH | 1 |
Awwad, HM; Geisel, J; Graeber, S; Herrmann, W; Obeid, R; Rabagny, Y | 1 |
Fennema, D; Phillips, IR; Shephard, EA | 1 |
Fricker, G; Garbade, SF; Kratzer, F; Langhans, CD; Okun, JG; Schmidt, KV; Schuhmann, V; Stremmel, W | 1 |
Dolan, C; Lambert, DM; O'Brien, E; O'Brien, JK; Shields, DC; Stanton, A; Treacy, EP | 1 |
14 review(s) available for trimethylamine and Cardiovascular Diseases
Article | Year |
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Association of Trimethylamine-N-Oxide Levels with Risk of Cardiovascular Disease and Mortality among Elderly Subjects: A Systematic Review and Meta-Analysis.
Topics: Aged; Biomarkers; Cardiovascular Diseases; Heart Failure; Humans; Methylamines; Oxides; Prospective Studies; Renal Insufficiency, Chronic; Risk Factors | 2022 |
Gut microbiota-derived metabolite trimethylamine-N-oxide and multiple health outcomes: an umbrella review and updated meta-analysis.
Topics: Cardiovascular Diseases; Diabetes Mellitus; Gastrointestinal Microbiome; Humans; Hypertension; Methylamines; Neoplasms; Oxides; Risk Factors | 2022 |
[Gut-derived uremic toxin trimethylamine-N-oxide in cardiovascular disease under end-stage renal disease: an injury mechanism and therapeutic target].
Topics: Cardiovascular Diseases; Humans; Kidney Failure, Chronic; Methylamines; Oxides; Uremic Toxins | 2022 |
Archaea, specific genetic traits, and development of improved bacterial live biotherapeutic products: another face of next-generation probiotics.
Topics: Animals; Archaea; Biological Therapy; Cardiovascular Diseases; Diet; Gastrointestinal Microbiome; Humans; Metabolism, Inborn Errors; Methylamines; Mice; Probiotics | 2020 |
Gut microbiota metabolites as integral mediators in cardiovascular diseases (Review).
Topics: Amino Acids; Animals; Bile Acids and Salts; Cardiovascular Diseases; Fatty Acids; Gastrointestinal Microbiome; Humans; Metabolic Networks and Pathways; Methylamines; Risk Factors | 2020 |
The Relationship between Choline Bioavailability from Diet, Intestinal Microbiota Composition, and Its Modulation of Human Diseases.
Topics: Animals; Biological Availability; Cardiovascular Diseases; Choline; Diet; Dysbiosis; Gastrointestinal Microbiome; Genotype; Humans; Inflammatory Bowel Diseases; Liver; Methylamines; Non-alcoholic Fatty Liver Disease; Renal Insufficiency, Chronic | 2020 |
Gut microbiota-derived trimethylamine-N-oxide: A bridge between dietary fatty acid and cardiovascular disease?
Topics: Cardiovascular Diseases; Fatty Acids; Gastrointestinal Microbiome; Humans; Methylamines; Oxides | 2020 |
Trimethylamine/Trimethylamine-N-Oxide as a Key Between Diet and Cardiovascular Diseases.
Topics: Animals; Bacteria; Cardiovascular Diseases; Diet; Gastrointestinal Microbiome; Heart Disease Risk Factors; Humans; Methylamines; Risk Assessment | 2021 |
Methodological considerations for the identification of choline and carnitine-degrading bacteria in the gut.
Topics: Amino Acid Sequence; Cardiovascular Diseases; Carnitine; Choline; Computational Biology; Diet; Gastrointestinal Microbiome; Humans; Klebsiella pneumoniae; Methylamines; Proteus mirabilis | 2018 |
Dietary Patterns Affect the Gut Microbiome-The Link to Risk of Cardiometabolic Diseases.
Topics: Bacteria; Bile Acids and Salts; Cardiovascular Diseases; Diet; Diet, Mediterranean; Diet, Vegetarian; Fatty Acids, Volatile; Gastrointestinal Microbiome; Humans; Metabolic Diseases; Methylamines; Risk Factors | 2018 |
Gut microbiota metabolism of L-carnitine and cardiovascular risk.
Topics: Animals; Atherosclerosis; Cardiovascular Diseases; Carnitine; Diet; Dietary Supplements; Humans; Insulin Resistance; Intestines; Liver; Methylamines; Mice; Microbiota; Muscle, Skeletal; Myocardial Ischemia; Phosphatidylcholines; Risk | 2013 |
The contributory role of gut microbiota in cardiovascular disease.
Topics: Animals; Atherosclerosis; Cardiovascular Diseases; Carnitine; Choline; Diet; Female; Food; Humans; Intestines; Male; Methylamines; Microbiota; Oxygenases; Phosphatidylcholines | 2014 |
Listening to Our Gut: Contribution of Gut Microbiota and Cardiovascular Risk in Diabetes Pathogenesis.
Topics: Animals; Cardiovascular Diseases; Diabetes Mellitus; Diet; Gastrointestinal Microbiome; Humans; Methylamines; Risk Factors | 2015 |
Trimethylamine and Trimethylamine N-Oxide, a Flavin-Containing Monooxygenase 3 (FMO3)-Mediated Host-Microbiome Metabolic Axis Implicated in Health and Disease.
Topics: Animals; Cardiovascular Diseases; Gastrointestinal Microbiome; Host-Pathogen Interactions; Humans; Methylamines; Oxygenases | 2016 |
1 trial(s) available for trimethylamine and Cardiovascular Diseases
Article | Year |
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The Effect of Lean-Seafood and Non-Seafood Diets on Fecal Metabolites and Gut Microbiome: Results from a Randomized Crossover Intervention Study.
Topics: Adolescent; Adult; Aged; Cardiovascular Diseases; Cross-Over Studies; Diet; Feces; Female; Gastrointestinal Microbiome; Humans; Male; Metabolome; Methylamines; Middle Aged; Risk Factors; Seafood | 2019 |
24 other study(ies) available for trimethylamine and Cardiovascular Diseases
Article | Year |
---|---|
Trimethylamine-N-oxide (TMAO) and clinical outcomes in patients with end-stage kidney disease receiving peritoneal dialysis.
Topics: Biomarkers; Cardiovascular Diseases; Humans; Kidney Failure, Chronic; Oxides; Peritoneal Dialysis; Peritonitis; Prospective Studies; Retrospective Studies; Risk Factors | 2022 |
Electrophoretic Determination of Trimethylamine (TMA) in Biological Samples as a Novel Potential Biomarker of Cardiovascular Diseases Methodological Approach.
Topics: Biomarkers; Cardiovascular Diseases; Gastrointestinal Microbiome; Humans; Methylamines | 2021 |
Resazurin-based high-throughput screening method for the discovery of dietary phytochemicals to target microbial transformation of L-carnitine into trimethylamine, a gut metabolite associated with cardiovascular disease.
Topics: Cardiovascular Diseases; Carnitine; Gastrointestinal Microbiome; High-Throughput Screening Assays; Humans; Methylamines; Oxazines; Phytochemicals; Xanthenes | 2022 |
Transferrin predicts trimethylamine-N-oxide levels and is a potential biomarker of cardiovascular disease.
Topics: Biomarkers; Cardiovascular Diseases; Humans; Methylamines; Oxides; Transferrin | 2022 |
Two-component carnitine monooxygenase from Escherichia coli: functional characterization, inhibition and mutagenesis of the molecular interface.
Topics: Cardiovascular Diseases; Carnitine; Disulfides; Escherichia coli; Flavin Mononucleotide; Humans; Methylamines; Methylhydrazines; Mixed Function Oxygenases; Mutagenesis; Oxidoreductases; Oxygenases; Sulfinic Acids | 2022 |
Increased plasma trimethylamine-
Topics: Aged; Biomarkers; Blood Glucose; Cardiovascular Diseases; Cognitive Dysfunction; Heart Disease Risk Factors; Humans; Lipids; Methylamines; Middle Aged; Oxides; Risk Factors | 2022 |
TMAO Upregulates Members of the miR-17/92 Cluster and Impacts Targets Associated with Atherosclerosis.
Topics: Animals; Atherosclerosis; Betaine; Cardiovascular Diseases; Carnitine; Choline; Humans; Inflammation; Methylamines; Mice; MicroRNAs | 2022 |
Association of Circulating Trimethylamine-N Oxide With Malnutrition and the Risk of Coronary Artery Disease in Patients With Maintenance Hemodialysis.
Topics: Cardiovascular Diseases; Coronary Artery Disease; Humans; Malnutrition; Oxides; Renal Dialysis | 2023 |
Identification of Polymethoxyflavones (PMFs) from Orange Peel and Their Inhibitory Effects on the Formation of Trimethylamine (TMA) and Trimethylamine-N-oxide (TMAO) Using cntA/B and cutC/D Enzymes and Molecular Docking.
Topics: Cardiovascular Diseases; Citrus sinensis; Methylamines; Molecular Docking Simulation; Oxides | 2023 |
Trimethylamine But Not Trimethylamine Oxide Increases With Age in Rat Plasma and Affects Smooth Muscle Cells Viability.
Topics: Age Factors; Animals; Cardiovascular Diseases; Cell Culture Techniques; Cell Survival; Gastrointestinal Microbiome; Humans; Male; Methylamines; Myocytes, Smooth Muscle; Rats; Rats, Inbred WKY; Rats, Sprague-Dawley; Risk Factors | 2020 |
TMA, A Forgotten Uremic Toxin, but Not TMAO, Is Involved in Cardiovascular Pathology.
Topics: Adult; Aged; Animals; Biomarkers; Cardiovascular Diseases; Case-Control Studies; Cell Survival; Cells, Cultured; Female; Glomerular Filtration Rate; Healthy Volunteers; Humans; Male; Methylamines; Myocytes, Cardiac; Rats | 2019 |
[Trimethylamine-N-oxide and cardiovascular events in chronic kidney disease].
Topics: Biomarkers; Cardiovascular Diseases; Humans; Methylamines; Oxides; Renal Insufficiency, Chronic | 2019 |
Trimethyllysine and trimethylamine-N-oxide - pathogenic factors or surrogate markers of increased cardiovascular disease risk?
Topics: Biomarkers; Cardiovascular Diseases; Coronary Disease; Humans; Lysine; Methylamines; Myocardial Infarction; Oxides; Virulence Factors | 2020 |
TMAO: Trimethylamine-N-Oxide or Time to Minimize Intake of Animal Products?
Topics: Animals; Cardiovascular Diseases; Diabetes Mellitus, Type 2; Humans; Methylamines; Oxides; Plasma | 2020 |
The potential of novel plant protein foods to improve dietary patterns and markers of cardiovascular health.
Topics: Adult; Animals; Cardiovascular Diseases; Cross-Over Studies; Humans; Meat; Methylamines; Oxides; Risk Factors | 2020 |
Trimethylamine N-oxide variation in humans: the product of a diet-microbiota interaction?
Topics: Cardiovascular Diseases; Diet; Gastrointestinal Microbiome; Hispanic or Latino; Humans; Methylamines; Microbiota; Oxides; Public Health | 2021 |
Mitochondrial DNA copy number and trimethylamine levels in the blood: New insights on cardiovascular disease biomarkers.
Topics: Aged; Biomarkers; Cardiovascular Diseases; Case-Control Studies; Cohort Studies; DNA Copy Number Variations; DNA, Mitochondrial; Female; Gastrointestinal Tract; Humans; Male; Methylamines; Risk Factors | 2021 |
What Are Missing Parts in the Research Story of Trimethylamine-N-oxide (TMAO)?
Topics: Animals; Cardiovascular Diseases; Cattle; Gastrointestinal Microbiome; Humans; Intestinal Mucosa; Intestines; Methylamines; Red Meat | 2017 |
Untargeted metabolomics identifies trimethyllysine, a TMAO-producing nutrient precursor, as a predictor of incident cardiovascular disease risk.
Topics: Aged; Animals; Atherosclerosis; Cardiovascular Diseases; Carnitine; Cholesterol; Choline; Disease Models, Animal; Feces; Female; Gastrointestinal Microbiome; Genome-Wide Association Study; Humans; Lysine; Male; Metabolomics; Methylamines; Mice; Mice, Inbred C57BL; Middle Aged; Nutrients; Risk Factors; Thrombosis | 2018 |
Gutting TMA to Save the Heart.
Topics: Animals; Cardiovascular Diseases; Choline; Diet; Gastrointestinal Microbiome; Gastrointestinal Tract; Host Microbial Interactions; Humans; Methylamines; Mice; Mice, Knockout | 2018 |
Risk factors for cardiovascular disease: a cautionary tale of diet-microbiome interactions.
Topics: Cardiovascular Diseases; Carnitine; Choline; Diet; Gastrointestinal Tract; Humans; Methylamines; Microbiota; Risk Factors | 2013 |
Plasma trimethylamine N-oxide concentration is associated with choline, phospholipids, and methyl metabolism.
Topics: Aged; Bacteria; Betaine; Cardiovascular Diseases; Choline; Creatinine; Diabetes Mellitus; Female; Gastrointestinal Microbiome; Humans; Lipoproteins, HDL; Male; Methylamines; Methylation; Middle Aged; Phosphatidylcholines; Phospholipids; S-Adenosylhomocysteine; S-Adenosylmethionine; Sex Factors | 2016 |
Blood Trimethylamine-N-Oxide Originates from Microbiota Mediated Breakdown of Phosphatidylcholine and Absorption from Small Intestine.
Topics: Aged; Cardiovascular Diseases; Gas Chromatography-Mass Spectrometry; Humans; Intestine, Small; Male; Methylamines; Microbiota; Mixed Function Oxygenases; Oxides; Phosphatidylcholines; Rifamycins; Rifaximin; Risk Factors; Spectrometry, Mass, Electrospray Ionization | 2017 |
Polymorphisms of the Flavin containing monooxygenase 3 (FMO3) gene do not predispose to essential hypertension in Caucasians.
Topics: Adult; Aged; Aged, 80 and over; Cardiovascular Diseases; Case-Control Studies; Genetic Predisposition to Disease; Genotype; Haplotypes; Humans; Hypertension; Metabolism, Inborn Errors; Methylamines; Middle Aged; Mutation, Missense; Oxygenases; Polymorphism, Genetic; Risk Factors; White People | 2005 |