Compounds > choline
Page last updated: 2024-10-16

choline and Diabetes Mellitus, Type 2

choline has been researched along with Diabetes Mellitus, Type 2 in 48 studies

Diabetes Mellitus, Type 2: A subclass of DIABETES MELLITUS that is not INSULIN-responsive or dependent (NIDDM). It is characterized initially by INSULIN RESISTANCE and HYPERINSULINEMIA; and eventually by GLUCOSE INTOLERANCE; HYPERGLYCEMIA; and overt diabetes. Type II diabetes mellitus is no longer considered a disease exclusively found in adults. Patients seldom develop KETOSIS but often exhibit OBESITY.

Research Excerpts

ExcerptRelevanceReference
"Betaine is highly individual in overweight people with diabetes."9.20Variation of betaine, N,N-dimethylglycine, choline, glycerophosphorylcholine, taurine and trimethylamine-N-oxide in the plasma and urine of overweight people with type 2 diabetes over a two-year period. ( Chambers, ST; Elmslie, JL; Florkowski, CM; George, PM; Krebs, JD; Lever, M; Lunt, H; McEntyre, CJ; Slow, S, 2015)
"Dyslipidemia is an important modifiable risk factor."6.46The role of a new formulation of fenofibric acid in the treatment of mixed dyslipidemia in type 2 diabetes. ( Campbell, J; Mohiuddin, SM, 2010)
" We examined associations of weight loss diet-induced changes in a gut microbiota-related metabolite trimethylamine N-oxide (TMAO), and its precursors (choline and l-carnitine), with changes in bone mineral density (BMD) considering diabetes-related factors."5.30Circulating Gut Microbiota Metabolite Trimethylamine N-Oxide (TMAO) and Changes in Bone Density in Response to Weight Loss Diets: The POUNDS Lost Trial. ( Bray, GA; Chen, Y; DiDonato, JA; Heianza, Y; LeBoff, MS; Li, X; Pei, X; Qi, L; Sacks, FM; Sun, D; Zhou, T, 2019)
" We examined associations of 6-month changes in blood metabolites (TMAO, choline, and l-carnitine) with improvements in body weight (BW), waist circumference (WC), body fat composition, fat distribution, and resting energy expenditure (REE)."5.27Changes in Gut Microbiota-Related Metabolites and Long-term Successful Weight Loss in Response to Weight-Loss Diets: The POUNDS Lost Trial. ( Bray, GA; Heianza, Y; Qi, L; Sacks, FM; Smith, SR; Sun, D, 2018)
"To investigate the causal role of choline metabolites mediating sodium-glucose cotransporter 2 (SGLT2) inhibition in coronary artery disease (CAD) and type 2 diabetes (T2D) using Mendelian randomization (MR)."5.22SGLT2 Inhibition, Choline Metabolites, and Cardiometabolic Diseases: A Mediation Mendelian Randomization Study. ( Bi, Y; Hou, T; Li, M; Lin, H; Lu, J; Ning, G; Wang, S; Wang, T; Wang, W; Xu, M; Xu, Y; Zhao, Z; Zheng, J, 2022)
"Betaine is highly individual in overweight people with diabetes."5.20Variation of betaine, N,N-dimethylglycine, choline, glycerophosphorylcholine, taurine and trimethylamine-N-oxide in the plasma and urine of overweight people with type 2 diabetes over a two-year period. ( Chambers, ST; Elmslie, JL; Florkowski, CM; George, PM; Krebs, JD; Lever, M; Lunt, H; McEntyre, CJ; Slow, S, 2015)
"Findings will provide timely information on the safety, efficacy, and optimal dosing of t-PA to treat moderate/severe COVID-19-induced ARDS, which can be rapidly adapted to a phase III trial (NCT04357730; FDA IND 149634)."4.21 ( Abbasi, S; Abd El-Wahab, A; Abdallah, M; Abebe, G; Aca-Aca, G; Adama, S; Adefegha, SA; Adidigue-Ndiome, R; Adiseshaiah, P; Adrario, E; Aghajanian, C; Agnese, W; Ahmad, A; Ahmad, I; Ahmed, MFE; Akcay, OF; Akinmoladun, AC; Akutagawa, T; Alakavuklar, MA; Álava-Rabasa, S; Albaladejo-Florín, MJ; Alexandra, AJE; Alfawares, R; Alferiev, IS; Alghamdi, HS; Ali, I; Allard, B; Allen, JD; Almada, E; Alobaid, A; Alonso, GL; Alqahtani, YS; Alqarawi, W; Alsaleh, H; Alyami, BA; Amaral, BPD; Amaro, JT; Amin, SAW; Amodio, E; Amoo, ZA; Andia Biraro, I; Angiolella, L; Anheyer, D; Anlay, DZ; Annex, BH; Antonio-Aguirre, B; Apple, S; Arbuznikov, AV; Arinsoy, T; Armstrong, DK; Ash, S; Aslam, M; Asrie, F; Astur, DC; Atzrodt, J; Au, DW; Aucoin, M; Auerbach, EJ; Azarian, S; Ba, D; Bai, Z; Baisch, PRM; Balkissou, AD; Baltzopoulos, V; Banaszewski, M; Banerjee, S; Bao, Y; Baradwan, A; Barandika, JF; Barger, PM; Barion, MRL; Barrett, CD; Basudan, AM; Baur, LE; Baz-Rodríguez, SA; Beamer, P; Beaulant, A; Becker, DF; Beckers, C; Bedel, J; Bedlack, R; Bermúdez de Castro, JM; Berry, JD; Berthier, C; Bhattacharya, D; Biadgo, B; Bianco, G; Bianco, M; Bibi, S; Bigliardi, AP; Billheimer, D; Birnie, DH; Biswas, K; Blair, HC; Bognetti, P; Bolan, PJ; Bolla, JR; Bolze, A; Bonnaillie, P; Borlimi, R; Bórquez, J; Bottari, NB; Boulleys-Nana, JR; Brighetti, G; Brodeur, GM; Budnyak, T; Budnyk, S; Bukirwa, VD; Bulman, DM; Burm, R; Busman-Sahay, K; Butcher, TW; Cai, C; Cai, H; Cai, L; Cairati, M; Calvano, CD; Camacho-Ordóñez, A; Camela, E; Cameron, T; Campbell, BS; Cansian, RL; Cao, Y; Caporale, AS; Carciofi, AC; Cardozo, V; Carè, J; Carlos, AF; Carozza, R; Carroll, CJW; Carsetti, A; Carubelli, V; Casarotta, E; Casas, M; Caselli, G; Castillo-Lora, J; Cataldi, TRI; Cavalcante, ELB; Cavaleiro, A; Cayci, Z; Cebrián-Tarancón, C; Cedrone, E; Cella, D; Cereda, C; Ceretti, A; Ceroni, M; Cha, YH; Chai, X; Chang, EF; Chang, TS; Chanteux, H; Chao, M; Chaplin, BP; Chaturvedi, S; Chaturvedi, V; Chaudhary, DK; Chen, A; Chen, C; Chen, HY; Chen, J; Chen, JJ; Chen, K; Chen, L; Chen, Q; Chen, R; Chen, SY; Chen, TY; Chen, WM; Chen, X; Chen, Y; Cheng, G; Cheng, GJ; Cheng, J; Cheng, YH; Cheon, HG; Chew, KW; Chhoker, S; Chiu, WN; Choi, ES; Choi, MJ; Choi, SD; Chokshi, S; Chorny, M; Chu, KI; Chu, WJ; Church, AL; Cirrincione, A; Clamp, AR; Cleff, MB; Cohen, M; Coleman, RL; Collins, SL; Colombo, N; Conduit, N; Cong, WL; Connelly, MA; Connor, J; Cooley, K; Correa Ramos Leal, I; Cose, S; Costantino, C; Cottrell, M; Cui, L; Cundall, J; Cutaia, C; Cutler, CW; Cuypers, ML; da Silva Júnior, FMR; Dahal, RH; Damiani, E; Damtie, D; Dan-Li, W; Dang, Z; Dasa, SSK; Davin, A; Davis, DR; de Andrade, CM; de Jong, PL; de Oliveira, D; de Paula Dorigam, JC; Dean, A; Deepa, M; Delatour, C; Dell'Aiera, S; Delley, MF; den Boer, RB; Deng, L; Deng, Q; Depner, RM; Derdau, V; Derici, U; DeSantis, AJ; Desmarini, D; Diffo-Sonkoue, L; Divizia, M; Djenabou, A; Djordjevic, JT; Dobrovolskaia, MA; Domizi, R; Donati, A; Dong, Y; Dos Santos, M; Dos Santos, MP; Douglas, RG; Duarte, PF; Dullaart, RPF; Duscha, BD; Edwards, LA; Edwards, TE; Eichenwald, EC; El-Baba, TJ; Elashiry, M; Elashiry, MM; Elashry, SH; Elliott, A; Elsayed, R; Emerson, MS; Emmanuel, YO; Emory, TH; Endale-Mangamba, LM; Enten, GA; Estefanía-Fernández, K; Estes, JD; Estrada-Mena, FJ; Evans, S; Ezra, L; Faria de, RO; Farraj, AK; Favre, C; Feng, B; Feng, J; Feng, L; Feng, W; Feng, X; Feng, Z; Fernandes, CLF; Fernández-Cuadros, ME; Fernie, AR; Ferrari, D; Florindo, PR; Fong, PC; Fontes, EPB; Fontinha, D; Fornari, VJ; Fox, NP; Fu, Q; Fujitaka, Y; Fukuhara, K; Fumeaux, T; Fuqua, C; Fustinoni, S; Gabbanelli, V; Gaikwad, S; Gall, ET; Galli, A; Gancedo, MA; Gandhi, MM; Gao, D; Gao, K; Gao, M; Gao, Q; Gao, X; Gao, Y; Gaponenko, V; Garber, A; Garcia, EM; García-Campos, C; García-Donas, J; García-Pérez, AL; Gasparri, F; Ge, C; Ge, D; Ge, JB; Ge, X; George, I; George, LA; Germani, G; Ghassemi Tabrizi, S; Gibon, Y; Gillent, E; Gillies, RS; Gilmour, MI; Goble, S; Goh, JC; Goiri, F; Goldfinger, LE; Golian, M; Gómez, MA; Gonçalves, J; Góngora-García, OR; Gonul, I; González, MA; Govers, TM; Grant, PC; Gray, EH; Gray, JE; Green, MS; Greenwald, I; Gregory, MJ; Gretzke, D; Griffin-Nolan, RJ; Griffith, DC; Gruppen, EG; Guaita, A; Guan, P; Guan, X; Guerci, P; Guerrero, DT; Guo, M; Guo, P; Guo, R; Guo, X; Gupta, J; Guz, G; Hajizadeh, N; Hamada, H; Haman-Wabi, AB; Han, TT; Hannan, N; Hao, S; Harjola, VP; Harmon, M; Hartmann, MSM; Hartwig, JF; Hasani, M; Hawthorne, WJ; Haykal-Coates, N; Hazari, MS; He, DL; He, P; He, SG; Héau, C; Hebbar Kannur, K; Helvaci, O; Heuberger, DM; Hidalgo, F; Hilty, MP; Hirata, K; Hirsch, A; Hoffman, AM; Hoffmann, JF; Holloway, RW; Holmes, RK; Hong, S; Hongisto, M; Hopf, NB; Hörlein, R; Hoshino, N; Hou, Y; Hoven, NF; Hsieh, YY; Hsu, CT; Hu, CW; Hu, JH; Hu, MY; Hu, Y; Hu, Z; Huang, C; Huang, D; Huang, DQ; Huang, L; Huang, Q; Huang, R; Huang, S; Huang, SC; Huang, W; Huang, Y; Huffman, KM; Hung, CH; Hung, CT; Huurman, R; Hwang, SM; Hyun, S; Ibrahim, AM; Iddi-Faical, A; Immordino, P; Isla, MI; Jacquemond, V; Jacques, T; Jankowska, E; Jansen, JA; Jäntti, T; Jaque-Fernandez, F; Jarvis, GA; Jatt, LP; Jeon, JW; Jeong, SH; Jhunjhunwala, R; Ji, F; Jia, X; Jia, Y; Jian-Bo, Z; Jiang, GD; Jiang, L; Jiang, W; Jiang, WD; Jiang, Z; Jiménez-Hoyos, CA; Jin, S; Jobling, MG; John, CM; John, T; Johnson, CB; Jones, KI; Jones, WS; Joseph, OO; Ju, C; Judeinstein, P; Junges, A; Junnarkar, M; Jurkko, R; Kaleka, CC; Kamath, AV; Kang, X; Kantsadi, AL; Kapoor, M; Karim, Z; Kashuba, ADM; Kassa, E; Kasztura, M; Kataja, A; Katoh, T; Kaufman, JS; Kaupp, M; Kehinde, O; Kehrenberg, C; Kemper, N; Kerr, CW; Khan, AU; Khan, MF; Khan, ZUH; Khojasteh, SC; Kilburn, S; Kim, CG; Kim, DU; Kim, DY; Kim, HJ; Kim, J; Kim, OH; Kim, YH; King, C; Klein, A; Klingler, L; Knapp, AK; Ko, TK; Kodavanti, UP; Kolla, V; Kong, L; Kong, RY; Kong, X; Kore, S; Kortz, U; Korucu, B; Kovacs, A; Krahnert, I; Kraus, WE; Kuang, SY; Kuehn-Hajder, JE; Kurz, M; Kuśtrowski, P; Kwak, YD; Kyttaris, VC; Laga, SM; Laguerre, A; Laloo, A; Langaro, MC; Langham, MC; Lao, X; Larocca, MC; Lassus, J; Lattimer, TA; Lazar, S; Le, MH; Leal, DB; Leal, M; Leary, A; Ledermann, JA; Lee, JF; Lee, MV; Lee, NH; Leeds, CM; Leeds, JS; Lefrandt, JD; Leicht, AS; Leonard, M; Lev, S; Levy, K; Li, B; Li, C; Li, CM; Li, DH; Li, H; Li, J; Li, L; Li, LJ; Li, N; Li, P; Li, T; Li, X; Li, XH; Li, XQ; Li, XX; Li, Y; Li, Z; Li, ZY; Liao, YF; Lin, CC; Lin, MH; Lin, Y; Ling, Y; Links, TP; Lira-Romero, E; Liu, C; Liu, D; Liu, H; Liu, J; Liu, L; Liu, LP; Liu, M; Liu, T; Liu, W; Liu, X; Liu, XH; Liu, Y; Liuwantara, D; Ljumanovic, N; Lobo, L; Lokhande, K; Lopes, A; Lopes, RMRM; López-Gutiérrez, JC; López-Muñoz, MJ; López-Santamaría, M; Lorenzo, C; Lorusso, D; Losito, I; Lu, C; Lu, H; Lu, HZ; Lu, SH; Lu, SN; Lu, Y; Lu, ZY; Luboga, F; Luo, JJ; Luo, KL; Luo, Y; Lutomski, CA; Lv, W; M Piedade, MF; Ma, J; Ma, JQ; Ma, JX; Ma, N; Ma, P; Ma, S; Maciel, M; Madureira, M; Maganaris, C; Maginn, EJ; Mahnashi, MH; Maierhofer, M; Majetschak, M; Malla, TR; Maloney, L; Mann, DL; Mansuri, A; Marelli, E; Margulis, CJ; Marrella, A; Martin, BL; Martín-Francés, L; Martínez de Pinillos, M; Martínez-Navarro, EM; Martinez-Quintanilla Jimenez, D; Martínez-Velasco, A; Martínez-Villaseñor, L; Martinón-Torres, M; Martins, BA; Massongo, M; Mathew, AP; Mathews, D; Matsui, J; Matsumoto, KI; Mau, T; Maves, RC; Mayclin, SJ; Mayer, JM; Maynard, ND; Mayr, T; Mboowa, MG; McEvoy, MP; McIntyre, RC; McKay, JA; McPhail, MJW; McVeigh, AL; Mebazaa, A; Medici, V; Medina, DN; Mehmood, T; Mei-Li, C; Melku, M; Meloncelli, S; Mendes, GC; Mendoza-Velásquez, C; Mercadante, R; Mercado, MI; Merenda, MEZ; Meunier, J; Mi, SL; Michels, M; Mijatovic, V; Mikhailov, V; Milheiro, SA; Miller, DC; Ming, F; Mitsuishi, M; Miyashita, T; Mo, J; Mo, S; Modesto-Mata, M; Moeller, S; Monte, A; Monteiro, L; Montomoli, J; Moore, EE; Moore, HB; Moore, PK; Mor, MK; Moratalla-López, N; Moratilla Lapeña, L; Moreira, R; Moreno, MA; Mörk, AC; Morton, M; Mosier, JM; Mou, LH; Mougharbel, AS; Muccillo-Baisch, AL; Muñoz-Serrano, AJ; Mustafa, B; Nair, GM; Nakanishi, I; Nakanjako, D; Naraparaju, K; Nawani, N; Neffati, R; Neil, EC; Neilipovitz, D; Neira-Borrajo, I; Nelson, MT; Nery, PB; Nese, M; Nguyen, F; Nguyen, MH; Niazy, AA; Nicolaï, J; Nogueira, F; Norbäck, D; Novaretti, JV; O'Donnell, T; O'Dowd, A; O'Malley, DM; Oaknin, A; Ogata, K; Ohkubo, K; Ojha, M; Olaleye, MT; Olawande, B; Olomo, EJ; Ong, EWY; Ono, A; Onwumere, J; Ortiz Bibriesca, DM; Ou, X; Oza, AM; Ozturk, K; Özütemiz, C; Palacio-Pastrana, C; Palaparthi, A; Palevsky, PM; Pan, K; Pantanetti, S; Papachristou, DJ; Pariani, A; Parikh, CR; Parissis, J; Paroul, N; Parry, S; Patel, N; Patel, SM; Patel, VC; Pawar, S; Pefura-Yone, EW; Peixoto Andrade, BCO; Pelepenko, LE; Peña-Lora, D; Peng, S; Pérez-Moro, OS; Perez-Ortiz, AC; 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Winkler, C; Wirman, AP; Wong, S; Woods, CM; Wu, B; Wu, C; Wu, F; Wu, P; Wu, S; Wu, Y; Wu, YN; Wu, ZH; Wurtzel, JGT; Xia, L; Xia, Z; Xia, ZZ; Xiao, H; Xie, C; Xin, ZM; Xing, Y; Xing, Z; Xu, S; Xu, SB; Xu, T; Xu, X; Xu, Y; Xue, L; Xun, J; Yaffe, MB; Yalew, A; Yamamoto, S; Yan, D; Yan, H; Yan, S; Yan, X; Yang, AD; Yang, E; Yang, H; Yang, J; Yang, JL; Yang, K; Yang, M; Yang, P; Yang, Q; Yang, S; Yang, W; Yang, X; Yang, Y; Yao, JC; Yao, WL; Yao, Y; Yaqub, TB; Ye, J; Ye, W; Yen, CW; Yeter, HH; Yin, C; Yip, V; Yong-Yi, J; Yu, HJ; Yu, MF; Yu, S; Yu, W; Yu, WW; Yu, X; Yuan, P; Yuan, Q; Yue, XY; Zaia, AA; Zakhary, SY; Zalwango, F; Zamalloa, A; Zamparo, P; Zampini, IC; Zani, JL; Zeitoun, R; Zeng, N; Zenteno, JC; Zepeda-Palacio, C; Zhai, C; Zhang, B; Zhang, G; Zhang, J; Zhang, K; Zhang, Q; Zhang, R; Zhang, T; Zhang, X; Zhang, Y; Zhang, YY; Zhao, B; Zhao, D; Zhao, G; Zhao, H; Zhao, Q; Zhao, R; Zhao, S; Zhao, T; Zhao, X; Zhao, XA; Zhao, Y; Zhao, Z; Zheng, Z; Zhi-Min, G; Zhou, CL; Zhou, HD; Zhou, J; Zhou, W; Zhou, XQ; Zhou, Z; Zhu, C; Zhu, H; Zhu, L; Zhu, Y; Zitzmann, N; Zou, L; Zou, Y, 2022)
"Trimethylamine N-oxide (TMAO), choline and betaine serum levels have been associated with metabolic diseases including type 2 diabetes (T2D) and non-alcoholic fatty liver disease (NAFLD)."4.02Trimethylamine N-oxide levels are associated with NASH in obese subjects with type 2 diabetes. ( Aguilar-Salinas, C; Campos-Pérez, F; Canizales-Quinteros, S; Gómez-Pérez, F; González-González, I; Grandini-Rosales, P; Hazen, SL; Hernández-Pando, R; Huertas-Vazquez, A; Hui, ST; Larrieta-Carrasco, E; León-Mimila, P; Li, XS; López-Contreras, B; Lusis, AJ; Macías-Kauffer, L; Morán-Ramos, S; Ocampo-Medina, E; Olivares-Arevalo, M; Shih, DM; Villamil-Ramírez, H; Villarreal-Molina, T; Wang, Z, 2021)
"Trimethylamine-N-oxide (TMAO), a gut-microbiota-dependent metabolite generated from its dietary precursors such as choline, has been identified as an independent risk factor for atherosclerosis."4.02Metformin alleviates choline diet-induced TMAO elevation in C57BL/6J mice by influencing gut-microbiota composition and functionality. ( Du, Y; Hong, B; Li, X; Su, C; Wang, L; Yang, Y; Zhang, X, 2021)
"To clarify the causal relationship between insulin resistance and the development of NASH, steatohepatitis was induced in obese diabetic Otsuka Long-Evans Tokushima Fatty (OLETF) and nondiabetic control Long-Evans Tokushima Otsuka (LETO) rats by feeding them a methionine and choline-deficient (MCD) diet."3.74Insulin resistance accelerates a dietary rat model of nonalcoholic steatohepatitis. ( Akahori, H; Kaneko, S; Kita, Y; Kurita, S; Matsuzawa, N; Misu, H; Nakanuma, Y; Ota, T; Sakurai, M; Takamura, T; Uno, M; Zen, Y, 2007)
"Betaine deficiency is a probable cardiovascular risk factor and a cause of elevated homocysteine."2.79Extreme urinary betaine losses in type 2 diabetes combined with bezafibrate treatment are associated with losses of dimethylglycine and choline but not with increased losses of other osmolytes. ( Chambers, ST; Elmslie, JL; George, PM; Krebs, JD; Lever, M; Lunt, H; McEntyre, CJ; Parry-Strong, A; Slow, S, 2014)
"Metabolomic studies on obesity and type 2 diabetes mellitus have led to a number of mechanistic insights into biomarker discovery and comprehension of disease progression at metabolic levels."2.52Metabolomics - the complementary field in systems biology: a review on obesity and type 2 diabetes. ( Abu Bakar, MH; Ali Khan, A; Cheng, KK; Sarmidi, MR; Suan, CL; Yaakob, H; Zaman Huri, H, 2015)
"Dyslipidemia is an important modifiable risk factor."2.46The role of a new formulation of fenofibric acid in the treatment of mixed dyslipidemia in type 2 diabetes. ( Campbell, J; Mohiuddin, SM, 2010)
"In patients with type 2 diabetes, BP variability contributes to the formation of CI through a pro-inflammatory mechanism (osteopontin), leading to impaired brain vascularization in general, white matter structure, and hippocampal metabolism."1.72[Blood pressure variability and neuroplasticity in patients with type 2 diabetes mellitus]. ( Kudlay, DA; Matveeva, MV; Samoilova, YG, 2022)
"Among women, there was a higher risk of type 2 diabetes, comparing the highest to lowest dietary choline quartile (HR 1."1.56The Association of Dietary Choline and Betaine With the Risk of Type 2 Diabetes: The Atherosclerosis Risk in Communities (ARIC) Study. ( Bidulescu, A; Dibaba, DT; Johnson, KC; Kucharska-Newton, AM; Meyer, K; Zeisel, SH, 2020)
"The (18)F-FMCH uptake in atherosclerotic plaques was further compared with macrophage infiltration and the plasma levels of cytokines and metabolic markers."1.43Type 2 diabetes enhances arterial uptake of choline in atherosclerotic mice: an imaging study with positron emission tomography tracer ¹⁸F-fluoromethylcholine. ( Hellberg, S; Jauhiainen, M; Kiugel, M; Knuuti, J; Liljenbäck, H; Metsälä, O; Metso, J; Nuutila, P; Roivainen, A; Saraste, A; Saukko, P; Silvola, JM; Viljanen, T; Ylä-Herttuala, S, 2016)
"Eighty six patients with Type 2 diabetes mellitus (T2DM) were enrolled for this study."1.43[Correlation between cognitive impairment and diabetic nephropathy in patients with Type 2 diabetes mellitus]. ( Niu, H; Shen, J; Shi, X; Wang, R; Wang, S; Wu, J; Yang, H; Zhang, Y; Zhou, S, 2016)
"Metformin is an antihyperglycemic drug that is widely prescribed for type 2 diabetes mellitus and is currently being investigated for the treatment of nonalcoholic steatohepatitis (NASH)."1.42Mechanism of Altered Metformin Distribution in Nonalcoholic Steatohepatitis. ( Cherrington, NJ; Clarke, JD; Dzierlenga, AL; Goedken, MJ; Li, H; Nelson, NR; Werts, S, 2015)
"Patients with type 2 diabetes and major depression (n=20) were scanned along with patients with diabetes alone (n=24) and healthy controls (n=21) on a 1."1.34Measurement of brain metabolites in patients with type 2 diabetes and major depression using proton magnetic resonance spectroscopy. ( Ajilore, O; Binesh, N; Darwin, C; Haroon, E; Kumar, A; Kumaran, S; Miller, J; Mintz, J; Thomas, MA, 2007)
"Myo-inositol was even more elevated in patients with polyneuropathy (p = 0."1.32Alterations of cerebral metabolism in patients with diabetes mellitus studied by proton magnetic resonance spectroscopy. ( Feuerbach, S; Fründ, R; Geissler, A; Schölmerich, J; Zietz, B, 2003)

Research

Studies (48)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's0 (0.00)18.2507
2000's5 (10.42)29.6817
2010's25 (52.08)24.3611
2020's18 (37.50)2.80

Authors

AuthorsStudies
Matveeva, MV2
Samoilova, YG2
Kudlay, DA2
Wargny, M1
Croyal, M1
Ragot, S1
Gand, E1
Jacobi, D1
Trochu, JN1
Prieur, X1
Le May, C1
Goronflot, T1
Cariou, B1
Saulnier, PJ1
Hadjadj, S1
Zeng, Q1
Zhao, M1
Wang, F1
Li, Y9
Li, H4
Zheng, J2
Chen, X3
Zhao, X5
Ji, L1
Gao, X3
Liu, C5
Wang, Y6
Cheng, S1
Xu, J2
Pan, B1
Sun, J2
Li, D1
He, Y1
Zheng, L1
Xu, M1
Hou, T1
Lin, H1
Wang, T1
Wang, S3
Lu, J1
Zhao, Z2
Li, M1
Xu, Y2
Ning, G1
Bi, Y1
Wang, W1
Syafiandini, AF1
Song, G1
Ahn, Y1
Kim, H1
Song, M1
Zhen, Q1
Liang, Q2
Wang, H4
Zheng, Y1
Lu, Z1
Bian, C1
Guo, X2
Hesselink, A1
Winkvist, A1
Lindahl, B1
Ueland, PM2
Schneede, J1
Johansson, I1
Karlsson, T2
Song, Y1
Yang, H4
Kim, J2
Lee, Y1
Kim, SH1
Do, IG1
Park, CY1
Virtanen, JK1
Tuomainen, TP1
Voutilainen, S1
Jubinville, É1
Milad, N1
Maranda-Robitaille, M1
Lafrance, MA1
Pineault, M1
Lamothe, J1
Routhier, J1
Beaulieu, MJ1
Aubin, S1
Laplante, M1
Morissette, MC1
León-Mimila, P1
Villamil-Ramírez, H1
Li, XS2
Shih, DM1
Hui, ST1
Ocampo-Medina, E1
López-Contreras, B1
Morán-Ramos, S1
Olivares-Arevalo, M1
Grandini-Rosales, P1
Macías-Kauffer, L1
González-González, I1
Hernández-Pando, R1
Gómez-Pérez, F1
Campos-Pérez, F1
Aguilar-Salinas, C1
Larrieta-Carrasco, E1
Villarreal-Molina, T1
Wang, Z5
Lusis, AJ1
Hazen, SL2
Huertas-Vazquez, A1
Canizales-Quinteros, S1
Nese, M1
Riboli, G1
Brighetti, G1
Sassi, V1
Camela, E1
Caselli, G1
Sassaroli, S1
Borlimi, R1
Aucoin, M1
Cooley, K1
Saunders, PR1
Carè, J1
Anheyer, D1
Medina, DN1
Cardozo, V1
Remy, D1
Hannan, N1
Garber, A1
Velayos, M1
Muñoz-Serrano, AJ1
Estefanía-Fernández, K1
Sarmiento Caldas, MC1
Moratilla Lapeña, L1
López-Santamaría, M1
López-Gutiérrez, JC1
Li, J1
Zhang, J1
Shen, S1
Zhang, B2
Yu, WW1
Toyoda, H1
Huang, DQ1
Le, MH1
Nguyen, MH1
Huang, R1
Zhu, L1
Wang, J6
Xue, L1
Liu, L3
Yan, X2
Huang, S1
Xu, T1
Li, C2
Ji, F1
Ming, F1
Zhao, Y2
Cheng, J1
Zhao, H1
Hong, S1
Chen, K2
Zhao, XA1
Zou, L1
Sang, D1
Shao, H1
Guan, X1
Chen, Y5
Wei, J1
Zhu, C1
Wu, C1
Moore, HB1
Barrett, CD1
Moore, EE1
Jhunjhunwala, R1
McIntyre, RC1
Moore, PK1
Hajizadeh, N1
Talmor, DS1
Sauaia, A1
Yaffe, MB1
Lin, Y2
Dong, Y1
Wu, Y2
Bao, Y1
Yan, H2
Ma, J1
Fernández-Cuadros, ME1
Albaladejo-Florín, MJ1
Álava-Rabasa, S1
Usandizaga-Elio, I1
Martinez-Quintanilla Jimenez, D1
Peña-Lora, D1
Neira-Borrajo, I1
López-Muñoz, MJ1
Rodríguez-de-Cía, J1
Pérez-Moro, OS1
Abdallah, M1
Alsaleh, H1
Baradwan, A1
Alfawares, R1
Alobaid, A1
Rasheed, A1
Soliman, I1
Wendel Garcia, PD1
Fumeaux, T1
Guerci, P1
Heuberger, DM1
Montomoli, J2
Roche-Campo, F1
Schuepbach, RA1
Hilty, MP1
Poloni, TE1
Carlos, AF1
Cairati, M1
Cutaia, C1
Medici, V1
Marelli, E1
Ferrari, D1
Galli, A1
Bognetti, P1
Davin, A1
Cirrincione, A1
Ceretti, A1
Cereda, C1
Ceroni, M1
Tronconi, L1
Vitali, S1
Guaita, A1
Leeds, JS1
Raviprakash, V1
Jacques, T1
Scanlon, N1
Cundall, J1
Leeds, CM1
Riva, A1
Gray, EH1
Azarian, S1
Zamalloa, A1
McPhail, MJW1
Vincent, RP1
Williams, R1
Chokshi, S1
Patel, VC1
Edwards, LA1
Alqarawi, W1
Birnie, DH1
Golian, M1
Nair, GM1
Nery, PB1
Klein, A1
Davis, DR1
Sadek, MM1
Neilipovitz, D1
Johnson, CB1
Green, MS1
Redpath, C1
Miller, DC1
Beamer, P1
Billheimer, D1
Subbian, V1
Sorooshian, A1
Campbell, BS1
Mosier, JM1
Novaretti, JV1
Astur, DC1
Cavalcante, ELB1
Kaleka, CC1
Amaro, JT1
Cohen, M1
Huang, W1
Li, T1
Ling, Y1
Qian, ZP1
Zhang, YY1
Huang, D1
Xu, SB1
Liu, XH1
Xia, L1
Yang, Y4
Lu, SH1
Lu, HZ1
Zhang, R2
Ma, JX1
Tang, S1
Li, CM1
Wan, J1
Wang, JF1
Ma, JQ1
Luo, JJ1
Chen, HY2
Mi, SL1
Chen, SY1
Su, YG1
Ge, JB1
Milheiro, SA1
Gonçalves, J1
Lopes, RMRM1
Madureira, M1
Lobo, L1
Lopes, A1
Nogueira, F1
Fontinha, D1
Prudêncio, M1
M Piedade, MF1
Pinto, SN1
Florindo, PR1
Moreira, R1
Castillo-Lora, J1
Delley, MF1
Laga, SM1
Mayer, JM1
Sutjarit, N1
Thongon, N1
Weerachayaphorn, J1
Piyachaturawat, P1
Suksamrarn, A1
Suksen, K1
Papachristou, DJ1
Blair, HC1
Hu, Y1
Shen, P1
Zeng, N1
Wang, L4
Yan, D1
Cui, L1
Yang, K2
Zhai, C1
Yang, M1
Lao, X1
Ma, N1
Ye, W1
Guo, P1
Rahimi, S1
Singh, MP1
Gupta, J1
Nakanishi, I1
Ohkubo, K1
Shoji, Y1
Fujitaka, Y1
Shimoda, K1
Matsumoto, KI1
Fukuhara, K1
Hamada, H1
van der Boom, T1
Gruppen, EG1
Lefrandt, JD1
Connelly, MA1
Links, TP1
Dullaart, RPF1
Berry, JD1
Bedlack, R1
Mathews, D1
Agnese, W1
Apple, S1
Meloncelli, S1
Divizia, M1
Germani, G1
Adefegha, SA1
Bottari, NB1
Leal, DB1
de Andrade, CM1
Schetinger, MR1
Martínez-Velasco, A1
Perez-Ortiz, AC1
Antonio-Aguirre, B1
Martínez-Villaseñor, L1
Lira-Romero, E1
Palacio-Pastrana, C1
Zenteno, JC1
Ramirez, I1
Zepeda-Palacio, C1
Mendoza-Velásquez, C1
Camacho-Ordóñez, A1
Ortiz Bibriesca, DM1
Estrada-Mena, FJ1
Martin, BL1
Thompson, LC1
Kim, YH2
Snow, SJ1
Schladweiler, MC1
Phillips, P1
Harmon, M1
King, C1
Richards, J1
George, I1
Haykal-Coates, N1
Gilmour, MI1
Kodavanti, UP1
Hazari, MS1
Farraj, AK1
Shen, Z1
Zou, Y1
Gao, K1
Lazar, S1
Wurtzel, JGT1
Ma, P1
Goldfinger, LE1
Vukelic, M1
Laloo, A1
Kyttaris, VC1
Chen, R1
Chen, J3
Xun, J1
Hu, Z1
Huang, Q2
Steinhart, C1
Shen, Y1
Lu, H1
Mansuri, A1
Lokhande, K1
Kore, S1
Gaikwad, S1
Nawani, N1
Swamy, KV1
Junnarkar, M1
Pawar, S1
Shaheen, MY1
Basudan, AM1
Niazy, AA1
van den Beucken, JJJP1
Jansen, JA1
Alghamdi, HS1
Gao, Q2
Cao, Y1
Jia, X1
Xu, S1
Lu, C2
Zhu, H2
Melku, M1
Abebe, G1
Teketel, A1
Asrie, F1
Yalew, A1
Biadgo, B1
Kassa, E1
Damtie, D1
Anlay, DZ1
Ahmed, MFE1
Ramadan, H1
Seinige, D1
Kehrenberg, C1
Abd El-Wahab, A1
Volkmann, N1
Kemper, N1
Schulz, J1
Hu, MY1
Wu, YN1
McEvoy, MP1
Wang, YF1
Cong, WL1
Liu, LP1
Li, XX1
Zhou, CL1
Chen, WM1
Wei, KL1
Tung, SY1
Shen, CH1
Chang, TS1
Yen, CW1
Hsieh, YY1
Chiu, WN1
Hu, JH1
Lu, SN1
Hung, CH1
Alakavuklar, MA1
Fuqua, C1
Luo, KL1
Underwood, RS1
Greenwald, I1
Elashiry, MM1
Elashiry, M1
Zeitoun, R1
Elsayed, R1
Tian, F1
Saber, SE1
Elashry, SH1
Tay, FR1
Cutler, CW1
O'Dowd, A1
Maciel, M1
Poole, ST1
Jobling, MG1
Rollenhagen, JE1
Woods, CM1
Sincock, SA1
McVeigh, AL1
Gregory, MJ1
Maves, RC1
Prouty, MG1
Holmes, RK1
Savarino, SJ1
Mor, MK1
Palevsky, PM1
Kaufman, JS1
Thiessen Philbrook, H1
Weisbord, SD1
Parikh, CR1
John, CM1
Phillips, NJ1
Jarvis, GA1
Zhu, Y1
Kilburn, S1
Kapoor, M1
Chaturvedi, S1
Shaw, KJ1
Chaturvedi, V1
Kong, X1
Zhang, T1
Xiao, H1
Feng, X1
Tu, H1
Feng, J2
Sabet, M1
Tarazi, Z1
Griffith, DC1
Nguyen, F1
Guan, P1
Guerrero, DT1
Kolla, V1
Naraparaju, K1
Perry, LM1
Soberman, D1
Pressly, BB1
Alferiev, IS1
Chorny, M1
Brodeur, GM1
Cheng, YH1
Enten, GA1
DeSantis, AJ1
Gaponenko, V1
Majetschak, M1
Kim, DY1
Choi, MJ1
Ko, TK1
Lee, NH1
Kim, OH1
Cheon, HG1
Cai, H1
Yip, V1
Lee, MV1
Wong, S1
Saad, O1
Ma, S1
Ljumanovic, N1
Khojasteh, SC1
Kamath, AV1
Shen, BQ1
Cuypers, ML1
Chanteux, H1
Gillent, E1
Bonnaillie, P1
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Beckers, C1
Delatour, C1
Dell'Aiera, S1
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Zalwango, F1
Wairagala, P1
Luboga, F1
Andia Biraro, I1
Bukirwa, VD1
Mboowa, MG1
Cose, S1
Seeley, J1
Elliott, A1
Zhao, G1
Sun, P1
Hao, S1
Wang, X1
Qu, G1
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Xu, X1
Maierhofer, M1
Rieger, V1
Mayr, T1
Liu, Y2
Zhang, Q2
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Fernandes, CLF1
Pinto, EA1
Dos Santos, M1
Garcia, EM1
Baisch, PRM1
Soares, MCF1
Muccillo-Baisch, AL1
da Silva Júnior, FMR1
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Huang, SC1
Kortz, U1
Mougharbel, AS1
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Li, LJ1
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Stimming, U1
Hebbar Kannur, K1
Yaqub, TB1
Pupier, C1
Héau, C1
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Stiers, KM1
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Harjola, VP1
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Pantanetti, S1
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Adrario, E1
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Pariani, A1
Rivabella Maknis, T1
Hidalgo, F1
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Favre, C1
Larocca, MC1
Lu, ZY1
Jiang, WD1
Wu, P1
Kuang, SY1
Tang, L1
Yang, J1
Zhou, XQ1
Feng, L1
Leal, M1
Zampini, IC1
Mercado, MI1
Moreno, MA1
Simirgiotis, MJ1
Bórquez, J1
Ponessa, G1
Isla, MI1
Saliu, IO1
Amoo, ZA1
Khan, MF1
Olaleye, MT1
Rema, V1
Akinmoladun, AC1
Khan, AU1
Rahman, AU1
Yuan, Q1
Ahmad, A1
Khan, ZUH1
Mahnashi, MH1
Alyami, BA1
Alqahtani, YS1
Ullah, S1
Wirman, AP1
Gao, M1
Deng, L1
Zhang, K1
Wang, M1
Xia, Z1
Gao, D1
Balkissou, AD1
Poka-Mayap, V1
Massongo, M1
Djenabou, A1
Endale-Mangamba, LM1
Olomo, EJ1
Boulleys-Nana, JR1
Diffo-Sonkoue, L1
Adidigue-Ndiome, R1
Alexandra, AJE1
Haman-Wabi, AB1
Adama, S1
Iddi-Faical, A1
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Tong, W1
Ge, C1
Zhao, D1
Norbäck, D1
Li, B1
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Deng, Q1
Kim, HJ1
Jeon, JW1
Hwang, SM1
Chu, KI1
Cha, YH1
Kwak, YD1
Choi, SD1
Aslam, M1
Kim, CG1
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Yang, E1
Yang, W1
Dibaba, DT1
Johnson, KC1
Kucharska-Newton, AM1
Meyer, K1
Zeisel, SH1
Bidulescu, A1
Kwee, LC1
Ilkayeva, O1
Muehlbauer, MJ1
Bihlmeyer, N1
Wolfe, B1
Purnell, JQ1
Xavier Pi-Sunyer, F1
Chen, H2
Bahnson, J1
Newgard, CB1
Shah, SH1
Laferrère, B1
Greenberg, JA1
Jiang, X1
Tinker, LF1
Snetselaar, LG1
Saquib, N1
Shadyab, AH1
Su, C1
Du, Y1
Hong, B1
Wu, GY1
Wu, JL1
Jing, L1
Tan, Y1
Qiu, TC1
Zhao, J1
Schugar, RC1
Willard, B1
Brown, JM1
Heianza, Y2
Sun, D2
Smith, SR1
Bray, GA2
Sacks, FM2
Qi, L2
Paul, S2
Zhou, T1
DiDonato, JA1
Pei, X1
LeBoff, MS1
Rashvand, S1
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Tarighat-Esfanjani, A1
Sha, L1
Qu, X1
An, Z1
Sun, C1
Zhang, M2
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Zhang, Z2
Meng, Q2
Ma, X1
Geng, H2
Sun, L2
Sinha, S1
Ekka, M1
Sharma, U1
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Shi, X1
Niu, H1
Wang, R1
Shen, J1
Zhou, S1
Wu, J1
Svingen, GF1
Schartum-Hansen, H1
Pedersen, ER1
Tell, GS1
Mellgren, G1
Njølstad, PR1
Seifert, R1
Strand, E1
Nygård, O1
Trøseid, M1
Hov, JR1
Nestvold, TK1
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Berge, RK1
Svardal, A1
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Achilles, EI1
Maus, V1
Fink, GR1
Maintz, D1
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Mpotsaris, A1
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Kappelle, J1
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Clinical Trials (2)

Trial Overview

TrialPhaseEnrollmentStudy TypeStart DateStatus
Preventing Overweight Using Novel Dietary Strategies (Pounds Lost)[NCT00072995]811 participants Interventional2003-09-30Completed
Longitudinal Profiling of Gut Microbiome in Overweight or Obese Participants on a Modified Atkins Diet: a Prospective Cohort Study[NCT04207879]75 participants (Actual)Observational2020-01-01Active, not recruiting
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Reviews

7 reviews available for choline and Diabetes Mellitus, Type 2

ArticleYear
SGLT2 Inhibition, Choline Metabolites, and Cardiometabolic Diseases: A Mediation Mendelian Randomization Study.
    Diabetes care, 2022, 11-01, Volume: 45, Issue:11

    Topics: Choline; Coronary Artery Disease; Diabetes Mellitus, Type 2; Genome-Wide Association Study; Glycine;

2022
    Zeitschrift fur Gesundheitswissenschaften = Journal of public health, 2022, Volume: 30, Issue:2

    Topics: 3T3-L1 Cells; A Kinase Anchor Proteins; Acetates; Achilles Tendon; Acute Kidney Injury; Acute Pain;

2022
Changes in cerebral metabolites in type 2 diabetes mellitus: A meta-analysis of proton magnetic resonance spectroscopy.
    Journal of clinical neuroscience : official journal of the Neurosurgical Society of Australasia, 2017, Volume: 45

    Topics: Aspartic Acid; Brain; Case-Control Studies; Choline; Creatine; Diabetes Mellitus, Type 2; Humans; In

2017
Postprandial gut microbiota-driven choline metabolism links dietary cues to adipose tissue dysfunction.
    Adipocyte, 2018, 01-02, Volume: 7, Issue:1

    Topics: Adipose Tissue; Animals; Choline; Diabetes Mellitus, Type 2; Gastrointestinal Microbiome; Humans; Po

2018
Metabolomics - the complementary field in systems biology: a review on obesity and type 2 diabetes.
    Molecular bioSystems, 2015, Volume: 11, Issue:7

    Topics: Amino Acids; Animals; Bile Acids and Salts; Carbohydrate Metabolism; Choline; Diabetes Mellitus, Typ

2015
The role of a new formulation of fenofibric acid in the treatment of mixed dyslipidemia in type 2 diabetes.
    Drugs of today (Barcelona, Spain : 1998), 2010, Volume: 46, Issue:10

    Topics: Choline; Diabetes Mellitus, Type 2; Drug Therapy, Combination; Dyslipidemias; Fenofibrate; Humans; H

2010
Interactions between gut microbiota and host metabolism predisposing to obesity and diabetes.
    Annual review of medicine, 2011, Volume: 62

    Topics: Angiopoietin-Like Protein 4; Angiopoietins; Animals; Bile Acids and Salts; Carbohydrate Metabolism;

2011

Trials

7 trials available for choline and Diabetes Mellitus, Type 2

ArticleYear
    Zeitschrift fur Gesundheitswissenschaften = Journal of public health, 2022, Volume: 30, Issue:2

    Topics: 3T3-L1 Cells; A Kinase Anchor Proteins; Acetates; Achilles Tendon; Acute Kidney Injury; Acute Pain;

2022
Metabolites and diabetes remission after weight loss.
    Nutrition & diabetes, 2021, 02-24, Volume: 11, Issue:1

    Topics: Amino Acids, Branched-Chain; Bariatric Surgery; Betaine; Biomarkers; Choline; Diabetes Mellitus, Typ

2021
Changes in Gut Microbiota-Related Metabolites and Long-term Successful Weight Loss in Response to Weight-Loss Diets: The POUNDS Lost Trial.
    Diabetes care, 2018, Volume: 41, Issue:3

    Topics: Adipose Tissue, White; Adiposity; Adult; Body Weight; Caloric Restriction; Carnitine; Choline; Diabe

2018
Changes in Gut Microbiota-Related Metabolites and Long-term Successful Weight Loss in Response to Weight-Loss Diets: The POUNDS Lost Trial.
    Diabetes care, 2018, Volume: 41, Issue:3

    Topics: Adipose Tissue, White; Adiposity; Adult; Body Weight; Caloric Restriction; Carnitine; Choline; Diabe

2018
Changes in Gut Microbiota-Related Metabolites and Long-term Successful Weight Loss in Response to Weight-Loss Diets: The POUNDS Lost Trial.
    Diabetes care, 2018, Volume: 41, Issue:3

    Topics: Adipose Tissue, White; Adiposity; Adult; Body Weight; Caloric Restriction; Carnitine; Choline; Diabe

2018
Changes in Gut Microbiota-Related Metabolites and Long-term Successful Weight Loss in Response to Weight-Loss Diets: The POUNDS Lost Trial.
    Diabetes care, 2018, Volume: 41, Issue:3

    Topics: Adipose Tissue, White; Adiposity; Adult; Body Weight; Caloric Restriction; Carnitine; Choline; Diabe

2018
Circulating Gut Microbiota Metabolite Trimethylamine N-Oxide (TMAO) and Changes in Bone Density in Response to Weight Loss Diets: The POUNDS Lost Trial.
    Diabetes care, 2019, Volume: 42, Issue:8

    Topics: Absorptiometry, Photon; Adult; Bone Density; Carnitine; Choline; Diabetes Mellitus, Type 2; Diet, Re

2019
Effects of Choline and Magnesium Concurrent Supplementation on Coagulation and Lipid Profile in Patients with Type 2 Diabetes Mellitus: a Pilot Clinical Trial.
    Biological trace element research, 2020, Volume: 194, Issue:2

    Topics: Choline; Diabetes Mellitus, Type 2; Dietary Supplements; Double-Blind Method; Female; Humans; Lipids

2020
Variation of betaine, N,N-dimethylglycine, choline, glycerophosphorylcholine, taurine and trimethylamine-N-oxide in the plasma and urine of overweight people with type 2 diabetes over a two-year period.
    Annals of clinical biochemistry, 2015, Volume: 52, Issue:Pt 3

    Topics: Aged; Betaine; Choline; Diabetes Mellitus, Type 2; Female; Glycerylphosphorylcholine; Humans; Male;

2015
Extreme urinary betaine losses in type 2 diabetes combined with bezafibrate treatment are associated with losses of dimethylglycine and choline but not with increased losses of other osmolytes.
    Cardiovascular drugs and therapy, 2014, Volume: 28, Issue:5

    Topics: Adult; Aged; Betaine; Bezafibrate; Choline; Diabetes Mellitus, Type 2; Female; Glycerylphosphorylcho

2014

Other Studies

35 other studies available for choline and Diabetes Mellitus, Type 2

ArticleYear
[Blood pressure variability and neuroplasticity in patients with type 2 diabetes mellitus].
    Zhurnal nevrologii i psikhiatrii imeni S.S. Korsakova, 2022, Volume: 122, Issue:3

    Topics: Blood Pressure; Blood Pressure Monitoring, Ambulatory; Choline; Creatine; Diabetes Mellitus, Type 2;

2022
[Blood pressure variability and brain neuroimaging in patients with type 2 diabetes].
    Zhurnal nevrologii i psikhiatrii imeni S.S. Korsakova, 2022, Volume: 122, Issue:5

    Topics: Blood Pressure; Brain; Brain Diseases; Choline; Creatine; Diabetes Mellitus, Type 2; Humans; Neuroim

2022
Nutritional biomarkers and heart failure requiring hospitalization in patients with type 2 diabetes: the SURDIAGENE cohort.
    Cardiovascular diabetology, 2022, 06-09, Volume: 21, Issue:1

    Topics: Aged; Betaine; Biomarkers; Carnitine; Choline; Cohort Studies; Cysteine; Diabetes Mellitus, Type 2;

2022
Integrating Choline and Specific Intestinal Microbiota to Classify Type 2 Diabetes in Adults: A Machine Learning Based Metagenomics Study.
    Frontiers in endocrinology, 2022, Volume: 13

    Topics: Adult; Betaine; Choline; Cross-Sectional Studies; Diabetes Mellitus, Type 2; Gastrointestinal Microb

2022
An automatic hypothesis generation for plausible linkage between xanthium and diabetes.
    Scientific reports, 2022, 10-20, Volume: 12, Issue:1

    Topics: Adenosine; Biological Products; Choline; Diabetes Mellitus, Type 2; Rhamnose; Scopoletin; Xanthium

2022
Theabrownin ameliorates liver inflammation, oxidative stress, and fibrosis in MCD diet-fed C57BL/6J mice.
    Frontiers in endocrinology, 2023, Volume: 14

    Topics: Animals; Choline; Choline Deficiency; Diabetes Mellitus, Type 2; Diet; Fibrosis; Inflammation; Methi

2023
Healthy Nordic diet and associations with plasma concentrations of metabolites in the choline oxidation pathway: a cross-sectional study from Northern Sweden.
    Nutrition journal, 2023, 05-17, Volume: 22, Issue:1

    Topics: Betaine; Choline; Cross-Sectional Studies; Diabetes Mellitus, Type 2; Diet; Humans; Sweden

2023
Gemigliptin, a DPP4 inhibitor, ameliorates nonalcoholic steatohepatitis through AMP-activated protein kinase-independent and ULK1-mediated autophagy.
    Molecular metabolism, 2023, Volume: 78

    Topics: AMP-Activated Protein Kinases; Animals; Autophagy; Autophagy-Related Protein-1 Homolog; Choline; Dia

2023
Dietary intake of choline and phosphatidylcholine and risk of type 2 diabetes in men: The Kuopio Ischaemic Heart Disease Risk Factor Study.
    European journal of nutrition, 2020, Volume: 59, Issue:8

    Topics: Choline; Diabetes Mellitus, Type 2; Diet; Eating; Finland; Heart Disease Risk Factors; Humans; Male;

2020
Critical importance of dietary methionine and choline in the maintenance of lung homeostasis during normal and cigarette smoke exposure conditions.
    American journal of physiology. Lung cellular and molecular physiology, 2020, 08-01, Volume: 319, Issue:2

    Topics: Animals; Bronchoalveolar Lavage Fluid; Choline; Cytokines; Diabetes Mellitus, Type 2; Diet; Female;

2020
Trimethylamine N-oxide levels are associated with NASH in obese subjects with type 2 diabetes.
    Diabetes & metabolism, 2021, Volume: 47, Issue:2

    Topics: Adult; Betaine; Bile Acids and Salts; Biomarkers; Biopsy; Choline; Diabetes Mellitus, Type 2; Female

2021
The Association of Dietary Choline and Betaine With the Risk of Type 2 Diabetes: The Atherosclerosis Risk in Communities (ARIC) Study.
    Diabetes care, 2020, Volume: 43, Issue:11

    Topics: Betaine; Choline; Diabetes Mellitus, Type 2; Diet; Eating; Female; Follow-Up Studies; Humans; Logist

2020
Eggs, dietary cholesterol, choline, betaine, and diabetes risk in the Women's Health Initiative: a prospective analysis.
    The American journal of clinical nutrition, 2021, 07-01, Volume: 114, Issue:1

    Topics: Aged; Betaine; Cholesterol, Dietary; Choline; Cohort Studies; Diabetes Mellitus, Type 2; Eggs; Femal

2021
Metformin alleviates choline diet-induced TMAO elevation in C57BL/6J mice by influencing gut-microbiota composition and functionality.
    Nutrition & diabetes, 2021, 07-31, Volume: 11, Issue:1

    Topics: Akkermansia; Animals; Atherosclerosis; Bifidobacterium; Choline; Diabetes Mellitus, Type 2; Diet; Dy

2021
Molecular dynamics simulation study on the inhibitory effects of choline-O-sulfate on hIAPP protofibrilation.
    Journal of computational chemistry, 2019, 08-15, Volume: 40, Issue:22

    Topics: Choline; Diabetes Mellitus, Type 2; Humans; Islet Amyloid Polypeptide; Molecular Dynamics Simulation

2019
Metabolite differences in the lenticular nucleus in type 2 diabetes mellitus shown by proton MR spectroscopy.
    AJNR. American journal of neuroradiology, 2013, Volume: 34, Issue:9

    Topics: Aged; Aged, 80 and over; Aspartic Acid; Biomarkers; Choline; Corpus Striatum; Creatine; Diabetes Mel

2013
Brain metabolite changes in patients with type 2 diabetes and cerebral infarction using proton magnetic resonance spectroscopy.
    The International journal of neuroscience, 2014, Volume: 124, Issue:1

    Topics: Aged; Aspartic Acid; Blood Glucose; Brain; Cerebral Infarction; Choline; Creatine; Diabetes Mellitus

2014
Assessment of changes in brain metabolites in Indian patients with type-2 diabetes mellitus using proton magnetic resonance spectroscopy.
    BMC research notes, 2014, Jan-17, Volume: 7

    Topics: Aspartic Acid; Brain Chemistry; Choline; Creatinine; Diabetes Mellitus, Type 2; Glucose; Glutamic Ac

2014
Brain metabolite alterations demonstrated by proton magnetic resonance spectroscopy in diabetic patients with retinopathy.
    Magnetic resonance imaging, 2014, Volume: 32, Issue:8

    Topics: Adult; Aspartic Acid; Brain; Case-Control Studies; Choline; Corpus Striatum; Diabetes Mellitus, Type

2014
A pilot validation of multi-echo based echo-planar correlated spectroscopic imaging in human calf muscles.
    NMR in biomedicine, 2014, Volume: 27, Issue:10

    Topics: Adult; Bone Marrow; Choline; Creatine; Diabetes Mellitus, Type 2; Echo-Planar Imaging; Extracellular

2014
Mechanism of Altered Metformin Distribution in Nonalcoholic Steatohepatitis.
    Diabetes, 2015, Volume: 64, Issue:9

    Topics: Animals; Choline; Diabetes Mellitus, Type 2; Hypoglycemic Agents; Kidney; Liver; Metformin; Methioni

2015
Type 2 diabetes enhances arterial uptake of choline in atherosclerotic mice: an imaging study with positron emission tomography tracer ¹⁸F-fluoromethylcholine.
    Cardiovascular diabetology, 2016, Feb-06, Volume: 15

    Topics: Animals; Aorta; Aortic Diseases; Atherosclerosis; Biomarkers; Choline; Cytokines; Diabetes Mellitus,

2016
[Correlation between cognitive impairment and diabetic nephropathy in patients with Type 2 diabetes mellitus].
    Zhong nan da xue xue bao. Yi xue ban = Journal of Central South University. Medical sciences, 2016, Volume: 41, Issue:2

    Topics: Adult; Aspartic Acid; Case-Control Studies; Cerebrum; Choline; Cognition; Cognition Disorders; Creat

2016
Prospective Associations of Systemic and Urinary Choline Metabolites with Incident Type 2 Diabetes.
    Clinical chemistry, 2016, Volume: 62, Issue:5

    Topics: Aged; Choline; Diabetes Mellitus, Type 2; Female; Humans; Male; Middle Aged; Prospective Studies

2016
Major Increase in Microbiota-Dependent Proatherogenic Metabolite TMAO One Year After Bariatric Surgery.
    Metabolic syndrome and related disorders, 2016, Volume: 14, Issue:4

    Topics: Adult; Atherosclerosis; Bariatric Surgery; Betaine; Body Mass Index; Cardiovascular Diseases; Carnit

2016
[Hemichorea with Contralateral High Signal Intensity Putaminal Lesion on T1-Weighted Images in Non-Ketotic Hyperglycemia].
    Fortschritte der Neurologie-Psychiatrie, 2016, Volume: 84, Issue:4

    Topics: Aspartic Acid; Choline; Chorea; Creatine; Diabetes Complications; Diabetes Mellitus, Type 2; Diffusi

2016
Piracetam Facilitates the Anti-Amnesic but not Anti-Diabetic Activity of Metformin in Experimentally Induced Type-2 Diabetic Encephalopathic Rats.
    Cellular and molecular neurobiology, 2017, Volume: 37, Issue:5

    Topics: Amnesia; Animals; Blood Glucose; Brain Diseases; Brain-Derived Neurotrophic Factor; Choline; Diabete

2017
Increased Trimethylamine N-Oxide Portends High Mortality Risk Independent of Glycemic Control in Patients with Type 2 Diabetes Mellitus.
    Clinical chemistry, 2017, Volume: 63, Issue:1

    Topics: Aged; Betaine; Blood Glucose; Choline; Cohort Studies; Diabetes Mellitus, Type 2; Female; Humans; Ma

2017
Risk for metabolic syndrome predisposes to alterations in the thalamic metabolism.
    Metabolic brain disease, 2008, Volume: 23, Issue:3

    Topics: Adult; Anthropometry; Aspartic Acid; Blood Glucose; Choline; Creatine; Diabetes Mellitus, Type 2; Hu

2008
MR spectroscopy of cerebral white matter in type 2 diabetes; no association with clinical variables and cognitive performance.
    Neuroradiology, 2010, Volume: 52, Issue:2

    Topics: Aged; Aged, 80 and over; Aspartic Acid; Brain; Choline; Cognition; Cognition Disorders; Creatine; Di

2010
Metabolomic profilings of urine and serum from high fat-fed rats via 1H NMR spectroscopy and pattern recognition.
    Applied biochemistry and biotechnology, 2013, Volume: 169, Issue:4

    Topics: 3-Hydroxybutyric Acid; Animals; Choline; Citric Acid; Creatinine; Diabetes Mellitus, Type 2; Dietary

2013
Alterations of cerebral metabolism in patients with diabetes mellitus studied by proton magnetic resonance spectroscopy.
    Experimental and clinical endocrinology & diabetes : official journal, German Society of Endocrinology [and] German Diabetes Association, 2003, Volume: 111, Issue:7

    Topics: Adult; Aspartic Acid; Blood Glucose; Brain; Chlorides; Choline; Creatinine; Diabetes Mellitus, Type

2003
Measurement of brain metabolites in patients with type 2 diabetes and major depression using proton magnetic resonance spectroscopy.
    Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, 2007, Volume: 32, Issue:6

    Topics: Adult; Aged; Aged, 80 and over; Aspartic Acid; Brain Chemistry; Choline; Creatine; Depressive Disord

2007
Insulin resistance accelerates a dietary rat model of nonalcoholic steatohepatitis.
    Gastroenterology, 2007, Volume: 132, Issue:1

    Topics: Animal Feed; Animals; Choline; Collagen Type I; Collagen Type I, alpha 1 Chain; Diabetes Mellitus, T

2007
Assessment of the metabolic profile in Type 2 diabetes mellitus and hypothyroidism through proton MR spectroscopy.
    Magnetic resonance imaging, 2008, Volume: 26, Issue:3

    Topics: Adult; Aspartic Acid; Brain; Choline; Creatine; Diabetes Mellitus, Type 2; Female; Humans; Hypothyro

2008