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

betaine and Body Weight

betaine has been researched along with Body Weight in 76 studies

glycine betaine : The amino acid betaine derived from glycine.

Body Weight: The mass or quantity of heaviness of an individual. It is expressed by units of pounds or kilograms.

Research Excerpts

ExcerptRelevanceReference
"The aim of the study was to examine the effect of betaine supplementation on body weight, body composition, plasma homocysteine concentrations, blood pressure, and serum total and lipoprotein lipids."9.10Betaine supplementation decreases plasma homocysteine concentrations but does not affect body weight, body composition, or resting energy expenditure in human subjects. ( Alfthan, G; Aro, A; Saarinen, M; Schwab, U; Toppinen, L; Törrönen, A; Uusitupa, M, 2002)
"Thirty-two dams were divided into four equal groups: control (C), betaine supplementation (BS), diabetic pregnancy (DP) and diabetic pregnancy plus betaine supplementation (DP + BS)."7.96In vivo: maternal betaine supplementation normalized fetal growth in diabetic pregnancy. ( Alirezaei, M; Gharabaghi, M; Rocky, A; Salahi, P, 2020)
"Betaine alleviates high-fat diet-induced fatty liver and prenatal betaine programs offspring hepatic lipid metabolism."7.85In ovo injection of betaine alleviates corticosterone-induced fatty liver in chickens through epigenetic modifications. ( Cai, D; Hu, Y; Idriss, AA; Jia, Y; Liu, J; Omer, NA; Sun, Q; Zhao, R, 2017)
"We evaluate the effect of supplementation, at 300 mg kg(-1) body weight (BW), with the antioxidants α-lipoic acid (AL), betaine (BT), l-carnitine (LC), and the combination of these and exercise on obesity induced by a 9 week high-fat diet (HFD) in mice."7.80The effect of dietary α-lipoic acid, betaine, l-carnitine, and swimming on the obesity of mice induced by a high-fat diet. ( Jang, A; Jo, C; Jung, S; Kim, D; Kim, HJ; Sung, KS, 2014)
"We evaluated the effects of betaine supplementation on liver weight, liver/body weight, serum parameters and morphological changes."7.75The effects of dietary betaine supplementation on fatty liver performance, serum parameters, histological changes, methylation status and the mRNA expression level of Spot14alpha in Landes goose fatty liver. ( Dodson, MV; Li, QF; Li, XB; Su, SY; Wang, HW; Xie, Z, 2009)
"The aim of the study was to examine the effect of betaine supplementation on body weight, body composition, plasma homocysteine concentrations, blood pressure, and serum total and lipoprotein lipids."5.10Betaine supplementation decreases plasma homocysteine concentrations but does not affect body weight, body composition, or resting energy expenditure in human subjects. ( Alfthan, G; Aro, A; Saarinen, M; Schwab, U; Toppinen, L; Törrönen, A; Uusitupa, M, 2002)
"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; 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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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Zhou, W; Zhou, XQ; Zhou, Z; Zhu, C; Zhu, H; Zhu, L; Zhu, Y; Zitzmann, N; Zou, L; Zou, Y, 2022)
"Higher plasma betaine and higher dietary choline are associated with lower FM and body weight, whereas higher plasma choline is positively associated with body weight status and adiposity."4.12Associations of plasma betaine, plasma choline, choline intake, and MTHFR polymorphism (rs1801133) with anthropometric parameters of healthy adults are sex-dependent. ( Chmurzynska, A; Malinowska, AM; Mlodzik-Czyzewska, MA; Szwengiel, A, 2022)
"Thirty-two dams were divided into four equal groups: control (C), betaine supplementation (BS), diabetic pregnancy (DP) and diabetic pregnancy plus betaine supplementation (DP + BS)."3.96In vivo: maternal betaine supplementation normalized fetal growth in diabetic pregnancy. ( Alirezaei, M; Gharabaghi, M; Rocky, A; Salahi, P, 2020)
"Significantly inverse correlations were found between serum betaine levels and all obesity measurements in males (r ranged from -0."3.88Higher serum choline and betaine levels are associated with better body composition in male but not female population. ( Gao, X; Randell, E; Sun, G; Zhou, H, 2018)
"Betaine alleviates high-fat diet-induced fatty liver and prenatal betaine programs offspring hepatic lipid metabolism."3.85In ovo injection of betaine alleviates corticosterone-induced fatty liver in chickens through epigenetic modifications. ( Cai, D; Hu, Y; Idriss, AA; Jia, Y; Liu, J; Omer, NA; Sun, Q; Zhao, R, 2017)
"In this study, 3-month-old female Sprague-Dawley rats were fed diet supplemented with 1% betaine throughout the pregnancy and lactation."3.85Maternal betaine supplementation in rats induces intergenerational changes in hepatic IGF-1 expression and DNA methylation. ( Dong, H; Hu, Y; Yang, S; Zhao, N; Zhao, R, 2017)
"We evaluate the effect of supplementation, at 300 mg kg(-1) body weight (BW), with the antioxidants α-lipoic acid (AL), betaine (BT), l-carnitine (LC), and the combination of these and exercise on obesity induced by a 9 week high-fat diet (HFD) in mice."3.80The effect of dietary α-lipoic acid, betaine, l-carnitine, and swimming on the obesity of mice induced by a high-fat diet. ( Jang, A; Jo, C; Jung, S; Kim, D; Kim, HJ; Sung, KS, 2014)
"We evaluated the effects of betaine supplementation on liver weight, liver/body weight, serum parameters and morphological changes."3.75The effects of dietary betaine supplementation on fatty liver performance, serum parameters, histological changes, methylation status and the mRNA expression level of Spot14alpha in Landes goose fatty liver. ( Dodson, MV; Li, QF; Li, XB; Su, SY; Wang, HW; Xie, Z, 2009)
" The addition of choline or carnitine to the choline-deficient diet did not induce a gain in body weight, while the addition of either betaine or methionine to the choline-deficient diet, or of methionine to the choline-deficient diet with choline significantly increased the body weight."3.71Influence of dietary methionine level on the liver metallothionein mRNA level in rats. ( Aoyama, Y; Kanno, T; Kikuchi, H; Kurasaki, M; Nocianitri, KA; Sakakibara, S, 2002)
" Nitrous oxide (N2O), which inactivates vitamin B-12 in vivo, results in neurological impairment leading to ataxia and death in the fruit bat Rousettus ."3.67Betaine delays the onset of neurological impairment in nitrous oxide-induced vitamin B-12 deficiency in fruit bats. ( Metz, J; van der Westhuyzen, J, 1984)
"Betaine is a well-known component of poultry diets with various effects on nutritional physiology."3.11Comparing effects of natural betaine and betaine hydrochloride on gut physiology in broiler chickens. ( Awad, WA; Dublecz, K; Gavrău, A; Hess, M; Ruhnau, D, 2022)
"Betaine serves as a methyl donor for DNA methylation."1.56Transgenerational Inheritance of Betaine-Induced Epigenetic Alterations in Estrogen-Responsive IGF-2/IGFBP2 Genes in Rat Hippocampus. ( Jiang, W; Qi, F; Yang, S; Yang, Y; Zhao, R, 2020)
"Choline is an essential nutrient and betaine is an osmolyte and methyl donor."1.43Higher Dietary Choline and Betaine Intakes Are Associated with Better Body Composition in the Adult Population of Newfoundland, Canada. ( Gao, X; Gulliver, W; Pedram, P; Randell, E; Sun, G; Wang, Y; Yi, Y, 2016)
"The betaine diet was fed from d 3 ± 1 post-mating until farrowing, with betaine content of the diet altered during gestation to ensure a daily intake of 7."1.38Supplementing sow gestation diets with betaine during summer increases litter size of sows with greater numbers of parities. ( Herde, P; Hughes, PE; van Wettere, WH, 2012)
"Betaine was administered intragastrically after exposure of ethanol for 4 wk."1.36Betaine inhibits toll-like receptor 4 expression in rats with ethanol-induced liver injury. ( Gong, ZJ; Shi, QZ; Wang, LW; Zhang, W, 2010)
"Pigs treated with clofibrate had higher relative mRNA concentrations of OCTN2 in liver (3."1.35Clofibrate treatment up-regulates novel organic cation transporter (OCTN)-2 in tissues of pigs as a model of non-proliferating species. ( Eder, K; Fischer, M; Geissler, S; Hirche, F; Kluge, H; Luci, S; Ringseis, R; Spielmann, J; Wen, G, 2008)
"Betaine was not detectable (< 0."1.31Effects of betaine on growth, carcass characteristics, pork quality, and plasma metabolites of finishing pigs. ( Bidner, TD; Higbie, AD; Matthews, JO; Persica, MA; Southern, LL, 2001)
" A substantial portion of choline in SBM, CM and PM is unavailable, and overheating does not appear to decrease the bioavailability of choline in these products."1.30A chick bioassay approach for determining the bioavailable choline concentration in normal and overheated soybean meal, canola meal and peanut meal. ( Baker, DH; Emmert, JL, 1997)
"Carbon tetrachloride-injected rats were given liquid diets with and without betaine for 7 d."1.30Betaine reduces hepatic lipidosis induced by carbon tetrachloride in Sprague-Dawley rats. ( Barak, AJ; Beckenhauer, HC; Junnila, M; Rahko, T, 1998)
"The betaine increase compensated for the sorbitol decrease such that the total organic osmolytes maintained the same ratio to sodium contents as controls."1.28Effects on rat renal osmolytes of extended treatment with an aldose reductase inhibitor. ( Edmands, S; Yancey, PH, 1992)
" Supplementation of the ethionine-containing diet with either choline or betaine ameliorated the growth depression, although neither compound was able to completely overcome the toxic effects of ethionine."1.27Amelioration of ethionine toxicity in the chick. ( Baker, DH; Lowry, KR, 1987)
"The choline requirement was determined by feeding six levels of choline in the presence of 0."1.26The choline requirement of broiler chicks during the seventh week of life. ( Baker, DH; Molitoris, BA, 1976)
" Results showed that betaine hydrochloride offered either alone or in combination with vitamin B12 contributes to increasing the liveweight gain of broilers in the course of the starter period, but its use in doses of 0."1.26[Effect of betaine hydrochloride on broiler chickens when used alone or in combination with vitamin B12]. ( Bogdanov, M; Filipova, R; Tsvetkov, S, 1976)

Research

Studies (76)

TimeframeStudies, this research(%)All Research%
pre-199012 (15.79)18.7374
1990's5 (6.58)18.2507
2000's15 (19.74)29.6817
2010's30 (39.47)24.3611
2020's14 (18.42)2.80

Authors

AuthorsStudies
Eissa, AE1
Yusuf, MS1
Younis, NA1
Fekry, M1
Dessouki, AA1
Ismail, GA1
Ford, H1
Abdelatty, AM1
Hall, JA1
Jewell, DE1
Ephraim, E1
Mlodzik-Czyzewska, MA1
Malinowska, AM1
Szwengiel, A1
Chmurzynska, A1
Awad, WA1
Ruhnau, D1
Gavrău, A1
Dublecz, K1
Hess, M1
Rankovic, A1
Godfrey, H1
Grant, CE1
Shoveller, AK1
Bakovic, M1
Kirby, G1
Verbrugghe, A1
Zaki, A1
Jiang, S1
Zaghloul, S1
El-Rayes, TK1
Saleh, AA1
Azzam, MM1
Ragni, M1
Alagawany, M1
He, HL1
Zhang, GS1
Xiao, SF1
Liu, HH1
Zhong, H1
Chang, XR1
Liu, Q1
Liu, M3
Dong, L1
Zhong, ZX1
Cui, HH1
Wang, SN1
Luo, Y2
Yu, LH1
Loor, JJ1
Wang, HR1
Yang, Y4
Jiang, W2
Yang, S5
Qi, F1
Zhao, R8
Salahi, P1
Gharabaghi, M1
Rocky, A1
Alirezaei, M1
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, J4
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, L2
Yan, X2
Huang, S1
Li, Y6
Xu, T1
Li, C2
Ji, F1
Ming, F1
Zhao, Y3
Cheng, J1
Wang, Y6
Zhao, H1
Hong, S1
Chen, K2
Zhao, XA1
Zou, L1
Sang, D1
Shao, H1
Guan, X1
Chen, X2
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
Liu, C3
Lin, Y2
Dong, Y1
Wu, Y1
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, D2
Xu, SB1
Liu, XH1
Xia, L1
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, Y6
Shen, P1
Zeng, N1
Wang, L3
Yan, D1
Cui, L1
Yang, K2
Zhai, C1
Yang, M1
Lao, X1
Sun, J1
Ma, N1
Wang, S1
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, J4
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
Guo, X1
Cao, Y1
Jia, X1
Xu, S2
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, T2
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
Gao, X4
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
Saunders, K1
Beckers, C1
Delatour, C1
Dell'Aiera, S1
Ungell, AL1
Nicolaï, J1
Knapp, AK1
Chen, A1
Griffin-Nolan, RJ1
Baur, LE1
Carroll, CJW1
Gray, JE1
Hoffman, AM1
Li, X6
Post, AK1
Slette, IJ1
Collins, SL1
Smith, MD1
Temitayo, GI1
Olawande, B1
Emmanuel, YO1
Timothy, AT1
Kehinde, O1
Susan, LF1
Ezra, L1
Joseph, OO1
Lev, S1
Desmarini, D1
Liuwantara, D1
Sorrell, TC1
Hawthorne, WJ1
Djordjevic, JT1
Verso, MG1
Costantino, C1
Marrella, A1
Immordino, P1
Vitale, F1
Amodio, E1
Wang, YD1
Yao, WL1
Xin, ZM1
Han, TT1
Wang, ZG1
Chen, L1
Cai, C1
Zhang, Y4
Ba, D1
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Tian, Q1
Lv, W1
Cheng, G1
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Rault, J1
Xu, Y1
Chai, X1
Ren, T1
Yu, S1
Fu, Q2
Ye, J1
Ge, X1
Song, J1
Yang, H2
El-Baba, TJ1
Lutomski, CA1
Kantsadi, AL1
Malla, TR1
John, T1
Mikhailov, V1
Bolla, JR1
Schofield, CJ1
Zitzmann, N1
Vakonakis, I1
Robinson, CV1
Langham, MC1
Caporale, AS1
Wehrli, FW1
Parry, S1
Schwartz, N1
den Boer, RB1
Jones, KI1
Ash, S1
van Boxel, GI1
Gillies, RS1
O'Donnell, T1
Ruurda, JP1
Sgromo, B1
Silva, MA1
Maynard, ND1
Sivieri, EM1
Eichenwald, EC1
Rub, D1
Abbasi, S1
Krahnert, I1
Bolze, A1
Gibon, Y1
Fernie, AR1
Huang, L1
Wan, Y1
Dang, Z1
Yang, P1
Yang, Q1
Wu, S2
Lin, CC1
Hsu, CT1
Liu, W2
Huang, SC1
Kortz, U1
Mougharbel, AS1
Chen, TY1
Hu, CW1
Lee, JF1
Wang, CC1
Liao, YF1
Li, LJ1
Li, L1
Peng, S1
Stimming, U1
Hebbar Kannur, K1
Yaqub, TB1
Pupier, C1
Héau, C1
Cavaleiro, A1
Yamamoto, S1
Ono, A1
Matsui, J1
Hoshino, N1
Akutagawa, T1
Miyashita, T1
Mitsuishi, M1
Patel, SM1
Smith, TG1
Morton, M1
Stiers, KM1
Seravalli, J1
Mayclin, SJ1
Edwards, TE1
Tanner, JJ1
Becker, DF1
Butcher, TW1
Yang, JL1
Hartwig, JF1
Yu, MF1
Xia, ZZ1
Yao, JC1
Feng, Z1
Li, DH1
Liu, T1
Cheng, GJ1
He, DL1
Li, XH1
Huurman, R1
Schinkel, AFL1
de Jong, PL1
van Slegtenhorst, MA1
Hirsch, A1
Michels, M1
Kataja, A1
Tarvasmäki, T1
Lassus, J1
Sionis, A1
Mebazaa, A1
Pulkki, K1
Banaszewski, M1
Carubelli, V1
Hongisto, M1
Jankowska, E1
Jurkko, R1
Jäntti, T1
Kasztura, M1
Parissis, J1
Sabell, T1
Silva-Cardoso, J1
Spinar, J1
Tolppanen, H1
Harjola, VP1
Carsetti, A1
Damiani, E1
Casarotta, E1
Scorcella, C1
Domizi, R1
Gasparri, F1
Gabbanelli, V1
Pantanetti, S1
Carozza, R1
Adrario, E1
Donati, A1
Almada, E1
Pariani, A1
Rivabella Maknis, T1
Hidalgo, F1
Vena, R1
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, M2
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
Pefura-Yone, EW1
Zhao, Q1
Tong, W1
Ge, C1
Zhao, D1
Norbäck, D1
Li, B1
Zhao, Z1
Huang, C1
Zhang, X1
Qian, H1
Yang, X1
Sun, Y1
Sundell, J1
Deng, Q1
Kim, HJ2
Jeon, JW1
Hwang, SM1
Chu, KI1
Cha, YH1
Kwak, YD1
Choi, SD1
Aslam, M1
Kim, CG1
Zhou, J1
Yang, E1
Yang, W1
Lu, R1
Yuan, Y1
Song, S1
Yan, K1
Zha, Y1
Zhuang, W1
Cheng, Y1
Liang, J1
Saarinen, MT1
Kärkkäinen, O1
Hanhineva, K1
Tiihonen, K1
Hibberd, A1
Mäkelä, KA1
Raza, GS1
Herzig, KH1
Anglenius, H1
Nobari, H1
Kargarfard, M1
Minasian, V1
Cholewa, JM1
Pérez-Gómez, J1
Shimada, R1
Ebihara, K1
Zhao, N2
Sun, B1
He, B1
Randell, E2
Zhou, H1
Sun, G2
Giriş, M1
Doğru-Abbasoğlu, S3
Soluk-Tekkeşin, M1
Olgaç, V1
Uysal, M3
Jin, C1
Xuan, Y1
Zhou, P1
Fang, Z1
Che, L1
Jiang, X1
Zang, Y1
Samii, SS1
Myers, WA1
Bailey, HR1
Davis, AN1
Grilli, E1
McFadden, JW1
Peek, HW1
Halkes, SB1
Tomassen, MM1
Mes, JJ1
Landman, WJ1
Mygind, VL1
Evans, SE1
Peddie, MC1
Miller, JC1
Houghton, LA1
Çoban, J2
Bingül, I2
Yesil-Mizrak, K1
Oztezcan, S1
Jung, YS1
Kim, SJ1
Kwon, DY1
Ahn, CW1
Kim, YS1
Choi, DW1
Kim, YC1
Jang, A1
Kim, D1
Sung, KS1
Jung, S1
Jo, C1
Baéza, E1
Jégou, M1
Gondret, F1
Lalande-Martin, J1
Tea, I1
Le Bihan-Duval, E1
Berri, C1
Collin, A1
Métayer-Coustard, S1
Louveau, I1
Lagarrigue, S1
Duclos, MJ1
Nakajima, K1
Nakajima, Y1
Tsujiwaki, S1
Sun, Q3
Cai, D3
Xu, L1
Hu, Q1
Wu, J1
Yuan, M1
Zhou, X1
Wu, W1
Madeira, MS1
Alfaia, CM1
Costa, P1
Lopes, PA1
Martins, SV1
Lemos, JP1
Moreira, O1
Santos-Silva, J1
Bessa, RJ1
Prates, JA1
Pedram, P1
Yi, Y1
Gulliver, W1
Başaran-Küçükgergin, C1
Aydın, AF1
Doğan-Ekici, I1
Park, SO1
Kim, WK1
Idriss, AA2
Jia, L1
Omer, NA2
Abobaker, H1
Dong, H1
Attia, YA1
Hassan, RA1
Qota, EM1
Oliva, J2
Bardag-Gorce, F2
French, BA2
Nguyen, SK1
Lu, SC1
French, SW2
Su, SY1
Dodson, MV1
Li, XB1
Li, QF1
Wang, HW1
Xie, Z1
Liepinsh, E1
Kuka, J1
Svalbe, B1
Vilskersts, R1
Skapare, E1
Cirule, H1
Pugovics, O1
Kalvinsh, I1
Dambrova, M1
Varatharajalu, R1
Garige, M1
Leckey, LC1
Gong, M1
Lakshman, MR1
Shi, QZ1
Wang, LW1
Zhang, W1
Gong, ZJ1
Li, XM1
Caudill, M1
Malysheva, O1
Gorce, E1
Morgan, K1
Kathirvel, E1
Morgan, T1
van Wettere, WH1
Herde, P1
Hughes, PE1
Peterson, SE1
Rezamand, P1
Williams, JE1
Price, W1
Chahine, M1
McGuire, MA1
Kawakami, S1
Han, KH1
Nakamura, Y1
Shimada, K1
Kitano, T1
Aritsuka, T1
Nagura, T1
Ohba, K1
Nakamura, K1
Fukushima, M1
Schwab, U1
Törrönen, A1
Toppinen, L1
Alfthan, G1
Saarinen, M1
Aro, A1
Uusitupa, M1
Nocianitri, KA1
Sakakibara, S1
Kanno, T1
Kikuchi, H1
Kurasaki, M1
Aoyama, Y1
WILGRAM, GF1
LUCAS, CC1
BEST, CH1
Hayes, KC1
Pronczuk, A1
Cook, MW1
Robbins, MC1
Schwahn, BC2
Laryea, MD1
Chen, Z2
Melnyk, S1
Pogribny, I1
Garrow, T1
James, SJ1
Rozen, R2
Wu, Q1
He, X1
Waterland, RA1
Dolinoy, DC1
Lin, JR1
Smith, CA1
Shi, X1
Tahiliani, KG1
Go, EK1
Jung, KJ1
Kim, JM1
Lim, H1
Lim, HK1
Yu, BP1
Chung, HY1
Ringseis, R1
Luci, S1
Spielmann, J1
Kluge, H1
Fischer, M1
Geissler, S1
Wen, G1
Hirche, F1
Eder, K2
Koch, A1
König, B1
Stangl, GI1
Davidson, S1
Hopkins, BA1
Odle, J1
Brownie, C1
Fellner, V1
Whitlow, LW1
Fuller, HL2
Chang, SI1
Potter, DK1
van der Westhuyzen, J1
Metz, J1
Emmert, JL1
Baker, DH4
Junnila, M1
Barak, AJ1
Beckenhauer, HC1
Rahko, T1
Waldenstedt, L1
Elwinger, K1
Thebo, P1
Uggla, A1
Matthews, JO1
Southern, LL1
Higbie, AD1
Persica, MA1
Bidner, TD1
Pesti, GM1
Harper, AE1
Sunde, ML1
Molitoris, BA1
Bogdanov, M1
Filipova, R1
Tsvetkov, S1
Edmands, S1
Yancey, PH1
Saunderson, CL1
Mackinlay, J1
Czarnecki, GL1
Lowry, KR1
Chavez, E1
Kratzer, FH1
Keshavarz, K1
Nesheim, MC1
Norvell, MJ1
Ceballos, E1
Leach, RM1

Reviews

2 reviews available for betaine and Body Weight

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
Alleviation of dietary cirrhosis by betaine and other lipotropic agents.
    Nutrition reviews, 1969, Volume: 27, Issue:9

    Topics: Animals; Betaine; Body Weight; Choline; Deficiency Diseases; Dietary Proteins; Liver Cirrhosis; Live

1969

Trials

6 trials available for betaine and Body Weight

ArticleYear
Comparing effects of natural betaine and betaine hydrochloride on gut physiology in broiler chickens.
    Poultry science, 2022, Volume: 101, Issue:12

    Topics: Animal Feed; Animal Nutritional Physiological Phenomena; Animals; Betaine; Body Weight; Chickens; Di

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
The effects of 14-week betaine supplementation on endocrine markers, body composition and anthropometrics in professional youth soccer players: a double blind, randomized, placebo-controlled trial.
    Journal of the International Society of Sports Nutrition, 2021, Mar-04, Volume: 18, Issue:1

    Topics: Adolescent; Athletes; Betaine; Biomarkers; Body Composition; Body Height; Body Weight; Dietary Suppl

2021
In vivo screening of five phytochemicals/extracts and a fungal immunomodulatory protein against colibacillosis in broilers.
    Avian pathology : journal of the W.V.P.A, 2013, Volume: 42, Issue:3

    Topics: Animals; Anti-Bacterial Agents; Betaine; Body Weight; Chickens; Curcuma; Curcumin; Cymenes; Doxycycl

2013
Effect of betaine and arginine in lysine-deficient diets on growth, carcass traits, and pork quality.
    Journal of animal science, 2015, Volume: 93, Issue:10

    Topics: Animal Feed; Animal Nutritional Physiological Phenomena; Animals; Arginine; Betaine; Body Compositio

2015
Betaine supplementation decreases plasma homocysteine concentrations but does not affect body weight, body composition, or resting energy expenditure in human subjects.
    The American journal of clinical nutrition, 2002, Volume: 76, Issue:5

    Topics: Adult; Betaine; Blood Pressure; Body Composition; Body Weight; Diet; Dietary Supplements; Energy Int

2002

Other Studies

69 other studies available for betaine and Body Weight

ArticleYear
Effect of poultry offal silage with or without betaine supplementation on growth performance, intestinal morphometry, spleen histomorphology of Nile tilapia (Oreochromis niloticus) fingerlings.
    Journal of animal physiology and animal nutrition, 2022, Volume: 106, Issue:5

    Topics: Animal Feed; Animals; Betaine; Body Weight; Cichlids; Diet; Dietary Supplements; Intestines; Poultry

2022
Feeding cats with chronic kidney disease food supplemented with betaine and prebiotics increases total body mass and reduces uremic toxins.
    PloS one, 2022, Volume: 17, Issue:5

    Topics: Animals; Betaine; Body Weight; Cats; Cross-Over Studies; Feces; Prebiotics; Renal Insufficiency, Chr

2022
Associations of plasma betaine, plasma choline, choline intake, and MTHFR polymorphism (rs1801133) with anthropometric parameters of healthy adults are sex-dependent.
    Journal of human nutrition and dietetics : the official journal of the British Dietetic Association, 2022, Volume: 35, Issue:4

    Topics: Adult; Betaine; Body Mass Index; Body Weight; Choline; Diet; Female; Humans; Male; Methylenetetrahyd

2022
Serum metabolomic analysis of the dose-response effect of dietary choline in overweight male cats fed at maintenance energy requirements.
    PloS one, 2023, Volume: 18, Issue:1

    Topics: Animal Feed; Animals; Betaine; Body Weight; Cats; Choline; Diet; Male; Overweight

2023
Betaine as an alternative feed additive to choline and its effect on performance, blood parameters, and egg quality in laying hens rations.
    Poultry science, 2023, Volume: 102, Issue:7

    Topics: Animal Feed; Animals; Betaine; Body Weight; Chickens; Choline; Diet; Dietary Supplements; Egg Yolk;

2023
[Effects of moxibustion at "Tianshu"(ST25) and "Shangjuxu" (ST37) on colonic metabolites and inflammatory factors in rats with Crohn's disease].
    Zhen ci yan jiu = Acupuncture research, 2023, Aug-25, Volume: 48, Issue:8

    Topics: Animals; Betaine; Body Weight; Colon; Crohn Disease; Hypoxanthines; Isoleucine; Leucine; Lysine; Mal

2023
Effects of rumen-protected betaine supplementation on meat quality and the composition of fatty and amino acids in growing lambs.
    Animal : an international journal of animal bioscience, 2020, Volume: 14, Issue:2

    Topics: Amino Acids; Animal Feed; Animals; Betaine; Body Weight; Diet; Dietary Supplements; Fatty Acids; Fat

2020
Transgenerational Inheritance of Betaine-Induced Epigenetic Alterations in Estrogen-Responsive IGF-2/IGFBP2 Genes in Rat Hippocampus.
    Molecular nutrition & food research, 2020, Volume: 64, Issue:8

    Topics: Animals; Aromatase; Betaine; Body Weight; Dietary Supplements; DNA Methylation; Epigenesis, Genetic;

2020
In vivo: maternal betaine supplementation normalized fetal growth in diabetic pregnancy.
    Archives of gynecology and obstetrics, 2020, Volume: 302, Issue:4

    Topics: Animals; Betaine; Body Weight; Dietary Supplements; Female; Fetal Development; Fetal Growth Retardat

2020
Hyperhomocysteinemia and dyslipidemia in point mutation G307S of cystathionine β-synthase-deficient rabbit generated using CRISPR/Cas9.
    Lipids in health and disease, 2020, Oct-14, Volume: 19, Issue:1

    Topics: Animals; Betaine; Body Weight; CRISPR-Cas Systems; Cystathionine beta-Synthase; Disease Models, Anim

2020
Metabolomics analysis of plasma and adipose tissue samples from mice orally administered with polydextrose and correlations with cecal microbiota.
    Scientific reports, 2020, 12-09, Volume: 10, Issue:1

    Topics: Adipose Tissue; Animals; Betaine; Body Weight; Carnitine; Cecum; Cholesterol; Diet, Western; Dietary

2020
Soybean amplifies the hypohomocysteinemic effect of betaine and improves its hypercholesterolemic effect.
    Bioscience, biotechnology, and biochemistry, 2018, Volume: 82, Issue:4

    Topics: Animal Feed; Animals; Betaine; Bile Acids and Salts; Body Weight; Caseins; Cholesterol; Feces; Gene

2018
Maternal betaine supplementation attenuates glucocorticoid-induced hepatic lipid accumulation through epigenetic modification in adult offspring rats.
    The Journal of nutritional biochemistry, 2018, Volume: 54

    Topics: Animals; Betaine; Body Weight; Dexamethasone; Dietary Supplements; DNA Methylation; Epigenesis, Gene

2018
Higher serum choline and betaine levels are associated with better body composition in male but not female population.
    PloS one, 2018, Volume: 13, Issue:2

    Topics: Absorptiometry, Photon; Adult; Betaine; Body Composition; Body Mass Index; Body Weight; Choline; Cro

2018
Effect of betaine treatment on the regression of existing hepatic triglyceride accumulation and oxidative stress in rats fed on high fructose diet.
    General physiology and biophysics, 2018, Volume: 37, Issue:5

    Topics: Animals; Betaine; Body Weight; Diet; Fructose; Lipid Peroxidation; Liver; Male; Organ Size; Oxidativ

2018
Effect of maternal or post-weaning methyl donor supplementation on growth performance, carcass traits, and meat quality of pig offspring.
    Journal of the science of food and agriculture, 2019, Mar-30, Volume: 99, Issue:5

    Topics: Animal Feed; Animals; Betaine; Body Weight; Dietary Supplements; Female; Folic Acid; Humans; Male; M

2019
Methyl donor supplementation suppresses the progression of liver lipid accumulation while modifying the plasma triacylglycerol lipidome in periparturient Holstein dairy cows.
    Journal of dairy science, 2019, Volume: 102, Issue:2

    Topics: 3-Hydroxybutyric Acid; Animals; Betaine; Body Weight; Cattle; Choline; Diet; Dietary Supplements; Fe

2019
Estimation of usual intake and food sources of choline and betaine in New Zealand reproductive age women.
    Asia Pacific journal of clinical nutrition, 2013, Volume: 22, Issue:2

    Topics: Adult; Betaine; Body Weight; Choline; Diet; Diet Records; Energy Intake; Feeding Behavior; Female; H

2013
Effects of carnosine plus vitamin E and betaine treatments on oxidative stress in some tissues of aged rats.
    Current aging science, 2013, Volume: 6, Issue:2

    Topics: Aging; Animals; Antioxidants; Betaine; Body Weight; Brain; Carnosine; Glutathione; Lipid Peroxidatio

2013
Alleviation of alcoholic liver injury by betaine involves an enhancement of antioxidant defense via regulation of sulfur amino acid metabolism.
    Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 2013, Volume: 62

    Topics: Amino Acids, Sulfur; Animals; Antioxidants; Betaine; Body Weight; Cyclooxygenase 2; Cysteine; Cytoso

2013
The effect of dietary α-lipoic acid, betaine, l-carnitine, and swimming on the obesity of mice induced by a high-fat diet.
    Food & function, 2014, Volume: 5, Issue:8

    Topics: Adipocytes; Animals; Antioxidants; Betaine; Blood Glucose; Body Weight; Carnitine; Cholesterol; Diet

2014
Pertinent plasma indicators of the ability of chickens to synthesize and store lipids.
    Journal of animal science, 2015, Volume: 93, Issue:1

    Topics: 3-Hydroxybutyric Acid; Abdominal Fat; Adipose Tissue; Animals; Betaine; Biomarkers; Body Composition

2015
Sulfobetaine (dimethylsulfoniopropionate) and glycine betaine show incompatible involvement in crucial Ehrlich ascites carcinoma in mice.
    Anticancer research, 2015, Volume: 35, Issue:3

    Topics: Animals; Betaine; Body Weight; Carcinoma, Ehrlich Tumor; DNA Methylation; Dose-Response Relationship

2015
In Ovo injection of betaine affects hepatic cholesterol metabolism through epigenetic gene regulation in newly hatched chicks.
    PloS one, 2015, Volume: 10, Issue:4

    Topics: Animals; ATP Binding Cassette Transporter 1; Base Sequence; Betaine; Body Weight; Chickens; Choleste

2015
Betaine alleviates hepatic lipid accumulation via enhancing hepatic lipid export and fatty acid oxidation in rats fed with a high-fat diet.
    The British journal of nutrition, 2015, Jun-28, Volume: 113, Issue:12

    Topics: AMP-Activated Protein Kinases; Animals; Betaine; Betaine-Homocysteine S-Methyltransferase; Body Weig

2015
Maternal gestational betaine supplementation-mediated suppression of hepatic cyclin D2 and presenilin1 gene in newborn piglets is associated with epigenetic regulation of the STAT3-dependent pathway.
    The Journal of nutritional biochemistry, 2015, Volume: 26, Issue:12

    Topics: Animal Feed; Animals; Animals, Newborn; Betaine; Body Weight; Cell Proliferation; Cyclin D2; Dietary

2015
The beneficial effects of betaine on dysfunctional adipose tissue and N6-methyladenosine mRNA methylation requires the AMP-activated protein kinase α1 subunit.
    The Journal of nutritional biochemistry, 2015, Volume: 26, Issue:12

    Topics: Adenosine; Adipocytes; Adipose Tissue; AMP-Activated Protein Kinases; Animals; Betaine; Body Weight;

2015
Higher Dietary Choline and Betaine Intakes Are Associated with Better Body Composition in the Adult Population of Newfoundland, Canada.
    PloS one, 2016, Volume: 11, Issue:5

    Topics: Absorptiometry, Photon; Adult; Betaine; Body Composition; Body Weight; Choline; Cross-Sectional Stud

2016
Betaine treatment decreased oxidative stress, inflammation, and stellate cell activation in rats with alcoholic liver fibrosis.
    Environmental toxicology and pharmacology, 2016, Volume: 45

    Topics: Animals; Antioxidants; Betaine; Biomarkers; Body Weight; Female; Hepatic Stellate Cells; Lipid Perox

2016
Effects of betaine on biological functions in meat-type ducks exposed to heat stress.
    Poultry science, 2017, May-01, Volume: 96, Issue:5

    Topics: Animal Feed; Animals; Betaine; Blood Cell Count; Body Weight; Diet; Dietary Supplements; Ducks; Fatt

2017
Prenatal betaine exposure modulates hypothalamic expression of cholesterol metabolic genes in cockerels through modifications of DNA methylation.
    Poultry science, 2017, Jun-01, Volume: 96, Issue:6

    Topics: Aggression; Animals; Betaine; Body Weight; Chickens; Cholesterol; DNA Methylation; Gene Expression R

2017
In ovo injection of betaine alleviates corticosterone-induced fatty liver in chickens through epigenetic modifications.
    Scientific reports, 2017, 01-06, Volume: 7

    Topics: Animals; Betaine; Body Weight; Chickens; Corticosterone; DNA Methylation; DNA, Mitochondrial; Eating

2017
Maternal betaine supplementation in rats induces intergenerational changes in hepatic IGF-1 expression and DNA methylation.
    Molecular nutrition & food research, 2017, Volume: 61, Issue:8

    Topics: Animals; Animals, Newborn; Betaine; Body Weight; Dietary Supplements; DNA Methylation; Female; Insul

2017
Recovery from adverse effects of heat stress on slow-growing chicks in the tropics 1: Effect of ascorbic acid and different levels of betaine.
    Tropical animal health and production, 2009, Volume: 41, Issue:5

    Topics: Animals; Ascorbic Acid; Betaine; Blood Glucose; Blood Proteins; Body Temperature; Body Weight; Calci

2009
Betaine prevents Mallory-Denk body formation in drug-primed mice by epigenetic mechanisms.
    Experimental and molecular pathology, 2009, Volume: 86, Issue:2

    Topics: Animals; Betaine; Body Weight; Carboxylic Acids; Epigenesis, Genetic; Feeding Behavior; Gene Express

2009
The effects of dietary betaine supplementation on fatty liver performance, serum parameters, histological changes, methylation status and the mRNA expression level of Spot14alpha in Landes goose fatty liver.
    Comparative biochemistry and physiology. Part A, Molecular & integrative physiology, 2009, Volume: 154, Issue:3

    Topics: Animals; Betaine; Body Weight; Diet; DNA Methylation; Fatty Liver; Geese; Liver; Male; Nuclear Prote

2009
Effects of long-term mildronate treatment on cardiac and liver functions in rats.
    Basic & clinical pharmacology & toxicology, 2009, Volume: 105, Issue:6

    Topics: Animals; Betaine; Biomarkers; Blood Glucose; Body Weight; Cardiovascular Agents; Carnitine; Carnitin

2009
Betaine protects chronic alcohol and omega-3 PUFA-mediated down-regulations of PON1 gene, serum PON1 and homocysteine thiolactonase activities with restoration of liver GSH.
    Alcoholism, clinical and experimental research, 2010, Mar-01, Volume: 34, Issue:3

    Topics: Alanine Transaminase; Animals; Aryldialkylphosphatase; Betaine; Body Weight; Central Nervous System

2010
Betaine inhibits toll-like receptor 4 expression in rats with ethanol-induced liver injury.
    World journal of gastroenterology, 2010, Feb-21, Volume: 16, Issue:7

    Topics: Alanine Transaminase; Animals; Aspartate Aminotransferases; Betaine; Biomarkers; Blotting, Western;

2010
Betaine feeding prevents the blood alcohol cycle in rats fed alcohol continuously for 1 month using the rat intragastric tube feeding model.
    Experimental and molecular pathology, 2011, Volume: 91, Issue:2

    Topics: Alanine Transaminase; Animals; Betaine; Body Weight; Choline; Enteral Nutrition; Ethanol; Feeding Be

2011
Supplementing sow gestation diets with betaine during summer increases litter size of sows with greater numbers of parities.
    Animal reproduction science, 2012, Volume: 132, Issue:1-2

    Topics: Animals; Animals, Newborn; Betaine; Body Weight; Chi-Square Distribution; Dietary Supplements; Femal

2012
Effects of dietary betaine on milk yield and milk composition of mid-lactation Holstein dairy cows.
    Journal of dairy science, 2012, Volume: 95, Issue:11

    Topics: Animals; Betaine; Body Weight; Cattle; Cell Count; Chromatography, Gas; Dietary Supplements; Eating;

2012
Effects of dietary supplementation with betaine on a nonalcoholic steatohepatitis (NASH) mouse model.
    Journal of nutritional science and vitaminology, 2012, Volume: 58, Issue:5

    Topics: Alanine Transaminase; Animals; Betaine; Body Weight; Diet, High-Fat; Dietary Fats; Dietary Supplemen

2012
Influence of dietary methionine level on the liver metallothionein mRNA level in rats.
    Bioscience, biotechnology, and biochemistry, 2002, Volume: 66, Issue:11

    Topics: Animal Nutritional Physiological Phenomena; Animals; Betaine; Blotting, Northern; Body Weight; Choli

2002
Kwashiorkor type of fatty liver in primates.
    The Journal of experimental medicine, 1958, Sep-01, Volume: 108, Issue:3

    Topics: Animals; Betaine; Body Weight; Choline; Diet; Dietary Supplements; Fatty Liver; Kwashiorkor; Lipids;

1958
Betaine in sub-acute and sub-chronic rat studies.
    Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 2003, Volume: 41, Issue:12

    Topics: Animals; Betaine; Blood Cell Count; Blood Chemical Analysis; Blood Proteins; Body Weight; Cholestero

2003
Betaine rescue of an animal model with methylenetetrahydrofolate reductase deficiency.
    The Biochemical journal, 2004, Sep-15, Volume: 382, Issue:Pt 3

    Topics: Animals; Animals, Suckling; Betaine; Body Weight; Brain; Disease Models, Animal; Female; Genotype; H

2004
Postnatal cerebellar defects in mice deficient in methylenetetrahydrofolate reductase.
    International journal of developmental neuroscience : the official journal of the International Society for Developmental Neuroscience, 2005, Volume: 23, Issue:5

    Topics: Animals; Animals, Newborn; Apoptosis; Betaine; Body Patterning; Body Weight; Brain; Cell Division; C

2005
Maternal methyl supplements increase offspring DNA methylation at Axin Fused.
    Genesis (New York, N.Y. : 2000), 2006, Volume: 44, Issue:9

    Topics: Alleles; Animals; Axin Protein; Betaine; Body Weight; Choline; CpG Islands; Diet; Dietary Supplement

2006
Betaine modulates age-related NF-kappaB by thiol-enhancing action.
    Biological & pharmaceutical bulletin, 2007, Volume: 30, Issue:12

    Topics: Aging; Animals; Antioxidants; Betaine; Blotting, Western; Body Weight; Cell Nucleus; Cells, Cultured

2007
Clofibrate treatment up-regulates novel organic cation transporter (OCTN)-2 in tissues of pigs as a model of non-proliferating species.
    European journal of pharmacology, 2008, Mar-31, Volume: 583, Issue:1

    Topics: Animals; Betaine; Body Weight; Carnitine; Clofibrate; Eating; Enterocytes; gamma-Butyrobetaine Dioxy

2008
PPAR alpha mediates transcriptional upregulation of novel organic cation transporters-2 and -3 and enzymes involved in hepatic carnitine synthesis.
    Experimental biology and medicine (Maywood, N.J.), 2008, Volume: 233, Issue:3

    Topics: Animals; Betaine; Body Weight; Carnitine; Liver; Lysine; Male; Membrane Proteins; Mice; Mice, Knocko

2008
Supplementing limited methionine diets with rumen-protected methionine, betaine, and choline in early lactation Holstein cows.
    Journal of dairy science, 2008, Volume: 91, Issue:4

    Topics: Animal Feed; Animals; Betaine; Body Constitution; Body Weight; Cattle; Choline; Dairying; Diet; Diet

2008
Detoxication of dietary tannic acid by chicks.
    The Journal of nutrition, 1967, Volume: 91, Issue:4

    Topics: Animals; Arginine; Betaine; Biotransformation; Birds; Body Weight; Choline; Diet; Methionine; Ornith

1967
Betaine delays the onset of neurological impairment in nitrous oxide-induced vitamin B-12 deficiency in fruit bats.
    The Journal of nutrition, 1984, Volume: 114, Issue:6

    Topics: Animals; Ataxia; Betaine; Body Weight; Chiroptera; Diet; Homocysteine; Methionine; Nitrous Oxide; Vi

1984
A chick bioassay approach for determining the bioavailable choline concentration in normal and overheated soybean meal, canola meal and peanut meal.
    The Journal of nutrition, 1997, Volume: 127, Issue:5

    Topics: Animal Feed; Animals; Arachis; Betaine; Biological Assay; Biological Availability; Body Weight; Bras

1997
Betaine reduces hepatic lipidosis induced by carbon tetrachloride in Sprague-Dawley rats.
    Veterinary and human toxicology, 1998, Volume: 40, Issue:5

    Topics: Administration, Oral; Animals; Betaine; Body Weight; Carbon Tetrachloride; Chemical and Drug Induced

1998
Effect of betaine supplement on broiler performance during an experimental coccidial infection.
    Poultry science, 1999, Volume: 78, Issue:2

    Topics: Animal Feed; Animals; Betaine; Body Weight; Chickens; Coccidiosis; Diet; Eimeria; Female; Gastrointe

1999
Effects of betaine on growth, carcass characteristics, pork quality, and plasma metabolites of finishing pigs.
    Journal of animal science, 2001, Volume: 79, Issue:3

    Topics: Animal Feed; Animal Husbandry; Animals; Betaine; Blood Proteins; Body Weight; Cholesterol, HDL; Fatt

2001
Sulfur amino acid and methyl donor status of corn-soy diets fed to starting broiler chicks and turkey poults.
    Poultry science, 1979, Volume: 58, Issue:6

    Topics: Amino Acids, Sulfur; Animal Feed; Animals; Arginine; Betaine; Body Weight; Chickens; Choline; Cystin

1979
The choline requirement of broiler chicks during the seventh week of life.
    Poultry science, 1976, Volume: 55, Issue:1

    Topics: Age Factors; Animals; Betaine; Body Weight; Chickens; Choline; Cystine; Female; Male; Methionine; Nu

1976
[Effect of betaine hydrochloride on broiler chickens when used alone or in combination with vitamin B12].
    Veterinarno-meditsinski nauki, 1976, Volume: 13, Issue:6

    Topics: Animal Nutritional Physiological Phenomena; Animals; Betaine; Body Weight; Chickens; Drug Interactio

1976
Effects on rat renal osmolytes of extended treatment with an aldose reductase inhibitor.
    Comparative biochemistry and physiology. C, Comparative pharmacology and toxicology, 1992, Volume: 103, Issue:3

    Topics: Aldehyde Reductase; Animals; Betaine; Body Weight; Imidazoles; Imidazolidines; Kidney; Male; Osmolar

1992
Changes in body-weight, composition and hepatic enzyme activities in response to dietary methionine, betaine and choline levels in growing chicks.
    The British journal of nutrition, 1990, Volume: 63, Issue:2

    Topics: 5-Methyltetrahydrofolate-Homocysteine S-Methyltransferase; Alcohol Oxidoreductases; Animals; Betaine

1990
Transmethylation of homocysteine to methionine: efficiency in the rat and chick.
    The Journal of nutrition, 1985, Volume: 115, Issue:10

    Topics: Animals; Betaine; Body Weight; Chickens; Choline; Diet; Homocysteine; Male; Methionine; Methylation;

1985
Amelioration of ethionine toxicity in the chick.
    Poultry science, 1987, Volume: 66, Issue:6

    Topics: Amino Acids; Animals; Betaine; Body Weight; Chickens; Choline; Ethionine; Female; Glycine; Male; Met

1987
Effect of diet on foot pad dermatitis in poults.
    Poultry science, 1974, Volume: 53, Issue:2

    Topics: Aminobutyrates; Animal Feed; Animals; Betaine; Biotin; Body Weight; Chickens; Cystine; Diet; Ethers;

1974
Relationship of arginine and methionine to creatine formation in chicks.
    The Journal of nutrition, 1971, Volume: 101, Issue:7

    Topics: Amino Acids; Animal Nutritional Physiological Phenomena; Animals; Arginine; Betaine; Body Weight; Ch

1971
The effect of choline supplementation of diets for growing pullets and laying hens.
    Poultry science, 1971, Volume: 50, Issue:3

    Topics: Amino Alcohols; Animal Feed; Animal Nutritional Physiological Phenomena; Animals; Betaine; Body Weig

1971