Compounds > emodin
Page last updated: 2024-10-26

emodin and Body Weight

emodin has been researched along with Body Weight in 17 studies

Emodin: Purgative anthraquinone found in several plants, especially RHAMNUS PURSHIANA. It was formerly used as a laxative, but is now used mainly as a tool in toxicity studies.
emodin : A trihydroxyanthraquinone that is 9,10-anthraquinone which is substituted by hydroxy groups at positions 1, 3, and 8 and by a methyl group at position 6. It is present in the roots and barks of numerous plants (particularly rhubarb and buckthorn), moulds, and lichens. It is an active ingredient of various Chinese herbs.

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

Research Excerpts

ExcerptRelevanceReference
"Our results showed that the histopathological abnormalities, the decrease in rat body weight and the abnormal renal function caused by renal fibrosis were improved by emodin."7.88Emodin ameliorates renal fibrosis in rats via TGF-β1/Smad signaling pathway and function study of Smurf 2. ( Chen, K; Deng, G; Jiang, K; Jiang, P; Li, H; Ma, L; Xiong, X; Zhang, S, 2018)
"To investigate the influence of emodin on methionine-choline-deficient (MCD) diet-induced non-alcoholic fatty liver disease (NAFLD) in mice."7.81[Emodin worsens methionine-choline-deficient diet-induced non-alcoholic fatty liver disease in mice]. ( Liu, Q; Shi, M; Wang, F; Yu, F; Yu, N, 2015)
" A study was conducted to evaluate the therapeutic potential of phytogenically derived aloin mediated nanosilver particles (AAgNPs), prepared by reduction of silver nitrate with aloin, in Staphylococcus aureus induced murine mastitis."7.79Evaluation of therapeutic potential of nanosilver particles synthesised using aloin in experimental murine mastitis model. ( Alpha Raj, M; Chaitanya Kumar, TV; Muralidhar, Y; Prasad, PE; Prasad, TN, 2013)
"To investigate the effects of emodin on the treatment of non-alcoholic fatty liver in rats induced by high caloric laboratory chaw."7.73Effects of emodin on treating murine nonalcoholic fatty liver induced by high caloric laboratory chaw. ( Dong, H; Gao, ZQ; Lu, FE; Wang, KF; Xu, LJ; Zou, X, 2005)
"Emodin is a natural anthraquinone derivative that exhibits variety of pharmacologic effects including lowering lipids and regulating glucose utilization."5.62Emodin Improves Glucose and Lipid Metabolism Disorders in Obese Mice ( Cheng, L; Dong, S; He, R; Huang, Z; Ning, Y; Shang, F; Sun, J; Zhang, S, 2021)
"In the present study, we used breast cancer MDA-MB-231 cells and a mouse xenograft model to demonstrate the effect of emodin on the migration, invasion and metastasis of human breast cancer MDA-MB-231 cells and the related mechanisms."5.42Inhibitory effect of emodin on migration, invasion and metastasis of human breast cancer MDA-MB-231 cells in vitro and in vivo. ( Chen, Q; Lu, Y; Su, S; Sun, Y; Wang, X; Zhang, H; Zhao, M; Zhou, Q, 2015)
"After 8-week treatment, body weight, wet weight of visceral fat and the percentage of body fat (PBF) were measured."5.40Preparation of a nano emodin transfersome and study on its anti-obesity mechanism in adipose tissue of diet-induced obese rats. ( Chang, X; Chao, J; Han, S; Huang, Q; Lin, H; Lu, K; Qu, S; Shen, C; Song, X; Tan, M; Wang, C; Xie, S; Xu, L; Yuan, Q; Zhang, J, 2014)
"Emodin is an active herbal component traditionally used in China for treating a variety of diseases."5.38Emodin protects against high-fat diet-induced obesity via regulation of AMP-activated protein kinase pathways in white adipose tissue. ( Chang, CJ; Liou, SS; Liu, IM; Lu, HJ; Tzeng, TF, 2012)
"Emodin treatment significantly improved left ventricular (LV) function and reduced the severity of myocarditis, as reflected by echocardiographic and histopathological examination."5.38Emodin, a naturally occurring anthraquinone, ameliorates experimental autoimmune myocarditis in rats. ( Bai, JH; Hu, J; Li, Z; Song, ZC; Wang, ZS, 2012)
"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; 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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)
"Our results showed that the histopathological abnormalities, the decrease in rat body weight and the abnormal renal function caused by renal fibrosis were improved by emodin."3.88Emodin ameliorates renal fibrosis in rats via TGF-β1/Smad signaling pathway and function study of Smurf 2. ( Chen, K; Deng, G; Jiang, K; Jiang, P; Li, H; Ma, L; Xiong, X; Zhang, S, 2018)
"To investigate the influence of emodin on methionine-choline-deficient (MCD) diet-induced non-alcoholic fatty liver disease (NAFLD) in mice."3.81[Emodin worsens methionine-choline-deficient diet-induced non-alcoholic fatty liver disease in mice]. ( Liu, Q; Shi, M; Wang, F; Yu, F; Yu, N, 2015)
" A study was conducted to evaluate the therapeutic potential of phytogenically derived aloin mediated nanosilver particles (AAgNPs), prepared by reduction of silver nitrate with aloin, in Staphylococcus aureus induced murine mastitis."3.79Evaluation of therapeutic potential of nanosilver particles synthesised using aloin in experimental murine mastitis model. ( Alpha Raj, M; Chaitanya Kumar, TV; Muralidhar, Y; Prasad, PE; Prasad, TN, 2013)
"To evaluate the anti-viral effect of emodin plus Astragalus polysaccharide (APS) in hepatitis B virus (HBV) transgenic mice."3.75Inhibitory effect of emodin and Astragalus polysaccharide on the replication of HBV. ( Cheng, YA; Dang, SS; Jia, XL; Liu, EQ; Song, P; Sun, MZ; Zhang, X, 2009)
"To investigate the effects of emodin on the treatment of non-alcoholic fatty liver in rats induced by high caloric laboratory chaw."3.73Effects of emodin on treating murine nonalcoholic fatty liver induced by high caloric laboratory chaw. ( Dong, H; Gao, ZQ; Lu, FE; Wang, KF; Xu, LJ; Zou, X, 2005)
"Emodin is a natural anthraquinone derivative that exhibits variety of pharmacologic effects including lowering lipids and regulating glucose utilization."1.62Emodin Improves Glucose and Lipid Metabolism Disorders in Obese Mice ( Cheng, L; Dong, S; He, R; Huang, Z; Ning, Y; Shang, F; Sun, J; Zhang, S, 2021)
"Emodin was used to remedy the NRK-52E cell damage."1.62Emodin Attenuated the Kidney Damage of High-Fat-Diet Mice via the Upregulation of Glucagon-Like Peptide-1 Receptor. ( Liu, J; Liu, L; Song, B; Sun, Y; Wang, J; Zhang, H; Zheng, H, 2021)
"Emodin was admixed to high fat-food of obese mice at two doses (2 and 5g/kg; daily emodin uptake 103 and 229mg/kg)."1.46Emodin, a compound with putative antidiabetic potential, deteriorates glucose tolerance in rodents. ( Abu Eid, S; Adams, M; Fürnsinn, C; Hackl, MT; Kaplanian, M; Luger, A; Riedl, R; Scherer, T; Torres-Gómez, H, 2017)
"In the present study, we used breast cancer MDA-MB-231 cells and a mouse xenograft model to demonstrate the effect of emodin on the migration, invasion and metastasis of human breast cancer MDA-MB-231 cells and the related mechanisms."1.42Inhibitory effect of emodin on migration, invasion and metastasis of human breast cancer MDA-MB-231 cells in vitro and in vivo. ( Chen, Q; Lu, Y; Su, S; Sun, Y; Wang, X; Zhang, H; Zhao, M; Zhou, Q, 2015)
"After 8-week treatment, body weight, wet weight of visceral fat and the percentage of body fat (PBF) were measured."1.40Preparation of a nano emodin transfersome and study on its anti-obesity mechanism in adipose tissue of diet-induced obese rats. ( Chang, X; Chao, J; Han, S; Huang, Q; Lin, H; Lu, K; Qu, S; Shen, C; Song, X; Tan, M; Wang, C; Xie, S; Xu, L; Yuan, Q; Zhang, J, 2014)
"Emodin is an active herbal component traditionally used in China for treating a variety of diseases."1.38Emodin protects against high-fat diet-induced obesity via regulation of AMP-activated protein kinase pathways in white adipose tissue. ( Chang, CJ; Liou, SS; Liu, IM; Lu, HJ; Tzeng, TF, 2012)
"Emodin treatment significantly improved left ventricular (LV) function and reduced the severity of myocarditis, as reflected by echocardiographic and histopathological examination."1.38Emodin, a naturally occurring anthraquinone, ameliorates experimental autoimmune myocarditis in rats. ( Bai, JH; Hu, J; Li, Z; Song, ZC; Wang, ZS, 2012)
"Emodin is an active component of Chinese medicinal herbs and can inhibit the activation of Akt and NF-κB."1.37Antitumor and apoptosis-promoting properties of emodin, an anthraquinone derivative from Rheum officinale Baill, against pancreatic cancer in mice via inhibition of Akt activation. ( Chen, H; Fan, L; Guo, HC; Lin, SZ; Liu, A; Liu, DL; Liu, HB; Ni, ZL; Qiu, MX; Tong, HF; Wang, ZH; Wei, WT, 2011)
"Emodin was efficient to ameliorate renal dysfunction in diabetic nephropathy rats probably by its inhibition of the activation of p38 MAPK pathway and downregulation of the expression of fibronectin."1.33Inhibition of phosphorylation of p38 MAPK involved in the protection of nephropathy by emodin in diabetic rats. ( Chen, F; Guo, F; Huang, H; Huang, W; Liu, P; Liu, W; Qin, J; Tang, F; Wang, J; Yang, B, 2006)

Research

Studies (17)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's0 (0.00)18.2507
2000's4 (23.53)29.6817
2010's10 (58.82)24.3611
2020's3 (17.65)2.80

Authors

AuthorsStudies
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, J2
Shen, S1
Zhang, B2
Yu, WW1
Toyoda, H1
Huang, DQ1
Le, MH1
Nguyen, MH1
Huang, R1
Zhu, L1
Wang, J8
Xue, L1
Liu, L3
Yan, X2
Huang, S1
Li, Y6
Xu, T1
Li, C2
Ji, F1
Ming, F1
Zhao, Y2
Cheng, J1
Wang, Y3
Zhao, H1
Hong, S1
Chen, K3
Zhao, XA1
Zou, L1
Sang, D1
Shao, H1
Guan, X1
Chen, X2
Chen, Y4
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, Y1
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, W2
Li, T1
Ling, Y1
Qian, ZP1
Zhang, YY1
Huang, D1
Xu, SB1
Liu, XH1
Xia, L1
Yang, Y3
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, L3
Yan, D1
Cui, L1
Yang, K2
Zhai, C1
Yang, M1
Lao, X1
Sun, J2
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, J2
Xun, J1
Hu, Z1
Huang, Q3
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, 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, J1
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, X2
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, X4
Post, AK1
Slette, IJ1
Collins, SL1
Luo, Y1
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
Wen, S1
Tian, Q1
Lv, W1
Cheng, G1
Li, N1
Yue, XY1
Chu, WJ1
Chen, Q2
Choi, ES1
Zhao, X3
Zhou, HD1
Sun, XF1
Sharma, S2
Chhoker, S1
Xie, C1
Ong, EWY1
Tan, ZK1
Evans, S1
Weinheimer, CJ1
Kovacs, A1
Williams, JW1
Randolph, GJ1
Jiang, W1
Barger, PM1
Mann, DL1
Liu, J3
Huang, Y1
Kong, L1
Yu, X1
Feng, B1
Liu, D1
Zhao, B1
Mendes, GC1
Yuan, P1
Ge, D1
Wang, WM1
Fontes, EPB1
Li, P1
Shan, L1
He, P1
Katoh, T1
Sengoku, T1
Hirata, K1
Ogata, K1
Suga, H1
Shun, C1
Yong-Yi, J1
Mei-Li, C1
Shi-Li, L1
Jian-Bo, Z1
Dan-Li, W1
Zhi-Min, G1
Ibrahim, AM1
Zakhary, SY1
Amin, SAW1
Ugurlu, M1
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Hartmann, MSM1
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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, Q2
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
Pefura-Yone, EW1
Zhao, Q1
Tong, W1
Ge, C1
Zhao, D1
Norbäck, D1
Li, B1
Zhao, Z1
Huang, C1
Zhang, X2
Qian, H1
Yang, X1
Sun, Y3
Sundell, J1
Deng, Q1
Kim, HJ1
Jeon, JW1
Hwang, SM1
Chu, KI1
Cha, YH1
Kwak, YD1
Choi, SD1
Aslam, M1
Kim, CG1
Zhou, J1
Yang, E1
Yang, W1
Cheng, L1
Zhang, S2
Shang, F1
Ning, Y1
Huang, Z1
He, R1
Dong, S1
Zheng, H1
Song, B1
Zhang, H2
Ma, L1
Xiong, X1
Jiang, P1
Jiang, K1
Deng, G1
Chaitanya Kumar, TV1
Muralidhar, Y1
Prasad, PE1
Prasad, TN1
Alpha Raj, M1
Lu, K1
Xie, S1
Han, S1
Chang, X1
Chao, J1
Lin, H1
Xu, L1
Shen, C1
Tan, M1
Qu, S1
Wang, C1
Song, X1
Zhou, Q1
Zhao, M1
Su, S1
Liu, Q1
Yu, F1
Yu, N1
Shi, M1
Wang, F1
Sim, Y1
Oh, H1
Oh, DS1
Kim, N1
Gu, PS1
Choi, JG1
Kim, HG1
Kang, TH1
Oh, MS1
Abu Eid, S1
Adams, M1
Scherer, T1
Torres-Gómez, H1
Hackl, MT1
Kaplanian, M1
Riedl, R1
Luger, A1
Fürnsinn, C1
Dang, SS1
Jia, XL1
Song, P1
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Sun, MZ1
Liu, EQ1
Wei, WT1
Chen, H1
Ni, ZL1
Liu, HB1
Tong, HF1
Fan, L1
Liu, A1
Qiu, MX1
Liu, DL1
Guo, HC1
Wang, ZH1
Lin, SZ1
Tzeng, TF1
Lu, HJ1
Liou, SS1
Chang, CJ1
Liu, IM1
Song, ZC1
Wang, ZS1
Bai, JH1
Hu, J1
Dong, H1
Lu, FE1
Gao, ZQ1
Xu, LJ1
Wang, KF1
Zou, X1
Huang, H1
Liu, P1
Tang, F1
Qin, J1
Chen, F1
Guo, F1
Yang, B1
Georges, K1
Jayaprakasam, B1
Dalavoy, SS1
Nair, MG1

Reviews

1 review available for emodin 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

Trials

1 trial available for emodin 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

Other Studies

16 other studies available for emodin and Body Weight

ArticleYear
Emodin Improves Glucose and Lipid Metabolism Disorders in Obese Mice
    Frontiers in endocrinology, 2021, Volume: 12

    Topics: Adipose Tissue, Brown; Adipose Tissue, White; Animals; Body Weight; Diet, High-Fat; Emodin; Lipid Me

2021
Emodin Attenuated the Kidney Damage of High-Fat-Diet Mice via the Upregulation of Glucagon-Like Peptide-1 Receptor.
    BioMed research international, 2021, Volume: 2021

    Topics: Anilides; Animals; Body Weight; Cholesterol, LDL; Diet, High-Fat; Emodin; Enzyme-Linked Immunosorben

2021
Emodin ameliorates renal fibrosis in rats via TGF-β1/Smad signaling pathway and function study of Smurf 2.
    International urology and nephrology, 2018, Volume: 50, Issue:2

    Topics: Animals; Body Weight; Emodin; Fibrosis; Gene Expression Regulation; Kidney; Kidney Diseases; Kidney

2018
Evaluation of therapeutic potential of nanosilver particles synthesised using aloin in experimental murine mastitis model.
    IET nanobiotechnology, 2013, Volume: 7, Issue:3

    Topics: Animals; Antioxidants; Body Weight; Disease Models, Animal; Drug Design; Emodin; Female; Mastitis; M

2013
Preparation of a nano emodin transfersome and study on its anti-obesity mechanism in adipose tissue of diet-induced obese rats.
    Journal of translational medicine, 2014, Mar-19, Volume: 12

    Topics: Adipose Tissue; Animals; Anti-Obesity Agents; Body Weight; Cell Cycle Proteins; Emodin; Lipase; Lipo

2014
Inhibitory effect of emodin on migration, invasion and metastasis of human breast cancer MDA-MB-231 cells in vitro and in vivo.
    Oncology reports, 2015, Volume: 33, Issue:1

    Topics: Animals; Antineoplastic Agents; Body Weight; Breast Neoplasms; Cell Line, Tumor; Cell Movement; Dose

2015
[Emodin worsens methionine-choline-deficient diet-induced non-alcoholic fatty liver disease in mice].
    Xi bao yu fen zi mian yi xue za zhi = Chinese journal of cellular and molecular immunology, 2015, Volume: 31, Issue:5

    Topics: Alanine Transaminase; Animals; Aspartate Aminotransferases; Body Weight; Choline; Diet; Emodin; Live

2015
An experimental study on providing a scientific evidence for seven-time alcohol-steaming of Rhei Rhizoma when clinically used.
    BMC complementary and alternative medicine, 2015, Oct-27, Volume: 15

    Topics: Analysis of Variance; Animals; Body Weight; Cell Survival; Drug Compounding; Drugs, Chinese Herbal;

2015
Emodin, a compound with putative antidiabetic potential, deteriorates glucose tolerance in rodents.
    European journal of pharmacology, 2017, Mar-05, Volume: 798

    Topics: Adipose Tissue; Animals; Blood Glucose; Body Weight; Dose-Response Relationship, Drug; Eating; Emodi

2017
Inhibitory effect of emodin and Astragalus polysaccharide on the replication of HBV.
    World journal of gastroenterology, 2009, Dec-07, Volume: 15, Issue:45

    Topics: Animals; Astragalus Plant; Body Weight; Emodin; Female; Hepatitis B; Hepatitis B Core Antigens; Hepa

2009
Antitumor and apoptosis-promoting properties of emodin, an anthraquinone derivative from Rheum officinale Baill, against pancreatic cancer in mice via inhibition of Akt activation.
    International journal of oncology, 2011, Volume: 39, Issue:6

    Topics: Adenocarcinoma; Animals; Antineoplastic Agents; Apoptosis; bcl-2-Associated X Protein; Body Weight;

2011
Emodin protects against high-fat diet-induced obesity via regulation of AMP-activated protein kinase pathways in white adipose tissue.
    Planta medica, 2012, Volume: 78, Issue:10

    Topics: 3T3-L1 Cells; Adipocytes, White; Adipose Tissue, White; AMP-Activated Protein Kinases; Animals; Anti

2012
Emodin, a naturally occurring anthraquinone, ameliorates experimental autoimmune myocarditis in rats.
    The Tohoku journal of experimental medicine, 2012, Volume: 227, Issue:3

    Topics: Animals; Autoimmune Diseases; Body Weight; Emodin; Inflammation; Interleukin-1beta; Male; Myocarditi

2012
Effects of emodin on treating murine nonalcoholic fatty liver induced by high caloric laboratory chaw.
    World journal of gastroenterology, 2005, Mar-07, Volume: 11, Issue:9

    Topics: Alanine Transaminase; Animal Feed; Animals; Aspartate Aminotransferases; Blood Glucose; Body Weight;

2005
Inhibition of phosphorylation of p38 MAPK involved in the protection of nephropathy by emodin in diabetic rats.
    European journal of pharmacology, 2006, Dec-28, Volume: 553, Issue:1-3

    Topics: Actins; Animals; Blood Glucose; Blotting, Western; Body Weight; Cyclic AMP Response Element-Binding

2006
Pest-managing activities of plant extracts and anthraquinones from Cassia nigricans from Burkina Faso.
    Bioresource technology, 2008, Volume: 99, Issue:6

    Topics: Animals; Anthraquinones; Biological Assay; Biotechnology; Body Weight; Burkina Faso; Cassia; Culicid

2008