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DONATO JUNIOR, José. Programming of metabolism by adipokines during development. Nature Reviews Endocrinology, p. 1-13, 2023Tradução . . Disponível em: https://doi.org/10.1038/s41574-023-00828-1. Acesso em: 24 jul. 2024.
APA
Donato Junior, J. (2023). Programming of metabolism by adipokines during development. Nature Reviews Endocrinology, 1-13. doi:10.1038/s41574-023-00828-1
NLM
Donato Junior J. Programming of metabolism by adipokines during development [Internet]. Nature Reviews Endocrinology. 2023 ; 1-13.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1038/s41574-023-00828-1
Vancouver
Donato Junior J. Programming of metabolism by adipokines during development [Internet]. Nature Reviews Endocrinology. 2023 ; 1-13.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1038/s41574-023-00828-1
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DUARTE, Jessica Catharine Gomes et al. The increase in the number of amylin neurons in the medial preoptic area throughout the lactational period and its relationship with melanin-concentrating hormone. Journal of Chemical Neuroanatomy, v. 129, p. 1-6, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.jchemneu.2023.102241. Acesso em: 24 jul. 2024.
APA
Duarte, J. C. G., Ferreira, J. G. P., Donato Junior, J., Dobolyi, A., & Bittencourt, J. C. (2023). The increase in the number of amylin neurons in the medial preoptic area throughout the lactational period and its relationship with melanin-concentrating hormone. Journal of Chemical Neuroanatomy, 129, 1-6. doi:10.1016/j.jchemneu.2023.102241
NLM
Duarte JCG, Ferreira JGP, Donato Junior J, Dobolyi A, Bittencourt JC. The increase in the number of amylin neurons in the medial preoptic area throughout the lactational period and its relationship with melanin-concentrating hormone [Internet]. Journal of Chemical Neuroanatomy. 2023 ; 129 1-6.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.jchemneu.2023.102241
Vancouver
Duarte JCG, Ferreira JGP, Donato Junior J, Dobolyi A, Bittencourt JC. The increase in the number of amylin neurons in the medial preoptic area throughout the lactational period and its relationship with melanin-concentrating hormone [Internet]. Journal of Chemical Neuroanatomy. 2023 ; 129 1-6.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.jchemneu.2023.102241
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ORTIZ-SILVA, Milene et al. Chloroquine attenuates diet-induced obesity and glucose intolerance through a mechanism that might involve FGF-21, but not UCP-1-mediated thermogenesis and inhibition of adipocyte autophagy. Molecular and Cellular Endocrinology, v. 578, p. 11 , 2023Tradução . . Disponível em: https://doi.org/10.1016/j.mce.2023.112074. Acesso em: 24 jul. 2024.
APA
Ortiz-Silva, M., Leonardi, B. F., Castro, É. de, Peixoto, A. S., Gilio, G. R., Oliveira, T. E., et al. (2023). Chloroquine attenuates diet-induced obesity and glucose intolerance through a mechanism that might involve FGF-21, but not UCP-1-mediated thermogenesis and inhibition of adipocyte autophagy. Molecular and Cellular Endocrinology, 578, 11 . doi:10.1016/j.mce.2023.112074
NLM
Ortiz-Silva M, Leonardi BF, Castro É de, Peixoto AS, Gilio GR, Oliveira TE, Tomazelli CA, Andrade ML, Moreno MF, Belchior T, Magdalon J, Vieira TS, Donado-Pestana CM, Festuccia WT. Chloroquine attenuates diet-induced obesity and glucose intolerance through a mechanism that might involve FGF-21, but not UCP-1-mediated thermogenesis and inhibition of adipocyte autophagy [Internet]. Molecular and Cellular Endocrinology. 2023 ; 578 11 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.mce.2023.112074
Vancouver
Ortiz-Silva M, Leonardi BF, Castro É de, Peixoto AS, Gilio GR, Oliveira TE, Tomazelli CA, Andrade ML, Moreno MF, Belchior T, Magdalon J, Vieira TS, Donado-Pestana CM, Festuccia WT. Chloroquine attenuates diet-induced obesity and glucose intolerance through a mechanism that might involve FGF-21, but not UCP-1-mediated thermogenesis and inhibition of adipocyte autophagy [Internet]. Molecular and Cellular Endocrinology. 2023 ; 578 11 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.mce.2023.112074
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TAVARES, Mariana Rosolen e FRAZÃO, Renata e DONATO JUNIOR, José. Understanding the role of growth hormone in situations of metabolic stress. Journal of Endocrinology, v. 256, n. 1, p. 1-11, 2022Tradução . . Disponível em: https://doi.org/10.1530/JOE-22-0159. Acesso em: 24 jul. 2024.
APA
Tavares, M. R., Frazão, R., & Donato Junior, J. (2022). Understanding the role of growth hormone in situations of metabolic stress. Journal of Endocrinology, 256( 1), 1-11. doi:10.1530/JOE-22-0159
NLM
Tavares MR, Frazão R, Donato Junior J. Understanding the role of growth hormone in situations of metabolic stress [Internet]. Journal of Endocrinology. 2022 ; 256( 1): 1-11.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1530/JOE-22-0159
Vancouver
Tavares MR, Frazão R, Donato Junior J. Understanding the role of growth hormone in situations of metabolic stress [Internet]. Journal of Endocrinology. 2022 ; 256( 1): 1-11.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1530/JOE-22-0159
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MOREIRA, Gabriele R et al. Kombucha tea improves glucose tolerance and reduces hepatic steatosis in obese mice. Biomedicine & Pharmacotherapy, v. 155, p. 1-10, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.biopha.2022.113660. Acesso em: 24 jul. 2024.
APA
Moreira, G. R., Araujo, L. C. da C., Murata, G. M., Matos, S. L., & Carvalho, C. R. de O. (2022). Kombucha tea improves glucose tolerance and reduces hepatic steatosis in obese mice. Biomedicine & Pharmacotherapy, 155, 1-10. doi:10.1016/j.biopha.2022.113660
NLM
Moreira GR, Araujo LC da C, Murata GM, Matos SL, Carvalho CR de O. Kombucha tea improves glucose tolerance and reduces hepatic steatosis in obese mice [Internet]. Biomedicine & Pharmacotherapy. 2022 ; 155 1-10.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.biopha.2022.113660
Vancouver
Moreira GR, Araujo LC da C, Murata GM, Matos SL, Carvalho CR de O. Kombucha tea improves glucose tolerance and reduces hepatic steatosis in obese mice [Internet]. Biomedicine & Pharmacotherapy. 2022 ; 155 1-10.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.biopha.2022.113660
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BOHLEN, Tabata Mariz et al. Socs3 ablation in kisspeptin cells partially prevents lipopolysaccharide-induced body weight loss. Cytokine, v. 158, p. 1-9, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.cyto.2022.155999. Acesso em: 24 jul. 2024.
APA
Bohlen, T. M., Paula, D. G. de, Teixeira, P. D. S., Mansano, N. da S., Alves, G. A., Donato Junior, J., & Frazão, R. (2022). Socs3 ablation in kisspeptin cells partially prevents lipopolysaccharide-induced body weight loss. Cytokine, 158, 1-9. doi:10.1016/j.cyto.2022.155999
NLM
Bohlen TM, Paula DG de, Teixeira PDS, Mansano N da S, Alves GA, Donato Junior J, Frazão R. Socs3 ablation in kisspeptin cells partially prevents lipopolysaccharide-induced body weight loss [Internet]. Cytokine. 2022 ; 158 1-9.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.cyto.2022.155999
Vancouver
Bohlen TM, Paula DG de, Teixeira PDS, Mansano N da S, Alves GA, Donato Junior J, Frazão R. Socs3 ablation in kisspeptin cells partially prevents lipopolysaccharide-induced body weight loss [Internet]. Cytokine. 2022 ; 158 1-9.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.cyto.2022.155999
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SOUZA, Gabriel Orefice de et al. Gap junctions regulate the activity of AgRP neurons and diet-induced obesity in male mice. Journal of Endocrinology, v. 255, n. 2, p. 75-90, 2022Tradução . . Disponível em: https://doi.org/10.1530/JOE-22-0012. Acesso em: 24 jul. 2024.
APA
Souza, G. O. de, Chaves, F. M., Silva, J. do N., Pedroso, J. A. B., Metzger, M. A., Frazão, R., & Donato Junior, J. (2022). Gap junctions regulate the activity of AgRP neurons and diet-induced obesity in male mice. Journal of Endocrinology, 255( 2), 75-90. doi:10.1530/JOE-22-0012
NLM
Souza GO de, Chaves FM, Silva J do N, Pedroso JAB, Metzger MA, Frazão R, Donato Junior J. Gap junctions regulate the activity of AgRP neurons and diet-induced obesity in male mice [Internet]. Journal of Endocrinology. 2022 ; 255( 2): 75-90.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1530/JOE-22-0012
Vancouver
Souza GO de, Chaves FM, Silva J do N, Pedroso JAB, Metzger MA, Frazão R, Donato Junior J. Gap junctions regulate the activity of AgRP neurons and diet-induced obesity in male mice [Internet]. Journal of Endocrinology. 2022 ; 255( 2): 75-90.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1530/JOE-22-0012
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BÔAS, Eloisa Aparecida Vilas et al. Transient NADPH oxidase 2-dependent H2O2 production drives early palmitate-induced lipotoxicity in pancreatic islets. Free Radical Biology & Medicine, v. 162, p. 13 , 2021Tradução . . Disponível em: https://doi.org/10.1016/j.freeradbiomed.2020.11.023. Acesso em: 24 jul. 2024.
APA
Bôas, E. A. V., Nalbach, L., Ampofo, E., Lucena, C. F., Naudet, L., Morgan, B., et al. (2021). Transient NADPH oxidase 2-dependent H2O2 production drives early palmitate-induced lipotoxicity in pancreatic islets. Free Radical Biology & Medicine, 162, 13 . doi:10.1016/j.freeradbiomed.2020.11.023
NLM
Bôas EAV, Nalbach L, Ampofo E, Lucena CF, Naudet L, Morgan B, Roma LP, Ortis F, Carpinelli AR. Transient NADPH oxidase 2-dependent H2O2 production drives early palmitate-induced lipotoxicity in pancreatic islets [Internet]. Free Radical Biology & Medicine. 2021 ; 162 13 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.freeradbiomed.2020.11.023
Vancouver
Bôas EAV, Nalbach L, Ampofo E, Lucena CF, Naudet L, Morgan B, Roma LP, Ortis F, Carpinelli AR. Transient NADPH oxidase 2-dependent H2O2 production drives early palmitate-induced lipotoxicity in pancreatic islets [Internet]. Free Radical Biology & Medicine. 2021 ; 162 13 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.freeradbiomed.2020.11.023
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DONATO JUNIOR, José et al. Central regulation of metabolism by growth hormone. Cells, v. 10, n. 1, p. 14 , 2021Tradução . . Disponível em: https://doi.org/10.3390/cells10010129. Acesso em: 24 jul. 2024.
APA
Donato Junior, J., Wasinski, F., Furigo, I. C., Metzger, M. A., & Frazão, R. (2021). Central regulation of metabolism by growth hormone. Cells, 10( 1), 14 . doi:10.3390/cells10010129
NLM
Donato Junior J, Wasinski F, Furigo IC, Metzger MA, Frazão R. Central regulation of metabolism by growth hormone [Internet]. Cells. 2021 ; 10( 1): 14 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.3390/cells10010129
Vancouver
Donato Junior J, Wasinski F, Furigo IC, Metzger MA, Frazão R. Central regulation of metabolism by growth hormone [Internet]. Cells. 2021 ; 10( 1): 14 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.3390/cells10010129
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GREGORIO, Karen Cristina Rego e LAURINDO, Caroline Pancera e MACHADO, Ubiratan Fabres. Estrogen and glycemic homeostasis: the fundamental role of nuclear estrogen receptors ESR1/ESR2 in glucose transporter GLUT4 regulation. Cells, v. 10, n. 1, p. 21 , 2021Tradução . . Disponível em: https://doi.org/10.3390/cells10010099. Acesso em: 24 jul. 2024.
APA
Gregorio, K. C. R., Laurindo, C. P., & Machado, U. F. (2021). Estrogen and glycemic homeostasis: the fundamental role of nuclear estrogen receptors ESR1/ESR2 in glucose transporter GLUT4 regulation. Cells, 10( 1), 21 . doi:10.3390/cells10010099
NLM
Gregorio KCR, Laurindo CP, Machado UF. Estrogen and glycemic homeostasis: the fundamental role of nuclear estrogen receptors ESR1/ESR2 in glucose transporter GLUT4 regulation [Internet]. Cells. 2021 ; 10( 1): 21 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.3390/cells10010099
Vancouver
Gregorio KCR, Laurindo CP, Machado UF. Estrogen and glycemic homeostasis: the fundamental role of nuclear estrogen receptors ESR1/ESR2 in glucose transporter GLUT4 regulation [Internet]. Cells. 2021 ; 10( 1): 21 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.3390/cells10010099
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WASINSKI, Frederick et al. Growth hormone receptor in dopaminergic neurones regulates stress‐induced prolactin release in male mice. Journal of Neuroendocrinology, v. 33, n. 3, p. 1-13, 2021Tradução . . Disponível em: https://doi.org/10.1111/jne.12957. Acesso em: 24 jul. 2024.
APA
Wasinski, F., Chaves, F. M., Pedroso, J. A. B., Mansano, N. da S., Camporez, J. P. G., Gusmão, D. O., et al. (2021). Growth hormone receptor in dopaminergic neurones regulates stress‐induced prolactin release in male mice. Journal of Neuroendocrinology, 33( 3), 1-13. doi:10.1111/jne.12957
NLM
Wasinski F, Chaves FM, Pedroso JAB, Mansano N da S, Camporez JPG, Gusmão DO, List EO, Kopchick JJ, Frazão R, Szawka RE, Donato Junior J. Growth hormone receptor in dopaminergic neurones regulates stress‐induced prolactin release in male mice [Internet]. Journal of Neuroendocrinology. 2021 ; 33( 3): 1-13.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1111/jne.12957
Vancouver
Wasinski F, Chaves FM, Pedroso JAB, Mansano N da S, Camporez JPG, Gusmão DO, List EO, Kopchick JJ, Frazão R, Szawka RE, Donato Junior J. Growth hormone receptor in dopaminergic neurones regulates stress‐induced prolactin release in male mice [Internet]. Journal of Neuroendocrinology. 2021 ; 33( 3): 1-13.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1111/jne.12957
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MOREIRA, Thiago dos Santos et al. The retrotrapezoid nucleus and the neuromodulation of breathing. Journal of Neurophysiology, v. 125, p. 699–719, 2021Tradução . . Disponível em: https://doi.org/10.1152/jn.00497.2020. Acesso em: 24 jul. 2024.
APA
Moreira, T. dos S., Sobrinho, C. R., Falquetto, B., Santos, L. M. O., Lima, J. D., Mulkey, D. K., & Takakura, A. C. (2021). The retrotrapezoid nucleus and the neuromodulation of breathing. Journal of Neurophysiology, 125, 699–719. doi:10.1152/jn.00497.2020
NLM
Moreira T dos S, Sobrinho CR, Falquetto B, Santos LMO, Lima JD, Mulkey DK, Takakura AC. The retrotrapezoid nucleus and the neuromodulation of breathing [Internet]. Journal of Neurophysiology. 2021 ; 125 699–719.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1152/jn.00497.2020
Vancouver
Moreira T dos S, Sobrinho CR, Falquetto B, Santos LMO, Lima JD, Mulkey DK, Takakura AC. The retrotrapezoid nucleus and the neuromodulation of breathing [Internet]. Journal of Neurophysiology. 2021 ; 125 699–719.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1152/jn.00497.2020
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SILVA, Aline David et al. Dual SGLT1/SGLT2 inhibitor phlorizin ameliorates non-alcoholic fatty liver disease and hepatic glucose production in type 2 diabetic mice. Diabetes, Metabolic Syndrome and Obesity, v. 2020, p. 739—751, 2020Tradução . . Disponível em: https://doi.org/10.2147/DMSO.S242282. Acesso em: 24 jul. 2024.
APA
Silva, A. D., Esteves, J. V. D. C., Morais, M. R. P. T., Freitas, H. S., Zorn, T. M. T., Giannella, M. L. C. C., & Machado, U. F. (2020). Dual SGLT1/SGLT2 inhibitor phlorizin ameliorates non-alcoholic fatty liver disease and hepatic glucose production in type 2 diabetic mice. Diabetes, Metabolic Syndrome and Obesity, 2020, 739—751. doi:10.2147/DMSO.S242282
NLM
Silva AD, Esteves JVDC, Morais MRPT, Freitas HS, Zorn TMT, Giannella MLCC, Machado UF. Dual SGLT1/SGLT2 inhibitor phlorizin ameliorates non-alcoholic fatty liver disease and hepatic glucose production in type 2 diabetic mice [Internet]. Diabetes, Metabolic Syndrome and Obesity. 2020 ; 2020 739—751.[citado 2024 jul. 24 ] Available from: https://doi.org/10.2147/DMSO.S242282
Vancouver
Silva AD, Esteves JVDC, Morais MRPT, Freitas HS, Zorn TMT, Giannella MLCC, Machado UF. Dual SGLT1/SGLT2 inhibitor phlorizin ameliorates non-alcoholic fatty liver disease and hepatic glucose production in type 2 diabetic mice [Internet]. Diabetes, Metabolic Syndrome and Obesity. 2020 ; 2020 739—751.[citado 2024 jul. 24 ] Available from: https://doi.org/10.2147/DMSO.S242282
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MOREIRA, Rafael Junges et al. Lipoatrophy-associated insulin resistance and hepatic steatosis are attenuated by intake of diet rich in omega 3 fatty acids. Molecular Nutrition & Food Research, p. 13 , 2020Tradução . . Disponível em: https://doi.org/10.1002/mnfr.201900833. Acesso em: 24 jul. 2024.
APA
Moreira, R. J., Castro, É. de, Silva, T. E. O. da, Oliveira, T. B. de, Peixoto, A. S., Chaves Filho, A. de B., et al. (2020). Lipoatrophy-associated insulin resistance and hepatic steatosis are attenuated by intake of diet rich in omega 3 fatty acids. Molecular Nutrition & Food Research, 13 . doi:10.1002/mnfr.201900833
NLM
Moreira RJ, Castro É de, Silva TEO da, Oliveira TB de, Peixoto AS, Chaves Filho A de B, Moreno MF, Lima JD, Yoshinaga MY, Miyamoto S, Morais MRPT, Zorn TMT, Cogliati B, Iwai LK, Palmisano G, Cabral FJ, Festuccia WTL. Lipoatrophy-associated insulin resistance and hepatic steatosis are attenuated by intake of diet rich in omega 3 fatty acids [Internet]. Molecular Nutrition & Food Research. 2020 ; 13 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1002/mnfr.201900833
Vancouver
Moreira RJ, Castro É de, Silva TEO da, Oliveira TB de, Peixoto AS, Chaves Filho A de B, Moreno MF, Lima JD, Yoshinaga MY, Miyamoto S, Morais MRPT, Zorn TMT, Cogliati B, Iwai LK, Palmisano G, Cabral FJ, Festuccia WTL. Lipoatrophy-associated insulin resistance and hepatic steatosis are attenuated by intake of diet rich in omega 3 fatty acids [Internet]. Molecular Nutrition & Food Research. 2020 ; 13 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1002/mnfr.201900833
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GARCIA, Bruna M. et al. Mice born to females with oocytespecific deletion of mitofusin 2 have increased weight gain and impaired glucose homeostasis. Molecular Human Reproduction, v. 26, n. 12, p. 938-952 + supplementary data, 2020Tradução . . Disponível em: https://doi.org/10.1093/molehr/gaaa071. Acesso em: 24 jul. 2024.
APA
Garcia, B. M., Machado, T. S., Carvalho, K. F., Nolasco, P., Nociti, R. P., Del Collado, M. B., et al. (2020). Mice born to females with oocytespecific deletion of mitofusin 2 have increased weight gain and impaired glucose homeostasis. Molecular Human Reproduction, 26( 12), 938-952 + supplementary data. doi:10.1093/molehr/gaaa071
NLM
Garcia BM, Machado TS, Carvalho KF, Nolasco P, Nociti RP, Del Collado MB, Bianco MJDC, Grejo MP, Augustro Neto JDA, Sugiyama FHC, Tostes K, Pandey AK, Gonçalves LM, Perecin F, Meirelles FV, Ferraz JBS, Vanzela EC, Boschero AC, Guimarães FEG, Abdulkader FR de M, Laurindo FRM, Kowaltowski AJ, Chiaratti MR. Mice born to females with oocytespecific deletion of mitofusin 2 have increased weight gain and impaired glucose homeostasis [Internet]. Molecular Human Reproduction. 2020 ; 26( 12): 938-952 + supplementary data.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1093/molehr/gaaa071
Vancouver
Garcia BM, Machado TS, Carvalho KF, Nolasco P, Nociti RP, Del Collado MB, Bianco MJDC, Grejo MP, Augustro Neto JDA, Sugiyama FHC, Tostes K, Pandey AK, Gonçalves LM, Perecin F, Meirelles FV, Ferraz JBS, Vanzela EC, Boschero AC, Guimarães FEG, Abdulkader FR de M, Laurindo FRM, Kowaltowski AJ, Chiaratti MR. Mice born to females with oocytespecific deletion of mitofusin 2 have increased weight gain and impaired glucose homeostasis [Internet]. Molecular Human Reproduction. 2020 ; 26( 12): 938-952 + supplementary data.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1093/molehr/gaaa071
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GENARIO, Rafael et al. Melatonin supplementation in the management of obesity and obesity-associated disorders: a review of physiological mechanisms and clinical applications. Pharmacological Research, p. 37 , 2020Tradução . . Disponível em: https://doi.org/10.1016/j.phrs.2020.105254. Acesso em: 24 jul. 2024.
APA
Genario, R., Cipolla Neto, J., Bueno, A. A., & Santos, H. O. (2020). Melatonin supplementation in the management of obesity and obesity-associated disorders: a review of physiological mechanisms and clinical applications. Pharmacological Research, 37 . doi:10.1016/j.phrs.2020.105254
NLM
Genario R, Cipolla Neto J, Bueno AA, Santos HO. Melatonin supplementation in the management of obesity and obesity-associated disorders: a review of physiological mechanisms and clinical applications [Internet]. Pharmacological Research. 2020 ;37 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.phrs.2020.105254
Vancouver
Genario R, Cipolla Neto J, Bueno AA, Santos HO. Melatonin supplementation in the management of obesity and obesity-associated disorders: a review of physiological mechanisms and clinical applications [Internet]. Pharmacological Research. 2020 ;37 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.phrs.2020.105254
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QUARESMA, Paula G. F. [Forma do nome como consta na publicação do artigo] et al. Cholinergic neurons in the hypothalamus and dorsal motor nucleus of the vagus are directly responsive to growth hormone. Life Sciences, v. 259, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.lfs.2020.118229. Acesso em: 24 jul. 2024.
APA
Quaresma, P. G. F. [F. do nome como consta na publicação do artigo], Teixeira, P. D. S. [F. do nome como consta na publicação do artigo], Wasinski, F., Campos, A. M. P., List, E. O., Kopchick, J. P., & Donato Junior, J. (2020). Cholinergic neurons in the hypothalamus and dorsal motor nucleus of the vagus are directly responsive to growth hormone. Life Sciences, 259. doi:10.1016/j.lfs.2020.118229
NLM
Quaresma PGF [F do nome como consta na publicação do artigo], Teixeira PDS [F do nome como consta na publicação do artigo], Wasinski F, Campos AMP, List EO, Kopchick JP, Donato Junior J. Cholinergic neurons in the hypothalamus and dorsal motor nucleus of the vagus are directly responsive to growth hormone [Internet]. Life Sciences. 2020 ; 259[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.lfs.2020.118229
Vancouver
Quaresma PGF [F do nome como consta na publicação do artigo], Teixeira PDS [F do nome como consta na publicação do artigo], Wasinski F, Campos AMP, List EO, Kopchick JP, Donato Junior J. Cholinergic neurons in the hypothalamus and dorsal motor nucleus of the vagus are directly responsive to growth hormone [Internet]. Life Sciences. 2020 ; 259[citado 2024 jul. 24 ] Available from: https://doi.org/10.1016/j.lfs.2020.118229
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TEIXEIRA, Pryscila Dryelle Sousa et al. Central growth hormone action regulates metabolism during pregnancy. American Journal of Physiology: Endocrinology and Metabolism, v. 317, n. 5, p. E925-E940, 2019Tradução . . Disponível em: https://doi.org/10.1152/ajpendo.00229.2019. Acesso em: 24 jul. 2024.
APA
Teixeira, P. D. S., Couto, G. C. L., Furigo, I. C., List, E. O., Kopchick, J. J., & Donato Junior, J. (2019). Central growth hormone action regulates metabolism during pregnancy. American Journal of Physiology: Endocrinology and Metabolism, 317( 5), E925-E940. doi:10.1152/ajpendo.00229.2019
NLM
Teixeira PDS, Couto GCL, Furigo IC, List EO, Kopchick JJ, Donato Junior J. Central growth hormone action regulates metabolism during pregnancy [Internet]. American Journal of Physiology: Endocrinology and Metabolism. 2019 ; 317( 5): E925-E940.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1152/ajpendo.00229.2019
Vancouver
Teixeira PDS, Couto GCL, Furigo IC, List EO, Kopchick JJ, Donato Junior J. Central growth hormone action regulates metabolism during pregnancy [Internet]. American Journal of Physiology: Endocrinology and Metabolism. 2019 ; 317( 5): E925-E940.[citado 2024 jul. 24 ] Available from: https://doi.org/10.1152/ajpendo.00229.2019
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
SOUZA, Caroline Aparecida Pereira de et al. Melatonin multiple effects on brown adipose tissue molecular machinery. Journal of Pineal Research, v. 66, p. 18 , 2019Tradução . . Disponível em: https://doi.org/10.1111/jpi.12549. Acesso em: 24 jul. 2024.
APA
Souza, C. A. P. de, Gallo, C. C., Camargo, L. S. de, Carvalho, P. V. V. de, Olesçuck, I. F., Macedo, F., et al. (2019). Melatonin multiple effects on brown adipose tissue molecular machinery. Journal of Pineal Research, 66, 18 . doi:10.1111/jpi.12549
NLM
Souza CAP de, Gallo CC, Camargo LS de, Carvalho PVV de, Olesçuck IF, Macedo F, Cunha FM da, Cipolla Neto J, Amaral FG do. Melatonin multiple effects on brown adipose tissue molecular machinery [Internet]. Journal of Pineal Research. 2019 ; 66 18 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1111/jpi.12549
Vancouver
Souza CAP de, Gallo CC, Camargo LS de, Carvalho PVV de, Olesçuck IF, Macedo F, Cunha FM da, Cipolla Neto J, Amaral FG do. Melatonin multiple effects on brown adipose tissue molecular machinery [Internet]. Journal of Pineal Research. 2019 ; 66 18 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1111/jpi.12549
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
MOUCHIROUD, Mathilde et al. The hepatokine Tsukushi is released in response to NAFLD and impacts cholesterol homeostasis. Journal of clinical investigation insight, v. 4, n. 15, p. 17 , 2019Tradução . . Disponível em: https://doi.org/10.1172/jci.insight.129492. Acesso em: 24 jul. 2024.
APA
Mouchiroud, M., Camiré, É., Aldow, M., Caron, A., Jubinville, É., Turcotte, L., et al. (2019). The hepatokine Tsukushi is released in response to NAFLD and impacts cholesterol homeostasis. Journal of clinical investigation insight, 4( 15), 17 . doi:10.1172/jci.insight.129492
NLM
Mouchiroud M, Camiré É, Aldow M, Caron A, Jubinville É, Turcotte L, Kaci I, Beaulieu M-J, Roy C, Labbé SM, Varin TV, Gélinas Y, Lamothe J, Trottier J, Mitchell PL, Guénard F, Festuccia WTL, Joubert P, Rose CF, Karvellas CJ, Barbier O, Morissette MC, Marette A, Laplante M. The hepatokine Tsukushi is released in response to NAFLD and impacts cholesterol homeostasis [Internet]. Journal of clinical investigation insight. 2019 ; 4( 15): 17 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1172/jci.insight.129492
Vancouver
Mouchiroud M, Camiré É, Aldow M, Caron A, Jubinville É, Turcotte L, Kaci I, Beaulieu M-J, Roy C, Labbé SM, Varin TV, Gélinas Y, Lamothe J, Trottier J, Mitchell PL, Guénard F, Festuccia WTL, Joubert P, Rose CF, Karvellas CJ, Barbier O, Morissette MC, Marette A, Laplante M. The hepatokine Tsukushi is released in response to NAFLD and impacts cholesterol homeostasis [Internet]. Journal of clinical investigation insight. 2019 ; 4( 15): 17 .[citado 2024 jul. 24 ] Available from: https://doi.org/10.1172/jci.insight.129492