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MACHADO, Ivo F. et al. Targeting oxidative stress with polyphenols to fight liver diseases. Antioxidants, v. 12, n. 6, p. 1-25, 2023Tradução . . Disponível em: https://doi.org/10.3390/antiox12061212. Acesso em: 23 maio 2024.
APA
Machado, I. F., Miranda, R. G., Dorta, D. J., Rolo, A. P., & Palmeira, C. M. (2023). Targeting oxidative stress with polyphenols to fight liver diseases. Antioxidants, 12( 6), 1-25. doi:10.3390/antiox12061212
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Machado IF, Miranda RG, Dorta DJ, Rolo AP, Palmeira CM. Targeting oxidative stress with polyphenols to fight liver diseases [Internet]. Antioxidants. 2023 ; 12( 6): 1-25.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12061212
Vancouver
Machado IF, Miranda RG, Dorta DJ, Rolo AP, Palmeira CM. Targeting oxidative stress with polyphenols to fight liver diseases [Internet]. Antioxidants. 2023 ; 12( 6): 1-25.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12061212
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CORDEIRO, Karina Silva et al. In Vitro Digestion of Peanut Skin Releases Bioactive Compounds and Increases Cancer Cell Toxicity. Antioxidants, v. 12, n. 7, p. 1356-1372, 2023Tradução . . Disponível em: https://doi.org/10.3390/antiox12071356. Acesso em: 23 maio 2024.
APA
Cordeiro, K. S., Sampaio, G. R., Soares Freitas, R. A. M., Pinaffi, A. C. da C., Bridi, R., Camargo, A. C. de, & Torres, E. A. F. da S. (2023). In Vitro Digestion of Peanut Skin Releases Bioactive Compounds and Increases Cancer Cell Toxicity. Antioxidants, 12( 7), 1356-1372. doi:10.3390/antiox12071356
NLM
Cordeiro KS, Sampaio GR, Soares Freitas RAM, Pinaffi AC da C, Bridi R, Camargo AC de, Torres EAF da S. In Vitro Digestion of Peanut Skin Releases Bioactive Compounds and Increases Cancer Cell Toxicity [Internet]. Antioxidants. 2023 ;12( 7): 1356-1372.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12071356
Vancouver
Cordeiro KS, Sampaio GR, Soares Freitas RAM, Pinaffi AC da C, Bridi R, Camargo AC de, Torres EAF da S. In Vitro Digestion of Peanut Skin Releases Bioactive Compounds and Increases Cancer Cell Toxicity [Internet]. Antioxidants. 2023 ;12( 7): 1356-1372.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12071356
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BACIL, Gabriel P. et al. Unraveling Hepatic Metabolomic Profiles and Morphological Outcomes in a Hybrid Model of NASH in Different Mouse Strains. Antioxidants, v. 12, p. 1-16, 2023Tradução . . Disponível em: https://doi.org/10.3390/antiox12020290. Acesso em: 23 maio 2024.
APA
Bacil, G. P., Romualdo, G. R., Piagge, P. M. F. D., Cardoso, D. R., Vinken, M., Cogliati, B., & Barbisan, L. F. (2023). Unraveling Hepatic Metabolomic Profiles and Morphological Outcomes in a Hybrid Model of NASH in Different Mouse Strains. Antioxidants, 12, 1-16. doi:10.3390/antiox12020290
NLM
Bacil GP, Romualdo GR, Piagge PMFD, Cardoso DR, Vinken M, Cogliati B, Barbisan LF. Unraveling Hepatic Metabolomic Profiles and Morphological Outcomes in a Hybrid Model of NASH in Different Mouse Strains [Internet]. Antioxidants. 2023 ; 12 1-16.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12020290
Vancouver
Bacil GP, Romualdo GR, Piagge PMFD, Cardoso DR, Vinken M, Cogliati B, Barbisan LF. Unraveling Hepatic Metabolomic Profiles and Morphological Outcomes in a Hybrid Model of NASH in Different Mouse Strains [Internet]. Antioxidants. 2023 ; 12 1-16.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12020290
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FIDELES, Simone Ortiz Moura et al. Influence of the neuroprotective properties of quercetin on regeneration and functional recovery of the nervous system. Antioxidants, v. 12, n. Ja 2023, 2023Tradução . . Disponível em: https://doi.org/10.3390/antiox12010149. Acesso em: 23 maio 2024.
APA
Fideles, S. O. M., Ortiz, A. de C., Buchaim, D. V., Pereira, E. de S. B. M., Parreira, M. J. B. M., Rossi, J. de O., et al. (2023). Influence of the neuroprotective properties of quercetin on regeneration and functional recovery of the nervous system. Antioxidants, 12( Ja 2023). doi:10.3390/antiox12010149
NLM
Fideles SOM, Ortiz A de C, Buchaim DV, Pereira E de SBM, Parreira MJBM, Rossi J de O, Cunha MR da, Souza AT de, Soares WC, Buchaim RL. Influence of the neuroprotective properties of quercetin on regeneration and functional recovery of the nervous system [Internet]. Antioxidants. 2023 ; 12( Ja 2023):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12010149
Vancouver
Fideles SOM, Ortiz A de C, Buchaim DV, Pereira E de SBM, Parreira MJBM, Rossi J de O, Cunha MR da, Souza AT de, Soares WC, Buchaim RL. Influence of the neuroprotective properties of quercetin on regeneration and functional recovery of the nervous system [Internet]. Antioxidants. 2023 ; 12( Ja 2023):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox12010149
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CORAL-PÉREZ, Santiago et al. Treatment with hydrogen-rich water improves the nociceptive and anxio-depressive-like behaviors associated with chronic inflammatory pain in mice. Antioxidants, v. 11, n. 11, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11112153. Acesso em: 23 maio 2024.
APA
Coral-Pérez, S., Martínez-Martel, I., Martínez-Serrat, M., Batallé, G., Bai, X., Leite-Panissi, C. R. A., & Pol, O. (2022). Treatment with hydrogen-rich water improves the nociceptive and anxio-depressive-like behaviors associated with chronic inflammatory pain in mice. Antioxidants, 11( 11). doi:10.3390/antiox11112153
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Coral-Pérez S, Martínez-Martel I, Martínez-Serrat M, Batallé G, Bai X, Leite-Panissi CRA, Pol O. Treatment with hydrogen-rich water improves the nociceptive and anxio-depressive-like behaviors associated with chronic inflammatory pain in mice [Internet]. Antioxidants. 2022 ; 11( 11):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11112153
Vancouver
Coral-Pérez S, Martínez-Martel I, Martínez-Serrat M, Batallé G, Bai X, Leite-Panissi CRA, Pol O. Treatment with hydrogen-rich water improves the nociceptive and anxio-depressive-like behaviors associated with chronic inflammatory pain in mice [Internet]. Antioxidants. 2022 ; 11( 11):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11112153
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ESTEVES, Larissa Cerrato et al. Structural effects on the antioxidant properties of amino acid betaxanthins. Antioxidants, v. 11, n. 11, p. 1-19, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11112259. Acesso em: 23 maio 2024.
APA
Esteves, L. C., Machado, C. de O., Gonçalves, L. C. P., Cavalcante, V. F., Obeid, G., Correra, T. C., & Bastos, E. L. (2022). Structural effects on the antioxidant properties of amino acid betaxanthins. Antioxidants, 11( 11), 1-19. doi:10.3390/antiox11112259
NLM
Esteves LC, Machado C de O, Gonçalves LCP, Cavalcante VF, Obeid G, Correra TC, Bastos EL. Structural effects on the antioxidant properties of amino acid betaxanthins [Internet]. Antioxidants. 2022 ; 11( 11): 1-19.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11112259
Vancouver
Esteves LC, Machado C de O, Gonçalves LCP, Cavalcante VF, Obeid G, Correra TC, Bastos EL. Structural effects on the antioxidant properties of amino acid betaxanthins [Internet]. Antioxidants. 2022 ; 11( 11): 1-19.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11112259
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CARVALHO, Larissa A. C et al. Redox related proteins in melanoma progression. Antioxidants, v. 11, p. 1-34 art. 438, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11030438. Acesso em: 23 maio 2024.
APA
Carvalho, L. A. C., Queijo, R. G., Baccaro, A. L. B., Siena, Á. D. D., Silva Junior, W. A. da, Rodrigues, T., & Maria-Engler, S. S. (2022). Redox related proteins in melanoma progression. Antioxidants, 11, 1-34 art. 438. doi:10.3390/antiox11030438
NLM
Carvalho LAC, Queijo RG, Baccaro ALB, Siena ÁDD, Silva Junior WA da, Rodrigues T, Maria-Engler SS. Redox related proteins in melanoma progression [Internet]. Antioxidants. 2022 ; 11 1-34 art. 438.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11030438
Vancouver
Carvalho LAC, Queijo RG, Baccaro ALB, Siena ÁDD, Silva Junior WA da, Rodrigues T, Maria-Engler SS. Redox related proteins in melanoma progression [Internet]. Antioxidants. 2022 ; 11 1-34 art. 438.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11030438
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PASCOAL, Gabriela de Freitas Laiber et al. Selenium supplementation during puberty and young adulthood mitigates obesity-induced metabolic, cellular and epigenetic alterations in male rat physiology. Antioxidants, v. 11, n. 5, p. 1-13, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11050895. Acesso em: 23 maio 2024.
APA
Pascoal, G. de F. L., Novaes, G. M., Sobrinho, M. de P., Hirayama, A. B., Castro, I. A. de, & Ong, T. P. (2022). Selenium supplementation during puberty and young adulthood mitigates obesity-induced metabolic, cellular and epigenetic alterations in male rat physiology. Antioxidants, 11( 5), 1-13. doi:10.3390/antiox11050895
NLM
Pascoal G de FL, Novaes GM, Sobrinho M de P, Hirayama AB, Castro IA de, Ong TP. Selenium supplementation during puberty and young adulthood mitigates obesity-induced metabolic, cellular and epigenetic alterations in male rat physiology [Internet]. Antioxidants. 2022 ; 11( 5): 1-13.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11050895
Vancouver
Pascoal G de FL, Novaes GM, Sobrinho M de P, Hirayama AB, Castro IA de, Ong TP. Selenium supplementation during puberty and young adulthood mitigates obesity-induced metabolic, cellular and epigenetic alterations in male rat physiology [Internet]. Antioxidants. 2022 ; 11( 5): 1-13.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11050895
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BUENO-PEREIRA, Thaina Omia et al. Markers of endothelial dysfunction are attenuated by resveratrol in preeclampsia. Antioxidants, v. 11, n. 11, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11112111. Acesso em: 23 maio 2024.
APA
Bueno-Pereira, T. O., Bertozzi-Matheus, M., Zampieri, G. M., Abbade, J. F., Cavalli, R. de C., Nunes, P. R., & Sandrim, V. C. (2022). Markers of endothelial dysfunction are attenuated by resveratrol in preeclampsia. Antioxidants, 11( 11). doi:10.3390/antiox11112111
NLM
Bueno-Pereira TO, Bertozzi-Matheus M, Zampieri GM, Abbade JF, Cavalli R de C, Nunes PR, Sandrim VC. Markers of endothelial dysfunction are attenuated by resveratrol in preeclampsia [Internet]. Antioxidants. 2022 ; 11( 11):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11112111
Vancouver
Bueno-Pereira TO, Bertozzi-Matheus M, Zampieri GM, Abbade JF, Cavalli R de C, Nunes PR, Sandrim VC. Markers of endothelial dysfunction are attenuated by resveratrol in preeclampsia [Internet]. Antioxidants. 2022 ; 11( 11):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11112111
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SANTAMARINA, Aline Boveto et al. The symbiotic effect of a new nutraceutical with Yeast β-Glucan, Prebiotics, Minerals, and Silybum marianum (Silymarin) for recovering metabolic homeostasis via Pgc-1α, Il-6, and Il-10 gene expression in a Type-2 Diabetes Obesity model. Antioxidants, v. 11, p. 1-24, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11030447. Acesso em: 23 maio 2024.
APA
Santamarina, A. B., Moraes, R. C. M., Nehmi Filho, V., Murata, G. M., Freitas, J. A. de, Miranda, D. A. de, et al. (2022). The symbiotic effect of a new nutraceutical with Yeast β-Glucan, Prebiotics, Minerals, and Silybum marianum (Silymarin) for recovering metabolic homeostasis via Pgc-1α, Il-6, and Il-10 gene expression in a Type-2 Diabetes Obesity model. Antioxidants, 11, 1-24. doi:10.3390/antiox11030447
NLM
Santamarina AB, Moraes RCM, Nehmi Filho V, Murata GM, Freitas JA de, Miranda DA de, Cerqueira ARA, Costa SKP, Ferreira AFF, Britto LRG de. The symbiotic effect of a new nutraceutical with Yeast β-Glucan, Prebiotics, Minerals, and Silybum marianum (Silymarin) for recovering metabolic homeostasis via Pgc-1α, Il-6, and Il-10 gene expression in a Type-2 Diabetes Obesity model [Internet]. Antioxidants. 2022 ; 11 1-24.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11030447
Vancouver
Santamarina AB, Moraes RCM, Nehmi Filho V, Murata GM, Freitas JA de, Miranda DA de, Cerqueira ARA, Costa SKP, Ferreira AFF, Britto LRG de. The symbiotic effect of a new nutraceutical with Yeast β-Glucan, Prebiotics, Minerals, and Silybum marianum (Silymarin) for recovering metabolic homeostasis via Pgc-1α, Il-6, and Il-10 gene expression in a Type-2 Diabetes Obesity model [Internet]. Antioxidants. 2022 ; 11 1-24.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11030447
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SANTO, Sara Gomes Espírito et al. The implications of connexin 43 deficiency during the early stages of chemically induced mouse colon carcinogenesis. Antioxidants, v. 11, p. 1-16, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11122368. Acesso em: 23 maio 2024.
APA
Santo, S. G. E., Silva, T. C. da, Vinken, M., Cogliati, B., Barbisan, L. F., & Romualdo, G. R. (2022). The implications of connexin 43 deficiency during the early stages of chemically induced mouse colon carcinogenesis. Antioxidants, 11, 1-16. doi:10.3390/antiox11122368
NLM
Santo SGE, Silva TC da, Vinken M, Cogliati B, Barbisan LF, Romualdo GR. The implications of connexin 43 deficiency during the early stages of chemically induced mouse colon carcinogenesis [Internet]. Antioxidants. 2022 ; 11 1-16.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11122368
Vancouver
Santo SGE, Silva TC da, Vinken M, Cogliati B, Barbisan LF, Romualdo GR. The implications of connexin 43 deficiency during the early stages of chemically induced mouse colon carcinogenesis [Internet]. Antioxidants. 2022 ; 11 1-16.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11122368
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LEAL, Dalila Pinheiro et al. The interplay of sirtuin-1, LDL-cholesterol, and HDL function: a randomized controlled trial comparing the effects of energy restriction and atorvastatin on women with premature coronary artery disease. Antioxidants, v. 11, n. 12, p. 1-13, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11122363. Acesso em: 23 maio 2024.
APA
Leal, D. P., Gonçalinho, G. H. F., Tavoni, T. M., Kuwabara, K. L., Paccanaro, A. P., Freitas, F. R., et al. (2022). The interplay of sirtuin-1, LDL-cholesterol, and HDL function: a randomized controlled trial comparing the effects of energy restriction and atorvastatin on women with premature coronary artery disease. Antioxidants, 11( 12), 1-13. doi:10.3390/antiox11122363
NLM
Leal DP, Gonçalinho GHF, Tavoni TM, Kuwabara KL, Paccanaro AP, Freitas FR, Strunz CMC, Cesar LAM, Maranhão RC, Mansur A de P. The interplay of sirtuin-1, LDL-cholesterol, and HDL function: a randomized controlled trial comparing the effects of energy restriction and atorvastatin on women with premature coronary artery disease [Internet]. Antioxidants. 2022 ; 11( 12): 1-13.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11122363
Vancouver
Leal DP, Gonçalinho GHF, Tavoni TM, Kuwabara KL, Paccanaro AP, Freitas FR, Strunz CMC, Cesar LAM, Maranhão RC, Mansur A de P. The interplay of sirtuin-1, LDL-cholesterol, and HDL function: a randomized controlled trial comparing the effects of energy restriction and atorvastatin on women with premature coronary artery disease [Internet]. Antioxidants. 2022 ; 11( 12): 1-13.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11122363
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ABREU, Edina da Luz et al. ROS suppression by egg white hydrolysate in DOCA-Salt rats—an alternative tool against vascular dysfunction in severe hypertension. Antioxidants, v. 11, n. 9, p. 1-21, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11091713. Acesso em: 23 maio 2024.
APA
Abreu, E. da L., Moro, C. R., Kanaan, S. H. H., Paula, R. B. de, Herrera, C. T., Costa, P. H. D., et al. (2022). ROS suppression by egg white hydrolysate in DOCA-Salt rats—an alternative tool against vascular dysfunction in severe hypertension. Antioxidants, 11( 9), 1-21. doi:10.3390/antiox11091713
NLM
Abreu E da L, Moro CR, Kanaan SHH, Paula RB de, Herrera CT, Costa PHD, Peçanha FM, Vassallo DV, Rossoni LV, Castro MM, Wiggers GA. ROS suppression by egg white hydrolysate in DOCA-Salt rats—an alternative tool against vascular dysfunction in severe hypertension [Internet]. Antioxidants. 2022 ; 11( 9): 1-21.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11091713
Vancouver
Abreu E da L, Moro CR, Kanaan SHH, Paula RB de, Herrera CT, Costa PHD, Peçanha FM, Vassallo DV, Rossoni LV, Castro MM, Wiggers GA. ROS suppression by egg white hydrolysate in DOCA-Salt rats—an alternative tool against vascular dysfunction in severe hypertension [Internet]. Antioxidants. 2022 ; 11( 9): 1-21.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11091713
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RODRIGUES, Luis Felipe et al. Angiotensin II Promotes Skeletal Muscle Angiogenesis Induced by Volume-Dependent Aerobic Exercise Training: Effects on miRNAs-27a/b and Oxidant–Antioxidant Balance. Antioxidants, v. 11, n. 4, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11040651. Acesso em: 23 maio 2024.
APA
Rodrigues, L. F., Pelozin, B. R. A., Silva Júnior, N. D. da, Soci, U. P. R., Carmo, E. C. do, Mota, G. de F. A. da, et al. (2022). Angiotensin II Promotes Skeletal Muscle Angiogenesis Induced by Volume-Dependent Aerobic Exercise Training: Effects on miRNAs-27a/b and Oxidant–Antioxidant Balance. Antioxidants, 11( 4). doi:10.3390/antiox11040651
NLM
Rodrigues LF, Pelozin BRA, Silva Júnior ND da, Soci UPR, Carmo EC do, Mota G de FA da, Cachofeiro V, Lahera V, Oliveira EM de, Fernandes T. Angiotensin II Promotes Skeletal Muscle Angiogenesis Induced by Volume-Dependent Aerobic Exercise Training: Effects on miRNAs-27a/b and Oxidant–Antioxidant Balance [Internet]. Antioxidants. 2022 ; 11( 4):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11040651
Vancouver
Rodrigues LF, Pelozin BRA, Silva Júnior ND da, Soci UPR, Carmo EC do, Mota G de FA da, Cachofeiro V, Lahera V, Oliveira EM de, Fernandes T. Angiotensin II Promotes Skeletal Muscle Angiogenesis Induced by Volume-Dependent Aerobic Exercise Training: Effects on miRNAs-27a/b and Oxidant–Antioxidant Balance [Internet]. Antioxidants. 2022 ; 11( 4):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11040651
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BOCHI, Ana Paula Garcia et al. Aerobic exercise training reduces atherogenesis induced by Low-Sodium diet in LDL receptor knockout mice. Antioxidants, v. 11, n. 10, p. 1-16, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11102023. Acesso em: 23 maio 2024.
APA
Bochi, A. P. G., Ferreira, G. da S., Bianco, V. D., Pinto, P. R., Rodrigues, L. G., Trevisani, M. da S., et al. (2022). Aerobic exercise training reduces atherogenesis induced by Low-Sodium diet in LDL receptor knockout mice. Antioxidants, 11( 10), 1-16. doi:10.3390/antiox11102023
NLM
Bochi APG, Ferreira G da S, Bianco VD, Pinto PR, Rodrigues LG, Trevisani M da S, Furukawa LNS, Bispo KCS, Silva AA da, Velosa APP, Nakandakare ER, Machado UF, Teodoro WPR, Passarelli M, Catanozi S. Aerobic exercise training reduces atherogenesis induced by Low-Sodium diet in LDL receptor knockout mice [Internet]. Antioxidants. 2022 ; 11( 10): 1-16.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11102023
Vancouver
Bochi APG, Ferreira G da S, Bianco VD, Pinto PR, Rodrigues LG, Trevisani M da S, Furukawa LNS, Bispo KCS, Silva AA da, Velosa APP, Nakandakare ER, Machado UF, Teodoro WPR, Passarelli M, Catanozi S. Aerobic exercise training reduces atherogenesis induced by Low-Sodium diet in LDL receptor knockout mice [Internet]. Antioxidants. 2022 ; 11( 10): 1-16.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11102023
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DA BROI, Michele Gomes et al. The impact of controlled ovarian stimulation on serum oxidative stress markers in infertile women with endometriosis undergoing ICSI. Antioxidants, v. 11, n. 6, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11061161. Acesso em: 23 maio 2024.
APA
Da Broi, M. G., Ferreira, E. M., Andrade, A. Z., Jordão Júnior, A. A., Ferriani, R. A., & Navarro, P. A. (2022). The impact of controlled ovarian stimulation on serum oxidative stress markers in infertile women with endometriosis undergoing ICSI. Antioxidants, 11( 6). doi:10.3390/antiox11061161
NLM
Da Broi MG, Ferreira EM, Andrade AZ, Jordão Júnior AA, Ferriani RA, Navarro PA. The impact of controlled ovarian stimulation on serum oxidative stress markers in infertile women with endometriosis undergoing ICSI [Internet]. Antioxidants. 2022 ; 11( 6):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11061161
Vancouver
Da Broi MG, Ferreira EM, Andrade AZ, Jordão Júnior AA, Ferriani RA, Navarro PA. The impact of controlled ovarian stimulation on serum oxidative stress markers in infertile women with endometriosis undergoing ICSI [Internet]. Antioxidants. 2022 ; 11( 6):[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11061161
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ROSALES, Thiecla Katiane Osvaldt et al. Nanotechnology as a tool to mitigate the effects of intestinal microbiota on metabolization of anthocyanins. Antioxidants, v. 11, p. 1-22 art. 506, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11030506. Acesso em: 23 maio 2024.
APA
Rosales, T. K. O., Hassimotto, N. M. A., Lajolo, F. M., & Fabi, J. P. (2022). Nanotechnology as a tool to mitigate the effects of intestinal microbiota on metabolization of anthocyanins. Antioxidants, 11, 1-22 art. 506. doi:10.3390/antiox11030506
NLM
Rosales TKO, Hassimotto NMA, Lajolo FM, Fabi JP. Nanotechnology as a tool to mitigate the effects of intestinal microbiota on metabolization of anthocyanins [Internet]. Antioxidants. 2022 ; 11 1-22 art. 506.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11030506
Vancouver
Rosales TKO, Hassimotto NMA, Lajolo FM, Fabi JP. Nanotechnology as a tool to mitigate the effects of intestinal microbiota on metabolization of anthocyanins [Internet]. Antioxidants. 2022 ; 11 1-22 art. 506.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11030506
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DEMPSEY, Bianca et al. Uric acid reacts with peroxidasin, decreases collagen iv crosslink, impairs human endothelial cell migration and adhesion. Antioxidants, v. 11, p. 1-20 art. 1117, 2022Tradução . . Disponível em: https://doi.org/10.3390/antiox11061117. Acesso em: 23 maio 2024.
APA
Dempsey, B., Cruz, L. C. da, Mineiro, M. F., Silva, R. P. da, & Meotti, F. C. (2022). Uric acid reacts with peroxidasin, decreases collagen iv crosslink, impairs human endothelial cell migration and adhesion. Antioxidants, 11, 1-20 art. 1117. doi:10.3390/antiox11061117
NLM
Dempsey B, Cruz LC da, Mineiro MF, Silva RP da, Meotti FC. Uric acid reacts with peroxidasin, decreases collagen iv crosslink, impairs human endothelial cell migration and adhesion [Internet]. Antioxidants. 2022 ; 11 1-20 art. 1117.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11061117
Vancouver
Dempsey B, Cruz LC da, Mineiro MF, Silva RP da, Meotti FC. Uric acid reacts with peroxidasin, decreases collagen iv crosslink, impairs human endothelial cell migration and adhesion [Internet]. Antioxidants. 2022 ; 11 1-20 art. 1117.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox11061117
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
BOAS, Eloisa Aparecida Vilas et al. Early cytokine-induced transient NOX2 activity is ER stress-dependent and impacts β-cell function and survival. Antioxidants, v. 10, n. 8, p. 1-20, 2021Tradução . . Disponível em: https://doi.org/10.3390/antiox10081305. Acesso em: 23 maio 2024.
APA
Boas, E. A. V., Carlein, C., Nalbach, L., Almeida, D. C. de, Ampofo, E., Carpinelli, A. R., et al. (2021). Early cytokine-induced transient NOX2 activity is ER stress-dependent and impacts β-cell function and survival. Antioxidants, 10( 8), 1-20. doi:10.3390/antiox10081305
NLM
Boas EAV, Carlein C, Nalbach L, Almeida DC de, Ampofo E, Carpinelli AR, Roma LP, Ortis F. Early cytokine-induced transient NOX2 activity is ER stress-dependent and impacts β-cell function and survival [Internet]. Antioxidants. 2021 ; 10( 8): 1-20.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox10081305
Vancouver
Boas EAV, Carlein C, Nalbach L, Almeida DC de, Ampofo E, Carpinelli AR, Roma LP, Ortis F. Early cytokine-induced transient NOX2 activity is ER stress-dependent and impacts β-cell function and survival [Internet]. Antioxidants. 2021 ; 10( 8): 1-20.[citado 2024 maio 23 ] Available from: https://doi.org/10.3390/antiox10081305