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Artigo de periodico
Carvacrol promotes neuroprotection in the mouse hemiparkinsonian model (2017)
Dati, L. M; Ulrich, Henning ; Real, C. C; Feng, Z. P; Sun, H. S; Britto, Luiz Roberto Giorgetti de
Source: Neuroscience. Unidades: IQ, ICB
Subjects: DOENÇA DE PARKINSON, NEURÔNIOS
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ABNT
DATI, L. M et al. Carvacrol promotes neuroprotection in the mouse hemiparkinsonian model. Neuroscience, v. 356, p. 176-181, 2017Tradução . . Disponível em: https://doi.org/10.1016/j.neuroscience.2017.05.013. Acesso em: 17 maio 2024.
APA
Dati, L. M., Ulrich, H., Real, C. C., Feng, Z. P., Sun, H. S., & Britto, L. R. G. de. (2017). Carvacrol promotes neuroprotection in the mouse hemiparkinsonian model. Neuroscience, 356, 176-181. doi:10.1016/j.neuroscience.2017.05.013
NLM
Dati LM, Ulrich H, Real CC, Feng ZP, Sun HS, Britto LRG de. Carvacrol promotes neuroprotection in the mouse hemiparkinsonian model [Internet]. Neuroscience. 2017 ; 356 176-181.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.neuroscience.2017.05.013
Vancouver
Dati LM, Ulrich H, Real CC, Feng ZP, Sun HS, Britto LRG de. Carvacrol promotes neuroprotection in the mouse hemiparkinsonian model [Internet]. Neuroscience. 2017 ; 356 176-181.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.neuroscience.2017.05.013
Artigo de periodico
Brilliant blue G, but not fenofibrate, treatment reverts hemiparkinsonian behavior and restores dopamine levels in an animal model of Parkinson's disease (2017)
Ferrazoli, Enéas Galdini; Souza, Hellio Danny Nobrega de; Nascimento, Isis Cristina do; Giacomelli, Ágatha Oliveira; Schwindt, Telma Tiemi; Britto, Luiz Roberto Giorgetti de ; Ulrich, Henning
Source: Cell Transplantation. Unidades: ICB, IQ
Subjects: DOENÇA DE PARKINSON, ESTRESSE OXIDATIVO, RECEPTORES DOPAMINÉRGICOS
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ABNT
FERRAZOLI, Enéas Galdini et al. Brilliant blue G, but not fenofibrate, treatment reverts hemiparkinsonian behavior and restores dopamine levels in an animal model of Parkinson's disease. Cell Transplantation, v. 26, n. 4, p. 669-677, 2017Tradução . . Disponível em: https://doi.org/10.3727/096368917X695227. Acesso em: 17 maio 2024.
APA
Ferrazoli, E. G., Souza, H. D. N. de, Nascimento, I. C. do, Giacomelli, Á. O., Schwindt, T. T., Britto, L. R. G. de, & Ulrich, H. (2017). Brilliant blue G, but not fenofibrate, treatment reverts hemiparkinsonian behavior and restores dopamine levels in an animal model of Parkinson's disease. Cell Transplantation, 26( 4), 669-677. doi:10.3727/096368917X695227
NLM
Ferrazoli EG, Souza HDN de, Nascimento IC do, Giacomelli ÁO, Schwindt TT, Britto LRG de, Ulrich H. Brilliant blue G, but not fenofibrate, treatment reverts hemiparkinsonian behavior and restores dopamine levels in an animal model of Parkinson's disease [Internet]. Cell Transplantation. 2017 ; 26( 4): 669-677.[citado 2024 maio 17 ] Available from: https://doi.org/10.3727/096368917X695227
Vancouver
Ferrazoli EG, Souza HDN de, Nascimento IC do, Giacomelli ÁO, Schwindt TT, Britto LRG de, Ulrich H. Brilliant blue G, but not fenofibrate, treatment reverts hemiparkinsonian behavior and restores dopamine levels in an animal model of Parkinson's disease [Internet]. Cell Transplantation. 2017 ; 26( 4): 669-677.[citado 2024 maio 17 ] Available from: https://doi.org/10.3727/096368917X695227
Artigo de periodico
NADPH oxidase contributes to streptozotocin-induced neurodegeneration (2017)
Ravelli, Katherine Garcia; Rosário, Barbára dos Anjos; Vasconcelos, Andrea Rodrigues; Scavone, Cristoforo ; Camarini, Rosana ; Hernandes, Marina S.; Britto, Luiz Roberto Giorgetti de
Source: Neuroscience. Unidade: ICB
Subjects: FISIOLOGIA, FARMACOLOGIA
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ABNT
RAVELLI, Katherine Garcia et al. NADPH oxidase contributes to streptozotocin-induced neurodegeneration. Neuroscience, v. 358, p. 227-237, 2017Tradução . . Disponível em: https://doi.org/10.1016/j.neuroscience.2017.06.050. Acesso em: 17 maio 2024.
APA
Ravelli, K. G., Rosário, B. dos A., Vasconcelos, A. R., Scavone, C., Camarini, R., Hernandes, M. S., & Britto, L. R. G. de. (2017). NADPH oxidase contributes to streptozotocin-induced neurodegeneration. Neuroscience, 358, 227-237. doi:10.1016/j.neuroscience.2017.06.050
NLM
Ravelli KG, Rosário B dos A, Vasconcelos AR, Scavone C, Camarini R, Hernandes MS, Britto LRG de. NADPH oxidase contributes to streptozotocin-induced neurodegeneration [Internet]. Neuroscience. 2017 ; 358 227-237.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.neuroscience.2017.06.050
Vancouver
Ravelli KG, Rosário B dos A, Vasconcelos AR, Scavone C, Camarini R, Hernandes MS, Britto LRG de. NADPH oxidase contributes to streptozotocin-induced neurodegeneration [Internet]. Neuroscience. 2017 ; 358 227-237.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.neuroscience.2017.06.050
Artigo de periodico
Peptidomic analysis of the anterior temporal lobe and corpus callosum from schizophrenia patients (2017)
Café-Mendes, C. C.; Ferro, Emer Suavinho ; Torrão, Andréa da Silva ; Crunfli, F.; Rioli, V.; Schmitt, A.; Falkai, P.; Britto, Luiz Roberto Giorgetti de ; Turck, C. W.; Martins-de-Souza, D.
Source: Journal of Proteomics. Unidade: ICB
Subjects: FISIOLOGIA, FARMACOLOGIA
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ABNT
CAFÉ-MENDES, C. C. et al. Peptidomic analysis of the anterior temporal lobe and corpus callosum from schizophrenia patients. Journal of Proteomics, v. 151, p. 97-105, 2017Tradução . . Disponível em: https://doi.org/10.1016/j.jprot.2016.05.025. Acesso em: 17 maio 2024.
APA
Café-Mendes, C. C., Ferro, E. S., Torrão, A. da S., Crunfli, F., Rioli, V., Schmitt, A., et al. (2017). Peptidomic analysis of the anterior temporal lobe and corpus callosum from schizophrenia patients. Journal of Proteomics, 151, 97-105. doi:10.1016/j.jprot.2016.05.025
NLM
Café-Mendes CC, Ferro ES, Torrão A da S, Crunfli F, Rioli V, Schmitt A, Falkai P, Britto LRG de, Turck CW, Martins-de-Souza D. Peptidomic analysis of the anterior temporal lobe and corpus callosum from schizophrenia patients [Internet]. Journal of Proteomics. 2017 ; 151 97-105.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.jprot.2016.05.025
Vancouver
Café-Mendes CC, Ferro ES, Torrão A da S, Crunfli F, Rioli V, Schmitt A, Falkai P, Britto LRG de, Turck CW, Martins-de-Souza D. Peptidomic analysis of the anterior temporal lobe and corpus callosum from schizophrenia patients [Internet]. Journal of Proteomics. 2017 ; 151 97-105.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.jprot.2016.05.025
Artigo de periodico
GSK-3β inhibitor TDZD-8 reduces neonatal hypoxic-ischemic brain injury in mice (2017)
Huang, Sammen; Wang, Haitao; Turlova, Ekaterina; Abussaud, Ahmed; Ji, Xiang; Britto, Luiz Roberto Giorgetti de ; Miller, Steven P.; Martinez, Ana; Sun, Hong‐Shuo; Feng, Zhong‐Ping
Source: CNS Neuroscience & Therapeutics. Unidade: ICB
Assunto: FISIOLOGIA
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ABNT
HUANG, Sammen et al. GSK-3β inhibitor TDZD-8 reduces neonatal hypoxic-ischemic brain injury in mice. CNS Neuroscience & Therapeutics, v. 23, n. 5, p. 405-415, 2017Tradução . . Disponível em: https://doi.org/10.1111/cns.12683. Acesso em: 17 maio 2024.
APA
Huang, S., Wang, H., Turlova, E., Abussaud, A., Ji, X., Britto, L. R. G. de, et al. (2017). GSK-3β inhibitor TDZD-8 reduces neonatal hypoxic-ischemic brain injury in mice. CNS Neuroscience & Therapeutics, 23( 5), 405-415. doi:10.1111/cns.12683
NLM
Huang S, Wang H, Turlova E, Abussaud A, Ji X, Britto LRG de, Miller SP, Martinez A, Sun H‐S, Feng Z‐P. GSK-3β inhibitor TDZD-8 reduces neonatal hypoxic-ischemic brain injury in mice [Internet]. CNS Neuroscience & Therapeutics. 2017 ; 23( 5): 405-415.[citado 2024 maio 17 ] Available from: https://doi.org/10.1111/cns.12683
Vancouver
Huang S, Wang H, Turlova E, Abussaud A, Ji X, Britto LRG de, Miller SP, Martinez A, Sun H‐S, Feng Z‐P. GSK-3β inhibitor TDZD-8 reduces neonatal hypoxic-ischemic brain injury in mice [Internet]. CNS Neuroscience & Therapeutics. 2017 ; 23( 5): 405-415.[citado 2024 maio 17 ] Available from: https://doi.org/10.1111/cns.12683
Artigo de periodico
A novel peptide that improves metabolic parameters without adverse central nervous system effects (2017)
Reckziegel, Patricia ; Festuccia, William Tadeu Lara ; Britto, Luiz Roberto Giorgetti de ; Heimann, Joel Cláudio ; Guimarães, Francisco Silveira ; Eichler, Rosangela Aparecida dos Santos ; Ferro, Emer Suavinho
Source: Scientific reports. Unidades: ICB, FM, FMRP
Subjects: PEPTÍDEOS, METABOLISMO, SISTEMA NERVOSO CENTRAL, FARMACOLOGIA, FISIOLOGIA
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ABNT
RECKZIEGEL, Patricia et al. A novel peptide that improves metabolic parameters without adverse central nervous system effects. Scientific reports, v. 7, 2017Tradução . . Disponível em: https://doi.org/10.1038/s41598-017-13690-9. Acesso em: 17 maio 2024.
APA
Reckziegel, P., Festuccia, W. T. L., Britto, L. R. G. de, Heimann, J. C., Guimarães, F. S., Eichler, R. A. dos S., & Ferro, E. S. (2017). A novel peptide that improves metabolic parameters without adverse central nervous system effects. Scientific reports, 7. doi:10.1038/s41598-017-13690-9
NLM
Reckziegel P, Festuccia WTL, Britto LRG de, Heimann JC, Guimarães FS, Eichler RA dos S, Ferro ES. A novel peptide that improves metabolic parameters without adverse central nervous system effects [Internet]. Scientific reports. 2017 ; 7[citado 2024 maio 17 ] Available from: https://doi.org/10.1038/s41598-017-13690-9
Vancouver
Reckziegel P, Festuccia WTL, Britto LRG de, Heimann JC, Guimarães FS, Eichler RA dos S, Ferro ES. A novel peptide that improves metabolic parameters without adverse central nervous system effects [Internet]. Scientific reports. 2017 ; 7[citado 2024 maio 17 ] Available from: https://doi.org/10.1038/s41598-017-13690-9
Artigo de periodico
Intracerebroventricular streptozotocin as a model of Alzheimer’s disease: neurochemical and behavioral characterization in mice (2017)
Ravelli, Katherine Garcia; Rosário, Barbara dos Anjos; Camarini, Rosana ; Hernandes, Marina Sorrentino; Britto, Luiz Roberto Giorgetti de
Source: Neurotoxicity Research. Unidade: ICB
Subjects: FISIOLOGIA, FARMACOLOGIA
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ABNT
RAVELLI, Katherine Garcia et al. Intracerebroventricular streptozotocin as a model of Alzheimer’s disease: neurochemical and behavioral characterization in mice. Neurotoxicity Research, v. 31, n. 3, p. 327-333, 2017Tradução . . Disponível em: https://doi.org/10.1007/s12640-016-9684-7. Acesso em: 17 maio 2024.
APA
Ravelli, K. G., Rosário, B. dos A., Camarini, R., Hernandes, M. S., & Britto, L. R. G. de. (2017). Intracerebroventricular streptozotocin as a model of Alzheimer’s disease: neurochemical and behavioral characterization in mice. Neurotoxicity Research, 31( 3), 327-333. doi:10.1007/s12640-016-9684-7
NLM
Ravelli KG, Rosário B dos A, Camarini R, Hernandes MS, Britto LRG de. Intracerebroventricular streptozotocin as a model of Alzheimer’s disease: neurochemical and behavioral characterization in mice [Internet]. Neurotoxicity Research. 2017 ; 31( 3): 327-333.[citado 2024 maio 17 ] Available from: https://doi.org/10.1007/s12640-016-9684-7
Vancouver
Ravelli KG, Rosário B dos A, Camarini R, Hernandes MS, Britto LRG de. Intracerebroventricular streptozotocin as a model of Alzheimer’s disease: neurochemical and behavioral characterization in mice [Internet]. Neurotoxicity Research. 2017 ; 31( 3): 327-333.[citado 2024 maio 17 ] Available from: https://doi.org/10.1007/s12640-016-9684-7
Artigo de periodico
Distinct neuroplasticity processes are induced by different periods of acrobatic exercise training (2016)
Salame, Samira; Garcia, Priscila C.; Real, Caroline C.; Borborema, Juliana; Mota-Ortiz, Sandra R.; Britto, Luiz Roberto Giorgetti de ; Pires, Raquel S.
Source: Behavioural Brain Research. Unidade: ICB
Assunto: FISIOLOGIA
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ABNT
SALAME, Samira et al. Distinct neuroplasticity processes are induced by different periods of acrobatic exercise training. Behavioural Brain Research, v. 308, p. 64-74, 2016Tradução . . Disponível em: https://doi.org/10.1016/j.bbr.2016.04.0296. Acesso em: 17 maio 2024.
APA
Salame, S., Garcia, P. C., Real, C. C., Borborema, J., Mota-Ortiz, S. R., Britto, L. R. G. de, & Pires, R. S. (2016). Distinct neuroplasticity processes are induced by different periods of acrobatic exercise training. Behavioural Brain Research, 308, 64-74. doi:10.1016/j.bbr.2016.04.0296
NLM
Salame S, Garcia PC, Real CC, Borborema J, Mota-Ortiz SR, Britto LRG de, Pires RS. Distinct neuroplasticity processes are induced by different periods of acrobatic exercise training [Internet]. Behavioural Brain Research. 2016 ; 308 64-74.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.bbr.2016.04.0296
Vancouver
Salame S, Garcia PC, Real CC, Borborema J, Mota-Ortiz SR, Britto LRG de, Pires RS. Distinct neuroplasticity processes are induced by different periods of acrobatic exercise training [Internet]. Behavioural Brain Research. 2016 ; 308 64-74.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.bbr.2016.04.0296
Artigo de periodico
Social stress in adolescents induces depression and brain-region-specific modulation of the transcription factor MAX (2016)
Resende, L. S.; Amaral, C. E.; Soares, R. B. S.; Alves, A. S.; Alves-dos-Santos, L.; Britto, Luiz Roberto Giorgetti de ; Chiavegatto, Silvana
Source: Translational Psychiatry. Unidade: ICB
Subjects: FISIOLOGIA, FARMACOLOGIA
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ABNT
RESENDE, L. S. et al. Social stress in adolescents induces depression and brain-region-specific modulation of the transcription factor MAX. Translational Psychiatry, v. 6, n. 10, 2016Tradução . . Disponível em: https://doi.org/10.1038/tp.2016.202. Acesso em: 17 maio 2024.
APA
Resende, L. S., Amaral, C. E., Soares, R. B. S., Alves, A. S., Alves-dos-Santos, L., Britto, L. R. G. de, & Chiavegatto, S. (2016). Social stress in adolescents induces depression and brain-region-specific modulation of the transcription factor MAX. Translational Psychiatry, 6( 10). doi:10.1038/tp.2016.202
NLM
Resende LS, Amaral CE, Soares RBS, Alves AS, Alves-dos-Santos L, Britto LRG de, Chiavegatto S. Social stress in adolescents induces depression and brain-region-specific modulation of the transcription factor MAX [Internet]. Translational Psychiatry. 2016 ; 6( 10):[citado 2024 maio 17 ] Available from: https://doi.org/10.1038/tp.2016.202
Vancouver
Resende LS, Amaral CE, Soares RBS, Alves AS, Alves-dos-Santos L, Britto LRG de, Chiavegatto S. Social stress in adolescents induces depression and brain-region-specific modulation of the transcription factor MAX [Internet]. Translational Psychiatry. 2016 ; 6( 10):[citado 2024 maio 17 ] Available from: https://doi.org/10.1038/tp.2016.202
Artigo de periodico
Pilocarpine-induced seizures trigger differential regulation of microRNA-stability related genes in rat hippocampal neurons (2016)
Kinjo, Erika R.; Higa, Guilherme S. V.; Santos, Bianca A.; Sousa, Erica de; Damico, Marcio V.; Walter, Lais T.; Morya, Edgard; Valle, Angela C.; Britto, Luiz Roberto Giorgetti de ; Kihara, Alexandre H.
Source: Scientific Reports. Unidade: ICB
Assunto: FISIOLOGIA
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ABNT
KINJO, Erika R. et al. Pilocarpine-induced seizures trigger differential regulation of microRNA-stability related genes in rat hippocampal neurons. Scientific Reports, v. 6, n. 20969, p. 1-13, 2016Tradução . . Disponível em: https://doi.org/10.1038/srep20969. Acesso em: 17 maio 2024.
APA
Kinjo, E. R., Higa, G. S. V., Santos, B. A., Sousa, E. de, Damico, M. V., Walter, L. T., et al. (2016). Pilocarpine-induced seizures trigger differential regulation of microRNA-stability related genes in rat hippocampal neurons. Scientific Reports, 6( 20969), 1-13. doi:10.1038/srep20969
NLM
Kinjo ER, Higa GSV, Santos BA, Sousa E de, Damico MV, Walter LT, Morya E, Valle AC, Britto LRG de, Kihara AH. Pilocarpine-induced seizures trigger differential regulation of microRNA-stability related genes in rat hippocampal neurons [Internet]. Scientific Reports. 2016 ; 6( 20969): 1-13.[citado 2024 maio 17 ] Available from: https://doi.org/10.1038/srep20969
Vancouver
Kinjo ER, Higa GSV, Santos BA, Sousa E de, Damico MV, Walter LT, Morya E, Valle AC, Britto LRG de, Kihara AH. Pilocarpine-induced seizures trigger differential regulation of microRNA-stability related genes in rat hippocampal neurons [Internet]. Scientific Reports. 2016 ; 6( 20969): 1-13.[citado 2024 maio 17 ] Available from: https://doi.org/10.1038/srep20969
Artigo de periodico
Beta-adrenergic blockade increases GLUT4 and improves glycemic control in insulin-treated diabetic Wistar rats (2015)
Alves-Wagner, Ana Barbara; Mori, Rosana Cristina; Silva-Sabino, Robinson; Fatima, Luciana Alves; Alves, Adilson da Silva; Britto, Luiz Roberto Giorgetti de ; Schaan, Beatriz D'Agord; Machado, Ubiratan Fabres
Source: Autonomic Neuroscience: Basic and Clinical. Unidade: ICB
Subjects: INSULINA, RATOS WISTAR, GLICEMIA
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ABNT
ALVES-WAGNER, Ana Barbara et al. Beta-adrenergic blockade increases GLUT4 and improves glycemic control in insulin-treated diabetic Wistar rats. Autonomic Neuroscience: Basic and Clinical, v. 193, p. 108-116, 2015Tradução . . Disponível em: https://doi.org/10.1016/j.autneu.2015.10.003. Acesso em: 17 maio 2024.
APA
Alves-Wagner, A. B., Mori, R. C., Silva-Sabino, R., Fatima, L. A., Alves, A. da S., Britto, L. R. G. de, et al. (2015). Beta-adrenergic blockade increases GLUT4 and improves glycemic control in insulin-treated diabetic Wistar rats. Autonomic Neuroscience: Basic and Clinical, 193, 108-116. doi:10.1016/j.autneu.2015.10.003
NLM
Alves-Wagner AB, Mori RC, Silva-Sabino R, Fatima LA, Alves A da S, Britto LRG de, Schaan BD'A, Machado UF. Beta-adrenergic blockade increases GLUT4 and improves glycemic control in insulin-treated diabetic Wistar rats [Internet]. Autonomic Neuroscience: Basic and Clinical. 2015 ; 193 108-116.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.autneu.2015.10.003
Vancouver
Alves-Wagner AB, Mori RC, Silva-Sabino R, Fatima LA, Alves A da S, Britto LRG de, Schaan BD'A, Machado UF. Beta-adrenergic blockade increases GLUT4 and improves glycemic control in insulin-treated diabetic Wistar rats [Internet]. Autonomic Neuroscience: Basic and Clinical. 2015 ; 193 108-116.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.autneu.2015.10.003
Artigo de periodico
Different protocols of treadmill exercise induce distinct neuroplastic effects in rat brain motor areas (2015)
Real, Caroline Cristiano; Garcia, Priscila C.; Britto, Luiz Roberto Giorgetti de ; Pires, Raquel Smoni
Source: Brain Research. Unidade: ICB
Subjects: FISIOLOGIA, WESTERN BLOTTING, IMUNOHISTOQUIMICA, PLASTICIDADE NEURONAL
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ABNT
REAL, Caroline Cristiano et al. Different protocols of treadmill exercise induce distinct neuroplastic effects in rat brain motor areas. Brain Research, v. 1624, p. 188-198, 2015Tradução . . Disponível em: https://doi.org/10.1016/j.brainres.2015.06.052. Acesso em: 17 maio 2024.
APA
Real, C. C., Garcia, P. C., Britto, L. R. G. de, & Pires, R. S. (2015). Different protocols of treadmill exercise induce distinct neuroplastic effects in rat brain motor areas. Brain Research, 1624, 188-198. doi:10.1016/j.brainres.2015.06.052
NLM
Real CC, Garcia PC, Britto LRG de, Pires RS. Different protocols of treadmill exercise induce distinct neuroplastic effects in rat brain motor areas [Internet]. Brain Research. 2015 ; 1624 188-198.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.brainres.2015.06.052
Vancouver
Real CC, Garcia PC, Britto LRG de, Pires RS. Different protocols of treadmill exercise induce distinct neuroplastic effects in rat brain motor areas [Internet]. Brain Research. 2015 ; 1624 188-198.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.brainres.2015.06.052
Artigo de periodico
Respiratory deficits in a rat model of Parkinson's disease (2015)
Tuppy, Marina; Falquetto, Bárbara ; Santos, L. Alves dos; Britto, Luiz Roberto Giorgetti de ; Chiavegatto, Silvana ; Moreira, Thiago dos Santos ; Takakura, Ana Carolina Thomaz
Source: Neuroscience. Unidade: ICB
Subjects: FISIOLOGIA, FARMACOLOGIA, DOENÇA DE PARKINSON, RESPIRAÇÃO (DEFICIÊNCIA), RATOS, MODELOS ANIMAIS
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ABNT
TUPPY, Marina et al. Respiratory deficits in a rat model of Parkinson's disease. Neuroscience, v. 297, p. 194-204, 2015Tradução . . Disponível em: https://doi.org/10.1016/j.neuroscience.2015.03.048. Acesso em: 17 maio 2024.
APA
Tuppy, M., Falquetto, B., Santos, L. A. dos, Britto, L. R. G. de, Chiavegatto, S., Moreira, T. dos S., & Takakura, A. C. T. (2015). Respiratory deficits in a rat model of Parkinson's disease. Neuroscience, 297, 194-204. doi:10.1016/j.neuroscience.2015.03.048
NLM
Tuppy M, Falquetto B, Santos LA dos, Britto LRG de, Chiavegatto S, Moreira T dos S, Takakura ACT. Respiratory deficits in a rat model of Parkinson's disease [Internet]. Neuroscience. 2015 ; 297 194-204.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.neuroscience.2015.03.048
Vancouver
Tuppy M, Falquetto B, Santos LA dos, Britto LRG de, Chiavegatto S, Moreira T dos S, Takakura ACT. Respiratory deficits in a rat model of Parkinson's disease [Internet]. Neuroscience. 2015 ; 297 194-204.[citado 2024 maio 17 ] Available from: https://doi.org/10.1016/j.neuroscience.2015.03.048
Artigo de periodico
TRPM7 inhibitor carvacrol protects brain from neonatal hypoxic-ischemic injury (2015)
Chen, Wenliang; Xu, Baofeng; Xiao, Aijiao; Liu, Ling; Fang, Xiaoyan; Liu, Rui; Turlova, Ekaterina; Barszczyk, Andrew; Zhong, Xiao; Sun, Crridtopher L. F.; Britto, Luiz Roberto Giorgetti de ; Feng, Zhong-Ping; Sun, Hong-Shuo
Source: Molecular Brain. Unidade: ICB
Subjects: FISIOLOGIA, BIOFÍSICA, ISQUEMIA CEREBRAL, CAMUNDONGOS
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ABNT
CHEN, Wenliang et al. TRPM7 inhibitor carvacrol protects brain from neonatal hypoxic-ischemic injury. Molecular Brain, v. 8, p. 1-13, 2015Tradução . . Disponível em: https://doi.org/10.1186/s13041-015-0102-5. Acesso em: 17 maio 2024.
APA
Chen, W., Xu, B., Xiao, A., Liu, L., Fang, X., Liu, R., et al. (2015). TRPM7 inhibitor carvacrol protects brain from neonatal hypoxic-ischemic injury. Molecular Brain, 8, 1-13. doi:10.1186/s13041-015-0102-5
NLM
Chen W, Xu B, Xiao A, Liu L, Fang X, Liu R, Turlova E, Barszczyk A, Zhong X, Sun CLF, Britto LRG de, Feng Z-P, Sun H-S. TRPM7 inhibitor carvacrol protects brain from neonatal hypoxic-ischemic injury [Internet]. Molecular Brain. 2015 ; 8 1-13.[citado 2024 maio 17 ] Available from: https://doi.org/10.1186/s13041-015-0102-5
Vancouver
Chen W, Xu B, Xiao A, Liu L, Fang X, Liu R, Turlova E, Barszczyk A, Zhong X, Sun CLF, Britto LRG de, Feng Z-P, Sun H-S. TRPM7 inhibitor carvacrol protects brain from neonatal hypoxic-ischemic injury [Internet]. Molecular Brain. 2015 ; 8 1-13.[citado 2024 maio 17 ] Available from: https://doi.org/10.1186/s13041-015-0102-5
Artigo de periodico
LTP and LTD in the visual cortex require the activation of NOX2 (2014)
De Pasquale, Roberto ; Beckhauser, Thiago F.; Hernandes, Marina Sorrentino; Britto, Luiz Roberto Giorgetti de
Source: Journal of Neuroscience. Unidade: ICB
Assunto: FISIOLOGIA
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
DE PASQUALE, Roberto et al. LTP and LTD in the visual cortex require the activation of NOX2. Journal of Neuroscience, v. 34, n. 38, p. 12778-12787, 2014Tradução . . Disponível em: https://doi.org/10.1523/JNEUROSCI.1414-14.2014. Acesso em: 17 maio 2024.
APA
De Pasquale, R., Beckhauser, T. F., Hernandes, M. S., & Britto, L. R. G. de. (2014). LTP and LTD in the visual cortex require the activation of NOX2. Journal of Neuroscience, 34( 38), 12778-12787. doi:10.1523/JNEUROSCI.1414-14.2014
NLM
De Pasquale R, Beckhauser TF, Hernandes MS, Britto LRG de. LTP and LTD in the visual cortex require the activation of NOX2 [Internet]. Journal of Neuroscience. 2014 ; 34( 38): 12778-12787.[citado 2024 maio 17 ] Available from: https://doi.org/10.1523/JNEUROSCI.1414-14.2014
Vancouver
De Pasquale R, Beckhauser TF, Hernandes MS, Britto LRG de. LTP and LTD in the visual cortex require the activation of NOX2 [Internet]. Journal of Neuroscience. 2014 ; 34( 38): 12778-12787.[citado 2024 maio 17 ] Available from: https://doi.org/10.1523/JNEUROSCI.1414-14.2014
Artigo de periodico
Blocking of connexin-mediated communication promotes neuroprotection during acute degeneration induced by mechanical trauma (2012)
Paschon, Vera; Higa, Guilherme Shigueto Vilar; Resende, Rodrigo Ribeiro; Britto, Luiz Roberto Giorgetti de ; Kihara, Alexandre Hiroaki
Source: PLOS ONE. Unidade: ICB
Assunto: FISIOLOGIA
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
ABNT
PASCHON, Vera et al. Blocking of connexin-mediated communication promotes neuroprotection during acute degeneration induced by mechanical trauma. PLOS ONE, v. 7, n. 9, p. 1-12, 2012Tradução . . Disponível em: https://doi.org/10.1371/journal.pone.0045449. Acesso em: 17 maio 2024.
APA
Paschon, V., Higa, G. S. V., Resende, R. R., Britto, L. R. G. de, & Kihara, A. H. (2012). Blocking of connexin-mediated communication promotes neuroprotection during acute degeneration induced by mechanical trauma. PLOS ONE, 7( 9), 1-12. doi:10.1371/journal.pone.0045449
NLM
Paschon V, Higa GSV, Resende RR, Britto LRG de, Kihara AH. Blocking of connexin-mediated communication promotes neuroprotection during acute degeneration induced by mechanical trauma [Internet]. PLOS ONE. 2012 ; 7( 9): 1-12.[citado 2024 maio 17 ] Available from: https://doi.org/10.1371/journal.pone.0045449
Vancouver
Paschon V, Higa GSV, Resende RR, Britto LRG de, Kihara AH. Blocking of connexin-mediated communication promotes neuroprotection during acute degeneration induced by mechanical trauma [Internet]. PLOS ONE. 2012 ; 7( 9): 1-12.[citado 2024 maio 17 ] Available from: https://doi.org/10.1371/journal.pone.0045449

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