Insulin resistence (IR) due to chronic salt restriction (SR) is reverted by sympathetic nervous system (SNS) blockade and by nitric oxide (NO) synthesis stimulation (2003)
- Authors:
- USP affiliated authors: CATANOZI, SERGIO - FM ; FURUKAWA, LUZIA NAOKO SHINOHARA - FM ; QUINTAO, EDER CARLOS ROCHA - FM ; HEIMANN, JOEL CLAUDIO - FM
- Unidade: FM
- Subjects: BIOLOGIA EXPERIMENTAL; ÓXIDO NÍTRICO; SISTEMA NERVOSO SIMPÁTICO
- Language: Inglês
- Imprenta:
- Source:
- Título: The FASEB Juornal
- Volume/Número/Paginação/Ano: v. 17, n. 5, p. , mar. 2003
- Conference titles: Experimental Biology
-
ABNT
RUIVO, Gilson Fernandes et al. Insulin resistence (IR) due to chronic salt restriction (SR) is reverted by sympathetic nervous system (SNS) blockade and by nitric oxide (NO) synthesis stimulation. The FASEB Juornal. New Haven: Faculdade de Medicina, Universidade de São Paulo. . Acesso em: 18 fev. 2026. , 2003 -
APA
Ruivo, G. F., Nascimento, C. A., Catanozi, S., Rocha, J. C., Furukawa, L. N. S., Dolnikoff, M. S., et al. (2003). Insulin resistence (IR) due to chronic salt restriction (SR) is reverted by sympathetic nervous system (SNS) blockade and by nitric oxide (NO) synthesis stimulation. The FASEB Juornal. New Haven: Faculdade de Medicina, Universidade de São Paulo. -
NLM
Ruivo GF, Nascimento CA, Catanozi S, Rocha JC, Furukawa LNS, Dolnikoff MS, Carrilho BA, Bergamaschi C de T, Campos Júnior RR, Quintão ECR, Heimann JC. Insulin resistence (IR) due to chronic salt restriction (SR) is reverted by sympathetic nervous system (SNS) blockade and by nitric oxide (NO) synthesis stimulation. The FASEB Juornal. 2003 ; 17( 5): .[citado 2026 fev. 18 ] -
Vancouver
Ruivo GF, Nascimento CA, Catanozi S, Rocha JC, Furukawa LNS, Dolnikoff MS, Carrilho BA, Bergamaschi C de T, Campos Júnior RR, Quintão ECR, Heimann JC. Insulin resistence (IR) due to chronic salt restriction (SR) is reverted by sympathetic nervous system (SNS) blockade and by nitric oxide (NO) synthesis stimulation. The FASEB Juornal. 2003 ; 17( 5): .[citado 2026 fev. 18 ] - Perinatal salt restriction: a new pathway to programming insulin resistance and dyslipidemia in adult wistar rats
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