APA

Odorcyk F. K., Duran-Carabali L. E., Rocha D. S., Sanches E. F., Martini A. P., Venturin G. T., Greggio S., da Costa J. C., Kucharski L. C., Zimmer E. R. & Netto C. A. (20210201). Differential glucose and beta-hydroxybutyrate metabolism confers an intrinsic neuroprotection to the immature brain in a rat model of neonatal hypoxia ischemia. : Experimental neurology.

Chicago

Odorcyk F K, Duran-Carabali L E, Rocha D S, Sanches E F, Martini A P, Venturin G T, Greggio S, da Costa J C, Kucharski L C, Zimmer E R and Netto C A. 20210201. Differential glucose and beta-hydroxybutyrate metabolism confers an intrinsic neuroprotection to the immature brain in a rat model of neonatal hypoxia ischemia. : Experimental neurology.

Harvard

Odorcyk F. K., Duran-Carabali L. E., Rocha D. S., Sanches E. F., Martini A. P., Venturin G. T., Greggio S., da Costa J. C., Kucharski L. C., Zimmer E. R. and Netto C. A. (20210201). Differential glucose and beta-hydroxybutyrate metabolism confers an intrinsic neuroprotection to the immature brain in a rat model of neonatal hypoxia ischemia. : Experimental neurology.

MLA

Odorcyk F K, Duran-Carabali L E, Rocha D S, Sanches E F, Martini A P, Venturin G T, Greggio S, da Costa J C, Kucharski L C, Zimmer E R and Netto C A. Differential glucose and beta-hydroxybutyrate metabolism confers an intrinsic neuroprotection to the immature brain in a rat model of neonatal hypoxia ischemia. : Experimental neurology. 20210201.