Felipe Lillo
Andrés Bello National University
7 Papers
7 Citations
Felipe Lillo is an academic researcher from Andrés Bello National University. The author has contributed to research in topics: Renal function & Kidney. The author has an hindex of 4, co-authored 7 publications.
Chat about Author
Papers
•Journal Article
Liquid extracorporeal carbon dioxide removal: use of THAM (tris-hydroxymethyl aminomethane) coupled to hemofiltration to control hypercapnic acidosis in a porcine model of protective mechanical ventilation.
Pablo Tapia,Felipe Lillo,Dagoberto Soto,Leslie Escobar,Felipe Simon,Karina Hernández,Leyla Alegría,Alejandro Bruhn +7 more
TL;DR: A combined treatment with THAM coupled to hemofiltration may be an effective treatment to control severe hypercapnic acidosis.
5
Determinantes precoces en el desarrollo de injuria renal aguda durante la sepsis abdominal experimental
TL;DR: The reduction in renal blood flow and renal perfusion pressure were the main mechanisms associated with AKI, but were not associated with necrosis.
•Journal Article
Evaluation of the effects on the cerebellar cortex of CF-1 mice exposed to a single dose of cypermethrin
F. Germán Venegas,Cristian Lisboa Donoso,Camilo Arriaza,Omar Espinoza-Navarro,Omar Espinoza-Navarro,María Eugenia Castro,Cristian G. Torres,Felipe Lillo,Rodríguez B. Héctor,Rodríguez B. Héctor +9 more
TL;DR: The effects of cypermethrin on the cerebellar cortex are studied and it is found that this insecticide alters voltage-dependent sodium channels in the nervous system and affects GABA levels in the CNS of mice.
1
Progression of regional lung strain and heterogeneity in lung injury: assessing the evolution under spontaneous breathing and mechanical ventilation.
Daniel E. Hurtado,Benjamín Erranz,Felipe Lillo,Mauricio A. Sarabia-Vallejos,Pablo Iturrieta,Felipe Morales,Katherine Blaha,Tania Medina,Franco Díaz,Franco Díaz,Pablo Cruces +10 more
TL;DR: Spontaneous breathing in lung injury promotes regional strain and strain heterogeneity progression, and in contrast, low V t MV prevents region strain and heterogeneity progression in injured lungs.
Renal Decapsulation Prevents Intrinsic Renal Compartment Syndrome in Ischemia-Reperfusion-Induced Acute Kidney Injury: A Physiologic Approach.
Pablo Cruces,Pablo Lillo,Camila Salas,Tatiana Salomon,Felipe Lillo,Carlos González,Alejandro Pacheco,Daniel E. Hurtado +7 more
TL;DR: The results strongly suggest that renal decapsulation prevents the onset of an intrinsic renal compartment syndrome after ischemic acute kidney injury.