Metabolic trade-offs in Neonatal sepsis triggered by TLR4 and TLR1/2 ligands result in unique dysfunctions in neural breathing circuits

Metabolic trade-offs in Neonatal sepsis triggered by TLR4 and TLR1/2 ligands result in unique dysfunctions in neural breathing circuits Article

Alves, Michele Joana, Browe, Brigitte M, Dias, Ana Carolina Rodrigues et al. (2024). Metabolic trade-offs in Neonatal sepsis triggered by TLR4 and TLR1/2 ligands result in unique dysfunctions in neural breathing circuits . BRAIN BEHAVIOR AND IMMUNITY, 119 333-350. 10.1016/j.bbi.2024.03.027

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cited authors

Alves, Michele Joana; Browe, Brigitte M; Dias, Ana Carolina Rodrigues; Torres, Juliet M; Zaza, Giuliana; Bangudi, Suzy; Blackburn, Jessica; Wang, Wesley; Fernandes-Junior, Silvio de Araujo; Fadda, Paolo; Toland, Amanda; Baer, Lisa A; Stanford, Kristin I; Czeisler, Catherine; Garcia III, Alfredo J; Otero, Jose Javier

sustainable development goals

SDG 03: Good Health and Well-being

authors

Alves, Michele

publication date

July 1, 2024

published in

BRAIN BEHAVIOR AND IMMUNITY Journal

keywords

Brainstem
DISEASE TOLERANCE
EXPRESSION
INCREASES
INFLAMMATION
INTERLEUKIN-6
Immunology
LPS
Life Sciences & Biomedicine
MORTALITY
Machine Learning
Metabolism
NEURONS
Neonatal sepsis
Neuroinflammation
Neurosciences
Neurosciences & Neurology
PAM3CSK4
Pre-Bo tzinger complex
Psychiatry
RATS
Raphe nucleus
Respiratory Chemoreflexes
SEROTONIN
Science & Technology
TOLL-LIKE RECEPTORS

FIU Discovery

Metabolic trade-offs in Neonatal sepsis triggered by TLR4 and TLR1/2 ligands result in unique dysfunctions in neural breathing circuits Article

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