Keyphrases
Kidney Injury
100%
Murine Model
100%
Renoprotective Effect
100%
Sex-related Differences
100%
Unilateral Ureteral Obstruction
100%
Protocatechuic Acid
100%
Sham
27%
Acid Treatment
27%
Inflammatory Fibrosis
27%
Inflammation Apoptosis
27%
Age-matched
18%
Antioxidant
18%
Kidney Inflammation
18%
Chronic Kidney Disease
18%
Sexual Dimorphism
18%
Kidney Oxidative Stress
18%
Apoptosis
9%
Inflammation
9%
Tumor
9%
Interleukin-6
9%
Young Female
9%
Matrix metalloproteinase-2 (MMP-2)
9%
C57BL
9%
Anti-apoptotic
9%
Female Relatives
9%
Caspase-1
9%
Fibrosis
9%
Caspase-3
9%
Interleukin-1β
9%
TUNEL
9%
Young Males
9%
Matrix metalloproteinase-9 (MMP-9)
9%
Collagen IV
9%
Tubular Injury
9%
Urinary Neutrophil Gelatinase-associated Lipocalin (uNGAL)
9%
Oxidative Inflammation
9%
Decline in Kidney Function
9%
Kidney Fibrosis
9%
Antifibrotic
9%
Rapid Decline
9%
Masson's Trichrome Stain
9%
Drug-induced Kidney Injury
9%
Amores
9%
Urolithiasis
9%
Obstructive Nephropathy
9%
Kidney Injury molecule-1 (KIM-1)
9%
Polyphenolic Compounds
9%
Urinary Kidney Injury molecule-1
9%
Urinary Tract Obstruction
9%
Pharmacology, Toxicology and Pharmaceutical Science
Kidney Injury
100%
Ureter Obstruction
100%
Protocatechuic Acid
100%
Fibrosis
36%
Inflammation
27%
Antioxidant
18%
Anti-Inflammatory Drug
18%
Chronic Kidney Failure
18%
Neutrophil Gelatinase Associated Lipocalin
18%
Mouse
9%
Neoplasm
9%
Antiapoptotic
9%
Injury
9%
Gelatinase A
9%
C57BL 6 Mouse
9%
Caspase 3
9%
Kidney Disease
9%
Gelatinase B
9%
Interleukin 1beta Converting Enzyme
9%
Nephritis
9%
Kidney Injury Molecule 1
9%
Urolithiasis
9%
Polyphenol Derivative
9%
Urinary Tract Obstruction
9%