Our objective was to evaluate the oxidative stress and renal tubular cell damage in patients
who have renal stones compared to normal subjects. The patients were re-evaluated after 1 …

Objective To investigate how erythrocyte oxidative stress relates to renal tubular damage
and calcium oxalate stone size in patients as oxidative stress has been demonstrated to be …

OBJECTIVES: To determine whether lipid peroxidation plays a role in patients with calcium
oxalate kidney stones and to determine the correlation of lipid peroxidation with tubular …

Urolithiasis is characterized by the formation and retention of solid crystals within the urinary
tract. Kidney stones are mostly composed of calcium oxalate, which predominantly …

Membrane injury facilitated the fixation of calcium oxalate crystals and subsequent growth
into kidney stones. Oxalate-induced membrane injury was mediated by lipid peroxidation …

Abstract Background and Purpose: Animal studies have demonstrated the likely role of
oxidative tissue damage in the pathophysiology of stone disease; however, the effect of …

Feeding calculi producing diet (CPD) to rats for 4 weeks produced calcium oxaltate stones.
Supplementation of sodium citrate to CPD (c-CPD) prevented stone formation. Except …

The association between nephrolithiasis and many chronic kidney diseases suggests a
common causative link. There are indications that stone formation can lead to hypertension …

Purpose: Idiopathic calcium oxalate kidney stones form while attached to Randall plaques,
the subepithelial deposits on renal papillary surfaces. Plaque formation and growth …

The incidence of urolithiasis has increased in the industrialized nations. However, both the
pathogenesis and methods for its prevention remain to be clarified. We demonstrate that the …