The pathogenesis of calcium-oxalate (CaOx) renal stones is still debated and a number of issues needs to be clarified. In particular, it is difficult to combine the intraluminal physical-chemical imbalance and fixed particle theory with the evidence that CaOx stones actually form and grow on Randall's plaque in the renal pelvis. On the basis of recent findings in renal stone research, and data from the biology of ectopic calcification, the hypothesis is advanced that abnormal pre-urine CaOx supersaturation triggers inflammation in the long Henle's loop cells at tip forceps level. This in turn induces differentiation of these cells toward the osteogenic lineage, determining the synthesis of typical bone osteoid proteins (osteopontin, osteoca...
Background: Crystallization is believed to be the initiation step of urolithiasis, even though it is...
Calcium phosphate–induced renal epithelial injury and stone formation: Involvement of reactive oxyge...
Calcium oxalate (CaOx) is the main inorganic component of urolithiasis and is mainly present in the ...
International audienceEight decades ago, Alexander Randall identified calcium phosphate deposits at ...
AbstractAlexander Randall described eight decades ago a heterogeneous nucleation process at the tip ...
Randall’s plaques are very common in idiopathic calcium-oxalate nephrolithiasis. These papillary pla...
Urinary supersaturation is important for crystallization and likely cause of stone formation on duct...
International audienceAlexander Randall described eight decades ago a heterogeneous nucleation proce...
Randall's plaques are very common in idiopathic calcium-oxalate nephrolithiasis. These papillary pla...
Abstract. The exact mechanisms of the crystallization processes that occur during the formation of c...
AbstractMany calcium oxalate (CaOx) kidney stones develop attached to renal papillary sub-epithelial...
Several theories exist regarding the pathogenesis of urinary calculi, and the early incipient events...
The formation of calcium (Ca) stones occurs in an initial phase by fixed growth on kidney calcificat...
Randall's plaque, an attachment site over which calcium oxalate stones form, begins in the basement ...
Medullary nephrocalcinosis is a rare condition typically observed in metabolic conditions prone to r...
Background: Crystallization is believed to be the initiation step of urolithiasis, even though it is...
Calcium phosphate–induced renal epithelial injury and stone formation: Involvement of reactive oxyge...
Calcium oxalate (CaOx) is the main inorganic component of urolithiasis and is mainly present in the ...
International audienceEight decades ago, Alexander Randall identified calcium phosphate deposits at ...
AbstractAlexander Randall described eight decades ago a heterogeneous nucleation process at the tip ...
Randall’s plaques are very common in idiopathic calcium-oxalate nephrolithiasis. These papillary pla...
Urinary supersaturation is important for crystallization and likely cause of stone formation on duct...
International audienceAlexander Randall described eight decades ago a heterogeneous nucleation proce...
Randall's plaques are very common in idiopathic calcium-oxalate nephrolithiasis. These papillary pla...
Abstract. The exact mechanisms of the crystallization processes that occur during the formation of c...
AbstractMany calcium oxalate (CaOx) kidney stones develop attached to renal papillary sub-epithelial...
Several theories exist regarding the pathogenesis of urinary calculi, and the early incipient events...
The formation of calcium (Ca) stones occurs in an initial phase by fixed growth on kidney calcificat...
Randall's plaque, an attachment site over which calcium oxalate stones form, begins in the basement ...
Medullary nephrocalcinosis is a rare condition typically observed in metabolic conditions prone to r...
Background: Crystallization is believed to be the initiation step of urolithiasis, even though it is...
Calcium phosphate–induced renal epithelial injury and stone formation: Involvement of reactive oxyge...
Calcium oxalate (CaOx) is the main inorganic component of urolithiasis and is mainly present in the ...