review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Masao Tsujihata | |
P2860 | cites work | Apoptosis: A Basic Biological Phenomenon with Wideranging Implications in Tissue Kinetics | Q24564912 |
Apoptosis: an overview | Q28254960 | ||
Intratubular crystallization of calcium oxalate in the presence of membrane vesicles: an in vitro study | Q31789816 | ||
Mechanisms of calcium oxalate crystal attachment to injured renal collecting duct cells | Q31904117 | ||
Renal epithelial cells rapidly bind and internalize calcium oxalate monohydrate crystals | Q35608154 | ||
Modulators of urinary stone formation | Q35672755 | ||
Tamm-Horsfall glycoprotein--inhibitor or promoter of calcium oxalate monohydrate crystallization processes? | Q36761702 | ||
Tamm-Horsfall protein--uromodulin (1950-1990). | Q37937308 | ||
Fibronectin inhibits endocytosis of calcium oxalate crystals by renal tubular cells | Q40256695 | ||
Renal tubular cell injury and fibronectin | Q40633671 | ||
Oxalate ions and calcium oxalate crystals stimulate MCP-1 expression by renal epithelial cells | Q40757848 | ||
Physicochemical considerations in the development and prevention of calcium oxalate urolithiasis | Q40886608 | ||
Oxalate toxicity in renal epithelial cells: characteristics of apoptosis and necrosis | Q40905850 | ||
Role of phospholipase A2 in the cytotoxic effects of oxalate in cultured renal epithelial cells | Q40925933 | ||
Interactions between calcium oxalate monohydrate crystals and Madin-Darby canine kidney cells: endocytosis and cell proliferation | Q41246947 | ||
Interactions between stone-forming calcific crystals and macromolecules | Q41657267 | ||
Ultrastructural events in early calcium oxalate crystal formation in rats | Q41694493 | ||
Special topic: apoptosis | Q41748372 | ||
Renal tubular injury induced by hyperoxaluria: evaluation of apoptotic changes | Q43580040 | ||
Comparison of fibronectin content in urinary macromolecules between normal subjects and recurrent stone formers | Q43802469 | ||
Preventive effects of green tea on renal stone formation and the role of oxidative stress in nephrolithiasis | Q45183439 | ||
Oxalate toxicity in LLC-PK1 cells: role of free radicals. | Q50752326 | ||
Madin-Darby canine kidney cells are injured by exposure to oxalate and to calcium oxalate crystals. | Q50776917 | ||
A fast and easy method to determine the production of reactive oxygen intermediates by human and murine phagocytes using dihydrorhodamine 123. | Q54317842 | ||
P433 | issue | 2 | |
P921 | main subject | calcium oxalate | Q412399 |
P304 | page(s) | 115-120 | |
P577 | publication date | 2008-02-01 | |
P1433 | published in | International Journal of Urology | Q15767019 |
P1476 | title | Mechanism of calcium oxalate renal stone formation and renal tubular cell injury | |
P478 | volume | 15 |
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Q83266266 | Angiotensin type-1 receptor blocker candesartan inhibits calcium oxalate crystal deposition in ethylene glycol-treated rat kidneys |
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Q91598825 | Cu-bearing stainless steel reduces cytotoxicity and crystals adhesion after ureteral epithelial cells exposing to calcium oxalate monohydrate |
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Q36778367 | Diosmin reduces calcium oxalate deposition and tissue degeneration in nephrolithiasis in rats: a stereological study |
Q34849855 | Diversity in protein profiles of individual calcium oxalate kidney stones |
Q54397109 | E-cadherin gene 3'-UTR C/T polymorphism in Turkish patients with nephrolithiasis. |
Q35929779 | EGCG decreases binding of calcium oxalate monohydrate crystals onto renal tubular cells via decreased surface expression of alpha-enolase |
Q53125210 | Early detection of renal injury using urinary vanin-1 in rats with experimental colitis. |
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Q47822003 | In vitro and in vivo safety evaluation of Nephure™. |
Q52363694 | Kidney Stone Disease: An Update on Current Concepts. |
Q89217016 | Kidney stones |
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Q34733228 | Macropinocytosis is the major mechanism for endocytosis of calcium oxalate crystals into renal tubular cells |
Q37293086 | Might E-cadherin promoter polymorphisms of rs16260 and rs5030625 associate with the risk of nephrolithiasis? |
Q41877923 | Nanouric acid or nanocalcium phosphate as central nidus to induce calcium oxalate stone formation: a high-resolution transmission electron microscopy study on urinary nanocrystallites |
Q64110510 | Oxalate deposition in renal allograft biopsies within 3 months after transplantation is associated with allograft dysfunction |
Q43086918 | Peanut-induced acute oxalate nephropathy with acute kidney injury |
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Q57033089 | Polyurethane Microparticles for Stimuli Response and Reduced Oxidative Degradation in Highly Porous Shape Memory Polymers |
Q38856051 | Prediction of renal crystalline size distributions in space using a PBE analytic model. 1. Effect of microgravity-induced biochemical alterations |
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Q43550513 | Taurine protected kidney from oxidative injury through mitochondrial-linked pathway in a rat model of nephrolithiasis |
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Q64089833 | Testosterone induces renal tubular epithelial cell death through the HIF-1α/BNIP3 pathway |
Q84890484 | The construction of an oxalate-degrading intestinal stem cell population in mice: a potential new treatment option for patients with calcium oxalate calculus |
Q82487984 | Tissue effects of intracorporeal lithotripsy techniques during percutaneous nephrolithotomy: comparison of pneumatic and ultrasonic lithotripters on rat bladder |
Q38752255 | Total flavonoids of Desmodium styracifolium attenuates the formation of hydroxy-L-proline-induced calcium oxalate urolithiasis in rats |
Q39619950 | Urinary MCP-1、HMGB1 increased in calcium nephrolithiasis patients and the influence of hypercalciuria on the production of the two cytokines |
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