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Keyword [hyperoxaluria]
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1. Role Of NADPH Oxidase In The Development Of Renal Oxidative Stress Induced By Oxalate And Calcium Oxalate Crystals In Vitro And Vivo
2. Proteomics Study Of A Model Of Idiopathic Hyperoxaluria Rats In Its Liver
3. Expression Of Genes Encoding Formyl-coa Transferase And Oxalyl-coa Decarboxylase From Chinese Oxalobacter Formigenes In Fetal Heptic Stem Cells With Transfection Of Recombinant Lentiviral Vectors
4. Gene Expression Profiling And Proteomics Study In The Jejunum Of A Rat Model With Idiopathic Hyperoxaluria
5. The Study Of Renal Tubular Apoptosis Of Rats With Hyperoxaluria And Ureteral Obstruction
6. The Effect Of Extensive Bowel Resection And Interposition Of Segment Of Colon On Urine Oxalic Acid In Rat
7. The Influence Of Gastrointestinaldynamic Condition To Extraneous Source Oxalic Acid Absorption
8. The Role Of Mitochondrial-Cyto C-caspase 9 Pathway In The Development Of Renal Tubular Epithelial Cell Apoptosis Of The Rats With Hyperoxaluria
9. The Role Of Mitochondrial-cyto C-caspase 9 Pathway In The Development Of Renal Tubular Epithelial Cell Apoptosis Of The Rats With Hyperoxaluria
10. Study On The Molecular Cloning And Eukaryotic Expression Of Formyl-CoA Transferase And Oxalyl-CoA Decarboxylase Of Oxalobacter Formigenes: Implications For Gene Therapy Of Hyperoxaluria
11. The Etiological Study Of Patients With High Risk Of Calcium Oxalate Stone Formation
12. Analysis Of AGXT Gene Mutation In Patients With Primary Hyperoxaluria Type Ⅰ
13. The Effect Of Hyperoxaluria On Urinary Calcium Excretion, And The Oxidative Damage Of Hyperoxaluria On TRPV5 Which Present InEpithelial Cells Of Renal Distal Tubule And Collecting Duct
14. The Role Of ROS From Mitochodria And Nox Isoforms In Oxalate-mediated Oxidative Stress And Cell Injury In Renal Tubular Cells
15. The Research Of Lactic Acid Bacteria Recombined With The Coding Gene Of Oxalate-degrading Enzymes In Reducing Hyperoxaluria
16. The Role Of The Expression Of Slc26a6 In Rat Kidney On The Formation Of Experimental Calcium Oxalate Stone
17. The Role And Mechanisms Of Nrf2 Activator Dimethyl Fumarate In Inhibiting The Formation Of Oxalate-induced Renal Stones
18. The Role And Mechanism Of Hydrogen Sulfide In Acute Hyperoxaluria Nephropathy
19. Effect And Mechanism Of EZH2 Inhibitor 3-DZNeP In Renal Tubular Cell Injury Induced By Oxalate
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