Works matching DE "RENAL fibrosis"
Results: 2294
Engineering Ultrasmall Ferroptosis‐Targeting and Reactive Oxygen/Nitrogen Species‐Scavenging Nanozyme for Alleviating Acute Kidney Injury.
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- Advanced Functional Materials, 2022, v. 32, n. 10, p. 1, doi. 10.1002/adfm.202109221
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Identifying biochemical changes in the kidney using proton nuclear magnetic resonance in an adenine diet chronic kidney disease mouse model.
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- NMR in Biomedicine, 2024, v. 37, n. 12, p. 1, doi. 10.1002/nbm.5257
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Role of the RANK/RANKL/OPG and Wnt/β-Catenin Systems in CKD Bone and Cardiovascular Disorders.
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- Calcified Tissue International, 2021, v. 108, n. 4, p. 439, doi. 10.1007/s00223-020-00803-2
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Evolution of allograft fibrosis and function in kidney transplant recipients: a retrospective analysis of stable patients under CNI and mTORi.
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- Transplant International, 2015, v. 28, n. 5, p. 553, doi. 10.1111/tri.12529
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Assessment of renal allograft fibrosis by transient elastography.
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- Transplant International, 2013, v. 26, n. 5, p. 545, doi. 10.1111/tri.12073
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Oral Abstracts.
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- Transplant International, 2012, v. 25, p. 9, doi. 10.1111/j.1432-2277.2011.01478.x
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- Article
Renal pericytes: multifunctional cells of the kidneys.
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- Pflügers Archiv: European Journal of Physiology, 2013, v. 465, n. 6, p. 767, doi. 10.1007/s00424-013-1263-7
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Biomarkers of the End-Stage Renal Disease Progression: Beyond the GFR.
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- Biochemistry (00062979), 2023, v. 88, n. 10, p. 1622, doi. 10.1134/S0006297923100164
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A Comparison Between GalT −/− ; hCD39;hCD55 and GalT −/− ; hCD39;hCD46;hCD55;TBM Pig Kidneys Transplanted in Nonhuman Primates.
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- Cell Transplantation, 2024, v. 33, p. 1, doi. 10.1177/09636897231217382
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EZH2-mediated macrophage-to-myofibroblast transition contributes to calcium oxalate crystal-induced kidney fibrosis.
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- Communications Biology, 2025, v. 8, n. 1, p. 1, doi. 10.1038/s42003-025-07735-3
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Increased Prorenin Expression in the Kidneys May Be Involved in the Abnormal Renal Function Caused by Prolonged Environmental Exposure to Microcystin-LR.
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- Toxics, 2024, v. 12, n. 8, p. 547, doi. 10.3390/toxics12080547
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银杏叶提取物调节 TGF-β1/HGF 信号通路 对单侧输尿管梗阻小鼠肾纤维化的影响.
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- Progress in Modern Biomedicine, 2024, v. 24, n. 16, p. 3039, doi. 10.13241/j.cnki.pmb.2024.16.007
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PTH 缺失通过诱导肾脏细胞衰老和衰老相关分泌表型分子表达 而加速肾脏纤维化.
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- Progress in Modern Biomedicine, 2024, v. 24, n. 16, p. 3006, doi. 10.13241/j.cnki.pmb.2024.16.002
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尿系列蛋白与原发性IgA肾病患者预后和牛津分型的关系研究.
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- Progress in Modern Biomedicine, 2024, v. 24, n. 13, p. 2483, doi. 10.13241/j.cnki.pmb.2024.13.015
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Chk2 在 Bmi1 缺失所致的肾脏早衰和纤维化中的作用和机制研究.
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- Progress in Modern Biomedicine, 2023, v. 23, n. 16, p. 3001, doi. 10.13241/j.cnki.pmb.2023.16.001
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氯沙坦联合螺内酯对预N- 硝基-L- 精氨酸甲酯诱导 高血压模型大鼠肾脏纤维化及心室重塑的影响.
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- Progress in Modern Biomedicine, 2022, v. 22, n. 5, p. 822, doi. 10.13241/j.cnki.pmb.2022.05.005
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高胱氨酸尿对大鼠肾脏自噬水平的抑制作用.
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- Progress in Modern Biomedicine, 2021, v. 21, n. 21, p. 4029, doi. 10.13241/j.cnki.pmb.2021.21.006
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LINC00472参与TGF-β1诱导的HK-2细胞系纤维化和上皮间充质转化.
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- Progress in Modern Biomedicine, 2021, n. 11, p. 2007, doi. 10.13241/j.cnki.pmb.2021.11.002
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特发性膜性肾病患者外周血中性粒细胞- 淋巴细胞比值的临床 与病理价值分析.
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- Progress in Modern Biomedicine, 2020, v. 12, n. 24, p. 4772, doi. 10.13241/j.cnki.pmb.2020.24.039
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西格列汀通过增加肾组织中 SOCS 1 和 Podocalyxin 的表达 改善糖尿病肾病大鼠肾功能.
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- Progress in Modern Biomedicine, 2020, v. 20, n. 18, p. 3434, doi. 10.13241/j.cnki.pmb.2020.18.007
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阿魏酸钠联合缬沙坦对糖尿病肾病患者的疗效及对肾脏纤维化的影响.
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- Progress in Modern Biomedicine, 2020, v. 20, n. 12, p. 2148, doi. 10.13241/j.cnki.pmb.2020.11.032
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Roxadustat protects rat renal tubular epithelial cells from hypoxia-induced injury through the TGF-β1/Smad3 signaling pathway.
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- European Review for Medical & Pharmacological Sciences, 2023, v. 27, n. 23, p. 11370
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Retraction Note: Lixisenatide protects doxorubicin-induced renal fibrosis by activating wNF-κB/TNF-α and TGF-β/Smad pathways.
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- European Review for Medical & Pharmacological Sciences, 2023, v. 27, n. 14, p. 6472
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Expression of miR-207 in renal tissue of renal fibrosis rats and its correlation analysis with protein expression of TGF-β1 and Smad3.
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- European Review for Medical & Pharmacological Sciences, 2021, v. 25, n. 2, p. 787
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Effects of inflammatory response on renal function and TGF-β1 pathway of rats with aging-related kidney damage by upregulating the expression of CD36.
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- European Review for Medical & Pharmacological Sciences, 2020, v. 24, n. 17, p. 8957
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Prostaglandin E2 receptor subtypes 1 and 2 play a role in TGF-ß1-induced renal fibrosis by regulating endoplasmic reticulum stress.
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- European Review for Medical & Pharmacological Sciences, 2020, v. 24, n. 9, p. 4954
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MiR-135a regulates renal fibrosis in rats with diabetic kidney disease through the Notch pathway.
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- European Review for Medical & Pharmacological Sciences, 2020, v. 24, n. 4, p. 1979
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MiR-30c-5p inhibits high glucose-induced EMT and renal fibrogenesis by down-regulation of JAK1 in diabetic nephropathy.
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- European Review for Medical & Pharmacological Sciences, 2020, v. 24, n. 3, p. 1338
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Urine-derived stem cells for the therapy of diabetic nephropathy mouse model.
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- European Review for Medical & Pharmacological Sciences, 2020, v. 24, n. 3, p. 1316
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Microvesicle-containing miRNA-153-3p induces the apoptosis of proximal tubular epithelial cells and participates in renal interstitial fibrosis.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, n. 22, p. 10065
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Effects of sequential application of immunosuppressive agents according to the cell cycle in adriamycin-induced nephropathy rats.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, n. 21, p. 9535
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Silenced miR-21 inhibits renal interstitial fibrosis via targeting ERK1/2 signaling pathway in mice.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, p. 110
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Microvesicles containing microRNA-216a secreted by tubular epithelial cells participate in renal interstitial fibrosis through activating PTEN/AKT pathway.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, n. 15, p. 6629
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Effect of miR-29c on renal fibrosis in diabetic rats via the AMPK/mTOR signaling pathway.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, n. 14, p. 6250
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MicroRNA-488 regulates diabetic nephropathy via TGF-β1 pathway.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, n. 10, p. 4333
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Lixisenatide protects doxorubicin-induced renal fibrosis by activating wNF-κB/TNF-α and TGF-β/Smad pathways.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, n. 9, p. 4017
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- Article
ILK participates in renal interstitial fibrosis by altering the phenotype of renal tubularepithelial cells via TGF-β1/smad pathway.
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- European Review for Medical & Pharmacological Sciences, 2019, v. 23, n. 1, p. 289, doi. 10.26355/eurrev_201901_16775
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HGF alleviates renal interstitial fibrosis via inhibiting the TGF-β1/SMAD pathway.
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- European Review for Medical & Pharmacological Sciences, 2018, v. 22, n. 22, p. 7621
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Mitochondria-mediated disturbance of fatty acid metabolism in proximal tubule epithelial cells leads to renal interstitial fibrosis.
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- European Review for Medical & Pharmacological Sciences, 2018, v. 22, n. 21, p. 7086
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Elevated aerobic glycolysis in renal tubular epithelial cells influences the proliferation and differentiation of podocytes and promotes renal interstitial fibrosis.
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- European Review for Medical & Pharmacological Sciences, 2018, v. 22, n. 16, p. 5082
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miR-192 prevents renal tubulointerstitial fibrosis in diabetic nephropathy by targeting Egr1.
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- European Review for Medical & Pharmacological Sciences, 2018, v. 22, n. 13, p. 4252
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Enhanced glycolysis in the process of renal fibrosis aggravated the development of chronic kidney disease.
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- European Review for Medical & Pharmacological Sciences, 2018, v. 22, n. 13, p. 4243
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FHL2 participates in renal interstitial fibrosis by altering the phenotype of renal tubular epithelial cells via regulating the β-catenin pathway.
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- European Review for Medical & Pharmacological Sciences, 2018, v. 22, n. 9, p. 2734
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Silencing of LncRNA TCONS_00088786 reduces renal fibrosis through miR-132.
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- European Review for Medical & Pharmacological Sciences, 2018, v. 22, n. 1, p. 166
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Application of Manganese oxide (MnO) nanoparticles in multimodal molecular imaging and cancer therapy: A review.
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- Nanomedicine Journal, 2021, v. 8, n. 3, p. 166, doi. 10.22038/NMJ.2021.57687.1598
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Renal pyelic fusion with crossed solitary ureter: Case report and review of literature.
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- International Journal of Urology, 2013, v. 20, n. 10, p. 1043, doi. 10.1111/iju.12102
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Modulators of Alpha-2 Macroglobulin Upregulation by High Glucose in Glomerular Mesangial Cells.
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- Biomolecules (2218-273X), 2024, v. 14, n. 11, p. 1444, doi. 10.3390/biom14111444
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Isorhamnetin Alleviates Renal Fibrosis by Inducing Endogenous Hydrogen Sulfide and Regulating Thiol-Based Redox State in Obstructed Kidneys.
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- Biomolecules (2218-273X), 2024, v. 14, n. 10, p. 1233, doi. 10.3390/biom14101233
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STING Promotes the Progression of ADPKD by Regulating Mitochondrial Function, Inflammation, Fibrosis, and Apoptosis.
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- Biomolecules (2218-273X), 2024, v. 14, n. 10, p. 1215, doi. 10.3390/biom14101215
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Redox Imbalance and Mitochondrial Abnormalities in Kidney Disease—Volume II.
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- Biomolecules (2218-273X), 2024, v. 14, n. 8, p. 973, doi. 10.3390/biom14080973
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