Global ETD Search

11	The Herp and HRD1-dependent degradation of TRPP2 Lara, Carlos J. Unknown Date No description available. TRPP2 HRD1 Herp polycystic kidney disease endoplasmic reticulum stress calcium signaling
12	Muscarinic M3 Knockdown is Associated with Cardiovascular and Nodal CiliaDysfunction Ley, Sidney T. January 2020 (has links) No description available. Pharmacology
13	Outcomes of Patients With Autosomal-Dominant Polycystic Kidney Disease on Peritoneal Dialysis: A Meta-Analysis Boonpheng, Boonphiphop, Thongprayoon, Charat, Wijarnpreecha, Karn, Medaura, Juan, Chebib, Fouad T., Cheungpasitporn, Wisit 01 June 2019 (has links) Background: Complications related to peritoneal dialysis (PD) in patients with autosomal-dominant polycystic kidney disease (ADPKD), including intraperitoneal rupture of renal cyst, hernia, membrane failure and peritonitis, have been reported. However, long-term clinical outcomes of ADPKD patients on PD remain unclear. We performed this meta-analysis to assess the risks of death, technique failure and peritonitis in ADPKD patients on PD. Methods: A systematic review was conducted using MEDLINE, EMBASE and Cochrane databases from inception to October 2017 to identify studies that evaluated the outcomes of ADPKD patients on PD, including the risks of death, technique failure and peritonitis. Non-ADPKD patients on PD were used as controls. Effect estimates from the individual study were extracted and combined using the random-effect, generic inverse variance method of DerSimonian and Laird. Results: Twelve cohort studies with a total of 14 673 patients on PD (931 ADPKD and 13 742 non-ADPKD patients) were enrolled. Compared with non-ADPKD status, ADPKD was associated with significantly decreased mortality risk with pooled odds ratio (OR) of 0.68 (95% confidence interval (CI), 0.53–0.86; I 2 = 0). There were no associations of ADPKD with the risks of technique failure of PD and peritonitis with pooled OR of 0.93 (95% CI, 0.79–1.10; I 2 = 0) and 0.88 (95% CI, 0.75–1.05; I 2 = 0), respectively. We found no publication bias as assessed by Egger's regression asymmetry test, with P = 0.90, 0.28 and 0.60 for the risks of mortality, technique failure and peritonitis in ADPKD patients on PD, respectively. Conclusion: Compared with non-ADPKD patients on PD, our study demonstrates that ADPKD patients on PD have 0.68-fold decreased mortality risk. There are no associations of ADPKD status with the risks of technique failure or peritonitis. ADPKD end-stage renal disease meta-analysis mortality peritoneal dialysis
14	Defining the Role of c-Jun N-terminal Kinase (JNK) Signaling in Autosomal Dominant Polycystic Kidney Disease Smith, Abigail O. 25 May 2021 (has links) Polycystic kidney disease is an inherited degenerative disease in which the uriniferous tubules are replaced by expanding fluid-filled cysts that ultimately destroy organ function. Autosomal dominant polycystic kidney disease (ADPKD) is the most common form, afflicting approximately 1 in 1,000 people. It primarily is caused by mutations in the transmembrane proteins Polycystin-1 (PKD1) and Polycystin-2 (PKD2). The most proximal effects of polycystin mutations leading to cyst formation are not known, but pro-proliferative signaling must be involved for the tubule epithelial cells to increase in number over time. The stress-activated mitogen-activated protein kinase (MAPK) pathway c-Jun N-terminal kinase (JNK) promotes proliferation in specific contexts and is activated in acute and chronic kidney disease. Previous work found evidence of JNK activation in cystic tissues (Le et al., 2005) and others showed that JNK signaling is activated by aberrant expression of PKD1 and PKD2 in cell culture (Arnould et al., 1998; Arnould et al., 1999; Parnell et al., 2002; Yu et al., 2010) but the contribution of JNK signaling to cystic disease in vivo has not been investigated. This body of work describes the use of conditional and germline deletion of Pkd2, Jnk1 and Jnk2 to model ADPKD and JNK signaling inhibition in juvenile and adult mice. Immunoblots and histological staining were used to measure JNK activation and evaluate the effect of JNK deletion on cystic disease. Results show that Pkd2 deletion activated JNK signaling in juvenile and adult mice. Reduction of JNK activity significantly reduced cystic burden in kidneys of juvenile Pkd2 mutant mice. This correlated with reduced tubule cell proliferation and reduced kidney fibrosis. The improvement in cystic phenotype was driven primarily by Jnk1 deletion rather than Jnk2. JNK signaling inhibition in adult Pkd2 mutants significantly reduced liver cysts when mice were aged six months. JNK inhibition reduces the severity of cystic disease caused by the loss of Pkd2 suggesting that the JNK pathway should be explored as a potential therapeutic target for ADPKD. JNK Mitogen-Activated Protein Kinases Cell Biology Molecular Genetics
15	Geneticky podmíněné faktory progrese vybraných chronických nefropatií. / Genetically determined progression factors of selected chronic nephropathies Obeidová, Lena January 2020 (has links) Polycystic kidney disease is a severe genetic disease occurring in both adult and pediatric patients. The basic characteristic of this disease is the development and progressive enlargement of renal cysts gradually replacing functional kidney tissue. This leads to renal failure in many patients. However, renal cysts may also occur in a number of other diseases, including multisystem syndromes. This complicates differential diagnosis in some patients. In our study, we first focused on the diagnosis and characterization of genotypic-phenotypic relationships in patients with polycystic disease arising in childhood, later we extended our study to adult patients and patients with unclear clinical diagnosis. At the same time, we expanded the portfolio of analyzed disorders to a number of diseases in which the phenotype of polycystic kidneys may occur, and noncystic diseases as well. During our project, massive parallel sequencing was used to analyze 149 patients - 128 with cystic and 21 with noncystic clinically diagnosed nephropathies. At the same time, the findings were verified by Sanger sequencing in 176 relatives of our probands. Mutation detection reached 59% in cystic patients, and 43% in non-cystic patients, respectively. In many patients, molecular genetic analysis revealed a different etiology...
16	Regulation of STAT6, STAT3 and STAT1 by the Cytoplasmic Tail of Polycystin-1, the Protein Affected in Polycystic Kidney Disease Shivakumar, Vasanth 01 May 2007 (has links) No description available. POLYCYSTIN CILIA P100 STAT6 STAT3 STAT1 IL4 IFN KIDNEY POLYCYSTIC KIDNEY DISEASE
17	Regulation of Fluid-Shear Stress Sensing by Mechanosensory Primary Cilia Abdul-Majeed, Shakila 13 September 2011 (has links) No description available. Biomedical Research cilia hypertension polycystic kidney disease immuno fluorescence microscopy scanning electron microscopy
18	Cellular Effects of Replicating a Polypurine-Polypyrimidine Sequence and the Interactions of DUE-B with Replication Proteins Myers, Shere Lynne 20 December 2010 (has links) No description available. Molecular Biology polypurine polypyrimidine triplex quadruplex replication mirror repeat polycystic kidney disease checkpoint
19	Mechanosensory Role of Vascular Endothelial Primary Cilia in the Development of Hypertension in Polycystic Kidney Disease Hossain Saad, Md Zubayer January 2016 (has links) No description available. Pharmacology Cellular Biology Molecular Biology
20	Renal Arterial Blood Flow Quantification by Breath-held Phase-velocity Encoded MRI Wallin, Ashley Kay 14 May 2004 (has links) Autosomal dominant polycystic disease (ADPKD) is the most common hereditary renal disease and is characterized by renal cyst growth and enlargement. Hypertension occurs early when renal function is normal and is characterized by decreased renal blood flow. Accordingly, the measurement of blood flow in the renal arteries can be a valuable tool in evaluating disease progression. In studies performed in conjunction with this work, blood flow was measured through the renal arteries using magnetic resonance imaging (MRI). In order to validate these in vivo measurements, a vascular phantom was created using polyvinyl alcohol (PVA) and also scanned using MRI under controlled steady flow conditions. Ranges of vessel diameters and flow velocities were used to simulate actual flow in a normal and diseased population of adults and children. With the vessel diameters studied in this experiment, minimization of field of view and an increase in spatial resolution is important in obtaining accurate data. However, a significant difference does not exist between the results when using the 160 or 200 mm FOV. An increase in the number of phase encodings provides improved results, although an increase in image acquisition time is observed. Velocity-encoding in all three orthogonal directions does not improve image data. This method of using MRI to measure flow through a vessel is shown to be both accurate and reproducible, and the protocol providing the most correct results is prescribed. Breath-hold phase-velocity encoded MRI proves to be an accurate and reproducible technique in capturing flow and has the potential to be used for the purpose of observing hemodynamic changes in the renal arteries with the progression of ADPKD. Bland-Altman plot Magnetic resonance imaging Blood flow Polyvinyl alcohol Phase-velocity encoded MRI PC-MRI accuracy and precision Renal circulation Magnetic resonance imaging

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