Øystein Eikrem
Stilling
Førsteamanuensis, Leader, Renal Research Group. Associate professor. MD, PhD.
Tilhørighet
Publikasjoner
2023
- Nordbø, Ole Petter; Landolt, Lea Zoe; Eikrem, Øystein Solberg et al. (2023). Transcriptomic analysis reveals partial epithelial–mesenchymal transition and inflammation as common pathogenic mechanisms in hypertensive nephrosclerosis and Type 2 diabetic nephropathy. (ekstern lenke)
- Strauss, Philipp; Eikrem, Øystein Solberg; Marti, Hans Peter et al. (2023). From archival tissues to systems biology: Using transcriptomics to investigate the progression of kidney disease. (ekstern lenke)
- Eikrem, Øystein Solberg; Lillefosse, Bjørnar Sandnes; Delaleu, Nicolas et al. (2023). Network-Based Assessment of Minimal Change Disease Identifies Glomerular Response to IL-7 and IL-12 Pathways Activation as Innovative Treatment Target. (ekstern lenke)
- Braun, Fabian; Abed, Ahmed; Sellung, Dominik et al. (2023). Accumulation of α-synuclein mediates podocyte injury in Fabry nephropathy. (ekstern lenke)
- Elsaid, Hassan Osman Alhassan; Rivedal, Mariell Lossius; Skandalou, Eleni et al. (2023). Proteomic analysis unveils Gb3-independent alterations and mitochondrial dysfunction in a gla <sup> −/−</sup> zebrafish model of Fabry disease. (ekstern lenke)
- Sekulic, Miroslav; Batal, Ibrahim; Kudose, Satoru et al. (2023). Kidney Dysfunction and Pathology in the Setting of Hemophagocytic Lymphohistiocytosis. (ekstern lenke)
- Delaleu, Nicolas; Marti, Hans Peter; Strauss, Philipp et al. (2023). Systems analyses of the Fabry kidney transcriptome and its response to enzyme replacement therapy identified and cross-validated enzyme replacement therapy-resistant targets amenable to drug repurposing. (ekstern lenke)
- Rivedal, Mariell Lossius; Mikkelsen, Håvard; Marti, Hans Peter et al. (2023). Glomerular transcriptomics predicts long term outcome and identifies therapeutic strategies for patients with assumed benign IgA nephropathy. (ekstern lenke)
2022
- Elsaid, Hassan Osman Alhassan; Tjeldnes, Håkon; Rivedal, Mariell Lossius et al. (2022). Gene Expression Analysis in gla-Mutant Zebrafish Reveals Enhanced Ca<sup>2+</sup> Signaling Similar to Fabry Disease. (ekstern lenke)
- Strauss, Philipp; Rivedal, Mariell; Scherer, Andreas et al. (2022). A multiomics disease progression signature of low-risk ccRCC. (ekstern lenke)
- Mikkelsen, Håvard; Vikse, Bjørn Egil; Eikrem, Øystein Solberg et al. (2022). Glomerular proteomic profiling of kidney biopsies with hypertensive nephropathy reveals a signature of disease progression. (ekstern lenke)
2021
- Braun, Fabian; Abed, Ahmed; Woidy, Mathias et al. (2021). Synuclein Alpha Accumulation Drives Lysosomal Dysfunction in Fabry Podocytopathy. (ekstern lenke)
- Nakken, Sigrid; Eikrem, Øystein Solberg; Marti, Hans Peter et al. (2021). AGAP2-AS1 as a prognostic biomarker in low-risk clear cell renal cell carcinoma patients with progressing disease. (ekstern lenke)
- Eikrem, Øystein Solberg; Kotopoulis, Spiros; Popa, Mihaela-Lucia et al. (2021). Ultrasound and Microbubbles Enhance Uptake of Doxorubicin in Murine Kidneys. (ekstern lenke)
2020
- Mazzawi, Tarek; Eikrem, Øystein Solberg; Lied, Gülen Arslan et al. (2020). Abnormal Uroguanylin Immunoreactive Cells Density in the Duodenum of Patients with Diarrhea-Predominant Irritable Bowel Syndrome Changes following Fecal Microbiota Transplantation . (ekstern lenke)
- Eikrem, Øystein Solberg; Delaleu, Nicolas; Strauss, Philipp et al. (2020). Systems Analyses of Renal Fabry Transcriptome and Response to Enzyme Replacement Therapy (ERT) Identifies a Cross-Validated and Druggable ERT-Resistant Module. (ekstern lenke)
2019
- Strauss, Philipp; Eikrem, Øystein Solberg; Tøndel, Camilla et al. (2019). Fabry Nephropathy: First mRNA-seq Findings from Kidney Biopsies Before and After Enzyme Replacement Therapy. (ekstern lenke)
- Eikrem, Øystein Solberg; Marti, Hans-Peter (2019). New methods clear the dust off old biopsies. RNA sequencing of FFPE kidney biopsies. (ekstern lenke)
- Koch, Even ; Finne, Kenneth; Eikrem, Øystein Solberg et al. (2019). Transcriptome-proteome integration of archival human renal cell carcinoma biopsies enables identification of molecular mechanisms. (ekstern lenke)