miND spike in Archives - Tamirna

hepatoMX Project Kickoff: TAmiRNA and You2Yourself Join Forces to Develop a Groundbreaking Urinary microRNA Diagnostic for Liver Disease

We are excited to announce the official start of the EUREKA Eurostars project hepatoMX — a three-year collaboration between You2Yourself (Y2Y), a Dutch company specializing in small RNA-based early disease detection, and TAmiRNA GmbH, an Austrian SME with expertise in microRNA biomarker discovery and diagnostic test development (hepatomiR®). The project officially started on April 1, 2025, and aims to revolutionize the early detection of metabolic liver disease. The hepatoMX project will leverage TAmiRNA’s clinical expertise in liver diagnostics and Y2Y’s unique Urimon cohort that captures the dynamics of disease development to deliver a validated diagnostic test utilizing a proprietary urinary microRNA biomarker panel to identify early-stage liver disease in a simple and non-invasive manner. This innovative approach [...]

Microvascular microRNA Signatures in Sepsis: A High-Resolution View

2025-10-09T10:29:18+02:00October 9th, 2025|biomarker, Biomarker Discovery, biomarkers, Illumina NewSeq2000, laser microdissection (LMD), microRNA services, microRNAs, miND, miND spike ins, NGS, sequencing, small RNA-sequencing, smallRNA|Comments Off on Microvascular microRNA Signatures in Sepsis: A High-Resolution View

Sepsis drives profound microvascular injury, particularly in the kidney. But how do microRNAs (miRNAs) - the small regulators of gene expression - respond within distinct vascular compartments during this insult? A new study by Luxen et al. published in Scientific Reports on October 2nd 2025 takes on this question using a clever methodological combination: laser microdissection (LMD) of microvascular subregions (arterioles, glomeruli, capillaries, postcapillary venules) followed by small RNA sequencing using TAmiRNA´s miND® workflow for highly sensitive and quantitative microRNA analysis. Why this approach matters Traditional microRNA profiling of whole tissues obscures spatial heterogeneity. With LMD, the authors could precisely isolate defined microvascular zones from kidney sections. Even with the tiny RNA yields from these isolated compartments, [...]