Individual publications

Article | Fimepinostat Targets HDAC2 to Suppress Schwannoma Growth

| March 2026 | The HDAC inhibitor fimepinostat effectively induces apoptosis and suppresses tumor cell proliferation, highlighting its potential as a therapeutic strategy for schwannoma.
Sciomics supported the study with proteomic profiling and post-translational modification analysis of human cell samples.

Nagel et al., Fimepinostat Promotes Apoptosis and Decreases Cytokine Secretion in NF2-Related Human Schwannoma Cells. Int. J. Mol. Sci. 2026, 27, 2636

Article | Parkinson’s Striatum Organoids Show Increased Inflammation Hallmarks

| February 2026 | Patient-derived striatum organoids carrying the LRRK2-G2019S mutation reveal early Parkinson’s Disease features, including neuroinflammation and altered signalling. Sciomics supported the study by analysing patient-derived striatum organoids using the scioDiscover proteomic microarray.

Barmpa et al., Parkinson’s Disease Patient-Speciﬁc Striatum Organoids Show Hallmarks of Increased Inﬂammation. Mov Disord. (2026), published online February 11, 2026

Article | Transpulmonary Pressure-Guided PEEP Improves Lung Protection

| October 2025 | In a porcine lung injury model, transpulmonary pressure–guided PEEP titration improved mechanics and reduced tidal stress. Sciomics supported the study by analysing cytokine, chemokine, and surface marker expression levels in plasma samples using the scioCD Precision Proteomics platform.

Mutschler et al., Optimizing Positive End-Expiratory Pressure in Asymmetric Acute Lung Injury in a Porcine Model: The Role of Transpulmonary Pressure. Int. J. Mol. Sci. 2025, 26, 9985

Article | Fos-induced Osteosarcoma Links Cachexia-like Wasting to FGF21

| February 2026 | Fos-driven osteosarcoma induces systemic metabolic alterations and identified FGF21 as a key mediator and promising biomarker of cancer-associated cachexia. Sciomics supported the study by analysing murine serum samples using the scioDiscover proteomic microarray.

Luther et al., Fos-induced osteosarcoma growth causes a cachexia-like phenotype in mice and correlates with high Fgf21 serum levels. Cancer Metab. (2026)

Article | Long-Term Biobanked Dental Pulp Stem Cells Retain Angiogenic Potential

| September 2025 | Biobanked dental pulp stem cells preserved for years retained their angiogenic capacity and stem cell phenotype. Sciomics supported the study by analysing cell differentiation marker profiles from dental pulp stem cells using the scioCD Precision Proteomics platform.

Yamada et al., Long-Term Biobanked Dental Pulp Stem Cells Retain Angiogenic Potential for Vascularised Tissue Engineering—Laboratory Investigation. Int. Endod. J. (2025, online ahead of print)