Publications by authors named "Geertje F van Rees"
A significant proportion of the personal and economic burden of schizophrenia can be attributed to the late diagnosis or misdiagnosis of the disorder. A novel, objective diagnostic approaches could facilitate the early detection and treatment of schizophrenia and improve patient outcomes. In the present study, we aimed to identify robust schizophrenia-specific blood biomarkers, with the goal of developing an accurate diagnostic model.
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- Schizophrenia remains poorly understood in terms of its causes and treatment variation, but recent studies indicate that genetic factors and cell signaling pathways may be key to uncovering the disease's mechanisms.
- Researchers analyzed cell signaling changes in peripheral blood mononuclear cells from drug-naïve schizophrenia patients, discovering both known and new signaling markers linked to the disease and its immune response.
- Their findings suggest that these blood cell markers could help identify patients with varying treatment responses and risks for metabolic and cardiovascular side effects, potentially improving schizophrenia management.
Recent evidence suggests that comorbidities between neuropsychiatric conditions and metabolic syndrome may precede and even exacerbate long-term side-effects of psychiatric medication, such as a higher risk of type 2 diabetes and cardiovascular disease, which result in increased mortality. In the present study we compare the expression of key metabolic proteins, including the insulin receptor (CD220), glucose transporter 1 (GLUT1) and fatty acid translocase (CD36), on peripheral blood mononuclear cell subtypes from patients across the neuropsychiatric spectrum, including schizophrenia, bipolar disorder, major depression and autism spectrum conditions (n = 25/condition), relative to typical controls (n = 100). This revealed alterations in the expression of these proteins that were specific to schizophrenia.
View Article and Find Full Text PDFThere is a paucity of efficacious new compounds to treat neuropsychiatric disorders. We present a novel approach to neuropsychiatric drug discovery based on high-content characterization of druggable signaling network responses at the single-cell level in patient-derived lymphocytes ex vivo. Primary T lymphocytes showed functional responses encompassing neuropsychiatric medications and central nervous system ligands at established (e.
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- * Utilizing advanced techniques, researchers examined immune cell signaling in patients with four major disorders (autism, bipolar disorder, major depression, schizophrenia) and identified 25 significant alterations compared to healthy controls.
- * Findings suggest a continuum of neuropsychiatric conditions rather than distinct categories, revealing specific network changes in immune cell pathways that could lead to new treatment targets.
Article Synopsis
- The study examined protein differences in blood between individuals with first-onset schizophrenia and healthy controls, and also looked at newborn blood samples to identify early markers associated with later schizophrenia development.
- Researchers used advanced mass spectrometry techniques to analyze proteins, finding significant alterations in levels of specific proteins like Haptoglobin and Antithrombin-III in both the schizophrenia patients and neonates who later developed the disorder.
- The research indicated environmental factors, such as urban living during pregnancy, influenced protein abundance at birth, and hopes to lead to better predictive models and prevention strategies for neurodevelopmental disorders.
Abnormal activation of brain microglial cells is widely implicated in the pathogenesis of schizophrenia. Previously the pathophysiology of microglial activation was considered to be intrinsic to the central nervous system. We hypothesised that due to their perivascular localization, microglia can also be activated by factors present in circulating blood.
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