Annet C.W. van Wesel scite author profile

In sickle cell disease (SCD), sickle hemoglobin (HbS) polymerizes upon deoxygenation, resulting in sickling of red blood cells (RBCs). These sickled RBCs have strongly reduced deformability, leading to vaso‐occlusive crises and chronic hemolytic anemia. To date, there are no reliable laboratory parameters or assays capable of predicting disease severity or monitoring treatment effects. We here report on the oxygenscan, a newly developed method to measure RBC deformability (expressed as Elongation Index ‐ EI) as a function of pO2. Upon a standardized, 22 minute, automated cycle of deoxygenation (pO2 median 16 mmHg ± 0.17) and reoxygenation, a number of clinically relevant parameters are produced in a highly reproducible manner (coefficients of variation <5%). In particular, physiological modulators of oxygen affinity, such as, pH and 2,3‐diphosphoglycerate showed a significant correlation (respectively R = ‑0.993 and R = 0.980) with Point of Sickling (PoS5%), which is defined as the pO2 where a 5% decrease in EI is observed during deoxygenation. Furthermore, in vitro treatment with antisickling agents, including GBT440, which alter the oxygen affinity of hemoglobin, caused a reproducible left‐shift of the PoS, indicating improved deformability at lower oxygen tensions. When RBCs from 21 SCD patients were analyzed, we observed a significantly higher PoS in untreated homozygous SCD patients compared to treated patients and other genotypes. We conclude that the oxygenscan is a state‐of‐the‐art technique that allows for rapid analysis of sickling behavior in SCD patients. The method is promising for personalized treatment, development of new treatment strategies and could have potential in prediction of complications.

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IL-4 alone and in combination with IL-10 protects against blood-induced cartilage damage

Meegeren

Roosendaal

Jansen

et al. 2012

Osteoarthritis and Cartilage

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Objective: It has been reported that interleukin (IL)-10 limits blood-induced cartilage damage. Our aim was to study the effect of IL-4 alone and in combination with IL-10 on blood-induced cartilage damage. Design: Healthy human full thickness cartilage explants were cultured for 4 days in the presence of 50% v/v blood. IL-4, IL-10, or a combination of both cytokines was added during blood exposure. Cartilage matrix turnover was determined after a recovery period; additionally cytokine production, chondrocyte apoptosis, and expression of the IL-4 and IL-10 receptors were analyzed directly after exposure. Results: Blood-induced damage to the cartilage matrix was limited by IL-4 in a dose-dependent way (P < 0.05). Also IL-10 limited this damage, although to a lesser extent (P < 0.03). The effect of IL-4 plus IL-10 was more pronounced and protective than IL-10 alone (P < 0.05). Production of IL-1b and tumor necrosis factor (TNF)-a was limited by both IL-4 and IL-10 (P < 0.05), but more strongly by IL-4. Bloodinduced apoptosis of chondrocytes was limited by IL-4 and the combination, and not by IL-10 alone. No direct beneficial effect of IL-4 or IL-10 on cartilage was found, however, the chondrocyte receptor expression of both cytokine receptors was upregulated by exposure to blood. Conclusions: This study demonstrates that IL-4 alone and in combination with IL-10 prevents bloodinduced cartilage damage. Expectedly, anti-inflammatory effects on monocytes in the blood fraction and protective effects on chondrocytes are both involved. IL-4 in combination with IL-10 might be used to prevent blood-induced joint damage as a result of trauma or surgery.

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Erythrocytosis associated with a novel missense mutation in the HIF2A gene

Wijk¹,

Sutherland²,

Wesel³

et al. 2009

Haematologica

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Anti‐β2‐glycoprotein I and anti‐prothrombin antibodies cause lupus anticoagulant through different mechanisms of action

Noordermeer

Molhoek

Schutgens

et al. 2021

Journal of Thrombosis and Haemostasis

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