Wout Claassen scite author profile

Background Excessive activation of immune responses in coronavirus disease 2019 (COVID-19) is considered to be related to disease severity, complications and mortality. The complement system is an important component of innate immunity and can stimulate inflammation, but its role in COVID-19 is unknown. Methods A prospective, longitudinal, single center study was performed in hospitalized COVID-19 patients. Plasma concentrations of complement factors C3a, C3c, and terminal complement complex (TCC) were assessed at baseline and during hospital admission. In parallel, routine laboratory and clinical parameters were collected from medical files and analyzed. Results Complement factors C3a, C3c and TCC were significantly increased in plasma of COVID-19 patients compared to healthy controls (p<0.05). These complement factors were especially elevated in ICU patients during the entire disease course (p<0.005 for C3a and TCC). More intense complement activation was observed in patients that deceased and in patients with thromboembolic events. Conclusions COVID-19 patients demonstrate activation of the complement system, which is related to disease severity. This pathway may be involved in the dysregulated pro-inflammatory response associated with increased mortality and thromboembolic complications. Components of the complement system might have potential as prognostic markers for disease severity and as therapeutic targets in COVID-19.

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Biomarkers for antimicrobial stewardship: a reappraisal in COVID-19 times?

Berkel

Kox

Frenzel

et al. 2020

Crit Care

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A higher BMI is not associated with a different immune response and disease course in critically ill COVID-19 patients

et al. 2021

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Safety and Efficacy of Human Chorionic Gonadotropin Hormone-Derivative EA-230 in Cardiac Surgery Patients: A Randomized Double-Blind Placebo-Controlled Study

Groenendael¹,

Beunders²,

Hemelaar

et al. 2021

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Small molecule drugs to improve sarcomere function in those with acquired and inherited myopathies

Claassen

Baelde

Galli

et al. 2023

American Journal of Physiology-Cell Physiology

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Muscle weakness is a hallmark of inherited or acquired myopathies. It is a major cause of functional impairment and can advance to life threatening respiratory insufficiency. During the past decade, several small molecule drugs that improve the contractility of skeletal muscle fibers have been developed. In this review we provide an overview of the available literature and the mechanisms of action of small molecule drugs that modulate the contractility of sarcomeres, the smallest contractile units in striated muscle, by acting on myosin and troponin. We also discuss their use in the treatment of skeletal myopathies. The first of three classes of drugs discussed here increase contractility by decreasing the dissociation rate of calcium from troponin and thereby sensitizing the muscle to calcium. The second two classes of drugs directly act on myosin and stimulate or inhibit the kinetics of myosin-actin interactions, which may be useful in patients with muscle weakness or stiffness.

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Wout Claassen

Complement Activation in the Disease Course of Coronavirus Disease 2019 and Its Effects on Clinical Outcomes

Biomarkers for antimicrobial stewardship: a reappraisal in COVID-19 times?

A higher BMI is not associated with a different immune response and disease course in critically ill COVID-19 patients

Safety and Efficacy of Human Chorionic Gonadotropin Hormone-Derivative EA-230 in Cardiac Surgery Patients: A Randomized Double-Blind Placebo-Controlled Study

Small molecule drugs to improve sarcomere function in those with acquired and inherited myopathies

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