V. M. J. Novotný scite author profile

The results of this analysis indicate that the storage-related changes in the RBC membrane are the results of disturbance and/or acceleration of physiologic processes such as cellular aging, including vesicle formation. The latter may serve to remove damaged membrane patches that would otherwise lead to accelerated RBC removal. These data provide a framework for future studies toward the development of better storage conditions and a reduction of the side effects of RBC transfusion.

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Erythrocyte ageingin vivoandin vitro: structural aspects and implications for transfusion

Bosman

Werre

Willekens

et al. 2008

Transfusion Medicine

214

207

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Erythrocyte transfusion is essential in conditions of large blood loss, of inadequate bone marrow production and of increased erythrocyte breakdown. The structural and biochemical changes that erythrocytes go through during storage, probably associated with the disappearance of up to 30% of the erythrocytes within 24 h after transfusion, are likely to contribute to the transfusion side effects: iron overload, erythrocyte adhesion to the endothelial surface with proinflammatory consequences, autoantibody formation, endothelial damage by released erythrocyte constituents, a hampered microcirculation and oxygen delivery. In vivo, senescent erythrocytes are marked for removal by binding of autologous immunoglobulin G to ageing antigens, which arise by changes in the conformation of the membrane domain of band 3. Also, vesicle formation has been described as an integral part of the erythrocyte ageing process. Comparable changes occur during erythrocyte storage. This review describes the current state of knowledge of the mechanism of erythrocyte ageing in vivo, ageing-related changes occurring during erythrocyte storage in blood bank conditions and their possible relation with the transfusion side effects. In view of the key position of band 3 in the maintenance of erythrocyte structure and function, elucidation of the pathways that control posttranslational modification of band 3 during storage may lead to new approaches towards maintaining ATP concentration and cellular integrity. This review concludes with the challenge to further explore the underlying processes of erythrocyte ageing in order to provide physiologically relevant tools for assessing and predicting erythrocyte homeostasis in vitro and in vivo and thereby to contribute to the development of rational transfusion protocols for various patient categories.

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Low SARS-CoV-2 seroprevalence in blood donors in the early COVID-19 epidemic in the Netherlands

et al. 2020

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The world is combating an ongoing COVID-19 pandemic with health-care systems, society and economies impacted in an unprecedented way. It is unclear how many people have contracted the causative coronavirus (SARS-CoV-2) unknowingly and are asymptomatic. Therefore, reported COVID-19 cases do not reflect the true scale of outbreak. Here we present the prevalence and distribution of antibodies to SARS-CoV-2 in a healthy adult population of the Netherlands, which is a highly affected country, using a high-performance immunoassay. Our results indicate that one month into the outbreak (i) the seroprevalence in the Netherlands was 2.7% with substantial regional variation, (ii) the hardest-hit areas showed a seroprevalence of up to 9.5%, (iii) the seroprevalence was sex-independent throughout age groups (18–72 years), and (iv) antibodies were significantly more often present in younger people (18–30 years). Our study provides vital information on the extent of exposure to SARS-CoV-2 in a country where social distancing is in place.

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Comparative proteomics of erythrocyte aging in vivo and in vitro

Bosman

Lasonder²,

Groenen-Döpp

et al. 2010

Journal of Proteomics

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V. M. J. Novotný

The proteome of red cell membranes and vesicles during storage in blood bank conditions

Erythrocyte ageingin vivoandin vitro: structural aspects and implications for transfusion

Low SARS-CoV-2 seroprevalence in blood donors in the early COVID-19 epidemic in the Netherlands

Comparative proteomics of erythrocyte aging in vivo and in vitro

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