The changing profile of SARS-CoV-2 serology in Irish blood donors.

Background: The present study aimed to investigate the progression of the SARS-CoV-2 pandemic in Ireland over the first three waves of infection. Method: A selection of blood donor serum samples collected between February 2020 and December 2021 were analysed by various commercially available serological assays for antibodies to SARS-CoV-2 (n = 15,066). Results: An increase in seropositivity was observed between wave 1 (February to September 2020) and wave 2 (November and December 2020) of 2.20% to 3.55%. A large increase in estimated seroprevalence to 11.89% was observed in samples collected in February and March 2021 (wave 3 of infection).The rate of seropositivity varied by age group, with the highest rate observed in the youngest donors (18-29 years) peaking at 18.79% in wave 3. The results of spike antibody (anti-S) testing indicated that 44/1009 (4.36%) of seroreactive donors in wave 3 had a serological profile consistent with vaccination. By November 2021, we detected an overall seropositivity of 97.04%. Conclusions: The present study provides a comprehensive estimation of the level of circulating SARS-CoV-2 antibodies in Irish blood donors, enabling differentiation between vaccination and natural infection, as well as real-time monitoring of the progression of the COVID-19 pandemic in Ireland. Seroepidemiology has a role in determining reliable estimates of transmission, infection fatality rates and vaccine uptake. The continued screening of blood donors for this purpose has the potential to generate important data to assist with the management of future waves of SARS-CoV-2.

COVID-19 convalescent plasma from Norwegian blood donors. / Covid-19-rekonvalesensplasma fra norske blodgivere.

The collection and use of convalescent plasma to treat COVID-19 has taught us important lessons about the organisation, testing and selection of blood donors and patients. This is knowledge that can be used in the next pandemic.

COVID-19 convalescent plasma: current status, lessons from the past and future perspectives.

When the COVID-19 pandemic hit, blood transfusion services worldwide started collection of convalescent plasma as early as possible, as exemplified by the response in Norway. There were challenges related to donor selection, donor safety, testing for relevant antibodies and indications for and dosing of the convalescent plasma. As more knowledge became available, the product quality was more standardised. Multiple case reports, observational studies and some randomized studies were published during the pandemic, as well as laboratory studies reporting different approaches to antibody testing. The results were conflicting and the importance of convalescent plasma was disputed. Even though there has been strong international collaboration with involvement of many key organisations, we may better prepare for the next pandemic. An even stronger, more formalised collaboration between these organisations could provide more clear evidence of the importance of convalescent plasma, based on the principles of passive immunisation.

How do I implement a whole blood-based blood preparedness program in a small rural hospital?

Civilian and military guidelines recommend balanced transfusion to patients with life-threatening bleeding. Early start of transfusion has shown improved survival. Thus, a balanced blood inventory must be available in all levels of health care to ensure early stabilization and damage control resuscitation of patients with bleeding. Whole blood has been reintroduced as a blood product for massive bleeding situations because it affords plasma, red blood cells, and platelets in a balanced ratio in a logistically advantageous way. In this article, we describe how to establish a whole blood-based blood preparedness program in a small rural hospital with limited resources. We present an implementation tool kit, which includes discussions on whole blood program strategies and the process of developing detailed procedures on donor selection, collection, storage, and transfusion management of whole blood. The importance of training and audit of the routines is highlighted, and establishment of an emergency walking blood bank is discussed. We conclude that implementation of a whole blood program is achievable in small rural hospitals and recommend that rural health care facilities at all treatment levels enable early balanced transfusion for patients with life-threatening bleeding by establishing protocols for whole blood-based preparedness.

A patient with severe COVID-19 treated with convalescent plasma. / Pasient med alvorlig covid-19 behandlet med rekonvalesensplasma.

BACKGROUND: COVID-19 can lead to life-threatening disease. While awaiting vaccines or documented specific therapeutic agents, several alternative treatment options are under investigation. This is a case report of the first COVID-19 patient treated with convalescent plasma in Norway. CASE PRESENTATION: A patient with severe COVID-19 on prolonged mechanical ventilation, who was PCR SARS-Cov-2 positive on day 22, was transfused with convalescent plasma on day 31 and tested negative for SARS-CoV-2 the following day. The patient gradually improved and was weaned from the ventilator and discharged alive from the ICU on day 63. INTERPRETATION: This case report concerns one patient with clinical improvement after convalescent plasma transfusion. A SARS-CoV-2 test was not performed immediately before transfusion and the complexity of intensive care treatment makes it difficult to draw any conclusions on the potential effectiveness of this treatment. However, this case report is encouraging with regard to planned trials with convalescent plasma.