key: cord-345679-ydwcp75s authors: Younas, Amber; Waheed, Samra; Khawaja, Shabnum; Imam, Mehjabeen; Borhany, Munira; Shamsi, Tahir title: SEROPREVALENCE OF SARS-COV-2 ANTIBODIES AMONG HEALTHY BLOOD DONORS IN KARACHI, PAKISTAN date: 2020-08-24 journal: Transfus Apher Sci DOI: 10.1016/j.transci.2020.102923 sha: doc_id: 345679 cord_uid: ydwcp75s BACKGROUND: Covid-19 spread through blood transfusion has not yet been reported. Despite the prevailing pandemic, there are no recommendations available as yet for testing SARS-CoV-2 antibodies as part of blood screening. OBJECTIVE: To determine the seroprevalence of SAR-CoV-2 antibodies, its clinical significance and to identify if total antibodies(IgA, IgM, IgG) should be tested or just the specific IgG antibodies only. METHOD: Consecutive blood donors donated were screened for standard serological panel of HbsAg, Anti-HCV, Anti-HIV and Syphilis using Cobas-411 analyser and Malaria. All seronegative donors were then screened for COVID serology using the same instrument. These results were compared with the blood donors’ seroprevalence checked in a cohort in the first week of June 2020. Pre-COVID-19 period (October 2019) blood donors’ archived samples were also compared. Donors who were positive on ECLIA were then tested for specific antibodies (IgM or IgG) by ELISA. RESULTS: A total of 380 healthy blood donors were included. All were males with the mean age being 30.6 ± 6.3 years. Ten pre-pandemic samples did not show COVID-19 antibodies, whereas out of 70 samples in the3(rd) week of June, only 15 (21.4%)were positive. However, in July out of the 300 blood donors, 113 (37.7%) were found to be reactive. To reconfirm our findings, these 113 donors were then tested on ELISA for presence of IgG specifically. Out of these 128 samples, 81 were IgG positive, 23 were borderline positive and 24 were negative. CONCLUSION: Almost 40% of blood donors are now seroconverted for COVID-19. This is a reflection of widespread seroprevalence in the adult male population. Corona virusfirst emerged in Wuhan, China in December 2019and now due to its rapid transmission throughout the world, it is regarded a pandemic. (1) SARS-CoV-2,is a BetaCorona J o u r n a l P r e -p r o o f virus, which is an enveloped, positive sense-single stranded RNA virus containing four major structural proteins: Spike(S), membrane (M), envelope (E) and the nucleocaspid (N). (2) Virus invades the host cells by interaction of its Spike protein (S) with specific receptor on host's cell membrane (ACE-2 receptor) and then gains entry into cell via the process of endocytosis and uses its own RNA and host machinery for replication. (3) Coronavirus has a range of presentation varying from no or mild symptoms like fever, cough cold, body aches, abdominal pain, diarrhea to severe acute respiratory symptoms including Acute Respiratory Distress Syndrome that could lead to death. (4,5,6,) . More than 20 million COVID-19 cases are recorded throughout the world causing around 0.7 million deaths and around 14 million recoveries. (7) In Pakistan, thefirst 2 cases of were reported in February 2020 (8) in individuals who travelled from Iran, with all the appropriate measures immediately taken to prevent its spread. Pakistan has reported around 0.28 million cases till date, with more than 6000 deaths. (9) This data revealed better control of Covid-19 in our population and decreased mortality as compared to some other countries; however, these are the cases that had been symptomatic or tested because of contact tracing and were C-OVID-19 PCR positive. The testing rate of Pakistan is much lower compareto the rest of the world and South East Asia due to many reasons. One is the fear of community to the COVID-19 infection, the other and very important being the limited socioeconomic resources. As COVID-19 has become a global threat, it was really important to force the health care systems around the world to take necessary steps in early recognition and prevention of spread of the virus. Nucleic acid testing for SARS-CoV-2 by RT-PCR (real time polymerase chain reaction) is the gold standard and helps in early recognition of confirmed COVID cases. (10)However RT-PCR sensitivity can be influenced by many factors like biological sampling, inadequate sample collection, time between sample collection and onset of symptoms and fluctuation in viral load, giving false negative results. (11) . Moreover, because of a major proportion of patients being asymptomatic, an easy, sensitive and inexpensive investigation is required to know the actual frequency and seroprevalence of the virus. This could be achieved by performing specific antibody screening by validated serological assays in order to promptly identify the individuals who have been infected with COVID 19in order to facilitate the control of transmission of the disease and ensure timely public health management. (12) J o u r n a l P r e -p r o o f Evaluatingthe prevalence of COVID-19 infection among healthy blood donors is important. WHO has currently provided no recommendations about screening the donors for SARS-CoV-2 by RT-PCR or immunoassays, however, it recommends temporary deferral for 28 days ifany symptoms (cough, fever, flu) are present, or if they are exposed to a confirmed COVID-19 patient or have travelled to an epidemic area. WHO also recommends that the potential donors also have to inform the blood bank if they develop symptoms within 28 days of donation. (14) However, COVID-19 virus does not transmit through blood donations and is not a blood borne disease but identification of seroprevalence among the blood donors can give an estimate of circulation of the virus among healthy individuals, providing actual disease burden and real case fatality rate in a population. Information regarding antibody response against SARS-CoV-2 in asymptomatic individuals is lacking in our part of the subcontinent. In our study, we conducted specific serological testing (total antibodies) to identify prevalence of SARS-2-CoV antibodies among the healthy blood donors who visited Blood Bank at our Institute.Their results were compared with specific serologic results of blood donors that came before the onset of pandemic(October, 2019). With this aim, we elucidate the seroprevalence of blood donors and association of any blood groups with the seroconversion along with association with the certain age group. A cohort of voluntary/exchange blood donors who came atthe National institute of blood diseases and bone marrow transplantation,Karachi, during the pandemic in May, June and July were enrolled in the study. Retrospectively, healthy blood donors who visited our blood bank in October 2019 were also tested by recovering their previous samples. Blood donors meeting the AABB 18 th edition donor acceptance and deferral criteria were included or excluded accordingly. Moreover, history was thoroughly taken for presence of fever and any respiratory symptoms for at least 28 days;donors, who had a history of COVID-19 infection, were excluded from the study. Any donors having close contact with other COVID-19 patients were also excluded. Furthermore, donors having positive screening for hepatitis B, hepatitis C, HIV, syphilis or malaria were also excluded. Demographic data of donors including age and gender was noted. For categorical variables, frequency with percentage was calculated whereas mean and standard deviation was calculated for quantitative variables. Anti-SARS-CoV-2(Total) is qualitative assay; mean was calculated by using numerical cut of index (COI) value. T-test was used to compare the mean and p value of less than 0.05 was taken as statistically significant. All analysis was done on statistical package for social science SPSS (Version 23). A total of 380 healthy blood donors were included in the study. All were males and their mean age was 30.6±6.3years. Ten samples from October 2019 were checked for anti-SARS-CoV antibodies by ECLIA, and none of them was found to be positive. In 3 rd week of June, 70 donors were tested for presence or absence of anti SARS-CoV antibodies and 15 were tested positive (21.4%). In July 2020, we tested 300 healthy blood donors, 113 donors (37.7%) were found to be reactive for anti-SARS-CoV-2antibodies. To reconfirm our findings, these 128 donors were then tested on ELISA for presence of IgG specifically. Out of these 128 samples, 81 were IgG positive, 24 were negative and 23 were found to be borderline positive. To further assess our findings, 24 negative IgG samples were tested for IgM ELISA and out of these 24, 22 were found to be negative for IgM whereas 2 were borderline positive as shown in figure 01. Analyzing the blood groups of these healthy donors, we found out that 109 blood donors were O These findings elaborated upon some important concerns. The first being the actual number of COVID cases in Pakistan because only symptomatic individuals were tested for COVID by PCR. Secondly, the increasing number of SARS COV-2 antibodies in healthy population is raising herd immunity. Lastly, the samples that were positive for SARS COV-2 antibodies by ECLIA but were negative for ELISA IgG and IgM, either that were false positive or some other category of antibody was present in those donors.We rechecked the samples of ECLIA and the result was found to be same. Considering the high specificity of ECLIA, we preclude the idea of false positivity. Hypothetically, we can assume those antibodies to be IgA but we could not confirm due to the lack of testing availability. A study in China was published regarding antibodies in healthy blood donors. They demonstrated overall COVID-19 antibody prevalence as 2.29%, 0.029% and 0.0074% in Wuhan, Shenzhen and Shijiazhuang respectively from January 2020 to April 2020.(1) These results contradict our findings probably because of the strict social restrictions followed in China as compared to our country. In another study in China, association of gender was also demonstrated with a Gender ratio was 0.99(male/female). (14) As all of our blood donors were males, we could not make any association with the gender. Again, since the majority of our blood donors were young adults, any association with age could not be established. However, J o u r n a l P r e -p r o o f compared to rest of the world, Pakistan has a higher ratio of young adults who were COVID-19 positive;althoughthe mortality ratio was lower among them. It could be due to the fact that our country has a much lower average age as compared to the rest of the world. Association of blood group with COVID-19 infection has also been described in recent studies. Individuals with blood group A have been found to be more at risk as compared to those with blood group O. (15, 16) The exact reason for this is unknown, but partly may be due to the protective mechanism of circulating anti-A antibodies which inhibit the interaction of virus to its specific host ACE2 receptor. (17) . However, in our study we did not observe any significant difference between different blood groups, which might be because none of the donors were symptomatic during disease period. Different studies throughout the world were conducted in the general population for checking antibodies status; one such study in Netherlands was reported in April 2020 which showed 2.7%of population being reactive for Covid antibodies (18), however they did not exclude previously symptomatic cases. Another study in Northern France reported 25.8% of population positive for COVID-19 antibody(19)but they also did not exclude previously symptomatic cases. In April 2020, Italy reported around 9.4% of healthy blood donors to be seropositive for COVID-19(20). Our study showed the largest number of seroconversion partly because of the time period selected for testing and because of implementation of social restrictions stringently in other parts of the world. A study has demonstrated that if around 60% of population(21) develops antibodies, the prevention of disease can be strengthened. However, whether these antibody responses are long lasting or not needs to be studied and investigated. As RNA viruses have a tendency to mutate, it is still not clearthat if the virus mutates, will these antibodies be protective against the disease or not. Antibody testing of general population can help in detecting the actual number of asymptomatic carriers; however, it cannot be used for the diagnosis and PCR remains the choice of investigation for diagnosis.Talking about limitations, this is a single centre study but the first local study of its type to our knowledge to elucidate the seroprevalence of blood donors, its J o u r n a l P r e -p r o o f association with any blood groups and age group. We need more local studies to authenticate these findings. Moreover, there were limited pre-covid samples available to study from. To conclude, seroprevalence of SARS-COV-2 antibodies has increased in Pakistan over a period of time and could help in recognizing the actual number of COVID-19 cases. Ethical Review Board: The study was approved by the Ethical Review Committee of National Institute of blood disease and bone marrow transplantation. AY and SW wrote the manuscript. SWK and MI did data collection and analysis. MB, TSS conceived main idea andcritically evaluated the paper. The prevalence of antibodies to SARS-CoV-2 among blood donors in China.medRxiv Properties of Coronavirus and SARS-CoV-2.The Malaysian Journal of Pathology ACE2: The molecule that helps coronavirus invade your cells Pathological findings of COVID-19 associated with acute respiratory distress syndrome. The Lancet respiratory medicine Clinical characteristics of 138 hospitalized patients with 2019 novel coronavirus-infected pneumonia in Wuhan Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. The lancet World Health Organization, COVID 19 Pandemic Emergency Information Pandemic & Pakistan; Limitations and Gaps. Global Biosecurity Government of Pakistan, COVID-19 updates The SARS-CoV-2 outbreak: diagnosis, infection prevention, and public perception Detection of SARS-CoV-2 in different types of clinical specimens The role of antibody testing for SARS-CoV-2: is there one? World Health Organization. Maintaining a safe and adequate blood supply during the pandemic outbreak of coronavirus disease (COVID-19).Interim guidance The epidemiological characteristics of an outbreak of 2019 novel coronavirus diseases (COVID-19) in China.Zhonghualiuxingbingxuezazhi= Zhonghualiuxingbingxuezazhi Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. The lancet Relationship between the ABO Blood Group and the COVID-19 Susceptibility.medRxiv Association between ABO blood groups and risk of SARS-CoV-2 pneumonia We thank all the staffs and technologists of the blood bank, laboratory and donor centre for providing endless support during the pandemic.