The role of hypoxia and inflammation in the regulation of iron metabolism and erythropoiesis in COVID-19: The IRONCOVID study.

Coronavirus Disease (COVID-19) can be considered as a human pathological model of inflammation combined with hypoxia. In this setting, both erythropoiesis and iron metabolism appear to be profoundly affected by inflammatory and hypoxic stimuli, which act in the opposite direction on hepcidin regulation. The impact of low blood oxygen levels on erythropoiesis and iron metabolism in the context of human hypoxic disease (e.g., pneumonia) has not been fully elucidated. This multicentric observational study was aimed at investigating the prevalence of anemia, the alterations of iron homeostasis, and the relationship between inflammation, hypoxia, and erythropoietic parameters in a cohort of 481 COVID-19 patients admitted both to medical wards and intensive care units (ICU). Data were collected on admission and after 7 days of hospitalization. On admission, nearly half of the patients were anemic, displaying mild-to-moderate anemia. We found that hepcidin levels were increased during the whole period of observation. The patients with a higher burden of disease (i.e., those who needed intensive care treatment or had a more severe degree of hypoxia) showed lower hepcidin levels, despite having a more marked inflammatory pattern. Erythropoietin (EPO) levels were also lower in the ICU group on admission. After 7 days, EPO levels rose in the ICU group while they remained stable in the non-ICU group, reflecting that the initial hypoxic stimulus was stronger in the first group. These findings strengthen the hypothesis that, at least in the early phases, hypoxia-driven stimuli prevail over inflammation in the regulation of hepcidin and, finally, of erythropoiesis.

COVID-19, inflammatory response, iron homeostasis and toxicity: a prospective cohort study in the Emergency Department of Piacenza (Italy).

BACKGROUND AND AIM: Dysregulation of iron metabolism and hyper-inflammation are two key points in the pathogenesis of coronavirus disease 2019 (COVID-19). Since high hepcidin levels and low serum iron can predict COVID-19 severity and mortality, we decided to investigate iron metabolism and inflammatory response in 32 COVID-19 adult patients with a diagnosis of COVID-19 defined by a positive result of RT-PCR nasopharyngeal swab, and admitted to an Italian emergency department for acute respiratory failure at different degree. METHODS: Patients were stratified in 3 groups based on PaO2/FiO2 ratio at admission: 13 (41%) were normoxemic at rest and suffered from exertional dyspnea (group 1); 14 (44%) had a mild respiratory failure (group 2), and 5 (15%) a severe hypoxiemia (group 3). RESULTS: White blood cells were significantly higher in group 3, while lymphocytes and hemoglobin were significantly reduced. Serum iron, transferrin saturation, non-transferrin-bound iron (NTBI) and ferritin were significantly increased in group 2. All the groups showed high hepcidin levels, but in group 3 this parameter was significantly altered. It is noteworthy that in group 1 inflammatory and oxidative indices were both within the normal range. CONCLUSIONS: We are aware that our study has some limitations, the small number of enrolled patients and the short period of data collection, but few works have been performed in the Emergency Room. However, we strongly believe that our results confirm the pivotal role of both iron metabolism dysregulation and hyper-inflammatory response in the pathogenesis of tissue and organ damage in COVID-19 patients.

Thalassaemia is paradoxically associated with a reduced risk of in-hospital complications and mortality in COVID-19: Data from an international registry.

Although numerous patient-specific co-factors have been shown to be associated with worse outcomes in COVID-19, the prognostic value of thalassaemic syndromes in COVID-19 patients remains poorly understood. We studied the outcomes of 137 COVID-19 patients with a history of transfusion-dependent thalassaemia (TDT) and transfusion independent thalassaemia (TIT) extracted from a large international cohort and compared them with the outcomes from a matched cohort of COVID-19 patients with no history of thalassaemia. The mean age of thalassaemia patients included in our study was 41 ± 16 years (48.9% male). Almost 81% of these patients suffered from TDT requiring blood transfusions on a regular basis. 38.7% of patients were blood group O. Cardiac iron overload was documented in 6.8% of study patients, whereas liver iron overload was documented in 35% of study patients. 40% of thalassaemia patients had a history of splenectomy. 27.7% of study patients required hospitalization due to COVID-19 infection. Amongst the hospitalized patients, one patient died (0.7%) and one patient required intubation. Continuous positive airway pressure (CPAP) was required in almost 5% of study patients. After adjustment for age-, sex- and other known risk factors (cardiac disease, kidney disease and pulmonary disease), the rate of in-hospital complications (supplemental oxygen use, admission to an intensive care unit for CPAP therapy or intubation) and all-cause mortality was significantly lower in the thalassaemia group compared to the matched cohort with no history of thalassaemia. Amongst thalassaemia patients in general, the TIT group exhibited a higher rate of hospitalization compared to the TDT group (p = 0.001). In addition, the rate of complications such as acute kidney injury and need for supplemental oxygen was significantly higher in the TIT group compared to the TDT group. In the multivariable logistic regression analysis, age and history of heart or kidney disease were all found to be independent risk factors for increased in-hospital, all-cause mortality, whereas the presence of thalassaemia (either TDT or TIT) was found to be independently associated with reduced all-cause mortality. The presence of thalassaemia in COVID-19 patients was independently associated with lower in-hospital, all-cause mortality and few in-hospital complications in our study. The pathophysiology of this is unclear and needs to be studied in vitro and in animal models.

Influenza Vaccination in Asplenia: Improving Quality of Care in Time of Coronavirus

IntroductionAsplenic patients are at high risk of potentially fatal invasive infections, such as sepsis, meningitis, and pneumonia. It has been shown that infection from influenza viruses can precede or increase the risk of bacterial infection and of serious complications of the underlying disease. International and national guidelines recommend annual influenza vaccination in asplenic subjects. Following the Covid-19 pandemic, the major government and medical-scientific institutions in the US and in Europe have been planning how to contain infection during the 2020-2021 influenza season. Extending influenza vaccination is the safest and most effective way to reduce the circulation of influenza virus and to promote the correct diagnosis and management of suspected cases of SARS-CoV-2. Influenza vaccination also reduces complications associated with the underlying disease and visits to Emergency Units. Our study aims to evaluate influenza vaccination in a large population of asplenic patients and explore the main causes for non-vaccination to identify critical areas for improvement in the vaccination programme in these at-risk patients for the 2020-2021 influenza season.MethodsThe Italian Network of Asplenia (INA) is made up of 88 doctors working in 50 clinical centers in 27 cities and 16 of the 20 regions of Italy. It aims to build a large, prospective cohort of asplenic patients throughout Italy through which to study the interaction between asplenia and its associated underlying conditions, collecting precise, accurate data also in cases of rarer diseases. The study also aims to improve the quality of healthcare for this at-risk population. The number of patients enrolled in the Network who had had at least one dose of influenza vaccine at the time of diagnosis of asplenia was retrieved from the INA database. All participating centers were asked to answer a questionnaire to report the main obstacles for influenza vaccination.ResultsAt 1st August 2020, 1,670 patients had been enrolled in the INA (783 females;887 males). All underlying causes of asplenia are shown in Table 1. Only 466 (28%) patients had had at least one influenza vaccination, while 1,204 (72%) had never been vaccinated since diagnosis of asplenia. Thirty-five (70%) of the 50 centers answered the questionnaire. Main causes of non-vaccination were physicians' ambivalence concerning vaccination and patients' inadequate awareness or logistical problems.ConclusionsThese data show very low seasonal influenza vaccination cover even though asplenic patients are considered at-risk of complications associated with infection from influenza viruses. Since the 2020-2021 influenza season could see influenza viruses in circulation with SARS-CoV-2, influenza vaccination must be expanded as widely as possible, in particular to subjects of all ages at high risk. These results reveal important areas of concern in the management of asplenic patients and the need to improve the quality of information to physicians and patients alike. The INA co-ordinating center will launch a campaign to provide information and organize ad hoc meetings to widen influenza vaccination coverage in asplenic patients and reduce the pressure on the national health service during the next influenza season.

COVID 19 and Hemoglobinopathies: Update of the Italian Experience

Background. Patients with pre-existent chronic morbidities are likely to be more severely affected by SARS-Cov2 infection. In Italy, the "Società Italiana Talassemie ed Emoglobinopatie" (SITE) has recently estimated the number of patients (Pts) with Hemoglobinopathies followed by Italian Specialized Centers (SITE Network). Five thousand Transfusion-dependent beta-thalassemia (TDT), 1900 Non-Transfusion-dependent beta-thalassemia (NTDT) and 2000 Sickle Cell Disease (SCD) were registered [1]. To verify the impact of SARS-CoV-2 infection on Pts with Hemoglobinopathies, we performed a specific survey by electronic Case Report Form (eCRF). Inclusion criteria included positive swab or serology in a patient with hemoglobinopathy and at least 15 days of follow-up from either the onset of symptoms or SARS-CoV2 positivity. The survey was approved by the Ethics Committee, and eCRF was shared with the Centers of Italian Hemoglobinopathies Network. Preliminary data updated to April 10, 2020, were published [2].Results. As of July 31, 2020, 27 cases have been reported: 18 TDT, 4 NTDT, 5 SCD. 89% of the cases were in Northern Italy, where the rate of infection was much higher than the rest of the country, reflecting the national epidemiology. The mean age of thalassemia patients (TDT and NTDT) was 43±11 years, and 55% were male;the mean age of SCD patients was 33±15 years, and 40% was male. The likely source of infection has been detected in 63% (17/27) of cases: 11 had occupational exposure, 6 had a positive relative. Five patients were asymptomatic: for them, the SARS-CoV-2 infection was identified by positive swab for 1 patient and by positive level of IgG for 4. Twenty patients had associated comorbidities, 14 were splenectomized, and 3 had functional asplenia. Eleven patients were hospitalized, only one in high-intensity care unit. Three patients required more intensive ventilation support with continuous positive airway pressure (CPAP), one of these has a history of diffuse large B-cell lymphoma treated with chemotherapy in the previous year. Three other patients required support by oxygen. No Pts required intubation. Two Pts increased blood requirement. Only five received supposedly specific treatment for COVID-19: two hydroxychloroquine (HCQ), one HCQ plus ritonavir/darunavir, and one HCQ plus anakinra, one HCQ plus Tocilizumab plus Lopinavir/Ritonavir. The clinical course of hospitalized patients was 18±7 days. All patients recovered.Conclusions. The prevalence of COVID-19 infection in Italian patients with Hemoglobinopathies result 0,3% while in general population the prevalence in Italy is 0,4% [3]. Considering that the thalassemia population is more strictly observed, we could postulate that the precautions suggested or self-applied by the Pts were effective. No death nor severe SARS with intubation, nor signs of cytokines storm, only one thromboembolic event was observed although most individuals had pre-existing complications. A single case with pulmonary hypertension has been described in detail [4]. In most individuals the infection has been pauci or asymptomatic and all recovered. This experience differs from what has been observed in Iran on a similar series with different severity and mortality and ask for a more in-depth comparison [5]. In conclusion, our data do not indicate increased severity of COVID-19 in Pts with Hemoglobinopathies followed in Specialized Centers.Acknowledgment. We would like to thank ALT (Associazione per la Lotta alla Talassemia R.Vullo - Ferrara)..References1. http://www.site-italia.org/2020/covid-19.php. SITE communication. Accessed April 1, 20202. Motta I, Migone De Amicis M, Pinto VM, et al. SARS-CoV-2 infection in beta thalassemia: Preliminary data from the Italian experience. Am J Hematol. 2020;95(8): E198-E199.3. https://www.epicentro.iss.it/coronavirus/sars-cov-2-dashboard, Accessed July 31, 20204. Pinto VM, Derchi GE, Bacigalupo L, Pontali E, Forni GL. COVID-19 in a Patient with β-Thalassemia Major and Severe Pulmonary Arterial Hypertension. Hemoglobin. 2020;44(3):218-220 5. Karimi M, Haghpanah S, Azarkeivan A, et al. Prevalence and mortality in β-thalassaemias due to outbreak of novel coronavirus disease (COVID-19): the nationwide Iranian experience. Br J Haematol. 2020;190(3):e137-e140.