Red Blood Cell Distribution Width in Hospitalized COVID-19 Patients

Introduction: Coronavirus disease-2019 (COVID-19), caused by severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), is causing dramatic morbidity and mortality worldwide. The Red Blood Cell Distribution Width (RDW) has been strongly associated with increased morbidity and mortality in multiple diseases. Objective: To assess if elevated RDW is associated with unfavorable outcomes in hospitalized COVID-19. Methods: We retrospectively studied clinical outcomes of hospitalized COVID-19 patients for their RDW values. In-hospital mortality was defined as primary outcome, while septic shock, need for mechanical ventilation, and length of stay (LOS) were secondary outcomes. Results: A total of 294 COVID-19 patients were finally studied. Overall prevalence of increased RDW was 49.7% (146/294). RDW was associated with increased risk of in-hospital mortality (aOR, 4.6; 95%CI, 1.5-14.6) and septic shock (aOR, 4.6; 95%CI, 1.4-15.1) after adjusting for anemia, ferritin, lactate, and absolute lymphocyte count. The association remained unchanged even after adjusting for other clinical confounders such as age, sex, body mass index, coronary artery disease, hypertension, diabetes mellitus, and chronic obstructive pulmonary disease. No association was found instead with mechanical ventilation and median LOS. Conclusion: Elevated RDW in hospitalized COVID-19 patients is associated with a significantly increased risk of mortality and septic shock.

[1]  M. Westover,et al.  Association of Red Blood Cell Distribution Width With Mortality Risk in Hospitalized Adults With SARS-CoV-2 Infection , 2020, JAMA network open.

[2]  A. Perisetti,et al.  Gastrointestinal Bleeding in Patients with Severe SARS-CoV-2 , 2020, The American journal of gastroenterology.

[3]  G. Lippi,et al.  COVID-19: unravelling the clinical progression of nature’s virtually perfect biological weapon , 2020, Annals of translational medicine.

[4]  G. Lippi,et al.  Molecular, serological, and biochemical diagnosis and monitoring of COVID-19: IFCC taskforce evaluation of the latest evidence , 2020, Clinical chemistry and laboratory medicine.

[5]  H. Goyal,et al.  Clinical Insights into the Gastrointestinal Manifestations of COVID-19 , 2020, Digestive Diseases and Sciences.

[6]  H. Goyal,et al.  COVID-19 presenting as acute pancreatitis , 2020, Pancreatology.

[7]  H. Goyal,et al.  Taste Changes (Dysgeusia) in COVID-19: A Systematic Review and Meta-analysis , 2020, Gastroenterology.

[8]  Hongming Miao,et al.  Correction: Lymphopenia predicts disease severity of COVID-19: a descriptive and predictive study. , 2020, Signal transduction and targeted therapy.

[9]  A. Harky,et al.  COVID-19 and Multiorgan Response , 2020, Current Problems in Cardiology.

[10]  R. José,et al.  COVID-19 cytokine storm: the interplay between inflammation and coagulation , 2020, The Lancet Respiratory Medicine.

[11]  H. Goyal,et al.  COVID‐19 and gastrointestinal endoscopies: Current insights and emergent strategies , 2020, Digestive endoscopy : official journal of the Japan Gastroenterological Endoscopy Society.

[12]  Jie Hao,et al.  Single-cell RNA-seq data analysis on the receptor ACE2 expression reveals the potential risk of different human organs vulnerable to 2019-nCoV infection , 2020, Frontiers of Medicine.

[13]  Jue Fan,et al.  Specific ACE2 Expression in Cholangiocytes May Cause Liver Damage After 2019-nCoV Infection , 2020, bioRxiv.

[14]  Y. Hu,et al.  Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China , 2020, The Lancet.

[15]  Sang Hyun Park,et al.  The association between red cell distribution width and incident hypertension in Korean adults , 2019, Hypertension Research.

[16]  P. Li,et al.  Red blood cell distribution width provides additional prognostic value beyond severity scores in adult critical illness. , 2019, Clinica chimica acta; international journal of clinical chemistry.

[17]  S. Tsai,et al.  Red blood cell distribution width is associated with mortality in elderly patients with sepsis , 2017, The American journal of emergency medicine.

[18]  A. Bhalla,et al.  Elevated Red Cell Distribution Width as a Prognostic Marker in Severe Sepsis: A Prospective Observational Study , 2017, Indian journal of critical care medicine : peer-reviewed, official publication of Indian Society of Critical Care Medicine.

[19]  G. Lippi,et al.  Prognostic significance of red blood cell distribution width in gastrointestinal disorders , 2017, World journal of gastroenterology.

[20]  H. Goyal,et al.  Prognostic value of red blood cell distribution width in hepatocellular carcinoma. , 2017, Annals of translational medicine.

[21]  G. Lippi,et al.  Learning more and spending less with neglected laboratory parameters: the paradigmatic case of red blood cell distribution width , 2016, Acta bio-medica : Atenei Parmensis.

[22]  Marta Elena Losa-Iglesias,et al.  Footwear used by older people and a history of hyperkeratotic lesions on the foot , 2017, Medicine.

[23]  H. Goyal,et al.  Level of red cell distribution width is affected by various factors , 2016, Clinical chemistry and laboratory medicine.

[24]  J. Pozo,et al.  [Red cell distribution width as a risk marker in patients with cardiovascular diseases]. , 2016, Revista medica de Chile.

[25]  Giuseppe Lippi,et al.  Red blood cell distribution width: A simple parameter with multiple clinical applications , 2015, Critical reviews in clinical laboratory sciences.

[26]  G. Lippi,et al.  Red blood cell distribution width is significantly associated with aging and gender , 2014, Clinical chemistry and laboratory medicine.

[27]  H. Feldmann,et al.  Lymphopenia Associated with Highly Virulent H5N1 Virus Infection Due to Plasmacytoid Dendritic Cell–Mediated Apoptosis of T Cells , 2014, The Journal of Immunology.

[28]  Jae Hyuk Lee,et al.  Red cell distribution width is a prognostic factor in severe sepsis and septic shock. , 2013, The American journal of emergency medicine.

[29]  MarcelloTonelli,et al.  Relation Between Red Blood Cell Distribution Width and Cardiovascular Event Rate in People With Coronary Disease , 2008 .

[30]  B. Davis,et al.  Relation Between Red Blood Cell Distribution Width and Cardiovascular Event Rate in People With Coronary Disease , 2008, Circulation.

[31]  Mary F. Lopez,et al.  SOD2-deficiency anemia: protein oxidation and altered protein expression reveal targets of damage, stress response, and antioxidant responsiveness. , 2004, Blood.

[32]  G. R. Lee The anemia of chronic disease. , 1983, Seminars in hematology.