key: cord-1038296-kngz6j9q
authors: Chen, Xing; Yan, Li; Fei, Yang; Zhang, Chi
title: Laboratory abnormalities and risk factors associated with in‐hospital death in patients with severe COVID‐19
date: 2020-07-12
journal: J Clin Lab Anal
DOI: 10.1002/jcla.23467
sha: 8c46e85d5384f6a6f9d31fcb85ec1b8707589a2a
doc_id: 1038296
cord_uid: kngz6j9q

BACKGROUND: In the context of the COVID‐19 outbreak of worldwide, we aim to analyze the laboratory risk factors of in‐hospital death in patients with severe COVID‐19. METHODS: All ≥18‐year‐old patients with confirmed severe COVID‐19 admitted to Tongji Hospital (Wuhan, China) from February 3 to February 20, 2020, were retrospectively enrolled and followed up until March 20, 2020. Epidemiological, clinical, laboratory, and treatment data were collected and explored the risk factors associated with in‐hospital death. RESULTS: A total of 73 severe patients were enrolled in the study, of whom 20 (27%) patients died in hospital during the average 28 days of follow‐up period. The median age of non‐survivors was significantly older than survivors (69 [64‐76.5] years vs 64 [56‐71.3] years, P = .033) and 15 (75%) patients were males. The laboratory abnormalities of non‐survivors mainly presented in serious inflammation response and multiple organ failure, with high levels of cytokines and deranged coagulation parameters. Multivariable regression showed that neutrophil count greater than 4.47 × 10(9)/L (OR, 58.35; 95%CI: 2.16‐1571.69; P = .016), hypersensitivity C‐reactive protein greater than 86.7 mg/L (OR, 14.90; 95%CI: 1.29‐171.10; P = .030), creatine kinase greater than 101 U/L (OR, 161.62; 95%CI: 6.45‐4045.20; P = .002), and blood urea nitrogen greater than 6.7 mmol/L (OR, 11.18; 95%CI: 1.36‐91.62; P = .024) were risk factors for in‐hospital death. CONCLUSION: The risk factors of neutrophil count, hypersensitivity C‐reactive protein, creatine kinase, and blood urea nitrogen could help clinicians to early identify COVID‐19 severe patients with poor outcomes on admission. Virus direct attack and cytokine storm play a major role in the death of COVID‐19.

The novel coronavirus disease 2019 (COVID-19) is a systemic illness with the respiratory system as the main symptom caused by severe acute respiratory syndrome coronavirus 2(SARS-COV-2), which belongs to the Coronaviridae family. 1, 2 Since the first case was reported in Wuhan, China, in December 2019, the virus had quickly swept the global, and as of May 14, 2020 , about 4 248 389 confirmed cases, with as many as 292 046 related deaths have been officially reported worldwide. 3 can cause mild-to-severe illness, and serious illness occurs in 15.7% of the patients in hospitalization. 4 Unfortunately, there is currently no specific antiviral drug against the virus. Therefore, many patients with severe type suffered a death attack in the hospital due to a relative lack of effective treatment.

Although previous studies had fully described the clinical characteristic of COVID-19 in severe and death cases, research mainly aimed at laboratory abnormalities found in patients with COVID-19 from severe cases to death cases is still lacking. There is no doubt that laboratory medicine plays an utmost part in the detection and identity the virus, in which the positive nucleic acid testing had been one of the golden standards in clinical diagnosis COVID-19. 5 Nevertheless, the laboratory parameter could also be used for predicting disease progression and assessing prognosis.

Here, we present the demographic, clinical, laboratory, and treatment data of hospitalized patients between survivors and non-survivors, describe the main laboratory abnormalities, and analyze the risk factors of in-hospital death with the hope of reducing mortality.

This retrospective study was done at three branches of Tongji hospital, which are located 14 km to 34 km from one another in central Wuhan. We enrolled consecutive hospitalized adult patients (≥18 years old) admitted from February 3 to February 20, 2020, who were laboratory-confirmed COVID-19 and categorized as severe type based on the clinical presentation at the time of admission. All patients were diagnosed with COVID-19 according to WHO interim guidance. The severe type was defined if satisfying at least one of the following criteria: respiratory rate ≥30 times/min, resting oxygen saturation ≤93%, and arterial partial pressure of oxygen (PaO 2 )/fraction of inspired oxygen (FiO 2 ) ≤300 mm Hg. Patients were classified into survivors and non-survivors during the average 28 days of follow-up period. For patients who were alive by February 20, 2020, their living status was confirmed on March 20, 2020. To minimize interference in analyzing the risk factors associated with in-hospital death, non-survivors who died within 3 days after admission were excluded. The study was approved by the Research Ethics Commission of Tongji Hospital (Wuhan, China). All data were analyzed anonymously.

Epidemiological, clinical, laboratory, and treatment data were extracted from electronic medical records. The clinical data used in this study were collected from the initial evaluations of hospital admission. All data were checked by two physicians (Xing Chen and Li Yan), and a third researcher (Chi Zhang) adjudicated any difference in interpretation between the two primary reviewers.

Continuous variables were defined as the median (interquartile range) for non-Gaussian distribution data and compared with the Mann-Whitney U test; categorical variables were presented as numbers and percentages (%) and compared by Fisher's exact test between survivors and non-survivors. Spearman correlation coefficient was calculated between different parameters for non-parametric correlations. The cutoff value was selected when the Youden index of the receiver operating characteristic (ROC) curve by a logistic regression model was the largest. Univariable and multivariable logistic regression analyses were performed to explore the risk factors associated with in-hospital death. Statistical analyses were performed by SPSS 22.0 (IBM Corporation), and a two-sided P < .05 was statistically significant.

From February 3, 2020, to February 20, 2020, a total of 105 adult COVID-19 patients were recorded in Tongji Hospital and categorized into severe type when admitted. After excluded 8 cases that died within 3 days and 24 cases due to incomplete medical records, we finally enrolled 73 severe patients. At the end of the study, 20 (27.4%) patients had died in the hospital, and the median time from admission to death was 12.0 days (IQR, 6.25-17.5). Of the 53 patients who survived, 17 (32.1%) patients were discharged and the median time from admission to discharge was 21.9 days (IQR, 17-27).

The median age of all patients was 66 years (IQR: 59-72.3), and 42 (57.5%) patients were male. On admission, the most common symptoms were fever (94.5%), cough (57.5%), dyspnea (31.5%), and diarrhea (27.4%). Other less common symptoms were chest tightness (17.8%), tachypnea (13.7%), and fatigue (13.7%). A total of 57 patients had comorbidities, with hypertension (45.2%) is the most common ones, followed by diabetes (20.5%) and cardiovascular disease (12.3%). Neither common symptoms nor comorbidity showed significantly different between survivors and non-survivors, except the age (P = .033). All patients received antivirals and 69 (94.5%) patients received antibiotics. Non-invasive (P < .001) and invasive (P < .001) mechanical ventilation were significantly different between two groups, detailed data are showed in Table 1 . Table 2 . Table 3 .

In this retrospective cohort study, we reported the risk factors associated with in-hospital death and main laboratory abnormalities in COVID-19 severe patients. We found that severe COVID-19 patients having higher NEU (above than 4.47 × 10 9 /L), hs-CRP (above than 86.7 mg/L), CK (above than 101 U/L), and BUN (above than 6.7 mmol/L) on admission faced greater risk in-hospital death.

Besides, the laboratory alternations in non-survivors mainly focused on the prominent inflammation response and multiple organ damage, with the increased levels of cytokines and dysregulation of coagulation parameters.

SARS-COV-2 infection predominantly infects lower airways and causes severe pneumonia, which sometimes results in acute respiratory distress syndrome (ARDS) and progressive respiratory failure. 6, 7 In our study, 70 (95.9%) patients required high flow nasal cannula and all non-survivors received non-invasive mechanical ventilation. Abbreviations: APTT, activated partial thromboplastin time; BUN, blood urea nitrogen; CK, creatine kinase; COVID-19, coronavirus disease 2019; GFR, glomerular filtration rate; hs-CRP, hypersensitivity C-reactive protein; hs-cTnI, hypersensitive cardiac troponin I; IL-2R, interleukin-2 receptor; LDH, lactate dehydrogenase; LYM, lymphocyte count; NEU, neutrophil count; NT-proBNP, N-terminal pro-brain natriuretic peptide; OR (95%CI), odds ratio(95% confidence interval); PT, prothrombin time; WBC, white blood cell count.

OR and P values were calculated by logistic regression.

Since no specific antiviral drug to treat the SARS-COV-2 at present, the mainstay of clinical treatment has been supportive care and the effect of clinical therapeutic is poor. Although a previous study has reported that the mortality rate of COVID-19 patients is 1.4%, 4 but the in-hospital death of patients with severe type COVID-19 was 27% in our study, which is similar to the reports of Zhou et al 8 And another report showed the mortality was 61.5% among critically ill patients. 9 This message might reflect the mortality is high among COVID-19 severe patients in the stage of the outbreak, meaning that clear out the risk factors of death is crucial to control the rising number of deaths.

Our study first focused on the baseline information of COVID-19 severe patients. The median age of non-survivors was signifi- Previously, similar to SARS, lung damage has been reported not the only cause of death in COVID-19, but also include heart, liver, kidney, and other organ dysfunction. 11, 12 Our study also showed that BUN ( The immunopathological mechanism of SARS-COV and MERS-COV remains unclear, but the correlative evidence suggested that the persistent production of enormous cytokines known as "cytokine storms" play a crucial role in immune hyperactivity. 14 Compared to other reports, our study analyzed the differences of major cytokines between two groups. Significantly high serum levels of interleukin-6, interleukin-8, interleukin-10, and interleukin-2 receptor could be observed in non-survivors, which implying the cytokine storms associated with the poor outcomes in COVID-19.

Interestingly, the concentration of interleukin-1β (5 vs 5 pg/mL, P = .739) was no difference between the two groups. The reason may be that interleukin-1β showed as early response cytokine to viral infection, whereas our cases were in the late inflammation. 15 Cytokines and chemokines produced by virus-infected cells not only resulting in the extensive infiltration of neutrophils and macrophages but also lead to tissue damage, both locally and systemically. Besides, the accumulating NEU secretes myeloperoxidase and elastase to directly destroy the lung structure. 14,15 These results, consistent with the previous findings, suggest that the death of COVID-19 may be attributable to the "cytokine storms" and virus direct attack. 11, 14, 15 Moreover, the accumulating neutrophils and macrophages themselves produce additional cytokines and chemokines, which in turn enhance disease severity. 14 In this study, when the absolute number of circulating NEU is greater than 4.47 × 10 9 /L, severe COVID-19 cases would face a greater risk of in-hospital death.

Perhaps, increased NEU also plays a crucial role in COVID-19

immunopathology. Further research should be undertaken to investigate the role of NEU in cytokine storm when SARS-COV-2

infection.

Our study also reported the disturbed coagulation status of non-survivor patients. Disseminated intravascular coagulation (DIC)

is a persistent activation of the hemostatic system mainly caused by infection, inflammation, and surgery. 16 A recent study showed that COVID-19 severe patients have ischemic changes in the fingers and may develop DIC. 17, 18 In our study, significantly prolonged PT (15.6 vs 14.2 s, P = .000) and increased D-dimer (9.68 vs 1.63 μg/mL, P = .000) suggested an excessive coagulation activation in non-survivor patients. Therefore, some researchers proposed for low-molecular-weight heparin anticoagulant therapy in patients with severe COVID-19. 17 There are several limitations in our study. First, not all laboratory parameters demonstrated here, but our results can still be considered useful for most hospital clinicians. Second, the lack of definite outcomes for some survivors may affect the observation of the disease. Last, as a relatively small, single-center retrospective study, only 73 patients were included in this study, which may not be representative; further information from a larger cohort would help to better define the risk factors of in-hospital death.

In conclusion, virus direct attack and cytokine storm are believed to play a powerful role in deleterious consequences. Our study reported that elevated levels of NEU, hs-CRP, CK, and BUN were risk factors for in-hospital death in COVID-19 severe patients.

We would like to thank Professor Ziyong Sun and the staff of Laboratory Medicine of Tongji Hospital for the valuable help.

Xing Chen, Li Yan, and Chi Zhang contributed to the intellectual content of this paper and drafted and revised the manuscript. Yang Fei contributed to collection and analysis of the experiment data. All the authors have read and accepted the final version of the manuscript and approved its submission.

The study protocol was approved by the Tongji Hospital Ethics

Committee for Research in Health.

Chi Zhang https://orcid.org/0000-0002-2468-7068

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