Dear Editor,
An outbreak of COVID-19 has spread worldwide outside Wuhan, China [1]. It is urgent to evaluate the 15-day in-hospital mortality rate for this disease, and its associated risk factors [2].
For this single-center, ambispective cohort study of 548 patients [3], data at admission were retrospectively obtained. All the patients were followed up prospectively until day 15 after hospitalization. The primary endpoint of this study was death within 15 days of hospitalization. The risk factors for in-hospital mortality from COVID-19 were analyzed by means of multivariable Cox proportional hazards regression models.
Within 15 days of hospitalization, 78 patients died, resulting in mortality rates of around 14.2%. 127 patients were critically ill, i.e. needed ventilation support during the 15-day hospitalization. The risk of death within 15 days of admission was found to be higher in elderly male patients with a smoking history and underlying conditions such as chronic obstructive pulmonary disease, diabetes and hypertension (Supplementary Table 1). Compared with the survivors, the non-survivors more commonly presented the symptoms of dyspnea (88.5%), chest tightness (66.0%) and confusion (15.4%) (Supplementary Table 1). The non-survivors also presented with lower lymphocyte counts and higher levels of ferritin, lactate dehydrogenase (LDH) and C-reactive protein compared with the survivors (Supplementary Table 1). The majority of deaths were due to respiratory failure (88.5%), followed by cardiac arrest (5.1%) and shock (2.6%). Common complications among the death included acute respiratory distress syndrome (ARDS) (97.4%), hyperglycemia (67.9%), myocardial damage (62.8%), liver damage (24.4%), and renal damage (38.5%). Systemic glucocorticoid treatment was more common in non-survivors. Instead, more survivors than non-survivors received lopinavir/ritonavir and arbidol (33.4% vs. 9%, and 76.4% vs. 53.8%, respectively) (Supplementary Table 1).
Multivariable Cox proportional hazards regression showed that higher hazard ratios (HRs) for 15-day in-hospital death were associated with age older than 65 years, low oxygen saturation, lymphopenia, high LDH, and multiorgan dysfunction (Table 1). The most influential risk factor was severe lymphopenia (< 0.5 × 109/L), which was associated with a higher hazard for mortality (HR = 4.410) compared with a lymphocyte count > 0.5 × 109/L. The presence of multi-organ dysfunction increased the hazard (HR = 1.273, per organ increase). Treatment with lopinavir/ritonavirt (HR = 0.350) was associated with a lower hazard [4] (Table 1). Low-dose glucocorticoid treatment (< 1 mg/kg) or no glucocorticoid use was associated with a lower hazard compared with high-dose treatment (≥ 1 mg/kg) (Table 1). The risk factors for mortality in the critically ill patients are shown in Supplemental Table 2. However, in the critically ill cohort, the HR estimates were similar with and without systemic glucocorticoid therapy. This suggests glucocorticoid therapy requires strict control of indications [5]. The type of respiratory support (noninvasive vs. invasive ventilation) had no effect on mortality in critically ill patients (supplementary Table 2).
Table 1.
Multivariable COX proportional risk regression modeling of risk factors for 15-day mortality in 548 inpatients
| Variables | B | SE | Wald | df | Sig | Exp(B) | 95.0% CI for Exp(B) | |
|---|---|---|---|---|---|---|---|---|
| Lower | Upper | |||||||
| Age (> 65 year vs. ≤ 65) | 0.674 | 0.257 | 6.847 | 1 | 0.009 | 1.962 | 1.184 | 3.249 |
| SaO2 (≥ = 93% vs. < 93%) | − 1.148 | 0.277 | 17.216 | 1 | < 0.001 | 0.317 | 0.184 | 0.546 |
| WBC count (reference > 10 × 109/L) | 4.532 | 2 | 0.104 | |||||
| < 4 × 109/L | − .355 | 0.494 | 0.516 | 1 | 0.472 | 0.701 | 0.266 | 1.846 |
| 4 × 109–10 × 109/L | − .589 | 0.277 | 4.531 | 1 | 0.033 | 0.555 | 0.323 | 0.954 |
| Lymphocyte count (< 0.5 × 109/L vs. > 0.5 × 109/L) | 1.484 | 0.595 | 6.23 | 1 | 0.013 | 4.41 | 1.375 | 14.143 |
| LDH (reference ≥ 445 U/L) | 20.608 | 2 | < 0.001 | |||||
| < 250 U/L | − 2.646 | 1.049 | 6.359 | 1 | 0.012 | 0.071 | 0.009 | 0.555 |
| 250–445 U/L | − 1.237 | 0.301 | 16.843 | 1 | < 0.001 | 0.29 | 0.161 | 0.524 |
| Multi-organ dysfunction | 0.241 | 0.106 | 5.206 | 1 | 0.023 | 1.273 | 1.035 | 1.566 |
| Lymphocyte * time | − 0.311 | 0.082 | 14.447 | 1 | < 0.001 | 0.733 | 0.624 | 0.86 |
| Treatment with glucocorticoid (reference ≥ 1 mg/kg) | 8.198 | 2 | 0.017 | |||||
| No | − 0.899 | 0.379 | 5.63 | 1 | 0.018 | 0.407 | 0.194 | 0.855 |
| < 1 mg/Kg | − 0.644 | 0.277 | 5.395 | 1 | 0.02 | 0.525 | 0.305 | 0.904 |
| Treatment with lopinavir/ritonavir (yes vs. no) | − 1.051 | 0.442 | 5.665 | 1 | 0.017 | 0.35 | 0.147 | 0.831 |
| Treatment with arbidol (yes vs. no) | − 0.693 | 0.262 | 6.962 | 1 | 0.008 | 0.5 | 0.299 | 0.837 |
| Treatment with ribavirin (yes vs. no) | 0.353 | 0.386 | 0.84 | 1 | 0.36 | 1.424 | 0.669 | 3.033 |
P value (Sig.) < 0.05 from multivariable Cox regression analyses of the interactions terms between exposure variables was considered statistically significant
SaO2 oxygen saturation, WBC white blood cell, LDH lactose dehydrogenase
In conclusion, 14.2% patients of this cohort reached the primary endpoint of death within 15-day hospitalization. Aging, hypoxia, lymphopenia, high LDH level and multiple organ dysfunction were associated with increased 15-day in-hospital mortality from COVID-19. Lopinavir/ritonavir was associated with decreased mortality. Among the critically ill patients, the hazard ratio was not reduced in those receiving invasive ventilation versus non-invasive ventilation.
Electronic supplementary material
Below is the link to the electronic supplementary material.
Acknowledgements
We are indebted to Prof. Shuyun Xu and Prof. Min Zhou, who helped to conceive and design the study, and Drs. Ying Zhou, Jing Shi, Xiaochen Li, Bo Wu, Lu Qin, Zhenyu Yang, Cong Zhang and Junqing Yue for collecting cases or performing data analysis. We also thank Prof. Xiansheng Liu, Prof. Jungang Xie, and Prof. Jianping Zhao for scientific support. We respectfully and sincerely thank all front-line medical staff for their hard work and sacrifice.
Author contributions
MX conceived and designed the study. KW and MX contributed to the literature search and writing of the report. MY, KW and YT contributed to the data collection. MX, KW and ZZ contributed to the data analysis and data interpretation. KW and ZZ contributed equally and share first authorship.
Funding
This work was supported by grants from the Science and Technology Program of Hubei Province (2020FCA026). The funding source had no role in the design and conduct of the study, the analysis and interpretation of the data, or in the writing of the manuscript.
Compliance with ethical standards
Conflicts of interest
All authors declare no competing interests.
Ethical approval
This study was approved by the Ethics Commission of Tongji Hospital (TJ-C20200122).
Footnotes
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Ke Wang and Zhiguo Zhang have contributed equally to this work.
References
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