Post−discharge mortality in the first wave of COVID−19 in Turkey
Fusun Fakili1, Pelin Duru Cetinkaya2, Oya Baydar3, Serap Argun Baris4, Nurdan Kokturk5, Seval Kul6, Oguz Karcioglu7, Pinar Aysert Yildiz8, Ilim Irmak9, Yonca Sekibag10, Emel Azak11, Sait Mulamahmutoglu10, Caglar Cuhadaroglu12, Bugra Kerget13, Burcu Baran Ketencioglu14, Hasan Selcuk Ozger8, Gulcihan Ozkan15, Zeynep Ture16, Merve Ercelik17, Tansu Ulukavak Ciftci5, Ozlem Alici18, Esra Nurlu Temel19, Ozlem Ataoglu17, Neslihan Kose20, Muge Meltem Tor21, Gulsah Gunluoglu22, Sedat Altin22, Onder Ozturk23, Pinar Yildiz Gulhan17, Ilknur Basyigit4, Hasim Boyaci4, I Kivilcim Oguzulgen5, Sermin Borekci10, Bilun Gemicioglu10, Ismail Hanta3, Hacer Kuzu Okur12, Gulseren Sagcan12, Metin Akgun13, Ali Fuat Kalyoncu9, Oya Itil24, Hasan Bayram25
1 Department of Pulmonary Medicine, Faculty of Medicine, Gaziantep University, Gaziantep, Turkey
2 Department of Pulmonary Medicine, University of Health Sciences, Adana City Training and Research Hospital; Faculty of Medicine, Cukurova University, Adana, Turkey
3 Department of Pulmonary Medicine, Faculty of Medicine, Cukurova University, Adana, Turkey
4 Department of Pulmonary Medicine, Faculty of Medicine, Kocaeli University, Kocaeli, Turkey
5 Department of Pulmonary Medicine, Faculty of Medicine, Gazi University, Ankara, Turkey
6 Department of Biostatistics, Faculty of Medicine, Gaziantep University, Gaziantep, Turkey
7 Department of Pulmonary Medicine, Halil Sivgin Cubuk State Hospital, Ankara, Turkey
8 Department of Infectious Disease, Faculty of Medicine, Gazi University, Ankara, Turkey
9 Department of Pulmonary Medicine, Faculty of Medicine, Hacettepe University, Ankara, Turkey
10 Department of Pulmonary Medicine, Cerrahpasa Faculty of Medicine, Istanbul University−Cerrahpasa, Istanbul, Turkey
11 Department of Infectious Disease and Clinical Microbiology, Faculty of Medicine, Kocaeli University, Kocaeli, Turkey
12 Department of Pulmonary Medicine, Altunizade Acibadem Hospital, Istanbul, Turkey
13 Department of Pulmonary Medicine, Faculty of Medicine, Ataturk University, Erzurum, Turkey
14 Department of Pulmonary Medicine, Faculty of Medicine, Erciyes University, Kayseri, Turkey
15 Department of Pulmonary Medicine, Maslak Acibadem Hospital, Istanbul, Turkey
16 Department of Infectious Disease and Clinical Microbiology, Faculty of Medicine, Erciyes University, Kayseri, Turkey
17 Department of Pulmonary Medicine, Faculty of Medicine, Duzce University, Duzce, Turkey
18 Department of Infectious Disease, Faculty of Medicine, Turkiye Gazetesi Private Hospital, Istanbul, Turkey
19 Department of Infectious Diseases and Clinical Microbiology, Faculty of Medicine, Suleyman Demirel University, Isparta, Turkey
20 Department of Pulmonary Medicine, Bilecik Training and Research Hospital, Bilecik, Turkey
21 Department of Pulmonary Medicine, Faculty of Medicine, Zonguldak Bulent Ecevit University, Zonguldak, Turkey
22 Department of Pulmonary Medicine, University of Health Science, Yedikule Chest Diseases and Chest Surgery Training and Research Hospital, Istanbul, Turkey
23 Department of Pulmonary Medicine, Faculty of Medicine, Suleyman Demirel University, Isparta, Turkey
24 Department of Pulmonary Medicine, Faculty of Medicine, Dokuz Eylul University, Izmir, Turkey
25 Department of Pulmonary Medicine, Koc University Research Center for Translational Medicine (KUTTAM), Koc University School of Medicine, Istanbul, Turkey
Correspondence Address:
Fusun Fakili
Department of Pulmonary Medicine, Faculty of Medicine, Gaziantep University, Gaziantep
Turkey
Source of Support: None, Conflict of Interest: None
DOI: 10.4103/1995-7645.361853
Objective: To determine post-discharge mortality and associated factors of the first-wave multicenter Turkish Thoracic Society (TTD)-TURCOVID study.
Methods: In this retrospective cohort study, we analyzed the data of 18 of 26 centers included in the first TTD-TURCOVID study, and 1 112 cases diagnosed with COVID-19 between 11 March and 31 July 2020 participated in the study. All causes of death after COVID-19 discharge were recorded.
Results: The mean age of the patients was (51.07±16.93) years, with 57.6% male patients. In the cohort group, 89.1% of COVID-19 treatment locations were hospital wards, 3.6% were intensive care units (ICUs), and 7.2% were community outpatients. In the longterm follow-up, the in-hospital mortality rate was 3.6% (95% CI 2.64.8), the post-discharge mortality rate was 2.8% (95% CI 1.9-3.9), and the total mortality was 6.3% (95% CI 5.0-7.8). After discharge, 63.3% of mortality overall occurred during the first six months. Mortality rates in post-discharge follow-ups were 12.7% (95% CI 8.0-30.6) in cancer patients, 10.8% (95% CI 6.3-22.9) in chronic obstructive pulmonary disease patients, 11.1% (95% CI 4.4-22.7) in heart failure patients, 7.8 (95% CI 3.8-14.3) in atherosclerotic heart disease patients, and 2.3% (95% CI 0.8-5.6) in diabetes mellitus patients. In smokers/ex-smokers, the all-mortality rates were higher than in non-smokers.
Conclusions: This multicenter study showed that patients over 65 years of age, males, former/active smoker, ICU stay, lung, heart disease, and malignancy should be followed up for at least the first six months after discharge due to COVID-19.
Keywords: COVID-19; Post-discharge; Mortality; Comorbidity
According to figures by the World Health Organization (WHO) on October 14, 2022, 6 543 138 deaths occurred worldwide and 101 203 people died in Turkey due to COVID-19[1]. In the multicenter Turkish Thoracic Society (TTD)-TURCOVID study conducted in Turkey, the mortality rate due to COVID-19 was 4.5%[2]. Hospital ward and intensive care unit (ICU) mortality rates in the Lombardy region of Italy were respectively 12 and 27 per 1 000 patient days[3]. According to the data from the Centers for Disease Control and Prevention (CDC), 768 204 deaths have been reported in the US so far, 68% of them in hospitals or care centers[4].
Publicly reported COVID-19 death rates often consist of deaths occurring during hospital admission and/or hospitalization. However, there are few limited studies and notifications of COVID-19 post-discharge deaths. According to CDC data, there were 902 097 excess deaths not directly attributable to COVID-19 between the pandemic period on February 1, 2020, and November 27, 2021 in the US[4]. In a 6-year comparison of the January-April 2020 weekly death rates in the US, 87 001 extra deaths were reported between March and April 2020, 56 246 of which were due to COVID-19[5]. An additional 25 030 excess all-cause of deaths were reported in the COVID-19 outbreak between March and May 2020 in France in continental Europe[6]. When the death data between January and May 2020 are analyzed with the last 4 years, 4 084 extra deaths were detected with a 10% weekly increase between the 10th and 15th weeks in Istanbul, Turkey[7]. It has been observed that excess causes of death have increased with the COVID-19 pandemic all over the world.
Respiratory, cardiac, and neurological symptoms may continue after COVID-19[8]. Respiratory failure and long-term oxygen demand may develop after COVID-19 discharge. Deteriorations in lung diffusion capacity, total lung capacity, forced expiratory volume in 1 second (FEV1), forced vital capacity (FVC), and FEV1/FVC have been demonstrated in post-discharge COVID-19 cases[9]. It is not clear how long these complications persist, terminate, or relapse. Although deaths in the hospitalization period due to COVID-19 have been reported all over the world, the death reports of COVID-19 patients after discharge from the hospital are not clear[1]. Information on post-discharge mortality rates in COVID-19 has begun to be reported with studies[10-13]. Information on the follow-up and long-term mortality rates of patients discharged with the diagnosis of COVID-19 is insufficient.
In the first wave of the COVID-19 pandemic, long-term follow-ups of patients who were diagnosed and received treatment are curious. This study was planned to determine the post-discharge mortality and associated risk factors of the first-wave multicenter TTD-TURCOVID cohort study.
2. Subjects and methods2.1. Study design and participants
This study was conducted to determine the post-discharge mortality rates and related risk factors of a multicenter cohort study conducted with 1 500 adult patients diagnosed with COVID-19 from 26 centers hospitalized between 11 March and 31 July 2020, in Turkey.
2.2. Data collection
In-hospital mortality and mortality-related risk factors were calculated with the data obtained from the TTD-TURCOVID study[2]. In this study, it was planned to collect post-discharge mortality data by evaluating the same patient cohort. For this cohort study, 18 of the 26 centers in the initial study participated with 1 112 cases. Demographic information, smoking history, first treatment place, and comorbidities of the cases in the participating centers were recorded. Researchers at participating centers recorded deaths retrospectively by checking the cases recorded in the first study from the hospital systems where they were treated and/or from the Turkish national death reporting systems. All-cause of deaths and dates after COVID-19 discharge were recorded. Case definitions were taken in the same way as in the TTD-TURCOVID study[2]. The WHO COVID-19 case definition sheet was used to create the case definition. As a result, a confirmed case was defined as the presence of a positive nucleic acid amplification test or a positive rapid antigen detection test, as well as clinical and radiographic findings strongly suggestive of COVID-19.
2.3. Ethical approval
This multicenter registry study was approved by the Gazi University Faculty of Medicine ethics review board (356/22.05.2020).
2.4. Statistical analysis
As descriptive statistics, frequencies and percentages (%) for categorical variables and mean ± SD for numerical variables were given. Mortality rates and 95% confidence intervals (CI) were estimated. Statistical analysis was performed using SPSS for Windows version 24.0.
3. Results3.1. Study population
In the study, 57.6% of the participants were male and the mean age was (51.07±16.93) years. Of the study population, 65.7% never smoked, and 34.3% were smokers or ex-smokers. Body mass index (BMI) was below 30 in 78.4% of the cases. First treatment hospital locations for COVID-19 in the cohort group: 89.1% were in hospital wards, 3.6% were in the ICUs, and 7.2% were outpatients in the community. During follow-up, 78 (8.8%) of the patients in the hospital ward were taken to the ICU. At admission, 77.2% of the cases had pneumonia and 14.5% had severe pneumonia. Acute respiratory distress syndrome (ARDS), multi-organ failure, macrophage activation syndrome (MAS), sepsis, and septic shock developed in fewer patients. The most common comorbidity in the study population was hypertension (26.0%) [Table 1].
Table 1: Descriptive statistics for demographic and clinical characteristics at admission.3.2. Mortality analysis
Out of 1 112 cases included in the study, in-hospital mortality rate was 3.6% (95% CI 2.6-4.8), post-discharge mortality rate was 2.7% (95% CI 1.9-3.9), total mortality was 6.3% (95% CI 5.07.8) at 18-months follow-up. None of the patients treated in the community died during the acute or long-term follow-ups. Inhospital [4.9% (95% CI 3.4-6.7)], post-discharge [3.3% (95% CI 2.2-5.1)], and total mortality rate [8.2% (95% CI 6.2-10.5)] were higher in men [Table 2].
Table 2: Mortality rates and 95% confidence intervals for overall data and sex.In the patient population over 65 years of age, the in-hospital mortality rate was 9.1% (95% CI 6.0-13.0), the post-discharge mortality was 7.5% (95% CI 5.3-12.3), and the total mortality was 16.6% (95% CI 12.5-21.4) [Table 3].
For patients followed up in the ICUs, in-hospital mortality was 19.4% (95% CI 9.1-34.4), post-discharge mortality was 8.3% (95% CI 3.0-25.1), and total mortality was 27.8% (95% CI 15.3-43.7) [Table 4].
Table 4: Mortality rates and 95% confidence intervals for the first treatment setting.Considering the smoking status of the cohort group, in smokers or ex-smokers, the in-hospital mortality rate was 5.7% (95% CI 3.68.5), post-discharge 5.2% (95% CI 3.4-8.3), and a total of 10.9% (95% CI 7.9-14.5) were found higher than non-smokers [Table 5].
Table 5: Mortality rates and 95% confidence intervals for smoking status.In long-term follow-up, 63.3% of the deaths occurred after discharge within the first six months. Of those with hypertension, 7.6% (95% CI 5.0-11.1) died in the hospital, 4.8% (95% CI 3-8.4) in the post-discharge, and a total of 12.5% (95% CI 9.0-16.6) died. Mortality rates in post-discharge follow-ups were 12.7% (95% CI 8.0-30.6) in cancer patients, 10.8% (95% CI 6.3-22.9) in chronic obstructive pulmonary disease (COPD) patients,11.1% (95% CI 4.4-22.7) in heart failure patients, 7.8 (95% CI 3.8-14.3) in atherosclerotic heart disease patients, and 2.3% (95% CI 0.85.6) in diabetes mellitus patients. The highest comorbidity for total mortality was malignancy, with a rate of 38.2 (95% CI 26.2-51.4) [Table 6].
Table 6: Mortality rates and 95% confidence intervals for comorbidities.The most common causes of post-discharge deaths were sepsis (13.3%, 4/30) and malignancies other than lung cancer (13.3%, 4/30). There were 23.3% (7/30) deaths of unknown cause after COVID-19 discharge.
4. DiscussionIn the follow-up of COVID-19 patients treated at the hospital, the all-cause total mortality rate was 6.3%. Those over 65 years of age, male sex, those with comorbidities and those followed in the intensive care unit were among the risky groups.
Annual expected deaths in the United States for 2019 showed a 20% increase over annual estimates. In the United States, there was a 35% increase in expected deaths during March-April 2019, not attributed to COVID-19[5]. It has been shown that deaths from all causes in the elderly population increased during the pandemic period in France[6]. Mortality in the first 30 days after COVID-19 was found to be 39.9% in long-term care centers in Sweden[11]. In a study conducted in Norway, six-month mortality increased with age and the mortality rate was 21% in individuals over the age of 60 who were discharged after COVID-19[14]. Similarly, in our study, the first six months were the period with the highest number of deaths in cases discharged after COVID-19, and postdischarge mortality rates were found higher in cases over the age of 65. It is not clear how many of the world's excess deaths are due to COVID-19. In March-June 2020, post-discharge (mean 80 days) mortality from COVID-19 was reported as 6.4% in the Netherlands. In the same study, the most common causes of rehospitalization were respiratory, vascular, or existing co-morbidities[10].
In our study, all mortality rates of the male sex were higher than the females. In the registry study involving the same cases, the male sex was determined as a risk factor for COVID-19 mortality in the hospital period[2]. COVID-19 cases in the male sex may have a more severe course[15]. In the first wave of the COVID-19 pandemic in France, all-cause of mortality was higher in men[6]. In Sweden, the male sex (OR 2.60; 95% CI 2.22-3.05) was found a risk factor for mortality in the first 30 days after COVID-19[11].
Patients who were followed up in the ICU due to COVID-19 had higher in-hospital and post-discharge mortality rates than those who were not in the ICUs. The total mortality rate in COVID-19 patients followed in the ICU is 27.8%. Patients discharged from ICUs may need to be checked earlier and more frequently.
Post-discharge pulmonary, cardiac, and neurological complications due to COVID-19 may negatively affect mortality compared to the general population. In our study, the most common causes of mortality were malignancies. However, there were causes of death whose cause could not be well documented after COVID-19 discharge. Some of these deaths were officially recorded as cardiac arrests. In other studies, cardiovascular diseases were the most common cause of death in the first six months in cases discharged after COVID-19, and myocardial involvement may accompany COVID-19 infection. SARS-CoV-2 binds to ACE2, which is commonly found in alveolar tissue and myocardial tissue [12,16]. Cardiovascular medicine societies have recommendations for thrombo-prophylaxis, and low molecular weight heparin for cases discharged after COVID-19[17]. For adults hospitalized with COVID-19 pneumonia and confirmed venous thromboembolism, recommendation of three months of therapeutic dose anticoagulant therapy is to reduce the risk of recurrent venous thromboembolism[18]. In our study, patients do not have data on cardiac involvement in acute COVID-19 infection. The follow-up of cardiovascular and pulmonary symptoms that continue for six months or newly emerged after COVID-19 discharge has gained importance. Pulmonary, cardiac, and neurological evaluations are required for the first six months. In a cohort study, a high in-hospital mortality rate and an increase in one-year all-cause mortality were seen in COVID-19 patients with cancer[19]. In our study, 7 of 55 patients diagnosed with malignancy at the time of COVID-19 diagnosis died after discharge.
The most common comorbidity of COVID-19 cases in the study was hypertension, and in-hospital, post-discharge, and total mortality rates were found higher. Among other comorbidities, patients with malignancy had the highest mortality rate. In the study conducted in the acute period of COVID-19 in the same cohort group, COPD and malignancy were risk factors for mortality[2]. In addition, in-hospital, post-discharge, and total mortality rates of ex/active smokers were higher than those of nonsmokers. The follow-up of patients with malignancy, COPD, and cardiovascular disease after discharge from COVID-19 has gained importance. In COVID-19 cases, evaluation should be made for long-term oxygen needs after discharge. It has been shown that the regulation of hypertension and type 2 diabetes can be impaired in the post-COVID-19 period[20].
Due to the retrospective registry study, the causes of death in the health systems of the cases were recorded. There are seven unknown causes of death in this system. In the first wave of the pandemic, COVID-19 cases were mostly isolated in the hospital, albeit with mild symptoms. However, in the latter stages of the pandemic, with the increasing number of cases, cases with pneumonia and respiratory failure were followed in the hospital, while asymptomatic or less symptomatic cases were followed up in outpatient. Therefore, the cases in the registry reflect the first wave in Turkey and the mild symptomatic cases of the population. Our data in the study cannot be generalized as it reflects the first wave in Turkey. There is a need for larger studies investigating the causes of death after COVID-19 discharge.
In conclusion, all causes of death and accompanying factors after discharge of patients infected in the first wave of COVID-19 were determined in this multicenter study. According to these findings, cases over the age of 65, male sex, ex/active smokers, followed in ICUs, and suffering from pulmonary disease, cardiac disease, and malignancy should be followed for at least 6 months after discharge due to COVID-19.
Conflict of interest statement
The authors declare that there is no conflict of interest.
Acknowledgements
The authors thank the Turkish Thoracic Society for serving as a framework for the setup of the network and bringing the investigators of this study together.
Funding
The authors received no extramural funding for the study.
Authors’ contributions
FF, NK, PDC, SAB and OB designed the study; FF, NK, PDC, SAB, OB, OK, PAY, II, YS, EA, SM, CC, BK, BBK, HSO, GO, ZT, ME, TUC, OA, ENT, OA, NK, MMT, GG, SA, OO, PYG, IB, HB, IKO, SB, BG, IH, HKO, GS, MA, AFK, OI and HB collected the data; SK and FF analyzed the data; FF and NK searched the literature and wrote the manuscript; FF, OB, PDC, SAB and NK edited and revised manuscript according to journal’s instructions; FF, PDC and OB edited and controlled the final version of the manuscript. All the authors approved the final version of the manuscript.
References
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