Journal Information
Vol. 58. Issue S1.
CURRENT SITUATION AND LONG-TERM CONSEQUENCES OF COVID-19 INFECTION
Pages 13-21 (April 2022)
Share
Share
Download PDF
More article options
Visits
7711
Vol. 58. Issue S1.
CURRENT SITUATION AND LONG-TERM CONSEQUENCES OF COVID-19 INFECTION
Pages 13-21 (April 2022)
Original Article
Full text access
The Emergence of COVID-19 as a Cause of Death in 2020 and its Effect on Mortality by Diseases of the Respiratory System in Spain: Trends and Their Determinants Compared to 2019
Irrupción de la COVID-19 como causa de muerte en 2020 y su efecto en la mortalidad por enfermedades del aparato respiratorio en España: tendencias y sus determinantes respecto a 2019
Visits
7711
Joan B. Sorianoa,b,c,
Corresponding author
jbsoriano2@gmail.com

Corresponding author.
, Adrián Peláeza,b,c, Esteve Fernándezc,d,e,f, Laura Morenog, Julio Ancocheaa,b,c
a Servicio de Neumología, Hospital Universitario de la Princesa, Madrid, Spain
b Facultad de Medicina, Universidad Autónoma de Madrid, Madrid, Spain
c Centro de Investigación en Red de Enfermedades Respiratorias (CIBERES), Instituto de Salud Carlos III (ISCIII), Madrid, Spain
d Unidad de Control del Tabaco, Centro Colaborador de la OMS para el Control del Tabaco, Institut Català d’Oncologia, L’Hospitalet de Llobregat, Barcelona, Spain
e Grupo de Investigación en Control del Tabaco, Institut d’Investigació Biomèdica de Bellvitge-IDIBELL, L’Hospitalet de Llobregat, Barcelona, Spain
f Facultad de Medicina y Ciencias de la Salud, Campus de Bellvitge, Universitat de Barcelona, L’Hospitalet del Llobregat, Barcelona, Spain
g Facultad de Medicina, Universitat de les Illes Balears, Palma, Spain
This item has received
Article information
Abstract
Full Text
Bibliography
Download PDF
Statistics
Figures (6)
Show moreShow less
Tables (4)
Table 1. Number of deaths, proportional mortality (%) and percent change by diseases of the respiratory system in Spain in 2019 and 2020.
Table 2. Number of deaths and percentage of mortality by diseases of the respiratory system in 2020 in Spain by gender (panel A); autonomous community (panel B); and age (panel C).
Table 3. Odds ratio for COVID-19 mortality in Spain in 2020, crude and multivariate.
Table 4. Odds ratio for diseases of the respiratory system mortality in Spain in 2020, crude and multivariate.
Show moreShow less
Special issue
This article is part of special issue:
Vol. 58. Issue S1

CURRENT SITUATION AND LONG-TERM CONSEQUENCES OF COVID-19 INFECTION

More info
Abstract
Objective

To analyze the causes of death by diseases of the respiratory system in Spain in 2020, with special interest in COVID-19; also its trends and determinants, and compare them with 2019.

Material and methods

Retrospective cohort study. The coding of all those causes of death by diseases of the respiratory system were regrouped. A descriptive analysis of all deaths and by gender, age, and the 17 Autonomous Communities (CC.AA.) was performed. Also, odds ratios of death in crude and multivariate analysis by logistic regression were estimated.

Results

In Spain in 2020, 60,358 deaths were attributed to “COVID-19 virus identified” and another 14,481 to “COVID-19 virus not identified (suspicious)”. Regrouping the specific causes of death, in 2020 the diseases of the respiratory system caused a total of 139,880 deaths, which corresponds to 28.3% of all deaths in Spain. Compared to 2019, an increase of 68.5% was observed. By gender, deaths by diseases of the respiratory system were higher in men (32.0%) than in women (24.6%), although in specific causes the percentage was higher in women with suspected COVID-19, asthma, respiratory insufficiency and other diseases of the respiratory system. Finally, the variables associated with death from COVID-19 in the multivariate analysis were being male, increasing age (maximum at 80 years), completed studies up to secondary level, employed, and single or widowed marital status, although with a marked variation by CC.AA.

Conclusions

In Spain in 2020, COVID-19 produced a large increase (68.5%) in deaths by diseases of the respiratory system compared to the previous year.

Keywords:
Death certificate
COVID-19
Diseases of the respiratory system
INE
Mortality
Resumen
Objetivo

Analizar las causas de muerte por enfermedades del aparato respiratorio en España durante el año 2020, con especial interés en COVID-19; también sus tendencias y determinantes, y compararlas con el año 2019.

Material y métodos

Estudio de cohortes retrospectivo. Se reagrupó la codificación de todas aquellas causas de muerte por enfermedades del aparato respiratorio. Se realizó un análisis descriptivo de todas las defunciones por sexo, edad en las 17 Comunidades Autónomas (CC. AA.). Además, se estimaron las odds ratios de muerte en análisis crudo y multivariado por regresión logística.

Resultados

En España en el año 2020 se atribuyeron 60.358 muertes a «COVID-19 virus identificado» y otras 14.481 a «COVID-19 virus no identificado (sospechoso)». Reagrupando las causas específicas de muerte, en el año 2020 las enfermedades del aparato respiratorio provocaron un total de 139.880 muertes, lo que corresponde al 28,3% de todas las muertes en España. En comparación con el año 2019, se observó un aumento del 68,5%. Por género, las defunciones por enfermedades del aparato respiratorio fueron mayores en los varones (32,0%) que en las mujeres (24,6%), aunque en causas específicas el porcentaje fue mayor en mujeres en COVID-19 sospechosa, asma, insuficiencia respiratoria y otras enfermedades del aparato respiratorio. Finalmente, las variables asociadas a la muerte por COVID-19 en el análisis multivariante fueron el género masculino, el aumento de la edad (máximo a los 80 años), estudios completados hasta secundaria y el estado civil soltero o viudo, aunque con una marcada variación por CC. AA.

Conclusiones

En España en el año 2020 la COVID-19 produjo un gran incremento (68,5%) de muertes por enfermedades del aparato respiratorio en comparación con el año anterior.

Palabras clave:
Certificado de defunción
COVID-19
Enfermedades del Aparato Respiratorio
INE
Mortalidad
Full Text
Introduction

Respiratory diseases are responsible for a large population burden of disease, morbidity and mortality, both in Spain and in the world. According to the Global Burden of Diseases, Injuries, and Risk Factors Study (GBD), of the 50.5 million deaths that occurred in 1990 in the world, 4.3 million were attributed to pneumonia, 2.2 million to tuberculosis, 2.0 million to chronic obstructive pulmonary disease (COPD) and 0.95 million to lung cancer. In addition, it was estimated that for 2020, of the 68.3 million predictable deaths, 11.9 million were from respiratory causes, estimating that they became the third cause of death in 2020.1 In Spain, with a relatively aged population and yet with alarming rates of smoking,2 respiratory diseases also have a huge impact on individual and population health.3,4 Its magnitude and diversity mean that the clinical management of respiratory health, beyond Pulmonology, also requires a large part of the daily dedication of health professionals in Primary Care, Internal Medicine and other specialties.5,6

However, it is well known that respiratory mortality statistics from death certificates are underreported compared to cancer, cardiovascular and metabolic diseases. This bias occurs for various reasons.7,8 Among other, it is a clinical challenge to attribute a death to a respiratory cause, since the symptoms and determinants are non-specific and overlap with those of cardiovascular or other diseases, and many patients with chronic respiratory diseases die with them and not from them.9,10 Current standardized coding manuals for death certificates from the World Health Organization (WHO), as well as from the European Union and its EUROSTAT, or from the National Institute of Statistics (INE) are homogeneous. The INE is governed by the rules established by the WHO as established by Regulation (EU) No. 328/2011 of the Commission of April 5, 2011, which applies Regulation (EC) No. 1338/2008 of the European Parliament and of the Council on Community statistics on public health and on health and safety at work. Regarding statistics on the causes of death, only those from Group X (with ICD10 062-067) are considered as causes of death of the Respiratory System, namely: Influenza; Pneumonia; Chronic diseases of the lower respiratory tract (except asthma); Asthma; Respiratory insufficiency; and Other diseases of the respiratory system.11 However, other diseases that also directly affect the respiratory system such as tuberculosis, or daily practice in the field of Pulmonology and Thoracic Surgery such as malignant tumours of the trachea, bronchi and lung, are considered for statistical purposes as deaths of infectious and oncological causes, respectively, to give just two examples.

The objective of this research is to analyze the causes of death associated with respiratory causes in Spain in the years 2019 and 2020, that is, including those in the field of Pneumology such as COVID-19 itself, but not included in the current convention to produce the statistics. Secondly, we analyze its variations and determinants by gender, age and CC.AA.

Methods

Mortality data were obtained from the INE website,12 and its microdata. The so-called Short List of 101 causes of death ICD-10, and its correspondence with ICD-9, was reviewed and regrouped, adding other diseases of the respiratory system such as tuberculosis and malignant tumours of the trachea, bronchi and lung. The causes “COVID-19 Virus identified” and “COVID-19 Virus not identified (suspected)” were also included (Table 1). A descriptive analysis of the absolute frequencies of deaths and proportional mortality by gender, age, and CC.AA. was performed. The percentages of change in proportional mortality between pre-pandemic (2019) and post-pandemic (2020) years were calculated. A crude and multivariable logistic regression analysis was performed with the microdata to obtain the odds ratios (ORs) and their 95% CI, as estimators of the independent variables associated with mortality. In any comparison, a value of p<0.05 was considered statistically significant.

Table 1.

Number of deaths, proportional mortality (%) and percent change by diseases of the respiratory system in Spain in 2019 and 2020.

ICD-10 causes of death  2019a  2020  Change in % 
00A Covid-19 Virus identified  –  60.358 (12.2%)  N.D. 
00B Covid-19 Unidentified virus (suspected)  –  14.481 (2.9%)  N.D. 
002 Tuberculosis and its late effects  217 (0.1%)  198 (0.0%)  −22.6% 
018 Malignant tumour of the trachea bronchus and lung  22.007 (5.3%)  21.918 (4.4%)  −15.6% 
019 Other respiratory and intrathoracic malignant tumours  484 (0.1%)  502 (0.1%)  −12.1% 
062 Influenza (includes influenza due to identified pandemic or zoonotic influenza viruses)  1.459 (0.3%)  894 (0.2%)  −48.0% 
063 Pneumonia  9.384 (2.2%)  8.768 (1.8%)  −20.8% 
064 Chronic lower respiratory tract diseases (except asthma)  12.815 (3.1%)  11.786 (2.4%)  −22.0% 
065 Asthma  993 (0.2%)  948 (0.2%)  −19.0% 
066 Respiratory insufficiency  2.171 (0.5%)  2.039 (0.4%)  −20.4% 
067 Other diseases of the respiratory system  20.859 (5.0%)  17.988 (3.6%)  −26.9% 
TOTAL “Causes of death of the respiratory system”  70.389 (16.8%)b  139.880 (28.3%)  68.5% 
001-102 I-XXII. All Causes  418.703 (45.9%)c  493.776 (54.1%)  17.9% 
a

Percentage of each cause of death of the respiratory system compared to the total causes of death.

b

Percentage of all causes of death of the respiratory system compared to the total causes of death.

c

Percentage of all causes of death by year compared to the total for both years.

Results

Of the 493,776 deaths that occurred in Spain in 2020, 60,358 deaths were attributed to “COVID-19 Virus identified” and another 14,481 to “COVID-19 virus not identified (suspicious)”. Regrouping specific causes of death, in 2020 diseases of the respiratory system caused 139,880 deaths, which corresponds to a proportional mortality of 28.3% in 2020 in Spain (Table 1). Compared to 2019, an increase of 68.5% was observed, and a relative decrease in specific causes, with a maximum decrease of −48.0% due to flu/influenza. By gender, it stands out that in 2020 deaths from diseases of the respiratory system were higher in men (32.0%) than in women (24.6%), although in specific causes proportional mortality was substantially higher in women due to COVID-19 not identified (suspicious), asthma, respiratory insufficiency and Other diseases of the respiratory system (Table 2). As expected, the highest mortality associated with respiratory diseases occurred in those over 50 years of age, with a peak of 31.1% in the 70–79 years age range (Fig. 1).

Table 2.

Number of deaths and percentage of mortality by diseases of the respiratory system in 2020 in Spain by gender (panel A); autonomous community (panel B); and age (panel C).

ICD-10 Causes of death  Men  Women 
(A) By gender
00A Covid-19 virus identified  32.498 (13.0%)a  27.860 (11.4%) 
00B Covid-19 Unidentified virus (suspected)  6.419 (2.6%)  8.062 (3.3%) 
002 Tuberculosis and its late effects  124 (0.0%)  74 (0.0%) 
018 Malignant tumour of the trachea. bronchus and lung  16.615 (6.7%)  5.303 (2.2%) 
019 Other respiratory and intrathoracic malignant tumours  359 (0.1%)  143 (0.1%) 
062 Influenza (includes influenza due to identified pandemic or zoonotic influenza viruses)  446 (0.2%)  448 (0.2%) 
063 Pneumonia  4.704 (1.9%)  4.064 (1.7%) 
064 Chronic lower respiratory tract diseases (except asthma)  8.832 (3.5%)  2.954 (1.2%). 
065 Asthma  212 (0.1%)  736 (0.3%) 
066 Respiratory insufficiency  927 (0.4%)  1.112 (0.5%) 
067 Other diseases of the respiratory system  8.714 (3.5%)  9.274 (3.8%) 
Total “Causes of death due to respiratory system”  79.850 (32.0%)b  60.030 (24.6%) 
001-102 I-XXII. All causes  249.664 (50.6%)c  244.112 (49.4%) 
ICD-10 Causes of death  Andalucía  Aragón  Canarias  Cantabria  Castilla – La Mancha  Castilla y León  Cataluña  Ceuta  Madrid  Navarra  Valencia  Extremadura  Galicia  Islas Baleares  La Rioja  Melilla  País Vasco  Asturias  Murcia  España 
(B) By Autonomous community.
00A Covid-19 Virus identified  5821(7.4%)*e  2653(15.9%)*  403(2.4%)*  427(6.5%)*  4817(18.4%)*  5823(15.9%)*  12,871(16.1%)*  59(9.3%)  14.540(22.0%)*  1004(14.9%)*  3161(6.5%)*  1099(8.5%)*  1499(4.6%)*  557(6.5%)*  577(15.5%)*  43(7.7%)*  2.753(11.5%)*  1513(10.4%)*  738(6.0%)*  60,358(12.2%) 
00B Covid-19 Unidentified virus (suspected)  696(0.9%)*  289(1.7%)*  98(0.6%)*  68(1.0%)*  1683(6.4%)*  1889(5.2%)*  3013(3.8%)*  4(0.6%)*  4.817(7.3%)*  179(2.7%)  651(1.3%)*  290(2.2%)*  83(0.3%)*  43(0.5%)*  71(1.9%)*  4(0.7%)*  311(1.3%)*  260(1.8%)*  32(0.3%)*  14,481(2.9%) 
002 Tuberculosis and its late effects  37(0.0%)d  5(0.0%)  10(0.1%)  5(0.1%)  3(0.0%)  13(0.0%)  31(0.0%)  4(0.6%)*  11(0.0%)*  2(0.0%)  24(0.1%)  2(0.0%)  21(0.1%)  2(0.0%)  4(0.1%)  1(0.2%)  14(0.1%)  7(0.0%)  2(0.0%)  198(0.0%) 
018 Malignant tumour of the trachea, bronchus and lung  3539 (4.5%)  704(4.2%)  963 (5.8%)*  346(5.3%)*  851(3.2%)*  1354(3.7%)*  3370(4.2%)*  31(4.9%)  2.509(3.8%)*  326(4.8%)  2.561(5.2%)*  582(4.5%)  1546(4.7%)  491(5.7%)*  143(3.8%)  18(3.2%)  1193(5.0%)*  735(5.0%)*  656(5.3%)*  21,918(4.4%) 
019 Other respiratory and intrathoracic malignant tumours  64(0.1%)  13(0.1%)  14(0.1%)  13(0.2%)  18(0.1%)  45(0.1%)  80(0.1%)  1(0.2%)  72(0.1%)  13(0.2%)  46(0.1%)  8(0.1%)  41(0.1%)  8(0.1%)  3(0.1%)  0(0.0%)  40(0.2%)*  11(0.1%)  12(0.1%)  502(0.1%) 
062 Influenza (includes influenza due to identified pandemic or zoonotic influenza viruses)  172(0.2%)  48(0.3%)*  55(0.3%)*  18(0.3%)  41(0.2%)  44(0.1%)*  137(0.2%)  5(0.8%)*  67(0.1%)*  18(0.3%)  59(0.1%)*  11(0.1%)  62(0.2%)  10(0.1%)  9(0.2%)  1(0.2%)  55(0.2%)  47(0.3%)*  35(0.3%)  894(0.2%) 
063 Pneumonia  1301(1.7%)  331(2.0%)  497(3.0%)*  119(1.8%)  523(2.0%)  614(1.7%)  1099(1.4%)*  15(2.4%)  1.406(2.1%)*  97(1.4%)  966(2.0%)*  358(2.8%)*  499(1.5%)*  142(1.7%)  40(1.1%)*  26(4.6%)*  228(0.9%)*  258(1.7%)  249(2.0%)  8768(1.8%) 
064 Chronic lower respiratory tract diseases (except asthma)  1.950(2.5%)  400(2.4%)  467(2.8%)*  174(2.7%)  667(2.5%)  738(2.0%)*  1.892(2.4%)  20(3.2%)  1.334(2.0%)*  160(2.4%)  1.306(2.7%)*  331(2.6%)  841(2.6%)  276(3.2%)*  59(1.6%)*  12(2.1%)  499(2.1%)*  319(2.2%)  341(2.8%)*  11,786(2.4%) 
065 Asthma  152(0.2%)  22(0.1%)  28(0.2%)  12(0.2%)  58(0.2%)  57(0.2%)  154(0.2%)  0(0.0%)  73(0.1%)*  17(0.3%)  89(0.2%)  23(0.2%)  71(0.2%)  14(0.2%)  4(0.1%)  0(0.0%)  90(0.4%)*  63(0.4%)*  21(0.2%)  948(0.2%) 
066 Respiratory insufficiency  360(0.5%)  33(0.2%)*  54(0.3%)  21(0.3%)  95(0.4%)  107(0.3%)*  337(0.4%)  2(0.3%)  551(0.8%)*  19(0.3%)  169(0.3%)  38(0.3%)  59(0.2%)*  57(0.7%)*  8(0.2%)  4(0.7%)  63(0.3%)*  36(0.2%)*  26(0.2%)*  2039(0.4%) 
067 Other diseases of the respiratory system  2673(3.4%)*  581(3.5%)  853(5.1%)*  279 (4.3%)*  1110(4.2%)*  1356(3.7%)  2502(3.1%)*  18(2.8%)  2858(4.3%)*  211(3.1%)  1402(2.9%)*  650(5.0%)*  1616(4.9%)*  237(2.75%)*  143(3.8%)  14(2.5%)  590(2.5%)*  502(3.4%)  393(3.2%)*  17,988(3.6%) 
Total “Causes of death due to respiratory system”  16,765 (21.2%)*f  5079(30.4%)*  3442(20.6%)*  1482(22.6%)*  9866(37.6%)*  12,040(33.0%)*  25,486(31.9%)*  159(25.1%)  28,238(42.7%)*  2046(30.4%)*  10,434(21.3%)*  3392(26.1%)*  6338(19.3%)*  1837(21.3%)*  1061(28.5%)  123(22.0%)*  5836(24.3%)*  3751(25.7%)*  2505(20.3%)*  139,880(28.3%) 
001-102 I-XXII. All Causes  78,909 (16.0%)g  16,680 (3.4%)  16,725(3.4%)  6561(1.3%)  26,240(5.3%)  36,522(7.4%)  79,780(16.2%)  633(0.1%)  66,206(13.4%)  6738(1.4%)  49,033(9.9%)  12,994(2.6%)  32,879(6.7%)  8608(1.7%)  3727(0.8%)  560(0.1%)  24,041(4.9%)  14,578(3.0%)  12,362(2.5%)  493,776(100.0%) 
ICD-10 Causes of death  ≤18 years  18–29 years  30–39 years  40–49 years  50–59 years  60–69 years  70–79 years  80–89 years  ≥90 years 
(C) By age
00A Covid-19 Virus identified  11(0.7%)a  53(3.3%)  129(4.1%)  508(5.3%)  1820(6.9%)  5141(10.4%)  12,491(13.7%)  24,872(13.7%)  15,333(11.8%) 
00B Covid-19 Unidentified virus (suspected)  3(0.2%)  14(0.9%)  20(0.6%)  75(0.8%)  275(1.0%)  590(1.2%)  1885(2.1%)  6139(3.4%)  5480(4.2%) 
002 Tuberculosis and its late effects  0(0.0%)  2(0.1%)  6(0.2%)  16(0.2%)  20(0.1%)  23(0.0%)  28(0.0%)  67(0.0%)  36(0.0%) 
018 Malignant tumour of the trachea, bronchus and lung  0(0.0%)  10(0.6%)  44(1.4%)  501(5.2%)  2851(10.9%)  6440(13.0%)  6838(7.5%)  4442(2.5%)  792(0.6%) 
019 Other respiratory and intrathoracic malignant tumours  2(0.1%)  4(0.2%)  9(0.3%)  22(0.2%)  51(0.2%)  103(0.2%)  155(0.2%)  141(0.1%)  15(0.0%) 
062 Influenza (includes influenza due to identified pandemic or zoonotic influenza viruses)  8(0.5%)  6(0.4%)  11(0.3%)  18(0.2%)  61(0.2%)  114(0.2%)  171(0.2%)  321(0.2%)  184(0.1%) 
063 Pneumonia  6(0.4%)  11(0.7%)  26(0.8%)  89(0.9%)  205(0.8%)  428(0.9%)  1199(1.3%)  3684(2.0%)  3120(2.4%) 
064 Chronic lower respiratory tract diseases (except asthma)  1 (0.1%)  3(0.2%)  4(0.1%)  52(0.5%)  308(1.2%)  1188(2.4%)  2662(2.9%)  4834(2.7%)  2734(2.1%) 
065 Asthma  2(0.1%)  6(0.4%)  8(0.3%)  18(0.2%)  37(0.1%)  40(0.1%)  130(0.1%)  407(0.2%)  300(0.2%) 
066 Respiratory insufficiency  2(0.1%)  5(0.3%)  12(0.4%)  52(0.5%)  111(0.4%)  173(0.3%)  274(0.3%)  745(0.4%)  665(0.5%) 
067 Other diseases of the respiratory system  15(0.9%)  29(1.8%)  71(2.2%)  183(1.9%)  414(1.6%)  908(1.8%)  2483(2.7%)  7436(4.1%)  6449(5.0%) 
Total “Causes of death of the respiratory system”  50(3.1%)b  143(8.8%)  340(10.8%)  1534(16.0%)  6153(23.5%)  15,148(30.6%)  28,316(31.1%)  53,088(29.3%)  35,108(27.1%) 
001-102 I-XXII. All Causes  1592(0.3%)h  1625(0.3%)  3159(0.6%)  9601(1.9%)  26,236(5.3%)  49,503(10.0%)  91,191(18.5%)  181,439(36.7%)  129,430(26.2%) 
a

Percentage of each cause of death of the respiratory system compared to the total causes of death.

b

Percentage of all causes of death of the respiratory system compared to the total causes of death.

c

Percentage of all causes of death by year compared to the total for both genders.

d

Percentage of each cause of death of the respiratory system compared to total causes of death.

e

Significant differences (p<0.01) are indicated by bold text.

f

Percentage of all causes of death of the respiratory system compared to all causes of death.

g

Percentage of all causes of death by year versus total causes of death in Spain.

h

Percentage of all causes of death according to age range compared to the total.

Fig. 1.

Percentage of causes of death by diseases of the respiratory system for each age range compared to the total causes of death in Spain in 2020.

(0.47MB).

By CC.AA., the highest percentage of deaths by diseases of the respiratory system was observed in the Community of Madrid (42.7%) and then in Castilla-La Mancha (37.6.2%), while the lowest in Galicia (19. 0%), and Murcia with 20.3% (Fig. 2). Regarding death from COVID-19, the highest relative percentage was also observed in Madrid (29.2%) and then in Castilla-La Mancha (24.8%), and the lowest in the Canary Islands (3.0%) and Galicia (4.8%).

Fig. 2.

Map of Spain with mortality according to autonomous communities by (a) COVID-19; (b) diseases of the respiratory system.

(0.38MB).

Finally, the individual determinants of death from COVID-19 and from the respiratory system were analyzed in microdata. The variables associated with death from COVID-19 in the bivariate analysis were male, of Spanish nationality, with completed Primary education or higher, retired, increasing age to a maximum of 80 years, single or widowed, and with a marked variation by CC.AA. (Table 3). In the multivariate analysis, the direction and magnitude of the associations were maintained, except for nationality and employment status (Fig. 3).

Table 3.

Odds ratio for COVID-19 mortality in Spain in 2020, crude and multivariate.

Variable  Category  CrudeMultivariate
    OR [95% CI]  p-Valuea  OR [95% CI]  p-Value 
GenderMen  1.07 [1.05–1.09]  <0.001  1.18 [1.16–1.21]  <0.001 
Women  Ref  –  –  – 
NationalitySpanish  Ref  –  –  – 
Foreign  0.62 [0.59–0.66]  <0.001  0.98 [0.93–1.03]  0.462 
Autonomous communitiesAndalucía  Ref  –  –  – 
Aragón  2.38 [2.27–2.49]  <0.001  2.28 [2.18–2.40]  <0.001 
Canarias  0.34 [0.31–0.38]  <0.001  0.35 [0.32–0.38]  <0.001 
Cantabria  0.91 [0.82–1.00]  0.043  0.88 [0.80–0.97]  0.009 
Castilla La Mancha  3.66 [3.52–3.80]  <0.001  3.54 [3.41–3.68]  <0.001 
Castilla y León  2.97 [2.87–3.08]  <0.001  2.81 [2.71–2.92]  <0.001 
Cataluña  2.76 [2.68–2.85]  <0.001  2.73 [2.65–2.82]  <0.001 
Ceuta  1.23 [0.95–1.60]  0.124  1.29 [0.99–1.68]  0.056 
Valencia  0.94 [0.90–0.98]  <0.001  0.93 [0.89–0.97]  <0.001 
Extremadura  1.33 [1.35–1.41]  <0.001  1.28 [1.21–1.36]  <0.001 
Galicia  0.56 [0.53–0.59]  <0.001  0.54 [0.51–0.57]  <0.001 
Islas Baleares  0.83 [0.76–0.91]  <0.001  0.84 [0.76–0.91]  <0.001 
La Rioja  2.34 [2.14–2.55]  <0.001  2.24 [2.05–2.45]  <0.001 
Madrid  4.59 [4.45–4.73]  <0.001  4.56 [4.42–4.70]  <0.001 
Melilla  1.02 [0.75–1.37]  0.909  1.08 [0.80–1.46]  0.626 
Navarra  2.37 [2.21–2.53]  <0.001  2.27 [2.12–2.43]  <0.001 
País Vasco  1.62 [1.55–1.70]  <0.001  1.57 [1.50–1.65]  <0.001 
Asturias  1.54 [1.46–1.63]  <0.001  1.49 [1.41–1.57]  <0.001 
Murcia  0.74 [0.68–0.80]  <0.001  0.74 [0.68–0.80]  <0.001 
StudiesProfessional training  Ref  –  –  – 
No studies  1.00 [0.97–1.04]  0.804  1.05 [1.01–1.09]  0.023 
Primary  1.22 [1.17–1.26]  <0.001  1.08 [1.04–1.13]  <0.001 
Secondary  1.04 [1.01–1.09]  0.027  1.05 [1.01–1.10]  0.009 
University  1.18 [1.13–1.24]  <0.001  1.03 [0.98–1.08]  0.204 
ActivityAnother situation  Ref  –  –  – 
Student  0.37 [0.26–0.54]  <0.001  1.01 [0.68–1.49]  0.973 
Unemployed  0.45 [0.41–0.49]  <0.001  0.83 [0.76–0.92]  <0.001 
Invalid  0.57 [0.55–0.60]  <0.001  0.85 [0.80–0.89]  <0.001 
Retired  1.15 [1.13–1.17]  <0.001  0.99 [0.97–1.01]  0.453 
Employed  0.74 [0.70–0.77]  <0.001  1.10 [1.04–1.16]  <0.001 
Age Range<18 years  Ref  –  –  – 
[18–29 years]  4.85 [2.72–8.64]  <0.001  5.75 [3.22–10.28]  <0.001 
[30–39 years]  5.58 [3.22–9.66]  <0.001  6.95 [4.01–12.06]  <0.001 
[40–49 years]  7.29 [4.29–12.38]  <0.001  9.41 [5.53–16.04]  <0.001 
[50–59 years]  9.78 [5.78–16.54]  <0.001  13.03 [7.68–22.09]  <0.001 
[60–69 years]  14.76 [8.74–24.93]  <0.001  19.76 [11.67–33.45]  <0.001 
[70–79 years]  21.09 [12.49–35.62]  <0.001  27.71 [16.38–46.90]  <0.001 
[80–89 years]  23.24 [13.76–39.23]  <0.001  30.13 [17.81–50.97]  <0.001 
[≥90 years]  21.60 [12.79–36.47]  <0.001  26.53 [15.68–44.88]  <0.001 
Marital statusMarried  Ref  –  –  – 
Single  1.08 [1.05–1.11]  0.002  1.28 [1.24–1.31]  <0.001 
Divorced  0.85 [0.81–0.88]  <0.001  1.02 [0.98–1.07]  0.290 
Widowed  1.07 [1.05–1.09]  <0.001  1.06 [1.04–1.09]  <0.001 
a

Significant differences (p<0.05) are indicated by bold text.

Fig. 3.

Forest plot of mortality predictors for COVID-19 in Spain in 2020.

(0.4MB).

The variables associated with death by diseases of the respiratory system in the bivariate analysis were male, of foreign nationality, completed university education, retired, increasing age up to a maximum of 70 years, all with a marked variation by CC.AA. (Table 4). In the multivariate analysis, the direction and magnitude of the associations were maintained, except for studies, work activity and marital status (Fig. 4).

Table 4.

Odds ratio for diseases of the respiratory system mortality in Spain in 2020, crude and multivariate.

Variable  Category  CrudeMultivariate
    OR [95% CI]  p-Valuea  OR [95% CI]  p-Value 
GenderMen  1.44 [1.42–1.46]  <0.001  1.47 [1.45–1.50]  <0.001 
Women  Ref  –  –  – 
NationalitySpanish  Ref  –  –  – 
Foreign  1.33 [1.28–1.38]  <0.001  1.08 [1.04–1.13]  <0.001 
Autonomous communitiesAndalucía  Ref  –  –  – 
Aragón  1.62 [1.57–1.68]  <0.001  1.63 [1.57–1.68]  <0.001 
Canarias  0.96 [0.92–1.00]  0.055  0.96 [0.93–1.01]  0.086 
Cantabria  1.08 [1.02–1.15]  0.011  1.08 [1.01–1.15]  0.017 
Castilla La Mancha  2.23 [2.17–2.30]  <0.001  2.23 [2.16–2.30]  <0.001 
Castilla y León  1.82 [1.77–1.87]  <0.001  1.81 [1.76–1.86]  <0.001 
Cataluña  1.74 [1.70–1.78]  <0.001  1.75 [1.71–1.80]  <0.001 
Ceuta  1.24 [1.04–1.49]  0.018  1.28 [1.07–1.53]  0.008 
Valencia  1.00 [0.97–1.03]  0.887  1.00 [0.97–1.03]  0.985 
Extremadura  1.31 [1.26–1.34]  <0.001  1.30 [1.24–1.35]  <0.001 
Galicia  0.89 [0.86–0.91]  <0.001  0.88 [0.85–0.90]  <0.001 
Islas Baleares  1.00 [0.95–1.06]  0.839  1.01 [0.96–1.07]  0.745 
La Rioja  1.48 [1.37–1.59]  <0.001  1.46 [1.36–1.57]  <0.001 
Madrid  2.76 [2.69–2.82]  <0.001  2.81 [2.75–2.88]  <0.001 
Melilla  1.04 [0.85–1.28]  0.679  1.10 [0.90–1.35]  0.347 
Navarra  1.62 [1.53–1.71]  <0.001  1.61 [1.52–1.70]  <0.001 
País Vasco  1.19 [1.15–1.23]  <0.001  1.19 [1.15–1.23]  <0.001 
Asturias  1.28 [1.23–1.34]  <0.001  1.28 [1.23–1.33]  <0.001 
Murcia  0.94 [0.90–1.00]  0.013  0.95 [0.90–0.99]  0.020 
StudiesProfessional training  Ref  –  –  – 
No studies  0.90 [0.86–0.92]  <0.001  1.05 [1.02–1.08]  0.004 
Primary  1.00 [0.97–1.03]  0.894  1.04 [1.01–1.07]  0.010 
Secondary  1.02 [0.99–1.05]  0.153  1.04 [1.01–1.08]  0.006 
University  1.07 [1.03–1.11]  <0.001  0.99 [0.95–1.02]  0.430 
ActivityAnother situation  Ref  –  –  – 
Student  0.50 [0.39–0.65]  <0.001  1.15 [0.88–1.50]  0.313 
Unemployed  0.88 [0.83–0.93]  <0.001  0.91 [0.86–0.97]  0.003 
Invalid  0.99 [0.95–1.02]  0.357  0.93 [0.89–0.97]  <0.001 
Retired  1.35 [1.33–1.37]  <0.001  1.02 [1.01–1.04]  0.015 
Employed  1.02 [0.99–1.06]  0.189  1.00 [0.96–1.04]  0.932 
Age range<18 years  Ref  –  –  – 
[18–29 years]  2.98 [2.14–4.14]  <0.001  3.20 [2.29–4.46]  <0.001 
[30–39 years]  3.72 [2.75–5.04]  <0.001  4.32 [3.18–5.87]  <0.001 
[40–49 years]  5.87 [4.40–7.81]  <0.001  6.97 [5.18–9.32]  <0.001 
[50–59 years]  9.45 [7.12–12.54]  <0.001  11.28 [8.48–15.02]  <0.001 
[60–69 years]  13.60 [10.26–18.03]  <0.001  15.90 [11.95–21.14]  <0.001 
[70–79 years]  13.89 [10.45–18.41]  <0.001  15.98 [12.02–21.24]  <0.001 
[80–89 years]  12.76 [9.63–16.90)  <0.001  15.29 [11.50–20.32]  <0.001 
[≥90 years]  11.48 [8.66–15.21]  <0.001  14.10 [10.61–18.74]  <0.001 
Marital statusMarried  Ref  –  –  – 
Single  0.94 [0.93–0.96]  <0.001  1.14 [1.11–1.16]  <0.001 
Divorced  0.99 [0.97–1.02]  0.707  1.10 [1.07–1.14]  <0.001 
Widowed  0.85 [0.84–0.86]  <0.001  1.00 [1.00–1.02]  0.798 
a

Significant differences (p<0.05) are indicated by bold text.

Fig. 4.

Forest plot of mortality predictors by diseases of the respiratory system in Spain in 2020.

(0.42MB).

In Fig. 5, it can be seen that the trend of higher mortality (gross %) by diseases of the respiratory system in winter in Spain in 2019 was broken in 2020, with a substantial increase in deaths during March and April corresponding to the first wave of COVID-19; and also later in November 2020, coinciding with the second wave.

Fig. 5.

Time series (by calendar month) of mortality (crude %) by diseases of the respiratory system in 2020 compared to 2019.

(0.31MB).
Discussion

Since its emergence on December 31, 2019,13 SARS-CoV-2 and its disease COVID-19, have modified usual clinical practice. They have also produced recent changes in the secular trends of mortality and health statistics in the world and in Spain.3,4,14

As a cause of death, COVID-19 has displaced the distribution and ranking of the main causes of death; In particular, in 2020 it became the leading cause of death in Spain, with more than 75,000 deaths, including those confirmed and suspected in the first wave. In addition, if all deaths by diseases of the respiratory system are grouped together, an increase in the burden of mortality of more than two thirds (68.5%) is observed compared to the previous year. Although, as can be seen in our analysis, the variations by CC.AA. were very large, a microdata analysis confirms the known risk factors for mortality from COVID-19, namely: male gender, old age, and associated frailty.

This analysis has a number of strengths such as its immediacy, urgency, obvious relevance, and internal consistency. In addition, it contributes to the current debate on classifying by underlying cause vs. all basic death contributions. In particular, all INE Causes of Death Statistics offer data on the basic cause of death and also on all those other diseases that have contributed to death and that the certifying doctor has reported on the medical death certificate (multiple causes). All of them can be considered as advantages.

However, we must highlight a series of limitations, some of which are inherent to the death certificate. In general, it is considered established that many patients with COPD, asthma or other respiratory diseases die with them and not from them.9,10

Explanatory factors are the general population's lack of knowledge about respiratory diseases and the lack of specificity of most respiratory symptoms and signs, compared to other major causes of disease and death, such as cardiovascular or oncological causes. This will require the design of complex long-term strategies, and therefore difficult to implement. However, overestimation should be avoided; Strictly speaking, the COVID-19 clinical care task of the pulmonologist could only be considered directly in deaths occurring in the hospital. For example, during the first wave, people who died in residences, or at their homes, did not represent a care burden to pulmonologist. Of course, Pulmonology shares the treatment and management of respiratory patients with Internal Medicine, Primary Care and other specialties. Multisectoral coordination and dialogue should contribute to a better management of these patients.

In the current context, these first available indications point to a marked influence of COVID-19 on general morbidity and mortality.15,16 And in Spain, with a relatively ageing population compared even to our European neighbours, the effect could be huge.17,18 Although with preliminary data, it has already been estimated that in 2020 in Spain the impact of COVID-19 on life expectancy may produce a drop of up to two years,19 although with marked differences according to CC.AA. Subsequent confirmation of these trends by official statistics is required. In addition, a great indirect impact of COVID-19 on health services is expected, since the different waves of the pandemic have been collapsing Primary Care services for months, with fatigue and exhaustion of our Nursing and Medical colleagues in Primary Care, and producing delays (or direct cancellations) in screening and follow-up services for cancer and other diseases; therefore, they will also add morbidity and mortality to other causes of death from non-respiratory diseases. More studies of the impact of the pandemic on respiratory and non-respiratory patients are needed.20,21

Two years after its appearance, the current pandemic is revolutionizing clinical practice and changing Public Health in Spain and in the world, and poses an enormous challenge for policy makers and managers who have to decide when and what mitigation strategies to implement in the population, with obvious consequences in the medium- and long-term on health and the economy.22 The trouble that COVID-19 poses to health systems in general must also be considered as an opportunity,23,24 a new challenge22,25; and allow us to better prepare both for future pandemics and to face the greater challenge of chronicity.26,27

It should be noted that the diseases of the respiratory “system” in the current classification of the WHO (and any competent national bodies) do not fully reflect the reality of all diseases of the respiratory system, and do not include conditions that are part of the day-to-day care of patients from pulmonologists, such as tuberculosis, lung cancer or COVID-19, among others. A dialogue to try to correct and interpret well future statistics is necessary.

We conclude that the emergence of COVID-19 as the leading cause of death in 2020 in Spain has changed population health and the relative distribution of causes of death from respiratory diseases compared to previous years. The high population burden of respiratory diseases in Spain is confirmed, and it is aggravated by the COVID-19 pandemic.

Conflict of interest

The authors declare no conflict of interest.

Acknowledgments

The authors thank Margarita García-Ferrulo and Rosario González-García, from the S.G. de Estadisticas Sociales Sectoriales, Instituto Nacional de Estadistica, for their help in obtaining the database and their methodological contributions. Laura Moreno is a 6th-year student at the Faculty of Medicine, University of the Balearic Islands, in Palma, doing her final degree project on COVID-19.

References
[1]
GBD Chronic Respiratory Disease Collaborators.
Prevalence and attributable health burden of chronic respiratory diseases, 1990–2017: a systematic analysis for the Global Burden of Disease Study 2017.
Lancet Respir Med, 8 (2020), pp. 585-596
[2]
S. Gallus, A. Lugo, X. Liu, P. Behrakis, R. Boffi, C. Bosetti, TackSHS Project Investigators, et al.
Who smokes in Europe? Data from 12 European countries in the TackSHS survey (2017–2018).
J Epidemiol, 31 (2021), pp. 145-151
[3]
J.B. Soriano, D. Rojas-Rueda, J. Alonso, J.M. Antó, P.J. Cardona, E. Fernández, et al.
The burden of disease in Spain: results from the global burden of disease 2016.
Med Clin (Barc), 151 (2018), pp. 171-190
[4]
Lazarus J, et al, on behalf of Global Burden of Disease 2019 Collaborators Spain. Health and sustainable development goal gains in Spain, 1990–2019 and forecasts to 2030: a national country analysis of the global burden of disease study 2019. Nature Comm. 2022 [in press].
[5]
Libro Blanco: La Neumologia en España. Dirección General: Pilar de Lucas Ramos. ISBN: 978-84-944106-2-8 Dep. Legal: B 15359-2015 Editado y coordinado por RESPIRA-Fundación Española del Pulmón-SEPAR; 2015.
[6]
R. Lodenkemper, G.J. Gibson, Y. Sibille.
European Lung White Book. The first comprehensive survey on respiratory health in Europe.
European Respiratory Society, European Lung Foundation, (2003),
[7]
N.W. Schluger, R. Koppaka.
Lung disease in a global context. A call for public health action.
Ann Am Thorac Soc, 11 (2014), pp. 407-416
[8]
J.B. Soriano, C. Soriano, E. Fernández.
Medicina respiratoria planetaria.
Arch Bronconeumol, 53 (2017), pp. 297-299
[9]
A.L. Hansell, J.A. Walk, J.B. Soriano.
What do chronic obstructive pulmonary disease patients die from? A multiple cause coding analysis.
Eur Respir J, 22 (2003), pp. 809-814
[10]
P. Burney, D. Jarvis, R. Perez-Padilla.
The global burden of chronic respiratory disease in adults.
Int J Tuberc Lung Dis, 19 (2015), pp. 10-20
[11]
Lista reducida de causas de muerte CIE-10 y su correspondencia con la CIE-9. INE. Available at: https://www.ine.es/daco/daco42/sanitarias/lista_reducida_CIE10.pdf [accessed 17.12.21].
[12]
Causa básica de defunción. INE. Available at: https://www.ine.es/dynt3/inebase/es/index.htm?padre=8273∩sel=8275 [accessed 17.12.21].
[13]
Emergencies preparedness, response. Pneumonia of unknown cause – China. Available at https://www.who.int/csr/don/05-january-2020-pneumonia-of-unkown-cause-china/en/ [accessed 5.01.20].
[14]
J.B. Soriano, A. Infante.
Epidemiology: global spread, risk factors for disease incidence, severity and mortality.
COVID-19 (ERS monograph), pp. 14-27 http://dx.doi.org/10.1183/2312508X.10025420
[15]
P. Heuveline, M. Tzen.
Beyond deaths per capita: comparative COVID-19 mortality indicators.
[16]
I. Pifarré, H. Arolas, E. Acosta, G. López-Casasnovas, A. Lo, C. Nicodemo, et al.
Years of life lost to COVID-19 in 81 countries.
[17]
B. Kowall, F. Standl, F. Oesterling, B. Brune, M. Brinkmann, M. Dudda, et al.
Excess mortality due to Covid-19? A comparison of total mortality in 2020 with total mortality in 2016 to 2019 in Germany, Sweden and Spain.
[18]
N. Islam, D.A. Jdanov, V.M. Shkolnikov, K. Khunti, I. Kawachi, M. White, et al.
Effects of covid-19 pandemic on life expectancy and premature mortality in 2020: time series analysis in 37 countries.
[19]
S. Trias-Llimós, T. Riffe, U. Bilal.
Monitoring life expectancy levels during the COVID-19 pandemic: example of the unequal impact of the first wave on Spanish regions.
[20]
J. Signes-Costa, I.J. Núñez-Gil, J.B. Soriano, R. Arroyo-Espliguero, C.M. Eid, R. Romero, HOPE COVID-19 Investigators, et al.
Prevalence and 30-day mortality in hospitalized patients with covid-19 and prior lung diseases.
Arch Bronconeumol, 57 (2021), pp. 13-20
[21]
M. Posso, M. Comas, M. Román, L. Domingo, J. Louro, C. González, et al.
Comorbidities and mortality in patients with COVID-19 aged 60 years and older in a University Hospital in Spain.
Arch Bronconeumol (Engl Ed), 56 (2020), pp. 756-758
[22]
J.E. Muller, D.G. Nathan.
COVID-19, nuclear war, and global warming: lessons for our vulnerable world.
Lancet, 395 (2020), pp. 1967-1968
[23]
J.L. Izquierdo Alonso, J.M. Rodríguez González-Moro.
Pneumology in the Days of COVID-19.
Arch Bronconeumol, 56 (2020), pp. 1-2
[24]
P. Casan Clarà, C. Martínez González.
La neumología pos-COVID-19.
Arch Bronconeumol, 56 (2020), pp. 3-4
[25]
E. Barreiro, C. Jiménez, J. García de Pedro, M.T. Ramírez Prieto.
COVID-19 y la neumología del sigloxxi: ¿reto u oportunidad?.
Arch Bronconeumol, 56 (2020), pp. 411-412
[26]
M.D. Van Kerkhove, M.J. Ryan, T.A. Ghebreyesus.
Preparing for “Disease X”.
Science, 374 (2021), pp. 377
[27]
S.E. Vollset, E. Goren, C.W. Yuan, J. Cao, A.E. Smith, T. Hsiao, et al.
Fertility, mortality, migration, and population scenarios for 195 countries and territories from 2017 to 2100: a forecasting analysis for the Global Burden of Disease Study.
Lancet, 396 (2020), pp. 1285-1306
Copyright © 2022. SEPAR
Archivos de Bronconeumología
Article options
Tools

Are you a health professional able to prescribe or dispense drugs?