Difference between revisions of "Talk:Origin and global diffusion of the pandemic"

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{{ANEEtiqueta|palabrasclave=pandemia, covid19, origen de la pandemia, casos de COVID-19 en el mundo, personal sanitario en el mundo, mortalidad por COVID-19 en el mundo|descripcion= Estudio cartográfico del origen y difusión de la pandemia en el mundo|url=valor}}{{ANEObra|Serie=Monographs from the National Atlas of Spain|Logo=[[File:Logo Monografía.jpg|left|50x50px|link=]]|Título=The COVID-19 pandemic in Spain|Subtítulo=First wave: from the first cases to the end of June 2020|Año=2021|Contenido=New content}}
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{{ANEEtiqueta|palabrasclave=pandemic, covid19, origin of the pandemic, COVID-19 cases worldwide, healthcare workers worldwide, COVID-19 mortality worldwide|descripcion= Cartographic study of the origin and global diffusion of the pandemic|url=valor}}{{ANEObra|Serie=Monographs from the National Atlas of Spain|Logo=[[File:Logo Monografía.jpg|left|50x50px|link=]]|Título=The COVID-19 pandemic in Spain|Subtítulo=First wave: from the first cases to the end of June 2020|Año=2021|Contenido=New content}}
{{ANENavegacionCapitulo (monografía COVID-19)|estructura temática=Estructura temática|seccion=[[Global context of the COVID-19 pandemic|Global context of the COVID-19 pandemic]]|capitulo=Origin and global diffusion of the pandemic}}
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{{ANENavegacionCapitulo (monografía COVID-19)|estructura temática=Estructura temática|seccion=[[Global context of the COVID-19 pandemic|Global context of the COVID-19 pandemic]]|capitulo=Origin and global diffusion of the pandemic}}{{ANENavegacionHermanosPrimero|siguiente=[[Impact of the pandemic on the European Union]]}}
  
El virus SARS-CoV-2, conocido como COVID-19, surgió a partir de un foco localizado en la ciudad china de Wuhan a finales de 2019. Aunque es posible que ya estuviese circulando con anterioridad, tal y como demuestran análisis de aguas en diversas regiones del mundo, desde ese momento se comunica la emergencia sanitaria. Una situación de contagio que, en principio, parecía que sólo tendría entidad en China y en algún país asiático vecino, pero que desde comienzos de marzo de 2020 se convierte en una pandemia global. Una pandemia así definida por la OMS (Organización Mundial de la Salud), teniendo en cuenta cómo desde mediados de marzo y hasta inicios de junio los casos contabilizados pasan de suponer 80.000 al día a alcanzar una cifra próxima a los 200.000. Durante estas semanas la COVID-19 apareció como una enfermedad muy letal, asociada a tasas de mortalidad elevadas, ya que no existían ni demasiados conocimientos sobre cómo se contagiaba ni tratamientos efectivos para hacer frente a los casos graves. Las muertes dejaron de contabilizarse en miles y comenzaron a estimarse en decenas de miles cada semana, si bien las drásticas medidas de confinamiento total aplicadas en muchos países consiguieron estabilizar los decesos, registrados desde los máximos diarios de inicios de abril.
 
  
La difusión espacial de la pandemia siguió una pauta previsible. El primer foco se difunde desde China a toda Asia, pero las estrictas medidas de contención adoptadas por algunos países contuvieron el incremento en los contagios. Por el contrario, cuando el COVID-19 llega a Europa este continente se convierte en desgraciado líder mundial de la pandemia, hasta su transmisión masiva a América, que continuaba concentrando buena parte de los casos a nivel mundial a principios de julio de 2020. En las restantes regiones del mundo la pandemia se ha generalizado, pero muestra una tasa de incidencia mucho menor. Esto sucede en África, debido quizás a una falta de registro eficaz y a que se la considere sólo otro problema sanitario más, en unas sociedades muy vulnerables a todo tipo de enfermedades infecciosas.  
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SARS-CoV-2 virus, known as COVID-19, was declared a health emergency towards the end of 2019 following an outbreak in the Chinese city of Wuhan. However, the results of water analyses gathered later from various parts of the world suggest it was already spreading before then. It presented initially as an acute health problem that spread from the original outbreak in Wuhan to other major metropolitan regions in China, particularly Shanghai, Chongqing and the Pearl River Delta (Guangzhou, Hong Kong, Shenzhen, etc.). Analyses of this expansion from data on public transport use, particularly high-speed trains –despite the small amount of data available from China–, explain the pandemic’s rapid spread throughout its vast territory. During the final months of 2019, it appeared the spread of the infection would be limited to China and to a few of its neighbouring Asian countries. However, international airports eased its spread to the rest of the world, and the World Health Organisation (WHO) declared it a global pandemic in early March 2020. The spread of the pandemic may be observed on the map on the ''[[:File:World_Origin-and-spread-of-COVID--19_2020_map_17781_eng.jpg|Origins and spread of COVID-19]]'', which shows the number of cases per country and month from February to July 2020. The peak of infections was registered in early April 2020. The lack of effective treatments for severe cases and little knowledge of how COVID-19 was transmitted during that period meant that it proved to be a highly lethal disease that resulted in tens of thousands of deaths. However, the severe lockdowns applied in many countries succeeded in gradually reducing the amount of deaths from that first wave.
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The spatial diffusion of the pandemic across continents followed a predictable pattern. Initially, the virus spread from China to the rest of Asia. However, the strict lockdown measures adopted by some countries curbed the increase in infections there. Subsequently, the virus reached Europe, where it spread rapidly and soon reached the maximum number of infections in absolute terms. Later, COVID-19 was spread to the Americas, where it quickly spread. In fact, the Americas were the hardest hit continents, only lagging behind Europe for a few weeks. Finally, the pandemic also extended to the other continents yet with a much lower incidence, as happened in Africa, for example. There is, however, a possibility that the apparent lower prevalence in Africa may owe more to a lack of effective recording and to the fact that this new virus was just one more health problem in societies that are already highly vulnerable to all kinds of infectious and contagious diseases.  
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[[File:Mundo_Evolucion-de-casos-COVID--19-en-el-mundo_2020_graficoestadistico_17714_spa.jpg|left|thumb|300px|Gráfico estadístico: Evolución de casos COVID-19 en el mundo. 2020. Mundo.]]
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[[File:World_Evolution-of-COVID--19-cases-worldwide_2020_statisticalgraph_17714_eng.jpg|left|thumb|300px|Statistical graph: Evolution of COVID-19 cases worldwide. 2020. World.]]
 
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[[File:Mundo_Evolucion-de-fallecidos-por-COVID--19-en-el-mundo_2020_graficoestadistico_17715_spa.jpg|left|thumb|300px|Gráfico estadístico: Evolución de fallecidos por COVID-19 en el mundo. 2020. Mundo.]]
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[[File:World_Evolution-in-the-number-of-deaths-from-COVID--19-worldwide_2020_statisticalgraph_17715_eng.jpg|left|thumb|300px|Statistical graph: Evolution in the number of deaths from COVID-19 worldwide. 2020. World.]]
 
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[[File:Mundo_Evolucion-de-casos-COVID--19-por-grandes-regiones-del-mundo_2020_graficoestadistico_17716_spa.jpg|left|thumb|300px|Gráfico estadístico: Evolución de casos COVID-19 por grandes regiones del mundo. 2020. Mundo.]]
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[[File:World_Evolution-of-COVID--19-cases-by-major-regions-of-the-world_2020_statisticalgraph_17716_eng.jpg|left|thumb|300px|Statistical graph: Evolution of COVID-19 cases by major regions of the world. 2020. World.]]
 
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[[File:Mundo_Evolucion-de-casos-COVID--19-en-los-paises-mas-afectados_2020_graficoestadistico_17719_spa.jpg|left|thumb|300px|Gráfico estadístico: Evolución de casos COVID-19 en los países más afectados. 2020. Mundo.]]
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[[File:World_Evolution-of-COVID--19-cases-in-most-affected-countries_2020_statisticalgraph_17719_eng.jpg|left|thumb|300px|Statistical graph: Evolution of COVID-19 cases in most affected countries. 2020. World.]]
  
 
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[[File:China_Origen-y-difusion-del-COVID--19-en-China_2020_mapa_17842_spa.jpg|left|thumb|300px|Mapa: Origen y difusión del COVID-19 en China. 2020. China. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/China_Origen-y-difusion-del-COVID--19-en-China_2020_mapa_17842_spa.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/China_Origen-y-difusion-del-COVID--19-en-China_2020_mapa_17842_spa.zip Datos].]]
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[[File:China_Origins-and-spread-of-Covid--19-in-China_2020_map_17842_eng.jpg|left|thumb|300px|Map: Origins and spread of Covid-19 in China. 2020. China. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/China_Origins-and-spread-of-Covid--19-in-China_2020_map_17842_eng.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/China_Origins-and-spread-of-Covid--19-in-China_2020_map_17842_eng.zip Data]. ]]
[[File:Mundo_Origen-y-difusion-del-COVID--19_2020_mapa_17781_spa.jpg|right|thumb|300px|Mapa: Origen y difusión del COVID-19 . 2020. Mundo. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Origen-y-difusion-del-COVID--19_2020_mapa_17781_spa.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Origen-y-difusion-del-COVID--19_2020_mapa_17781_spa.zip Datos].]]
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[[File:World_Origin-and-spread-of-COVID--19_2020_map_17781_eng.jpg|right|thumb|300px|Map: Origin and spread of COVID-19. 2020. World. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_Origin-and-spread-of-COVID--19_2020_map_17781_eng.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_Origin-and-spread-of-COVID--19_2020_map_17781_eng.zip Data]. ]]
Por lo que concierne a los principales territorios afectados, China pasó de ser el origen del problema a ocupar una posición muy modesta en el ''ranking'', con lo que no aparece en el gráfico. En una posición intermedia, se sitúan los países europeos con mayor impacto de la primera ola: Italia, España y el Reino Unido. Aunque su número total de casos no destaque en la imagen, la incidencia relativa de la enfermedad ha sido y es muy elevada. Entre los territorios que sobresalen por su volumen de infectados, Estados Unidos se situó, desde finales de marzo, como el líder mundial de enfermos por la pandemia y a mediados de mayo Brasil se coloca en la segunda posición. Estas dos naciones con más de 500 millones de habitantes conjuntamente han encabezado claramente las estadísticas desde ese momento y, junto con Chile, país poco poblado, pero con una incidencia altísima, permiten entender que América sea el continente más golpeado por el COVID-19. En otras naciones muy importantes, como India o Rusia, el número de casos es alto, evolucionaron con una pauta creciente hasta un posterior control relativo, para situarse casi siempre entre los cinco países con superior número de casos por el virus.
 
  
El virus SARS-CoV-2 se presentó en China como un problema grave de salud. A partir de los escasos datos disponibles de ese país, se cartografía su difusión desde el foco original de Wuhan hacia otras regiones metropolitanas muy importantes, en particular Shanghái, el delta del río Perla (Guangzhou, Hong Kong, Shenzhen, etc.) y Chongqing. Esta expansión ha sido analizada a través del uso frecuente de transportes públicos, sobre todo el tren de alta velocidad, y explica que la pandemia pronto se generalizase a todo este extenso territorio y, desde sus aeropuertos internacionales, al resto del mundo. La propagación de la pandemia se puede observar perfectamente en el mapa [[:File:Mundo_Origen-y-difusion-del-COVID--19_2020_mapa_17781_spa.jpg|''Origen y difusión del COVID-19'' ]] donde se representan los casos por países, diferenciando la contabilidad mensual desde febrero hasta inicios de julio. De nuevo se aprecia que el foco inicial del oriente asiático muy pronto quedó en segundo plano. También se puede ver una extensión y notable incidencia del virus en Europa occidental y progresivamente en distintos países asiáticos. Por último, se observa el récord de casos de Estados Unidos y Brasil. Como se ha indicado, el enorme impacto en toda América simplemente se ha retrasado unas semanas respecto a las demás regiones del mundo.
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When analysing the spatial diffusion by country, it is helpful to differentiate the results in absolute and relative terms. On the one hand, China went from being the origin of the infection to playing a very discreet role in the global ranking. In absolute terms, the United States ranked as the world leader in terms of the total number of patients from the end of March 2020, with Brazil ranking second behind it. These two countries, with over 500 million inhabitants between the two, have clearly topped all statistics in absolute terms since then. By contrast, in relative terms, Chile and the European States most impacted during the first wave, such as Belgium, Spain and Sweden, stand out for their high incidence amongst smaller populations. In other large countries, such as Russia and India, cases evolved in an ascending pattern before reaching a certain level of control, and they were amongst the top five countries for the total amount of infections throughout the whole period under study.  
  
La escala mundial y el mapa político por países hace posible observar datos muy relevantes para comprender la dimensión de la primera ola de la pandemia. De esta forma, se han elaborado tres figuras con valores fundamentales para entender su magnitud. Por una parte, se cartografía el personal sanitario por países, el total de casos de COVID registrados entre enero y junio, y finalmente el número de fallecidos.  
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Having analysed the origin and expansion of the pandemic worldwide, the following paragraphs deal with its magnitude. In this context, three key aspects shall be evaluated in order to understand the scale of the problem: the number of COVID-19 cases recorded from January to June, the amount of deaths and the number of healthcare workers.
  
[[File:Mundo_Personal-sanitario-en-el-mundo_2018_mapa_17813_spa.jpg|right|thumb|300px|Mapa: Personal sanitario en el mundo. 2018. Mundo. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Personal-sanitario-en-el-mundo_2018_mapa_17813_spa.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Personal-sanitario-en-el-mundo_2018_mapa_17813_spa.zip Datos].]]
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[[File:World_Healthcare-workers_2018_map_17813_eng.jpg|right|thumb|300px|Map: Healthcare workers. 2018. World. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_Healthcare-workers_2018_map_17813_eng.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_Healthcare-workers_2018_map_17813_eng.zip Data]. ]]
  
En el mapa de [[:File:Mundo_Personal-sanitario-en-el-mundo_2018_mapa_17813_spa.jpg| ''personal sanitario'']], se debe precisar que se basa en los datos que las Naciones Unidas han podido recopilar por países, con valores que pueden corresponderse casi siempre a distintas anualidades del último decenio iniciado en 2010, con 2018 como fecha más reciente. En segundo lugar, se considera personal sanitario a médicos y personal de enfermería, excluyendo a otras categorías laborales que pueden relacionarse con la actividad (auxiliares clínicos, trabajadores de farmacia, etc.), pero con una vinculación menos directa con el tratamiento de una pandemia. La principal idea que se extrae de este mapa es la existencia de un marcado contraste norte-sur en la distribución de estos valores, fundamentales para comprender cómo se puede hacer frente a esta infección de una forma eficiente.
 
  
Entre los países que presentan tanto un total como un número relativo de sanitarios por habitante elevado a nivel global, se encuentran toda Europa, América del Norte, Oceanía y una serie de naciones de América del Sur y del mundo árabe, que pueden llamar la atención por sus valores bastante positivos. En estos casos, las cifras favorables reflejan tanto un cierto progreso del sistema de salud como un porcentaje de personal de enfermería bastante superior en el conjunto de sanitarios contabilizados. Entre los mejores datos destacan los correspondientes a Noruega, Suecia, Finlandia, Alemania, Suiza y Estados Unidos, a los que sorpresivamente se suman Chile (con una red privada de atención muy extensa), Lituania y Bielorrusia (quizás como herencia del modelo soviético). Un valor un tanto llamativo es el nivel medio de sanitarios por población en China, registro similar al de India y buena parte de los países de América Latina. Por último, la menor disponibilidad de personal sanitario corresponde en general, y como era previsible, al África subsahariana, con alguna excepción de países menos precarios como Botswana, Zambia, Gabón o Ghana.
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The number of COVID-19 cases shall also be analysed in absolute and relative terms. In absolute values, the countries with the highest amount of recorded cases during the first wave of the pandemic were the United States, Brazil, India and Russia, which is consistent with their large size. However, what is striking is that some other countries with less than 70 million inhabitants also featured at the top of the list, including the United Kingdom, France, Italy, Spain, Chile, Peru and Saudi Arabia. The large amount of cases in these countries could be attributed to the high demographic densities in their urban areas, which are home to a sizeable part of their population, and the lack of an effective response to the outbreak during the initial weeks of the pandemic that allowed the virus to spread. In relative terms, the countries with worst data are the United States, Panama, Brazil, Peru, Chile, Spain, Belgium, Luxembourg, Ireland, Sweden, Belarus, Armenia, Kuwait, Qatar, Oman and Saudi Arabia, some of which are also amongst those worst affected in absolute terms. It shall be noted that the governments of some countries, such as the United States, Brazil and Belarus, showed some initial scepticism towards the threat of the pandemic and failed to take decisive measures to contain the spread of the virus. The evolution of the pandemic in Sweden, for example, was probably influenced by the implementation of deliberately lax lockdown measures that sought to seek a supposed herd immunity. At the opposite end of the scale, countries with fewer relative cases of COVID-19 fall into one of two categories: either they applied stringent isolation measures with exemplary levels of compliance from their populations, i.e., China, South Korea, Japan, Taiwan, New Zealand and Australia, or they have poor levels of record-keeping, and COVID-19 is present alongside other infectious and contagious diseases (ebola, malaria, yellow fever, etc.), i.e. sub-Saharan Africa and some countries in South America and Asia.
  
[[File:Mundo_Casos-de-COVID--19-en-el-mundo_2020_mapa_17720_spa.jpg|left|thumb|300px|Mapa: Casos de COVID-19 en el mundo. 2020. Mundo. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Casos-de-COVID--19-en-el-mundo_2020_mapa_17720_spa.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Casos-de-COVID--19-en-el-mundo_2020_mapa_17720_spa.zip Datos].]]
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[[File:World_COVID--19-cases_2020_map_17720_eng.jpg|left|thumb|300px|Map: COVID-19 cases. 2020. World. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_COVID--19-cases_2020_map_17720_eng.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_COVID--19-cases_2020_map_17720_eng.zip Data]. ]]
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The amount of deaths from COVID-19 during the first wave of the pandemic was influenced by several factors, including scant knowledge of the new virus, the shortage of medical and infection prevention equipment, the absence of specific medical treatments, etc. As a result, the mortality rate stood at 5% during the initial months but decreased from June 2020 due to improved treatments and Personal Protective Equipment (PPE) availability. Given that nearly 80% of those who died worldwide were men over 70 and women over 80, the age distribution of the population was another factor to have a considerable bearing on the countrywide outcome. It is in this context that the world map of relative mortality shall be understood, in which there are five Western European countries (the United Kingdom, Italy, Spain, Belgium and Sweden) with a high mortality rate per 100,000 inhabitants due to their older age-sex pyramids and despite their solid health services, which were caught unaware during the first few months of the pandemic. At the opposite end of the scale, China (although many authors question the reliability of their data), Asia in general and Africa may be found, yet younger populations shall be borne in mind.
  
Como se ha repetido insistentemente en los medios de comunicación, el mayor número absoluto de infectados desde esta primera ola de la pandemia se localiza en Estados Unidos, Brasil, India y Rusia. Es lógico que esto ocurra teniendo en cuenta la población total de estas cuatro naciones. Sin embargo, es muy llamativo que países con menos de 70 millones de habitantes, como Reino Unido, Francia, Italia, España, Chile, Perú o Arabia Saudí alcanzasen tantos casos. Este hecho podría relacionarse con las elevadas densidades demográficas de las ciudades y espacios urbanos, donde reside buena parte de su población, y con la falta de una respuesta efectiva a la propagación del COVID durante las primeras semanas en que el virus se extendió por sus territorios.
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[[File:World_Deaths--from-COVID--19_2020_map_17724_eng.jpg|left|thumb|300px|Map: Deaths  from COVID-19 . 2020. World. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_Deaths--from-COVID--19_2020_map_17724_eng.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/World_Deaths--from-COVID--19_2020_map_17724_eng.zip Data]. ]]
  
Por lo que se refiere a la incidencia de casos sobre el efectivo humano total, Estados Unidos, Brasil, Perú, Chile, España, Bélgica, Suecia, Bielorrusia, Omán y Arabia Saudí son los países con peores registros. A este respecto, cabe destacar que estas naciones coinciden, en su mayoría, con aquellas que contabilizaban más infecciones, aunque también se debe señalar que en ejemplos como Estados Unidos, Brasil y Bielorrusia los gobiernos de estos países, dado su escepticismo inicial frente a la amenaza de la pandemia, no tomaron medidas más contundentes con el fin de contener la propagación del virus, mientras que, en Suecia, quizás haya sido la aplicación de una normativa muy laxa de confinamiento, buscando la supuesta inmunidad grupal, la que haya influido. Entre los territorios con menos casos de COVID en esta primera ola, se deben diferenciar dos situaciones. La primera, correspondiente a países donde los registros de la enfermedad son muy deficientes por falta de recursos y la combinación de este virus con otras enfermedades crónicas (ébola, malaria, fiebre amarilla, etc.), como sucede en el África subsahariana o en determinados países de América del Sur y de Asia (Paraguay, Guyana, Venezuela, Laos, Camboya, etc.). La segunda, representativa de países y sociedades donde la expansión del virus ha sido controlada con medidas de aislamiento muy duras y cierta ejemplaridad en el comportamiento de la población, como el conocido caso de China en donde surgió el virus, pero también los de Corea del Sur (República de Corea), Japón, Taiwan, Nueva Zelanda o Australia, por citar  ejemplos sobresalientes.
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With regard to healthcare workers, it is important to clarify two aspects: firstly, the data compiled by the United Nations for individual countries is for different years between 2010 and 2018; secondly, only doctors and nurses have been counted as healthcare workers, excluding other job categories in this sector, such as clinical assistants, pharmacy workers, etc. The main takeaway that may be extracted from this map is the sharp contrast between north and south. The north includes Europe, North America, Oceania, some of the Latin American countries and the Arab World. Indicators in this area are high both in absolute terms and relative to population size. In addition, nurses account for a large proportion of their total number of registered healthcare workers. This situation is especially true for Norway, Sweden, Finland, Germany, Switzerland, the United States, Chile, Lithuania and Belarus (these last two countries possibly as a legacy of the Soviet model). China, India and some Latin American countries have intermediate values for the number of healthcare workers relative to population size. In the south, by contrast, sub-Saharan Africa has the lowest availability of healthcare workers, with the few exceptions to this general rule being Botswana, Zambia, Gabon and Ghana.
 
 
[[File:Mundo_Fallecidos-por-COVID--19-en-el-mundo_2020_mapa_17724_spa.jpg|right|thumb|300px|Mapa: Fallecidos por COVID-19 en el mundo. 2020. Mundo. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Fallecidos-por-COVID--19-en-el-mundo_2020_mapa_17724_spa.pdf PDF]. [//centrodedescargas.cnig.es/CentroDescargas/busquedaRedirigida.do?ruta=PUBLICACION_CNIG_DATOS_VARIOS/aneTematico/Mundo_Fallecidos-por-COVID--19-en-el-mundo_2020_mapa_17724_spa.zip Datos].]]A lo largo de esta primera ola, el desconocimiento de un nuevo virus, la escasez de equipos médicos y de prevención para impedir el contagio, y la ausencia de tratamientos hospitalarios específicos, provocó un índice de mortalidad o letalidad muy elevado entre los infectados. Una tasa que se situó en el 5% en estos primeros meses y que se ha ido reduciendo con posterioridad. Desde julio de 2020 han mejorado mucho los tratamientos y el personal sanitario cuenta con los equipos necesarios para evitar contaminarse. Otro factor que influyó enormemente en el elevado número de fallecidos fue el envejecimiento demográfico general. Los hombres de más de 70 años y las mujeres con los 80 cumplidos, conjuntamente, han supuesto casi el 80% de los fallecidos por la pandemia a nivel mundial. Por lo tanto, las sociedades envejecidas, con numerosas personas que tenían previamente sus organismos debilitados, han notado más los efectos letales de la enfermedad que otras caracterizadas por su juventud.
 
 
 
Si se tienen en cuenta estas consideraciones, se comprende perfectamente el contenido del mapa mundial de [[:File:Mundo_Fallecidos-por-COVID--19-en-el-mundo_2020_mapa_17724_spa.jpg| ''Fallecidos por COVID-19'']]. La mortalidad por 100.000 habitantes destaca en cinco países europeos (España, Italia, Reino Unido, Bélgica y Suecia), donde el factor envejecimiento predominó sobre el funcionamiento de sistemas sanitarios, por lo general eficientes, que en estos meses se vieron sorprendidos. En lo que concierne al número absoluto de decesos Estados Unidos y Brasil sobresalen a nivel global, aunque la importancia de los mismos sobre la población total sea menor que en el conjunto de Europa Occidental. La realidad opuesta del mapa es reflejada por China (aunque muchos autores han dudado de la completa fiabilidad de sus datos) y, en general, toda Asia y África. Por último, cabe señalar que, en Europa Oriental, si bien las cifras de la primera ola fueron modestas, la situación se ha agravado con posterioridad.
 
 
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{{ANETextoAsociado48|titulo=PANDEMIA|contenido=Propagación a escala mundial y a cierta velocidad de una nueva enfermedad. Se declara cuando esta enfermedad se está extendiendo amplia y simultáneamente en múltiples áreas geográficas en todo el mundo. La declaración de la Organización Mundial de la Salud (OMS) de una nueva pandemia de coronavirus fue inevitable cuando se certificaron casos de la enfermedad en más de 100 países.}}
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{{ANETextoAsociado48|titulo=PANDEMIC|contenido=SSpread of a new disease at a certain speed, widely and simultaneously throughout several geographical areas of the world. The World Health Organisation (WHO) declared COVID-19 a pandemic after more than 100 countries officially registered cases of the disease.}}
 
</ul>
 
</ul>
 
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{{ANETextoAsociado48|titulo=COVID O CORONAVIRUS|contenido=Tipo de virus que afecta a los seres humanos y que provoca síndromes respiratorios agudos severos. Forma parte de una gran familia de virus que circulan entre las personas y algunos animales, como ciertos mamíferos. Aunque existen algunos coronavirus que no afectan a la salud de las personas, el COVID-19 ataca fundamentalmente a los pulmones y puede generar neumonías; en otros casos provoca problemas gástricos o pérdida del olfato y del gusto.}}
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{{ANETextoAsociado48|titulo=COVID OR CORONAVIRUS|contenido=Family of viruses that affect some mammals, including humans. Some coronaviruses do not pose a threat to the health of humans. However, COVID-19 causes severe acute respiratory syndromes, attacks the lungs and may cause pneumonia. It may also cause gastric disorders and the loss of smell and taste.}}
 
</ul>
 
</ul>
 
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{{ANETextoAsociado48|titulo=DIFUSIÓN ESPACIAL|contenido=Propagación, expansión o divulgación de un fenómeno en el espacio y en el tiempo. Para que se materialice el proceso de difusión es necesaria la existencia de un foco en el que se origine, de un conjunto potencial de receptores, de canales de comunicación entre el punto emisor y los receptores, y de un período de tiempo variable en cada caso. El proceso de difusión puede ser aleatorio, en mancha de aceite o a través de formas jerárquicas, pasando por puntos nodales. Los modelos de difusión espacial se generalizaron a partir del trabajo del geógrafo sueco T Haggerstränd en 1968.}}
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{{ANETextoAsociado48|titulo=SPACIAL DIFFUSION|contenido=Spread, expansion or dissemination of a phenomenon over space and time. For the diffusion process to materialise, there must be a central source from which the phenomenon originates, a set of potential receptors, communication channels between the source and the receptors, and a variable period of time. The diffusion process passes through nodal points and may involve a spread that is either random, similar to that of an oil slick, or hierarchical. Spatial diffusion models came into widespread use following the work of Swedish geographer T. Haggerstränd in 1968.}}
 
</ul>
 
</ul>
 
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{{ANETextoAsociado48|titulo=TRANSMISIÓN COMUNITARIA|contenido=Existe cuando en una población o territorio determinados se generalizan los contactos sin conocer su origen. Se establece al detectarse un virus en una o varias personas, desconociéndose cómo lo contrajeron. En el caso del nuevo coronavirus, la transmisión comunitaria empezó a detectarse cuando varios positivos coincidían en el hecho de haber visitado hacía poco China u otras áreas donde el virus se estaba propagando. Este tipo de transmisión significa que el virus se ha generalizado por la comunidad sin haber sido detectado por un tiempo. Cuando existe transmisión comunitaria se estima que la expansión del virus está descontrolada.}}
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{{ANETextoAsociado48|titulo=TRANSMISIÓN COMMUNITY TRANSMISSION|contenido=Community transmission is said to be present when a virus is detected in several people within a specific population or territory, and the origin of the infections are unknown. In the case of COVID-19, community transmission was detected when various people were tested positive for the disease after having recently visited China and other areas where the virus was spreading. This type of transmission denotes that the virus has been widespread in the community yet gone undetected for some time. When there is community transmission, the spread of the virus is deemed to be uncontrolled.}}
 
</ul>
 
</ul>
 
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{{ANETextoAsociado48|titulo=TASA DE POSITIVIDAD|contenido=Porcentaje de casos positivos de COVID-19 en relación con el total de pruebas de detección realizadas. Si el porcentaje es inferior al 5% se estima que la pandemia está en vías de control. Si, por el contrario, se supera esa cifra se estima que muchos casos de personas infectadas no se conocen, por lo que es necesario hacer cribados y existe transmisión comunitaria. En general, se considera que este indicador es más preciso que el número diario de positivos, ya que el total de PCR realizados puede variar cotidianamente y la positividad nos informa del riesgo de contagio recurriendo a un porcentaje siempre comparable, si la dinámica de realización de pruebas se rige por los mismos criterios.}}
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{{ANETextoAsociado48|titulo=POSITIVITY RATE|contenido=Percentage of COVID-19 tests that come back positive out of the total amount of screening tests performed. A pandemic is deemed to be under control if this percentage lies under 5%. A positivity rate over 5%, on the other hand, suggests many people are unaware they are infected and therefore community transmission exists and screening is required. The general consensus is that this indicator offers a more accurate assessment of the risk of infection than the daily number of positives as the number of screening tests performed may vary from day to day, whilst the positivity rate is a relative value that may always be used to compare different periods as long as the testing criteria remain the same.}}
 
</ul>
 
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{{ANETextoAsociado48|titulo=INCIDENCIA|contenido=Número de casos detectados de una nueva enfermedad en un periodo de tiempo determinado y en una zona o comunidad concreta. Asimismo, se podría expresar como la probabilidad de que una persona de una cierta población resulte afectada por dicha enfermedad. La tasa de incidencia representa la velocidad a la que se producen nuevos casos de la enfermedad en la población expuesta. Se calcula dividiendo los nuevos casos entre el número de habitantes. La incidencia acumulada es la proporción de personas que enferman en un tiempo determinado. También es el resultado de dividir el número de casos aparecidos entre el número de personas que están libres de la enfermedad al inicio del periodo. Normalmente se suele tener en cuenta cada 100.000 habitantes y en periodos de 7 a 14 días.}}
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{{ANETextoAsociado48|titulo=INCIDENCE|contenido=Number of detected cases of a disease in a given period and specific area or community. It could also be described as the probability that a person from a specific population will be affected by said disease. In addition, the incidence rate represents the speed at which new cases of the disease appear in the exposed population. It is calculated by dividing the number of new cases of the disease by the number of inhabitants. Lastly, the cumulative incidence is the proportion of people who fall ill in a given period of time. It is calculated by dividing the number of registered cases by the amount of people who were free of the disease at the beginning of the period. It is usually calculated for every 100,000 inhabitants in periods of 7 to 14 days.}}
 
</ul>
 
</ul>
 
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{{ANETextoAsociado48|titulo=CONFINAMIENTO|contenido=Aislamiento temporal y generalmente impuesto a una población, una persona o un grupo por razones de salud o de seguridad. Casi siempre es el resultado de una decisión gubernativa, que implica recluir dentro de unos límites. Se trata de una medida extraordinaria y de emergencia tomada por motivos de enfermedad o de prevención, que supone el cierre de establecimientos de ocio, turísticos, culturales y en la que se restringen los desplazamientos de la población de la zona afectada. En sus casos más extremos puede ser total, aunque lo más frecuente es que se respeten los movimientos de carácter laboral, asistencial, de emergencia o el aprovisionamiento de comida y productos farmacéuticos, en distintos grados.}}
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{{ANETextoAsociado48|titulo=LOCKDOWN|contenido=Extraordinary and emergency measure involving the temporary isolation of an individual, group or entire population for health or safety reasons. It involves restricting movements of the population in the affected area and closing leisure, tourism and cultural facilities. It may be a full restriction in very extreme cases, yet it is mostly not so strict and travelling is allowed to varying degrees for buying food and pharmaceutical products, for work, to provide care and in case of emergency.}}
 
</ul>
 
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{{ANETextoAsociado48|titulo=INMUNIDAD|contenido=Forma en la que el cuerpo se protege contra las enfermedades causadas por infecciones. Estado de resistencia general que posee una persona respecto a una enfermedad infecciosa o una toxina. Se vincula a la presencia de anticuerpos o células que desarrollan una acción específica contra el microorganismo causante de la infección. Se diferencian dos tipos de inmunidad: la inmunidad activa, que suele durar años, se adquiere naturalmente como consecuencia de una infección o artificialmente a través de una vacuna; la inmunidad pasiva, de corta duración (de algunos días a varios meses), se obtiene naturalmente por transmisión materna o artificialmente por inoculación de anticuerpos protectores específicos. También se ha generalizado la expresión inmunidad colectiva, de masa o de rebaño, cuando la proporción de población inmune es alta y el agente tiene menor probabilidad de diseminarse. }}
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{{ANETextoAsociado48|titulo=IMMUNITY|contenido=A person’s general level of resistance to or protection from an infectious disease or toxin. It is linked to the presence of antibodies or cells that act specifically against the microorganism that causes the infection. There are two types of immunity: active immunity, which usually lasts for years and is acquired naturally, as a consequence of an infection, or artificially, through a vaccine; and passive immunity, which has a short duration (from a few days to several months), and is obtained naturally, by maternal transmission, or artificially, by inoculating specific protective antibodies. The term ‘herd immunity’ is widely used to describe a situation in which a high proportion of a population has immunity and, therefore, the agent is less likely to spread.}}
 
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{{ANETextoAsociado48|titulo=PCR Y TEST DE ANTÍGENOS|contenido=Pruebas utilizadas para la detección de infecciones (PCR es una sigla en inglés que significa reacción en cadena de la polimerasa). La prueba consiste en extraer material genético de una muestra y compararlo con los genes encontrados en el SARS-CoV-2 o con otros virus. Se toma una muestra de la persona sospechosa introduciendo un hisopo (bastoncillo) por la nariz o por la boca para recogerla. Si la técnica de PCR no detecta el material genético del virus, lo más probable es que la persona no esté infectada. Por su parte, el test de antígenos consiste en introducir una molécula tóxica, que genera una reacción de anticuerpos. Si esta es del virus del COVID se puede inferir si el sujeto está infectado en ese momento.}}
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{{ANETextoAsociado48|titulo=PCR AND ANTIGEN TESTS|contenido=The acronym PCR stands for polymerase chain reaction. It is a type of test used to detect infections. It consists of extracting genetic material from a sample and comparing it with the genes found in viruses (for example, in SARS-CoV-2). The test involves inserting a swab (cotton bud) into the nose or mouth of the person suspected of being infected to collect a sample. If the PCR technique does not detect the virus's genetic material, it is likely the person is not infected. The antigen test entails introducing a toxic molecule to the sample that generates an antibody reaction, enabling inferring whether the subject is infected by the virus.}}
 
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{{ANETextoAsociado48|titulo=DISTANCIAMIENTO SOCIAL|contenido=Expresión referida a la imposición o recomendación del alejamiento entre personas no convivientes para evitar contagios. En realidad, debería denominarse distanciamiento físico, dado que alude a todos los individuos con los que no se comparte vivienda. Esta medida se ha convertido en la recomendación más importante para contener la propagación de un virus, especialmente cuando no existen evidencias precisas del rastreo de contacto.}}
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{{ANETextoAsociado48|titulo=SOCIAL DISTANCING|contenido=Term used to describe the imposition or recommendation that people keep a physical distance between themselves and anyone with whom they do not share a home. Its purpose is to prevent transmissions. This measure has become the most effective tool for containing the spread of COVID-19, especially when community transmission exists.}}
 
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{{ANEAutoria|Autores= Agustín Gámir Orueta, Rubén C. Lois González, Ángel Miramontes Carballada y Ana Paula Santana Rodrigues}}
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{{ANEAutoria|Autores= Agustín Gámir Orueta, Rubén C. Lois González, Ángel Miramontes Carballada and Ana Paula Santana Rodrigues}}
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[[Categoría:España en el mundo]]
 

Latest revision as of 15:39, 26 May 2022


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The COVID-19 pandemic in Spain. First wave: from the first cases to the end of June 2020

Monographs from the National Atlas of Spain. New content


Thematic structure > Global context of the COVID-19 pandemic > Origin and global diffusion of the pandemic


SARS-CoV-2 virus, known as COVID-19, was declared a health emergency towards the end of 2019 following an outbreak in the Chinese city of Wuhan. However, the results of water analyses gathered later from various parts of the world suggest it was already spreading before then. It presented initially as an acute health problem that spread from the original outbreak in Wuhan to other major metropolitan regions in China, particularly Shanghai, Chongqing and the Pearl River Delta (Guangzhou, Hong Kong, Shenzhen, etc.). Analyses of this expansion from data on public transport use, particularly high-speed trains –despite the small amount of data available from China–, explain the pandemic’s rapid spread throughout its vast territory. During the final months of 2019, it appeared the spread of the infection would be limited to China and to a few of its neighbouring Asian countries. However, international airports eased its spread to the rest of the world, and the World Health Organisation (WHO) declared it a global pandemic in early March 2020. The spread of the pandemic may be observed on the map on the Origins and spread of COVID-19, which shows the number of cases per country and month from February to July 2020. The peak of infections was registered in early April 2020. The lack of effective treatments for severe cases and little knowledge of how COVID-19 was transmitted during that period meant that it proved to be a highly lethal disease that resulted in tens of thousands of deaths. However, the severe lockdowns applied in many countries succeeded in gradually reducing the amount of deaths from that first wave.

The spatial diffusion of the pandemic across continents followed a predictable pattern. Initially, the virus spread from China to the rest of Asia. However, the strict lockdown measures adopted by some countries curbed the increase in infections there. Subsequently, the virus reached Europe, where it spread rapidly and soon reached the maximum number of infections in absolute terms. Later, COVID-19 was spread to the Americas, where it quickly spread. In fact, the Americas were the hardest hit continents, only lagging behind Europe for a few weeks. Finally, the pandemic also extended to the other continents yet with a much lower incidence, as happened in Africa, for example. There is, however, a possibility that the apparent lower prevalence in Africa may owe more to a lack of effective recording and to the fact that this new virus was just one more health problem in societies that are already highly vulnerable to all kinds of infectious and contagious diseases.

  • Statistical graph: Evolution of COVID-19 cases worldwide. 2020. World.
  • Statistical graph: Evolution in the number of deaths from COVID-19 worldwide. 2020. World.
  • Statistical graph: Evolution of COVID-19 cases by major regions of the world. 2020. World.
  • Statistical graph: Evolution of COVID-19 cases in most affected countries. 2020. World.
Map: Origins and spread of Covid-19 in China. 2020. China. PDF. Data.
Map: Origin and spread of COVID-19. 2020. World. PDF. Data.

When analysing the spatial diffusion by country, it is helpful to differentiate the results in absolute and relative terms. On the one hand, China went from being the origin of the infection to playing a very discreet role in the global ranking. In absolute terms, the United States ranked as the world leader in terms of the total number of patients from the end of March 2020, with Brazil ranking second behind it. These two countries, with over 500 million inhabitants between the two, have clearly topped all statistics in absolute terms since then. By contrast, in relative terms, Chile and the European States most impacted during the first wave, such as Belgium, Spain and Sweden, stand out for their high incidence amongst smaller populations. In other large countries, such as Russia and India, cases evolved in an ascending pattern before reaching a certain level of control, and they were amongst the top five countries for the total amount of infections throughout the whole period under study.

Having analysed the origin and expansion of the pandemic worldwide, the following paragraphs deal with its magnitude. In this context, three key aspects shall be evaluated in order to understand the scale of the problem: the number of COVID-19 cases recorded from January to June, the amount of deaths and the number of healthcare workers.

Map: Healthcare workers. 2018. World. PDF. Data.


The number of COVID-19 cases shall also be analysed in absolute and relative terms. In absolute values, the countries with the highest amount of recorded cases during the first wave of the pandemic were the United States, Brazil, India and Russia, which is consistent with their large size. However, what is striking is that some other countries with less than 70 million inhabitants also featured at the top of the list, including the United Kingdom, France, Italy, Spain, Chile, Peru and Saudi Arabia. The large amount of cases in these countries could be attributed to the high demographic densities in their urban areas, which are home to a sizeable part of their population, and the lack of an effective response to the outbreak during the initial weeks of the pandemic that allowed the virus to spread. In relative terms, the countries with worst data are the United States, Panama, Brazil, Peru, Chile, Spain, Belgium, Luxembourg, Ireland, Sweden, Belarus, Armenia, Kuwait, Qatar, Oman and Saudi Arabia, some of which are also amongst those worst affected in absolute terms. It shall be noted that the governments of some countries, such as the United States, Brazil and Belarus, showed some initial scepticism towards the threat of the pandemic and failed to take decisive measures to contain the spread of the virus. The evolution of the pandemic in Sweden, for example, was probably influenced by the implementation of deliberately lax lockdown measures that sought to seek a supposed herd immunity. At the opposite end of the scale, countries with fewer relative cases of COVID-19 fall into one of two categories: either they applied stringent isolation measures with exemplary levels of compliance from their populations, i.e., China, South Korea, Japan, Taiwan, New Zealand and Australia, or they have poor levels of record-keeping, and COVID-19 is present alongside other infectious and contagious diseases (ebola, malaria, yellow fever, etc.), i.e. sub-Saharan Africa and some countries in South America and Asia.

Map: COVID-19 cases. 2020. World. PDF. Data.

The amount of deaths from COVID-19 during the first wave of the pandemic was influenced by several factors, including scant knowledge of the new virus, the shortage of medical and infection prevention equipment, the absence of specific medical treatments, etc. As a result, the mortality rate stood at 5% during the initial months but decreased from June 2020 due to improved treatments and Personal Protective Equipment (PPE) availability. Given that nearly 80% of those who died worldwide were men over 70 and women over 80, the age distribution of the population was another factor to have a considerable bearing on the countrywide outcome. It is in this context that the world map of relative mortality shall be understood, in which there are five Western European countries (the United Kingdom, Italy, Spain, Belgium and Sweden) with a high mortality rate per 100,000 inhabitants due to their older age-sex pyramids and despite their solid health services, which were caught unaware during the first few months of the pandemic. At the opposite end of the scale, China (although many authors question the reliability of their data), Asia in general and Africa may be found, yet younger populations shall be borne in mind.

Map: Deaths from COVID-19 . 2020. World. PDF. Data.

With regard to healthcare workers, it is important to clarify two aspects: firstly, the data compiled by the United Nations for individual countries is for different years between 2010 and 2018; secondly, only doctors and nurses have been counted as healthcare workers, excluding other job categories in this sector, such as clinical assistants, pharmacy workers, etc. The main takeaway that may be extracted from this map is the sharp contrast between north and south. The north includes Europe, North America, Oceania, some of the Latin American countries and the Arab World. Indicators in this area are high both in absolute terms and relative to population size. In addition, nurses account for a large proportion of their total number of registered healthcare workers. This situation is especially true for Norway, Sweden, Finland, Germany, Switzerland, the United States, Chile, Lithuania and Belarus (these last two countries possibly as a legacy of the Soviet model). China, India and some Latin American countries have intermediate values for the number of healthcare workers relative to population size. In the south, by contrast, sub-Saharan Africa has the lowest availability of healthcare workers, with the few exceptions to this general rule being Botswana, Zambia, Gabon and Ghana.


      PANDEMIC

      SSpread of a new disease at a certain speed, widely and simultaneously throughout several geographical areas of the world. The World Health Organisation (WHO) declared COVID-19 a pandemic after more than 100 countries officially registered cases of the disease.

      COVID OR CORONAVIRUS

      Family of viruses that affect some mammals, including humans. Some coronaviruses do not pose a threat to the health of humans. However, COVID-19 causes severe acute respiratory syndromes, attacks the lungs and may cause pneumonia. It may also cause gastric disorders and the loss of smell and taste.

      SPACIAL DIFFUSION

      Spread, expansion or dissemination of a phenomenon over space and time. For the diffusion process to materialise, there must be a central source from which the phenomenon originates, a set of potential receptors, communication channels between the source and the receptors, and a variable period of time. The diffusion process passes through nodal points and may involve a spread that is either random, similar to that of an oil slick, or hierarchical. Spatial diffusion models came into widespread use following the work of Swedish geographer T. Haggerstränd in 1968.

      TRANSMISIÓN COMMUNITY TRANSMISSION

      Community transmission is said to be present when a virus is detected in several people within a specific population or territory, and the origin of the infections are unknown. In the case of COVID-19, community transmission was detected when various people were tested positive for the disease after having recently visited China and other areas where the virus was spreading. This type of transmission denotes that the virus has been widespread in the community yet gone undetected for some time. When there is community transmission, the spread of the virus is deemed to be uncontrolled.

      POSITIVITY RATE

      Percentage of COVID-19 tests that come back positive out of the total amount of screening tests performed. A pandemic is deemed to be under control if this percentage lies under 5%. A positivity rate over 5%, on the other hand, suggests many people are unaware they are infected and therefore community transmission exists and screening is required. The general consensus is that this indicator offers a more accurate assessment of the risk of infection than the daily number of positives as the number of screening tests performed may vary from day to day, whilst the positivity rate is a relative value that may always be used to compare different periods as long as the testing criteria remain the same.

      INCIDENCE

      Number of detected cases of a disease in a given period and specific area or community. It could also be described as the probability that a person from a specific population will be affected by said disease. In addition, the incidence rate represents the speed at which new cases of the disease appear in the exposed population. It is calculated by dividing the number of new cases of the disease by the number of inhabitants. Lastly, the cumulative incidence is the proportion of people who fall ill in a given period of time. It is calculated by dividing the number of registered cases by the amount of people who were free of the disease at the beginning of the period. It is usually calculated for every 100,000 inhabitants in periods of 7 to 14 days.

      LOCKDOWN

      Extraordinary and emergency measure involving the temporary isolation of an individual, group or entire population for health or safety reasons. It involves restricting movements of the population in the affected area and closing leisure, tourism and cultural facilities. It may be a full restriction in very extreme cases, yet it is mostly not so strict and travelling is allowed to varying degrees for buying food and pharmaceutical products, for work, to provide care and in case of emergency.

      IMMUNITY

      A person’s general level of resistance to or protection from an infectious disease or toxin. It is linked to the presence of antibodies or cells that act specifically against the microorganism that causes the infection. There are two types of immunity: active immunity, which usually lasts for years and is acquired naturally, as a consequence of an infection, or artificially, through a vaccine; and passive immunity, which has a short duration (from a few days to several months), and is obtained naturally, by maternal transmission, or artificially, by inoculating specific protective antibodies. The term ‘herd immunity’ is widely used to describe a situation in which a high proportion of a population has immunity and, therefore, the agent is less likely to spread.

      PCR AND ANTIGEN TESTS

      The acronym PCR stands for polymerase chain reaction. It is a type of test used to detect infections. It consists of extracting genetic material from a sample and comparing it with the genes found in viruses (for example, in SARS-CoV-2). The test involves inserting a swab (cotton bud) into the nose or mouth of the person suspected of being infected to collect a sample. If the PCR technique does not detect the virus's genetic material, it is likely the person is not infected. The antigen test entails introducing a toxic molecule to the sample that generates an antibody reaction, enabling inferring whether the subject is infected by the virus.

      SOCIAL DISTANCING

      Term used to describe the imposition or recommendation that people keep a physical distance between themselves and anyone with whom they do not share a home. Its purpose is to prevent transmissions. This measure has become the most effective tool for containing the spread of COVID-19, especially when community transmission exists.


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Co-authorship of the text in Spanish: Agustín Gámir Orueta, Rubén C. Lois González, Ángel Miramontes Carballada and Ana Paula Santana Rodrigues. See the list of members engaged


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You can download the complete publication The COVID-19 pandemic in Spain. First wave: from the first cases to the end of June 2020 in Libros Digitales del ANE site.

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