Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021

BACKGROUND: With reports of surges in COVID-19 case numbers across over 50 countries, country-level epidemiological analysis is required to inform context-appropriate response strategies for containment and mitigation of the outbreak. We aimed to compare the epidemiological features of the first and...

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Autores principales: Akande, Oluwatosin Wuraola, Elimian, Kelly Osezele, Igumbor, Ehimario, Dunkwu, Lauryn, Kaduru, Chijioke, Olopha, Olubunmi Omowunmi, Ohanu, Dabri Olohije, Nwozor, Lilian, Agogo, Emmanuel, Aruna, Olusola, Balogun, Muhammad Shakir, Aderinola, Olaolu, Ahumibe, Anthony, Arinze, Chinedu, Badaru, Sikiru Olanrewaju, Nwachukwu, William, Dada, Augustine Olajide, Erameh, Cyril, Hamza, Khadeejah, Mohammed, Tarik Benjamin, Ndodo, Nnaemeka, Obiekea, Celestina, Ofoegbunam, Chinenye, Ogunbode, Oladipo, Ohonsi, Cornelius, Tobin, Ekaete Alice, Yashe, Rimamdeyati, Adekaiyaoja, Afolabi, Asuzu, Michael C., Audu, Rosemary Ajuma, Bello, Muhammad Bashir, Bello, Shaibu Oricha, Deeni, Yusuf Yahaya, Disu, Yahya, Joseph, Gbenga, Ezeokafor, Chidiebere, Habib, Zaiyad Garba, Ibeh, Christian, Ike, Ifeanyi Franklin, Iwara, Emem, Luka-Lawal, Rejoice Kudirat, Namara, Geoffrey, Okwor, Tochi, Olajide, Lois, Ilesanmi, Oluwafunke Olufemi, Omonigho, Solomon, Oyiri, Ferdinand, Takpa, Koubagnine, Ugbogulu, Nkem Usha, Ibekwe, Priscilla, Oladejo, John, Ilori, Elsie, Ochu, Chinwe Lucia, Ihekweazu, Chikwe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BMJ Publishing Group 2021
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8602923/
https://www.ncbi.nlm.nih.gov/pubmed/34794956
http://dx.doi.org/10.1136/bmjgh-2021-007076
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author Akande, Oluwatosin Wuraola
Elimian, Kelly Osezele
Igumbor, Ehimario
Dunkwu, Lauryn
Kaduru, Chijioke
Olopha, Olubunmi Omowunmi
Ohanu, Dabri Olohije
Nwozor, Lilian
Agogo, Emmanuel
Aruna, Olusola
Balogun, Muhammad Shakir
Aderinola, Olaolu
Ahumibe, Anthony
Arinze, Chinedu
Badaru, Sikiru Olanrewaju
Nwachukwu, William
Dada, Augustine Olajide
Erameh, Cyril
Hamza, Khadeejah
Mohammed, Tarik Benjamin
Ndodo, Nnaemeka
Obiekea, Celestina
Ofoegbunam, Chinenye
Ogunbode, Oladipo
Ohonsi, Cornelius
Tobin, Ekaete Alice
Yashe, Rimamdeyati
Adekaiyaoja, Afolabi
Asuzu, Michael C.
Audu, Rosemary Ajuma
Bello, Muhammad Bashir
Bello, Shaibu Oricha
Deeni, Yusuf Yahaya
Disu, Yahya
Joseph, Gbenga
Ezeokafor, Chidiebere
Habib, Zaiyad Garba
Ibeh, Christian
Ike, Ifeanyi Franklin
Iwara, Emem
Luka-Lawal, Rejoice Kudirat
Namara, Geoffrey
Okwor, Tochi
Olajide, Lois
Ilesanmi, Oluwafunke Olufemi
Omonigho, Solomon
Oyiri, Ferdinand
Takpa, Koubagnine
Ugbogulu, Nkem Usha
Ibekwe, Priscilla
Oladejo, John
Ilori, Elsie
Ochu, Chinwe Lucia
Ihekweazu, Chikwe
author_facet Akande, Oluwatosin Wuraola
Elimian, Kelly Osezele
Igumbor, Ehimario
Dunkwu, Lauryn
Kaduru, Chijioke
Olopha, Olubunmi Omowunmi
Ohanu, Dabri Olohije
Nwozor, Lilian
Agogo, Emmanuel
Aruna, Olusola
Balogun, Muhammad Shakir
Aderinola, Olaolu
Ahumibe, Anthony
Arinze, Chinedu
Badaru, Sikiru Olanrewaju
Nwachukwu, William
Dada, Augustine Olajide
Erameh, Cyril
Hamza, Khadeejah
Mohammed, Tarik Benjamin
Ndodo, Nnaemeka
Obiekea, Celestina
Ofoegbunam, Chinenye
Ogunbode, Oladipo
Ohonsi, Cornelius
Tobin, Ekaete Alice
Yashe, Rimamdeyati
Adekaiyaoja, Afolabi
Asuzu, Michael C.
Audu, Rosemary Ajuma
Bello, Muhammad Bashir
Bello, Shaibu Oricha
Deeni, Yusuf Yahaya
Disu, Yahya
Joseph, Gbenga
Ezeokafor, Chidiebere
Habib, Zaiyad Garba
Ibeh, Christian
Ike, Ifeanyi Franklin
Iwara, Emem
Luka-Lawal, Rejoice Kudirat
Namara, Geoffrey
Okwor, Tochi
Olajide, Lois
Ilesanmi, Oluwafunke Olufemi
Omonigho, Solomon
Oyiri, Ferdinand
Takpa, Koubagnine
Ugbogulu, Nkem Usha
Ibekwe, Priscilla
Oladejo, John
Ilori, Elsie
Ochu, Chinwe Lucia
Ihekweazu, Chikwe
author_sort Akande, Oluwatosin Wuraola
collection PubMed
description BACKGROUND: With reports of surges in COVID-19 case numbers across over 50 countries, country-level epidemiological analysis is required to inform context-appropriate response strategies for containment and mitigation of the outbreak. We aimed to compare the epidemiological features of the first and second waves of COVID-19 in Nigeria. METHODS: We conducted a retrospective analysis of the Surveillance Outbreak Response Management and Analysis System data of the first and second epidemiological waves, which were between 27 February and 24 October 2020, and 25 October 2020 to 3 April 2021, respectively. Descriptive statistical measures including frequencies and percentages, test positivity rate (TPR), cumulative incidence (CI) and case fatality rates (CFRs) were compared. A p value of <0.05 was considered statistically significant. All statistical analyses were carried out in STATA V.13. RESULTS: There were 802 143 tests recorded during the study period (362 550 and 439 593 in the first and second waves, respectively). Of these, 66 121 (18.2%) and 91 644 (20.8%) tested positive in the first and second waves, respectively. There was a 21.3% increase in the number of tests conducted in the second wave with TPR increasing by 14.3%. CI during the first and second waves were 30.3/100 000 and 42.0/100 000 respectively. During the second wave, confirmed COVID-19 cases increased among females and people 30 years old or younger and decreased among urban residents and individuals with travel history within 14 days of sample collection (p value <0.001). Most confirmed cases were asymptomatic at diagnosis during both waves: 74.9% in the first wave; 79.7% in the second wave. CFR decreased during the second wave (0.7%) compared with the first wave (1.8%). CONCLUSION: Nigeria experienced a larger but less severe second wave of COVID-19. Continued implementation of public health and social measures is needed to mitigate the resurgence of another wave.
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spelling pubmed-86029232021-11-19 Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021 Akande, Oluwatosin Wuraola Elimian, Kelly Osezele Igumbor, Ehimario Dunkwu, Lauryn Kaduru, Chijioke Olopha, Olubunmi Omowunmi Ohanu, Dabri Olohije Nwozor, Lilian Agogo, Emmanuel Aruna, Olusola Balogun, Muhammad Shakir Aderinola, Olaolu Ahumibe, Anthony Arinze, Chinedu Badaru, Sikiru Olanrewaju Nwachukwu, William Dada, Augustine Olajide Erameh, Cyril Hamza, Khadeejah Mohammed, Tarik Benjamin Ndodo, Nnaemeka Obiekea, Celestina Ofoegbunam, Chinenye Ogunbode, Oladipo Ohonsi, Cornelius Tobin, Ekaete Alice Yashe, Rimamdeyati Adekaiyaoja, Afolabi Asuzu, Michael C. Audu, Rosemary Ajuma Bello, Muhammad Bashir Bello, Shaibu Oricha Deeni, Yusuf Yahaya Disu, Yahya Joseph, Gbenga Ezeokafor, Chidiebere Habib, Zaiyad Garba Ibeh, Christian Ike, Ifeanyi Franklin Iwara, Emem Luka-Lawal, Rejoice Kudirat Namara, Geoffrey Okwor, Tochi Olajide, Lois Ilesanmi, Oluwafunke Olufemi Omonigho, Solomon Oyiri, Ferdinand Takpa, Koubagnine Ugbogulu, Nkem Usha Ibekwe, Priscilla Oladejo, John Ilori, Elsie Ochu, Chinwe Lucia Ihekweazu, Chikwe BMJ Glob Health Original Research BACKGROUND: With reports of surges in COVID-19 case numbers across over 50 countries, country-level epidemiological analysis is required to inform context-appropriate response strategies for containment and mitigation of the outbreak. We aimed to compare the epidemiological features of the first and second waves of COVID-19 in Nigeria. METHODS: We conducted a retrospective analysis of the Surveillance Outbreak Response Management and Analysis System data of the first and second epidemiological waves, which were between 27 February and 24 October 2020, and 25 October 2020 to 3 April 2021, respectively. Descriptive statistical measures including frequencies and percentages, test positivity rate (TPR), cumulative incidence (CI) and case fatality rates (CFRs) were compared. A p value of <0.05 was considered statistically significant. All statistical analyses were carried out in STATA V.13. RESULTS: There were 802 143 tests recorded during the study period (362 550 and 439 593 in the first and second waves, respectively). Of these, 66 121 (18.2%) and 91 644 (20.8%) tested positive in the first and second waves, respectively. There was a 21.3% increase in the number of tests conducted in the second wave with TPR increasing by 14.3%. CI during the first and second waves were 30.3/100 000 and 42.0/100 000 respectively. During the second wave, confirmed COVID-19 cases increased among females and people 30 years old or younger and decreased among urban residents and individuals with travel history within 14 days of sample collection (p value <0.001). Most confirmed cases were asymptomatic at diagnosis during both waves: 74.9% in the first wave; 79.7% in the second wave. CFR decreased during the second wave (0.7%) compared with the first wave (1.8%). CONCLUSION: Nigeria experienced a larger but less severe second wave of COVID-19. Continued implementation of public health and social measures is needed to mitigate the resurgence of another wave. BMJ Publishing Group 2021-11-18 /pmc/articles/PMC8602923/ /pubmed/34794956 http://dx.doi.org/10.1136/bmjgh-2021-007076 Text en © Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ. https://creativecommons.org/licenses/by-nc/4.0/This is an open access article distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited, appropriate credit is given, any changes made indicated, and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) .
spellingShingle Original Research
Akande, Oluwatosin Wuraola
Elimian, Kelly Osezele
Igumbor, Ehimario
Dunkwu, Lauryn
Kaduru, Chijioke
Olopha, Olubunmi Omowunmi
Ohanu, Dabri Olohije
Nwozor, Lilian
Agogo, Emmanuel
Aruna, Olusola
Balogun, Muhammad Shakir
Aderinola, Olaolu
Ahumibe, Anthony
Arinze, Chinedu
Badaru, Sikiru Olanrewaju
Nwachukwu, William
Dada, Augustine Olajide
Erameh, Cyril
Hamza, Khadeejah
Mohammed, Tarik Benjamin
Ndodo, Nnaemeka
Obiekea, Celestina
Ofoegbunam, Chinenye
Ogunbode, Oladipo
Ohonsi, Cornelius
Tobin, Ekaete Alice
Yashe, Rimamdeyati
Adekaiyaoja, Afolabi
Asuzu, Michael C.
Audu, Rosemary Ajuma
Bello, Muhammad Bashir
Bello, Shaibu Oricha
Deeni, Yusuf Yahaya
Disu, Yahya
Joseph, Gbenga
Ezeokafor, Chidiebere
Habib, Zaiyad Garba
Ibeh, Christian
Ike, Ifeanyi Franklin
Iwara, Emem
Luka-Lawal, Rejoice Kudirat
Namara, Geoffrey
Okwor, Tochi
Olajide, Lois
Ilesanmi, Oluwafunke Olufemi
Omonigho, Solomon
Oyiri, Ferdinand
Takpa, Koubagnine
Ugbogulu, Nkem Usha
Ibekwe, Priscilla
Oladejo, John
Ilori, Elsie
Ochu, Chinwe Lucia
Ihekweazu, Chikwe
Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021
title Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021
title_full Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021
title_fullStr Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021
title_full_unstemmed Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021
title_short Epidemiological comparison of the first and second waves of the COVID-19 pandemic in Nigeria, February 2020–April 2021
title_sort epidemiological comparison of the first and second waves of the covid-19 pandemic in nigeria, february 2020–april 2021
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8602923/
https://www.ncbi.nlm.nih.gov/pubmed/34794956
http://dx.doi.org/10.1136/bmjgh-2021-007076
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