Abstract
Background: The 2016 World Health Assembly endorsed the elimination of hepatitis B virus (HBV) infection as a public health threat by 2030; existing therapies and prophylaxis measures make such elimination feasible, even in the absence of a virological cure. We aimed to estimate the national, regional, and global prevalence of HBV in the general population and among children aged 5 years and younger, as well as the rates of diagnosis, treatment, prophylaxis, and the future burden globally. Methods: In this modelling study, we used a Delphi process with data from literature reviews and interviews with country experts to quantify the prevalence, diagnosis, treatment, and prevention measures for HBV infection. The PRoGReSs Model, a dynamic Markov model, was used to estimate the country, regional, and global prevalence of HBV infection in 2022, and the effects of treatment and prevention on disease burden. The future incidence of morbidity and mortality in the absence of additional interventions was also estimated at the global level. Findings: We developed models for 170 countries which resulted in an estimated global prevalence of HBV infection in 2022 of 3·2% (95% uncertainty interval 2·7–4·0), corresponding to 257·5 million (216·6–316·4) individuals positive for HBsAg. Of these individuals, 36·0 million were diagnosed, and only 6·8 million of the estimated 83·3 million eligible for treatment were on treatment. The prevalence among children aged 5 years or younger was estimated to be 0·7% (0·6–1·0), corresponding to 5·6 million (4·5–7·8) children with HBV infection. Based on the most recent data, 85% of infants received three-dose HBV vaccination before 1 year of age, 46% had received a timely birth dose of vaccine, and 14% received hepatitis B immunoglobulin along with the full vaccination regimen. 3% of mothers with a high HBV viral load received antiviral treatment to reduce mother-to-child transmission. Interpretation: As 2030 approaches, the elimination targets remain out of reach for many countries under the current frameworks. Although prevention measures have had the most success, there is a need to increase these efforts and to increase diagnosis and treatment to work towards the elimination goals. Funding: John C Martin Foundation, Gilead Sciences, and EndHep2030.
Original language | English |
---|---|
Pages (from-to) | 879-907 |
Number of pages | 29 |
Journal | The Lancet Gastroenterology & Hepatology |
Volume | 8 |
Issue number | 10 |
DOIs | |
Publication status | Published - Oct 2023 |
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In: The Lancet Gastroenterology & Hepatology, Vol. 8, No. 10, 10.2023, p. 879-907.
Research output: Contribution to journal › Article › Research › peer-review
TY - JOUR
T1 - Global prevalence, cascade of care, and prophylaxis coverage of hepatitis B in 2022
T2 - a modelling study
AU - Razavi-Shearer, Devin
AU - Gamkrelidze, Ivane
AU - Pan, Calvin
AU - Jia, Jidong
AU - Berg, Thomas
AU - Gray, Richard
AU - Lim, Young Suk
AU - Chen, Chien Jen
AU - Ocama, Ponsiano
AU - Desalegn, Hailemichael
AU - Abbas, Zaigham
AU - Abdallah, Ayat
AU - Aghemo, Alessio
AU - Ahmadbekova, Sabohat
AU - Ahn, Sang Hoon
AU - Aho, Inka
AU - Akarca, Ulus
AU - Al Masri, Nasser
AU - Alalwan, Abduljaleel
AU - Alavian, Seyed
AU - Al-Busafi, Said
AU - Aleman, Soo
AU - Alfaleh, Faleh
AU - Alghamdi, Abdullah
AU - Al-Hamoudi, Waleed
AU - Aljumah, Abdulrahman
AU - Al-Naamani, Khalid
AU - Al-Rifai, Ahmad
AU - Alserkal, Yousif
AU - Altraif, Ibrahim
AU - Amarsanaa, Jazag
AU - Anderson, Motswedi
AU - Andersson, Monique
AU - Armstrong, Paige
AU - Asselah, Tarik
AU - Athanasakis, Kostas
AU - Baatarkhuu, Oidov
AU - Ben-Ari, Ziv
AU - Bensalem, Aicha
AU - Bessone, Fernando
AU - Biondi, Mia
AU - Bizri, Abdul Rahman
AU - Blach, Sarah
AU - Braga, Wornei
AU - Brandão-Mello, Carlos
AU - Brosgart, Carol
AU - Brown, Kimberly
AU - Brown,, Robert
AU - Bruggmann, Philip
AU - Brunetto, Maurizia
AU - Buti, Maria
AU - Cabezas, Joaquin
AU - Casanovas, Teresa
AU - Chae, Chungman
AU - Chan, Henry Lik Yuen
AU - Cheinquer, Hugo
AU - Chen, Pei Jer
AU - Cheng, Kent Jason
AU - Cheon, Myeong Eun
AU - Chien, Cheng Hung
AU - Choudhuri, Gourdas
AU - Christensen, Peer Brehm
AU - Chuang, Wan Long
AU - Chulanov, Vladimir
AU - Cisneros, Laura
AU - Coffin, Carla
AU - Contreras, Fernando
AU - Coppola, Nicola
AU - Cornberg, Markus
AU - Cowie, Benjamin
AU - Cramp, Matthew
AU - Craxi, Antonio
AU - Crespo, Javier
AU - Cui, Fuqiang
AU - Cunningham, Chris
AU - Dalgard, Olav
AU - De Knegt, Robert
AU - De Ledinghen, Victor
AU - Dore, Gregory
AU - Drazilova, Sylvia
AU - Duberg, Ann Sofi
AU - Egeonu, Steve
AU - Elbadri, Mohammed
AU - El-Kassas, Mohamed
AU - El-Sayed, Manal
AU - Estes, Chris
AU - Etzion, Ohad
AU - Farag, Elmobashar
AU - Ferradini, Laurent
AU - Ferreira, Paulo
AU - Flisiak, Robert
AU - Forns, Xavier
AU - Frankova, Sona
AU - Fung, James
AU - Gane, Edward
AU - Garcia, Virginia
AU - García-Samaniego, Javier
AU - Gemilyan, Manik
AU - Genov, Jordan
AU - Gheorghe, Liliana
AU - Gholam, Pierre
AU - Gish, Robert
AU - Goleij, Pouya
AU - Gottfredsson, Magnus
AU - Grebely, Jason
AU - Gschwantler, Michael
AU - Guingane, Nanelin Alice
AU - Hajarizadeh, Behzad
AU - Hamid, Saeed
AU - Hamoudi, Waseem
AU - Harris, Aaron
AU - Hasan, Irsan
AU - Hatzakis, Angelos
AU - Hellard, Margaret E.
AU - Hercun, Julian
AU - Hernandez, Javier
AU - Hockicková, Ivana
AU - Hsu, Yao Chun
AU - Hu, Ching Chih
AU - Husa, Petr
AU - Janicko, Martin
AU - Janjua, Naveed
AU - Jarcuska, Peter
AU - Jaroszewicz, Jerzy
AU - Jelev, Deian
AU - Jeruma, Agita
AU - Johannessen, Asgeir
AU - Kåberg, Martin
AU - Kaita, Kelly
AU - Kaliaskarova, Kulpash
AU - Kao, Jia Horng
AU - Kelly-Hanku, Angela
AU - Khamis, Faryal
AU - Khan, Aamir
AU - Kheir, Omer
AU - Khoudri, Ibtissam
AU - Kondili, Loreta
AU - Konysbekova, Aliya
AU - Kristian, Pavol
AU - Kwon, Jisoo
AU - Lagging, Martin
AU - Laleman, Wim
AU - Lampertico, Pietro
AU - Lavanchy, Daniel
AU - Lázaro, Pablo
AU - Lazarus, Jeffrey V.
AU - Lee, Alice
AU - Lee, Mei Hsuan
AU - Liakina, Valentina
AU - Lukšić, Boris
AU - Malekzadeh, Reza
AU - Malu, Abraham
AU - Marinho, Rui
AU - Mendes-Correa, Maria Cássia
AU - Merat, Shahin
AU - Meshesha, Berhane Redae
AU - Midgard, Håvard
AU - Mohamed, Rosmawati
AU - Mokhbat, Jacques
AU - Mooneyhan, Ellen
AU - Moreno, Christophe
AU - Mortgat, Laure
AU - Müllhaupt, Beat
AU - Musabaev, Erkin
AU - Muyldermans, Gaëtan
AU - Naveira, Marcelo
AU - Negro, Francesco
AU - Nersesov, Alexander
AU - Nguyen, Van Thi Thuy
AU - Ning, Qing
AU - Njouom, Richard
AU - Ntagirabiri, Rénovat
AU - Nurmatov, Zuridin
AU - Oguche, Stephen
AU - Omuemu, Casimir
AU - Ong, Janus
AU - Opare-Sem, Ohene
AU - Örmeci, Necati
AU - Orrego, Mauricio
AU - Osiowy, Carla
AU - Papatheodoridis, George
AU - Peck-Radosavljevic, Markus
AU - Pessoa, Mário
AU - Pham, Trang
AU - Phillips, Richard
AU - Pimenov, Nikolay
AU - Pincay-Rodríguez, Loreley
AU - Plaseska-Karanfilska, Dijana
AU - Pop, Cora
AU - Poustchi, Hossein
AU - Prabdial-Sing, Nishi
AU - Qureshi, Huma
AU - Ramji, Alnoor
AU - Rautiainen, Henna
AU - Razavi-Shearer, Kathryn
AU - Remak, William
AU - Ribeiro, Sofia
AU - Ridruejo, Ezequiel
AU - Ríos-Hincapié, Cielo
AU - Robalino, Marcia
AU - Roberts, Lewis
AU - Roberts, Stuart K.
AU - Rodríguez, Manuel
AU - Roulot, Dominique
AU - Rwegasha, John
AU - Ryder, Stephen
AU - Sadirova, Shakhlo
AU - Saeed, Umar
AU - Safadi, Rifaat
AU - Sagalova, Olga
AU - Said, Sanaa
AU - Salupere, Riina
AU - Sanai, Faisal
AU - Sanchez-Avila, Juan F.
AU - Saraswat, Vivek
AU - Sargsyants, Narina
AU - Sarrazin, Christoph
AU - Sarybayeva, Gulya
AU - Schréter, Ivan
AU - Seguin-Devaux, Carole
AU - Seto, Wai Kay
AU - Shah, Samir
AU - Sharara, Ala
AU - Sheikh, Mahdi
AU - Shouval, Daniel
AU - Sievert, William
AU - Simojoki, Kaarlo
AU - Simonova, Marieta
AU - Sinn, Dong Hyun
AU - Sonderup, Mark
AU - Sonneveld, Milan
AU - Spearman, C. Wendy
AU - Sperl, Jan
AU - Stauber, Rudolf
AU - Stedman, Catherine
AU - Sypsa, Vana
AU - Tacke, Frank
AU - Tan, Soek Siam
AU - Tanaka, Junko
AU - Tergast, Tammo
AU - Terrault, Norah
AU - Thompson, Alexander
AU - Thompson, Peyton
AU - Tolmane, Ieva
AU - Tomasiewicz, Krzysztof
AU - Tsang, Tak Yin
AU - Uzochukwu, Benjamin
AU - Van Welzen, Berend
AU - Vanwolleghem, Thomas
AU - Vince, Adriana
AU - The Polaris Observatory Collaborators
N1 - Publisher Copyright: © 2023 Elsevier Ltd
PY - 2023/10
Y1 - 2023/10
N2 - Background: The 2016 World Health Assembly endorsed the elimination of hepatitis B virus (HBV) infection as a public health threat by 2030; existing therapies and prophylaxis measures make such elimination feasible, even in the absence of a virological cure. We aimed to estimate the national, regional, and global prevalence of HBV in the general population and among children aged 5 years and younger, as well as the rates of diagnosis, treatment, prophylaxis, and the future burden globally. Methods: In this modelling study, we used a Delphi process with data from literature reviews and interviews with country experts to quantify the prevalence, diagnosis, treatment, and prevention measures for HBV infection. The PRoGReSs Model, a dynamic Markov model, was used to estimate the country, regional, and global prevalence of HBV infection in 2022, and the effects of treatment and prevention on disease burden. The future incidence of morbidity and mortality in the absence of additional interventions was also estimated at the global level. Findings: We developed models for 170 countries which resulted in an estimated global prevalence of HBV infection in 2022 of 3·2% (95% uncertainty interval 2·7–4·0), corresponding to 257·5 million (216·6–316·4) individuals positive for HBsAg. Of these individuals, 36·0 million were diagnosed, and only 6·8 million of the estimated 83·3 million eligible for treatment were on treatment. The prevalence among children aged 5 years or younger was estimated to be 0·7% (0·6–1·0), corresponding to 5·6 million (4·5–7·8) children with HBV infection. Based on the most recent data, 85% of infants received three-dose HBV vaccination before 1 year of age, 46% had received a timely birth dose of vaccine, and 14% received hepatitis B immunoglobulin along with the full vaccination regimen. 3% of mothers with a high HBV viral load received antiviral treatment to reduce mother-to-child transmission. Interpretation: As 2030 approaches, the elimination targets remain out of reach for many countries under the current frameworks. Although prevention measures have had the most success, there is a need to increase these efforts and to increase diagnosis and treatment to work towards the elimination goals. Funding: John C Martin Foundation, Gilead Sciences, and EndHep2030.
AB - Background: The 2016 World Health Assembly endorsed the elimination of hepatitis B virus (HBV) infection as a public health threat by 2030; existing therapies and prophylaxis measures make such elimination feasible, even in the absence of a virological cure. We aimed to estimate the national, regional, and global prevalence of HBV in the general population and among children aged 5 years and younger, as well as the rates of diagnosis, treatment, prophylaxis, and the future burden globally. Methods: In this modelling study, we used a Delphi process with data from literature reviews and interviews with country experts to quantify the prevalence, diagnosis, treatment, and prevention measures for HBV infection. The PRoGReSs Model, a dynamic Markov model, was used to estimate the country, regional, and global prevalence of HBV infection in 2022, and the effects of treatment and prevention on disease burden. The future incidence of morbidity and mortality in the absence of additional interventions was also estimated at the global level. Findings: We developed models for 170 countries which resulted in an estimated global prevalence of HBV infection in 2022 of 3·2% (95% uncertainty interval 2·7–4·0), corresponding to 257·5 million (216·6–316·4) individuals positive for HBsAg. Of these individuals, 36·0 million were diagnosed, and only 6·8 million of the estimated 83·3 million eligible for treatment were on treatment. The prevalence among children aged 5 years or younger was estimated to be 0·7% (0·6–1·0), corresponding to 5·6 million (4·5–7·8) children with HBV infection. Based on the most recent data, 85% of infants received three-dose HBV vaccination before 1 year of age, 46% had received a timely birth dose of vaccine, and 14% received hepatitis B immunoglobulin along with the full vaccination regimen. 3% of mothers with a high HBV viral load received antiviral treatment to reduce mother-to-child transmission. Interpretation: As 2030 approaches, the elimination targets remain out of reach for many countries under the current frameworks. Although prevention measures have had the most success, there is a need to increase these efforts and to increase diagnosis and treatment to work towards the elimination goals. Funding: John C Martin Foundation, Gilead Sciences, and EndHep2030.
UR - http://www.scopus.com/inward/record.url?scp=85169786860&partnerID=8YFLogxK
U2 - 10.1016/S2468-1253(23)00197-8
DO - 10.1016/S2468-1253(23)00197-8
M3 - Article
C2 - 37517414
AN - SCOPUS:85169786860
SN - 2468-1253
VL - 8
SP - 879
EP - 907
JO - The Lancet Gastroenterology & Hepatology
JF - The Lancet Gastroenterology & Hepatology
IS - 10
ER -