Percorrer por autor "Aspelund, Gudrun"
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- Estimated number of lives directly saved by COVID-19 vaccination programmes in the WHO European Region from December, 2020, to March, 2023: a retrospective surveillance studyPublication . Meslé, Margaux M.I.; Brown, Jeremy; Mook, Piers; Katz, Mark A.; Hagan, José; Pastore, Roberta; Benka, Bernhard; Redlberger-Fritz, Monika; Bossuyt, Nathalie; Stouten, Veerle; Vernemmen, Catharina; Constantinou, Elisabet; Maly, Marek; Kynčl, Jan; Sanca, Ondrej; Krause, Tyra Grove; Vestergaard, Lasse Skafte; Leino, Tuija; Poukka, Eero; Gkolfinopoulou, Kassiani; Mellou, Kassiani; Tsintziloni, Maria; Molnár, Zsuzsanna; Aspelund, Gudrun; Thordardottir, Marianna; Domegan, Lisa; Kelly, Eva; O'Donell, Joan; Urdiales, Alberto-Mateo; Riccardo, Flavia; Sacco, Chiara; Bumšteinas, Viktoras; Liausediene, Rasa; Mossong, Joël; Vergison, Anne; Borg, Maria-Louise; Melillo, Tanya; Kocinski, Dragan; Pollozhani, Enkela; Meijerink, Hinta; Costa, Diana; Gomes, João Paulo; Leite, Pedro Pinto; Druc, Alina; Gutu, Veaceslav; Mita, Valentin; Lazar, Mihaela; Popescu, Rodica; Popovici, Odette; Musilová, Monika; Mrzel, Maja; Socan, Maja; Učakar, Veronika; Limia, Aurora; Mazagatos, Clara; Olmedo, Carmen; Dabrera, Gavin; Kall, Meaghan; Sinnathamby, Mary; McGowan, Graham; McMenamin, Jim; Morrison, Kirsty; Nitzan, Dorit; Widdowson, Marc-Alain; Smallwood, Catherine; Pebody, Richard; WHO European Respiratory Surveillance NetworkBackground: By March, 2023, 54 countries, areas, and territories (hereafter CAT) in the WHO European Region had reported more than 2·2 million COVID-19-related deaths to the WHO Regional Office for Europe. Here, we estimated how many lives were directly saved by vaccinating adults in the WHO European Region from December, 2020, to March, 2023. Methods: In this retrospective surveillance study, we estimated the number of lives directly saved by age group, vaccine dose, and circulating variant-of-concern (VOC) period, regionally and nationally, using weekly data on COVID-19 mortality and infection, COVID-19 vaccination uptake, and SARS-CoV-2 virus characterisations by lineage downloaded from The European Surveillance System on June 11, 2023, as well as vaccine effectiveness data from the literature. We included data for six age groups (25-49 years, 50-59 years, ≥60 years, 60-69 years, 70-79 years, and ≥80 years). To be included in the analysis, CAT needed to have reported both COVID-19 vaccination and mortality data for at least one of the four older age groups. Only CAT that reported weekly data for both COVID-19 vaccination and mortality by age group for 90% of study weeks or more in the full study period were included. We calculated the percentage reduction in the number of expected and reported deaths. Findings: Between December, 2020, and March, 2023, in 34 of 54 CAT included in the analysis, COVID-19 vaccines reduced deaths by 59% overall (CAT range 17-82%), representing approximately 1·6 million lives saved (range 1·5-1·7 million) in those aged 25 years or older: 96% of lives saved were aged 60 years or older and 52% were aged 80 years or older; first boosters saved 51% of lives, and 60% were saved during the Omicron period. Interpretation: Over nearly 2·5 years, most lives saved by COVID-19 vaccination were in older adults by first booster dose and during the Omicron period, reinforcing the importance of up-to-date vaccination among the most at-risk individuals. Further modelling work should evaluate indirect effects of vaccination and public health and social measures.
- Surveillance of severe acute respiratory infections associated with SARS-CoV-2, influenza virus and RSV using ICD-10 codes: a case definition accuracy study across five European countries, 2021 to 2023Publication . Sanchez Ruiz, Miguel Angel; Marques, Diogo Fp.; Lomholt, Frederikke Kristensen; Vestergaard, Lasse Skafte; Monge, Susana; Lozano Álvarez, Marcos; Aspelund, Gudrun; Thordardottir, Marianna; Dziugyte, Ausra; Cauchi, John-Paul; Boere, Tjarda M.; Veldhuijzen, Irene K.; Seppälä, Elina; Bøås, Håkon; Paulsen, Trine Hessevik; Machado, Ausenda; Rodrigues, Ana Paula; Hooiveld, Mariette; Alves de Sousa, Luis; Torres, Ana; Carvalho, Carlos; Nunes, BaltazarBackgrounds: Surveillance of severe acute respiratory infections (SARI) using ICD-10 codes from electronic health records (EHR) lacks consensus on optimal case-defining codes.AIMWe determined codes that maximise sensitivity (Se) and positive predictive value (PPV) for SARI associated with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), influenza virus and respiratory syncytial virus (RSV) in Denmark, Iceland, Malta, Norway and Spain.METHODSWe included hospitalisations from week 21/2021 to 39/2023, with ICD-10 diagnostic codes for respiratory disease (three-character codes J00-J99) or COVID-19 (U07.1, U07.2, country-specific codes for Denmark). We assessed Se and PPV of individual codes against laboratory results. Based on Se and PPV rank-sum, we selected the top 10 codes and combined them into 10 sets per pathogen. We identified sets that maximised the clinical utility index (CUI = Se × PPV), categorised as excellent (≥ 0.81), good (0.64-0.80), satisfactory (0.49-0.63) and poor (< 0.49).RESULTSWe assessed 395,163 hospitalisations for SARI-SARS-CoV-2, 313,418 for SARI-influenza and 192,936 for SARI-RSV, all tested. For SARI-SARS-CoV-2, code U07.1 (B34.2A, B97.2A for Denmark) had excellent utility in Denmark, Malta, Norway, Spain (≥ 0.82), and good utility in Iceland (0.79). For SARI-influenza, J09, J10 and J11 performed excellently in Denmark, Norway, Spain (≥ 0.83), satisfactorily in Malta (0.52), and poorly in Iceland (0.43). For SARI-RSV, J12, J20 and J21 achieved highest CUI but had poor utility (0.17-0.34).CONCLUSIONSCOVID-19- and influenza-specific three-character ICD-10 codes accurately identified SARI associated with SARS-CoV-2 and influenza virus. For SARI-RSV, four-character codes should be explored. We recommend context-specific assessments in countries adopting EHR-based surveillance.