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1.
Irish Medical Journal ; 114(4):322, 2021.
Article in English | MEDLINE | ID: covidwho-1842614

ABSTRACT

Introduction Video consultation involves the live interaction between the doctor and the patient remotely. Prior to the Covid-19 pandemic, the majority of video consultations in primary care were provided by GPs who were not the individual's own GP, which presented safety and continuity issues. This study aims to determine GPs' attitudes to the use of video consultation for their own patients. Methods This was a qualitative study involving semi-structured interviews. Participants were purposively recruited through use of a GP tutor as a key informant and guided by a sampling framework to include those with and without previous video consultation experience. Braun and Clarke thematic analysis was used. Results Participants included eight GPs, half of whom had previously worked with video consultation. Four themes emerged: impact on the consultation, the potential role, and the potential threat to current practice and technology and logistics. There were optimistic and cautious observations within all themes. Conclusion With the increased use of video consultation, Irish General Practice is in a unique position to frame the future its use. The provision of this modality to one's own patients may provide benefit while mitigating some of the pitfalls but would not entirely avoid the potential dangers of video consultation.

2.
Embase;
Preprint in English | EMBASE | ID: ppcovidwho-326897

ABSTRACT

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) epidemic in southern Africa has been characterised by three distinct waves. The first was associated with a mix of SARS-CoV-2 lineages, whilst the second and third waves were driven by the Beta and Delta variants respectively1–3. In November 2021, genomic surveillance teams in South Africa and Botswana detected a new SARS-CoV-2 variant associated with a rapid resurgence of infections in Gauteng Province, South Africa. Within three days of the first genome being uploaded, it was designated a variant of concern (Omicron) by the World Health Organization and, within three weeks, had been identified in 87 countries. The Omicron variant is exceptional for carrying over 30 mutations in the spike glycoprotein, predicted to influence antibody neutralization and spike function4. Here, we describe the genomic profile and early transmission dynamics of Omicron, highlighting the rapid spread in regions with high levels of population immunity.

3.
McCrone, J. T.; Hill, V.; Bajaj, S.; Pena, R. E.; Lambert, B. C.; Inward, R.; Bhatt, S.; Volz, E.; Ruis, C.; Dellicour, S.; Baele, G.; Zarebski, A. E.; Sadilek, A.; Wu, N.; Schneider, A.; Ji, X.; Raghwani, J.; Jackson, B.; Colquhoun, R.; O'Toole, Á, Peacock, T. P.; Twohig, K.; Thelwall, S.; Dabrera, G.; Myers, R.; Faria, N. R.; Huber, C.; Bogoch, I. I.; Khan, K.; du Plessis, L.; Barrett, J. C.; Aanensen, D. M.; Barclay, W. S.; Chand, M.; Connor, T.; Loman, N. J.; Suchard, M. A.; Pybus, O. G.; Rambaut, A.; Kraemer, M. U. G.; Robson, S. C.; Connor, T. R.; Loman, N. J.; Golubchik, T.; Martinez Nunez, R. T.; Bonsall, D.; Rambaut, A.; Snell, L. B.; Livett, R.; Ludden, C.; Corden, S.; Nastouli, E.; Nebbia, G.; Johnston, I.; Lythgoe, K.; Estee Torok, M.; Goodfellow, I. G.; Prieto, J. A.; Saeed, K.; Jackson, D. K.; Houlihan, C.; Frampton, D.; Hamilton, W. L.; Witney, A. A.; Bucca, G.; Pope, C. F.; Moore, C.; Thomson, E. C.; Harrison, E. M.; Smith, C. P.; Rogan, F.; Beckwith, S. M.; Murray, A.; Singleton, D.; Eastick, K.; Sheridan, L. A.; Randell, P.; Jackson, L. M.; Ariani, C. V.; Gonçalves, S.; Fairley, D. J.; Loose, M. W.; Watkins, J.; Moses, S.; Nicholls, S.; Bull, M.; Amato, R.; Smith, D. L.; Aanensen, D. M.; Barrett, J. C.; Aggarwal, D.; Shepherd, J. G.; Curran, M. D.; Parmar, S.; Parker, M. D.; Williams, C.; Glaysher, S.; Underwood, A. P.; Bashton, M.; Pacchiarini, N.; Loveson, K. F.; Byott, M.; Carabelli, A. M.; Templeton, K. E.; de Silva, T. I.; Wang, D.; Langford, C. F.; Sillitoe, J.; Gunson, R. N.; Cottrell, S.; O'Grady, J.; Kwiatkowski, D.; Lillie, P. J.; Cortes, N.; Moore, N.; Thomas, C.; Burns, P. J.; Mahungu, T. W.; Liggett, S.; Beckett, A. H.; Holden, M. T. G.; Levett, L. J.; Osman, H.; Hassan-Ibrahim, M. O.; Simpson, D. A.; Chand, M.; Gupta, R. K.; Darby, A. C.; Paterson, S.; Pybus, O. G.; Volz, E. M.; de Angelis, D.; Robertson, D. L.; Page, A. J.; Martincorena, I.; Aigrain, L.; Bassett, A. R.; Wong, N.; Taha, Y.; Erkiert, M. J.; Spencer Chapman, M. H.; Dewar, R.; McHugh, M. P.; Mookerjee, S.; Aplin, S.; Harvey, M.; Sass, T.; Umpleby, H.; Wheeler, H.; McKenna, J. P.; Warne, B.; Taylor, J. F.; Chaudhry, Y.; Izuagbe, R.; Jahun, A. S.; Young, G. R.; McMurray, C.; McCann, C. M.; Nelson, A.; Elliott, S.; Lowe, H.; Price, A.; Crown, M. R.; Rey, S.; Roy, S.; Temperton, B.; Shaaban, S.; Hesketh, A. R.; Laing, K. G.; Monahan, I. M.; Heaney, J.; Pelosi, E.; Silviera, S.; Wilson-Davies, E.; Fryer, H.; Adams, H.; du Plessis, L.; Johnson, R.; Harvey, W. T.; Hughes, J.; Orton, R. J.; Spurgin, L. G.; Bourgeois, Y.; Ruis, C.; O'Toole, Á, Gourtovaia, M.; Sanderson, T.; Fraser, C.; Edgeworth, J.; Breuer, J.; Michell, S. L.; Todd, J. A.; John, M.; Buck, D.; Gajee, K.; Kay, G. L.; Peacock, S. J.; Heyburn, D.; Kitchman, K.; McNally, A.; Pritchard, D. T.; Dervisevic, S.; Muir, P.; Robinson, E.; Vipond, B. B.; Ramadan, N. A.; Jeanes, C.; Weldon, D.; Catalan, J.; Jones, N.; da Silva Filipe, A.; Williams, C.; Fuchs, M.; Miskelly, J.; Jeffries, A. R.; Oliver, K.; Park, N. R.; Ash, A.; Koshy, C.; Barrow, M.; Buchan, S. L.; Mantzouratou, A.; Clark, G.; Holmes, C. W.; Campbell, S.; Davis, T.; Tan, N. K.; Brown, J. R.; Harris, K. A.; Kidd, S. P.; Grant, P. R.; Xu-McCrae, L.; Cox, A.; Madona, P.; Pond, M.; Randell, P. A.; Withell, K. T.; Williams, C.; Graham, C.; Denton-Smith, R.; Swindells, E.; Turnbull, R.; Sloan, T. J.; Bosworth, A.; Hutchings, S.; Pymont, H. M.; Casey, A.; Ratcliffe, L.; Jones, C. R.; Knight, B. A.; Haque, T.; Hart, J.; Irish-Tavares, D.; Witele, E.; Mower, C.; Watson, L. K.; Collins, J.; Eltringham, G.; Crudgington, D.; Macklin, B.; Iturriza-Gomara, M.; Lucaci, A. O.; McClure, P. C.; Carlile, M.; Holmes, N.; Moore, C.; Storey, N.; Rooke, S.; Yebra, G.; Craine, N.; Perry, M.; Alikhan, N. F.; Bridgett, S.; Cook, K. F.; Fearn, C.; Goudarzi, S.; Lyons, R. A.; Williams, T.; Haldenby, S. T.; Durham, J.; Leonard, S.; Davies, R. M.; Batra, R.; Blane, B.; Spyer, M. J.; Smith, P.; Yavus, M.; Williams, R. J.; Mahanama, A. I. K.; Samaraweera, B.; Girgis, S. T.; Hansford, S. E.; Green, A.; Beaver, C.; Bellis, K. L.; Dorman, M. J.; Kay, S.; Prestwood, L.; Rajatileka, S.; Quick, J.; Poplawski, R.; Reynolds, N.; Mack, A.; Morriss, A.; Whalley, T.; Patel, B.; Georgana, I.; Hosmillo, M.; Pinckert, M. L.; Stockton, J.; Henderson, J. H.; Hollis, A.; Stanley, W.; Yew, W. C.; Myers, R.; Thornton, A.; Adams, A.; Annett, T.; Asad, H.; Birchley, A.; Coombes, J.; Evans, J. M.; Fina, L.; Gatica-Wilcox, B.; Gilbert, L.; Graham, L.; Hey, J.; Hilvers, E.; Jones, S.; Jones, H.; Kumziene-Summerhayes, S.; McKerr, C.; Powell, J.; Pugh, G.; Taylor, S.; Trotter, A. J.; Williams, C. A.; Kermack, L. M.; Foulkes, B. H.; Gallis, M.; Hornsby, H. R.; Louka, S. F.; Pohare, M.; Wolverson, P.; Zhang, P.; MacIntyre-Cockett, G.; Trebes, A.; Moll, R. J.; Ferguson, L.; Goldstein, E. J.; Maclean, A.; Tomb, R.; Starinskij, I.; Thomson, L.; Southgate, J.; Kraemer, M. U. G.; Raghwani, J.; Zarebski, A. E.; Boyd, O.; Geidelberg, L.; Illingworth, C. J.; Jackson, C.; Pascall, D.; Vattipally, S.; Freeman, T. M.; Hsu, S. N.; Lindsey, B. B.; James, K.; Lewis, K.; Tonkin-Hill, G.; Tovar-Corona, J. M.; Cox, M.; Abudahab, K.; Menegazzo, M.; Taylor, B. E. W.; Yeats, C. A.; Mukaddas, A.; Wright, D. W.; de Oliveira Martins, L.; Colquhoun, R.; Hill, V.; Jackson, B.; McCrone, J. T.; Medd, N.; Scher, E.; Keatley, J. P.; Curran, T.; Morgan, S.; Maxwell, P.; Smith, K.; Eldirdiri, S.; Kenyon, A.; Holmes, A. H.; Price, J. R.; Wyatt, T.; Mather, A. E.; Skvortsov, T.; Hartley, J. A.; Guest, M.; Kitchen, C.; Merrick, I.; Munn, R.; Bertolusso, B.; Lynch, J.; Vernet, G.; Kirk, S.; Wastnedge, E.; Stanley, R.; Idle, G.; Bradley, D. T.; Poyner, J.; Mori, M.; Jones, O.; Wright, V.; Brooks, E.; Churcher, C. M.; Fragakis, M.; Galai, K.; Jermy, A.; Judges, S.; McManus, G. M.; Smith, K. S.; Westwick, E.; Attwood, S. W.; Bolt, F.; Davies, A.; De Lacy, E.; Downing, F.; Edwards, S.; Meadows, L.; Jeremiah, S.; Smith, N.; Foulser, L.; Charalampous, T.; Patel, A.; Berry, L.; Boswell, T.; Fleming, V. M.; Howson-Wells, H. C.; Joseph, A.; Khakh, M.; Lister, M. M.; Bird, P. W.; Fallon, K.; Helmer, T.; McMurray, C. L.; Odedra, M.; Shaw, J.; Tang, J. W.; Willford, N. J.; Blakey, V.; Raviprakash, V.; Sheriff, N.; Williams, L. A.; Feltwell, T.; Bedford, L.; Cargill, J. S.; Hughes, W.; Moore, J.; Stonehouse, S.; Atkinson, L.; Lee, J. C. D.; Shah, D.; Alcolea-Medina, A.; Ohemeng-Kumi, N.; Ramble, J.; Sehmi, J.; Williams, R.; Chatterton, W.; Pusok, M.; Everson, W.; Castigador, A.; Macnaughton, E.; El Bouzidi, K.; Lampejo, T.; Sudhanva, M.; Breen, C.; Sluga, G.; Ahmad, S. S. Y.; George, R. P.; Machin, N. W.; Binns, D.; James, V.; Blacow, R.; Coupland, L.; Smith, L.; Barton, E.; Padgett, D.; Scott, G.; Cross, A.; Mirfenderesky, M.; Greenaway, J.; Cole, K.; Clarke, P.; Duckworth, N.; Walsh, S.; Bicknell, K.; Impey, R.; Wyllie, S.; Hopes, R.; Bishop, C.; Chalker, V.; et al..
Embase;
Preprint in English | EMBASE | ID: ppcovidwho-326827

ABSTRACT

The Delta variant of concern of SARS-CoV-2 has spread globally causing large outbreaks and resurgences of COVID-19 cases1-3. The emergence of Delta in the UK occurred on the background of a heterogeneous landscape of immunity and relaxation of non-pharmaceutical interventions4,5. Here we analyse 52,992 Delta genomes from England in combination with 93,649 global genomes to reconstruct the emergence of Delta, and quantify its introduction to and regional dissemination across England, in the context of changing travel and social restrictions. Through analysis of human movement, contact tracing, and virus genomic data, we find that the focus of geographic expansion of Delta shifted from India to a more global pattern in early May 2021. In England, Delta lineages were introduced >1,000 times and spread nationally as non-pharmaceutical interventions were relaxed. We find that hotel quarantine for travellers from India reduced onward transmission from importations;however the transmission chains that later dominated the Delta wave in England had been already seeded before restrictions were introduced. In England, increasing inter-regional travel drove Delta's nationwide dissemination, with some cities receiving >2,000 observable lineage introductions from other regions. Subsequently, increased levels of local population mixing, not the number of importations, was associated with faster relative growth of Delta. Among US states, we find that regions that previously experienced large waves also had faster Delta growth rates, and a model including interactions between immunity and human behaviour could accurately predict the rise of Delta there. Delta's invasion dynamics depended on fine scale spatial heterogeneity in immunity and contact patterns and our findings will inform optimal spatial interventions to reduce transmission of current and future VOCs such as Omicron.

4.
Robson, S. C.; Connor, T. R.; Loman, N. J.; Golubchik, T.; Nunez, R. T. M.; Bonsall, D.; Rambaut, A.; Snell, L. B.; Livett, R.; Ludden, C.; Corden, S.; Nastouli, E.; Nebbia, G.; Johnston, I.; Lythgoe, K.; Torok, M. E.; Goodfellow, I. G.; Prieto, J. A.; Saeed, K.; Jackson, D. K.; Houlihan, C.; Frampton, D.; Hamilton, W. L.; Witney, A. A.; Bucca, G.; Pope, C. F.; Moore, C.; Thomson, E. C.; Harrison, E. M.; Smith, C. P.; Rogan, F.; Beckwith, S. M.; Murray, A.; Singleton, D.; Eastick, K.; Sheridan, L. A.; Randell, P.; Jackson, L. M.; Ariani, C. V.; Gonçalves, S.; Fairley, D. J.; Loose, M. W.; Watkins, J.; Moses, S.; Nicholls, S.; Bull, M.; Amato, R.; Smith, D. L.; Aanensen, D. M.; Barrett, J. C.; Aggarwal, D.; Shepherd, J. G.; Curran, M. D.; Parmar, S.; Parker, M. D.; Williams, C.; Glaysher, S.; Underwood, A. P.; Bashton, M.; Loveson, K. F.; Byott, M.; Pacchiarini, N.; Carabelli, A. M.; Templeton, K. E.; de Silva, T. I.; Wang, D.; Langford, C. F.; Sillitoe, J.; Gunson, R. N.; Cottrell, S.; O'Grady, J.; Kwiatkowski, D.; Lillie, P. J.; Cortes, N.; Moore, N.; Thomas, C.; Burns, P. J.; Mahungu, T. W.; Liggett, S.; Beckett, A. H.; Holden, M. T. G.; Levett, L. J.; Osman, H.; Hassan-Ibrahim, M. O.; Simpson, D. A.; Chand, M.; Gupta, R. K.; Darby, A. C.; Paterson, S.; Pybus, O. G.; Volz, E. M.; de Angelis, D.; Robertson, D. L.; Page, A. J.; Martincorena, I.; Aigrain, L.; Bassett, A. R.; Wong, N.; Taha, Y.; Erkiert, M. J.; Chapman, M. H. S.; Dewar, R.; McHugh, M. P.; Mookerjee, S.; Aplin, S.; Harvey, M.; Sass, T.; Umpleby, H.; Wheeler, H.; McKenna, J. P.; Warne, B.; Taylor, J. F.; Chaudhry, Y.; Izuagbe, R.; Jahun, A. S.; Young, G. R.; McMurray, C.; McCann, C. M.; Nelson, A.; Elliott, S.; Lowe, H.; Price, A.; Crown, M. R.; Rey, S.; Roy, S.; Temperton, B.; Shaaban, S.; Hesketh, A. R.; Laing, K. G.; Monahan, I. M.; Heaney, J.; Pelosi, E.; Silviera, S.; Wilson-Davies, E.; Adams, H.; du Plessis, L.; Johnson, R.; Harvey, W. T.; Hughes, J.; Orton, R. J.; Spurgin, L. G.; Bourgeois, Y.; Ruis, C.; O'Toole, Á, Gourtovaia, M.; Sanderson, T.; Fraser, C.; Edgeworth, J.; Breuer, J.; Michell, S. L.; Todd, J. A.; John, M.; Buck, D.; Gajee, K.; Kay, G. L.; Peacock, S. J.; Heyburn, D.; Kitchman, K.; McNally, A.; Pritchard, D. T.; Dervisevic, S.; Muir, P.; Robinson, E.; Vipond, B. B.; Ramadan, N. A.; Jeanes, C.; Weldon, D.; Catalan, J.; Jones, N.; da Silva Filipe, A.; Williams, C.; Fuchs, M.; Miskelly, J.; Jeffries, A. R.; Oliver, K.; Park, N. R.; Ash, A.; Koshy, C.; Barrow, M.; Buchan, S. L.; Mantzouratou, A.; Clark, G.; Holmes, C. W.; Campbell, S.; Davis, T.; Tan, N. K.; Brown, J. R.; Harris, K. A.; Kidd, S. P.; Grant, P. R.; Xu-McCrae, L.; Cox, A.; Madona, P.; Pond, M.; Randell, P. A.; Withell, K. T.; Williams, C.; Graham, C.; Denton-Smith, R.; Swindells, E.; Turnbull, R.; Sloan, T. J.; Bosworth, A.; Hutchings, S.; Pymont, H. M.; Casey, A.; Ratcliffe, L.; Jones, C. R.; Knight, B. A.; Haque, T.; Hart, J.; Irish-Tavares, D.; Witele, E.; Mower, C.; Watson, L. K.; Collins, J.; Eltringham, G.; Crudgington, D.; Macklin, B.; Iturriza-Gomara, M.; Lucaci, A. O.; McClure, P. C.; Carlile, M.; Holmes, N.; Moore, C.; Storey, N.; Rooke, S.; Yebra, G.; Craine, N.; Perry, M.; Fearn, N. C.; Goudarzi, S.; Lyons, R. A.; Williams, T.; Haldenby, S. T.; Durham, J.; Leonard, S.; Davies, R. M.; Batra, R.; Blane, B.; Spyer, M. J.; Smith, P.; Yavus, M.; Williams, R. J.; Mahanama, A. I. K.; Samaraweera, B.; Girgis, S. T.; Hansford, S. E.; Green, A.; Beaver, C.; Bellis, K. L.; Dorman, M. J.; Kay, S.; Prestwood, L.; Rajatileka, S.; Quick, J.; Poplawski, R.; Reynolds, N.; Mack, A.; Morriss, A.; Whalley, T.; Patel, B.; Georgana, I.; Hosmillo, M.; Pinckert, M. L.; Stockton, J.; Henderson, J. H.; Hollis, A.; Stanley, W.; Yew, W. C.; Myers, R.; Thornton, A.; Adams, A.; Annett, T.; Asad, H.; Birchley, A.; Coombes, J.; Evans, J. M.; Fina, L.; Gatica-Wilcox, B.; Gilbert, L.; Graham, L.; Hey, J.; Hilvers, E.; Jones, S.; Jones, H.; Kumziene-Summerhayes, S.; McKerr, C.; Powell, J.; Pugh, G.; Taylor, S.; Trotter, A. J.; Williams, C. A.; Kermack, L. M.; Foulkes, B. H.; Gallis, M.; Hornsby, H. R.; Louka, S. F.; Pohare, M.; Wolverson, P.; Zhang, P.; MacIntyre-Cockett, G.; Trebes, A.; Moll, R. J.; Ferguson, L.; Goldstein, E. J.; Maclean, A.; Tomb, R.; Starinskij, I.; Thomson, L.; Southgate, J.; Kraemer, M. U. G.; Raghwani, J.; Zarebski, A. E.; Boyd, O.; Geidelberg, L.; Illingworth, C. J.; Jackson, C.; Pascall, D.; Vattipally, S.; Freeman, T. M.; Hsu, S. N.; Lindsey, B. B.; James, K.; Lewis, K.; Tonkin-Hill, G.; Tovar-Corona, J. M.; Cox, M.; Abudahab, K.; Menegazzo, M.; Taylor, B. E. W.; Yeats, C. A.; Mukaddas, A.; Wright, D. W.; de Oliveira Martins, L.; Colquhoun, R.; Hill, V.; Jackson, B.; McCrone, J. T.; Medd, N.; Scher, E.; Keatley, J. P.; Curran, T.; Morgan, S.; Maxwell, P.; Smith, K.; Eldirdiri, S.; Kenyon, A.; Holmes, A. H.; Price, J. R.; Wyatt, T.; Mather, A. E.; Skvortsov, T.; Hartley, J. A.; Guest, M.; Kitchen, C.; Merrick, I.; Munn, R.; Bertolusso, B.; Lynch, J.; Vernet, G.; Kirk, S.; Wastnedge, E.; Stanley, R.; Idle, G.; Bradley, D. T.; Poyner, J.; Mori, M.; Jones, O.; Wright, V.; Brooks, E.; Churcher, C. M.; Fragakis, M.; Galai, K.; Jermy, A.; Judges, S.; McManus, G. M.; Smith, K. S.; Westwick, E.; Attwood, S. W.; Bolt, F.; Davies, A.; De Lacy, E.; Downing, F.; Edwards, S.; Meadows, L.; Jeremiah, S.; Smith, N.; Foulser, L.; Charalampous, T.; Patel, A.; Berry, L.; Boswell, T.; Fleming, V. M.; Howson-Wells, H. C.; Joseph, A.; Khakh, M.; Lister, M. M.; Bird, P. W.; Fallon, K.; Helmer, T.; McMurray, C. L.; Odedra, M.; Shaw, J.; Tang, J. W.; Willford, N. J.; Blakey, V.; Raviprakash, V.; Sheriff, N.; Williams, L. A.; Feltwell, T.; Bedford, L.; Cargill, J. S.; Hughes, W.; Moore, J.; Stonehouse, S.; Atkinson, L.; Lee, J. C. D.; Shah, D.; Alcolea-Medina, A.; Ohemeng-Kumi, N.; Ramble, J.; Sehmi, J.; Williams, R.; Chatterton, W.; Pusok, M.; Everson, W.; Castigador, A.; Macnaughton, E.; Bouzidi, K. El, Lampejo, T.; Sudhanva, M.; Breen, C.; Sluga, G.; Ahmad, S. S. Y.; George, R. P.; Machin, N. W.; Binns, D.; James, V.; Blacow, R.; Coupland, L.; Smith, L.; Barton, E.; Padgett, D.; Scott, G.; Cross, A.; Mirfenderesky, M.; Greenaway, J.; Cole, K.; Clarke, P.; Duckworth, N.; Walsh, S.; Bicknell, K.; Impey, R.; Wyllie, S.; Hopes, R.; Bishop, C.; Chalker, V.; Harrison, I.; Gifford, L.; Molnar, Z.; Auckland, C.; Evans, C.; Johnson, K.; Partridge, D. G.; Raza, M.; Baker, P.; Bonner, S.; Essex, S.; Murray, L. J.; Lawton, A. I.; Burton-Fanning, S.; Payne, B. A. I.; Waugh, S.; Gomes, A. N.; Kimuli, M.; Murray, D. R.; Ashfield, P.; Dobie, D.; Ashford, F.; Best, A.; Crawford, L.; Cumley, N.; Mayhew, M.; Megram, O.; Mirza, J.; Moles-Garcia, E.; Percival, B.; Driscoll, M.; Ensell, L.; Lowe, H. L.; Maftei, L.; Mondani, M.; Chaloner, N. J.; Cogger, B. J.; Easton, L. J.; Huckson, H.; Lewis, J.; Lowdon, S.; Malone, C. S.; Munemo, F.; Mutingwende, M.; et al..
Embase;
Preprint in English | EMBASE | ID: ppcovidwho-326811

ABSTRACT

The scale of data produced during the SARS-CoV-2 pandemic has been unprecedented, with more than 5 million sequences shared publicly at the time of writing. This wealth of sequence data provides important context for interpreting local outbreaks. However, placing sequences of interest into national and international context is difficult given the size of the global dataset. Often outbreak investigations and genomic surveillance efforts require running similar analyses again and again on the latest dataset and producing reports. We developed civet (cluster investigation and virus epidemiology tool) to aid these routine analyses and facilitate virus outbreak investigation and surveillance. Civet can place sequences of interest in the local context of background diversity, resolving the query into different 'catchments' and presenting the phylogenetic results alongside metadata in an interactive, distributable report. Civet can be used on a fine scale for clinical outbreak investigation, for local surveillance and cluster discovery, and to routinely summarise the virus diversity circulating on a national level. Civet reports have helped researchers and public health bodies feedback genomic information in the appropriate context within a timeframe that is useful for public health.

5.
Morbidity and Mortality Weekly Report ; 70(36):1242-1244, 2021.
Article in English | GIM | ID: covidwho-1602134

ABSTRACT

What is already known about this topic? Wastewater surveillance measures community infection trends. The accuracy of this surveillance approach is independent of health care-seeking behavior, health care access, or testing capacity. The National Wastewater Surveillance System (NWSS) is a 43-jurisdiction, CDC-coordinated system for SARS-CoV-2 wastewater surveillance. What is added by this report? Wastewater surveillance data have been used to deploy clinical testing resources, investigate possible irregularities in traditional surveillance, refine health messaging, and forecast clinical resource needs. What are the implications for public health practice? NWSS provides community-level surveillance data that complement traditional surveillance and facilitate earlier, focused health department intervention and support in communities experiencing increasing trends in wastewater SARS-CoV-2 concentrations. Community-level wastewater surveillance data can be leveraged for rapid assessment of emerging threats and preparedness for future pandemics.

6.
EuropePMC; 2021.
Preprint in English | EuropePMC | ID: ppcovidwho-294360

ABSTRACT

The availability of pathogen sequence data and use of genomic surveillance is rapidly increasing. Genomic tools and classification systems need updating to reflect this. Here, rabies virus is used as an example to showcase the potential value of updated genomic tools to enhance surveillance to better understand epidemiological dynamics and improve disease control. Previous studies have described the evolutionary history of rabies virus;however, the resulting taxonomy lacks the definition necessary to identify incursions, lineage turnover and transmission routes at high resolution. Here we propose a lineage classification system based on the dynamic nomenclature used for SARS-CoV-2, defining a lineage by phylogenetic methods, for tracking virus spread and comparing sequences across geographic areas. We demonstrate this system through application to the globally distributed Cosmopolitan clade of rabies virus, defining 73 total lineages within the clade, beyond the 22 previously reported. We further show how integration of this tool with a new rabies virus sequence data resource (RABV-GLUE) enables rapid application, for example, highlighting lineage dynamics relevant to control and elimination programmes, such as identifying importations and their sources, and areas of persistence and transmission, including transboundary incursions. This system and the tools developed should be useful for coordinating and targeting control programmes and monitoring progress as we work towards eliminating dog-mediated rabies, as well as having potential for broad application to the surveillance of other viruses. Author Summary The importance of the ability to track the diversity and spread of viruses in a universal way that can be clearly communicated has been highlighted during the SARS-CoV-2 pandemic. This, accompanied with the increase in the availability and use of pathogen sequence data, means the development of new genomic tools and classification systems can strengthen outbreak response and disease control. Here, we present an easy-to-use objective and transferable classification tool for tracking viruses at high resolution. We use rabies virus, a neglected zoonotic disease that causes around 59,000 human deaths each year, as an example use case of this tool. Applying our tool to a global clade of rabies virus, we find an over 200% increase in the definition at which we can classify the virus, allowing us to identify areas of persistence and transmission that were not previously apparent, and patterns of virus spread. Insights from the application of this tool should prove valuable in targeting vaccination campaigns and improving surveillance as countries work towards the elimination of dog-mediated rabies.

7.
O'Toole, A.; Hill, V.; Pybus, O. G.; Watts, A.; Bogoch, II, Khan, K.; Messina, J. P.; consortium, Covid- Genomics UK, Network for Genomic Surveillance in South, Africa, Brazil, U. K. Cadde Genomic Network, Tegally, H.; Lessells, R. R.; Giandhari, J.; Pillay, S.; Tumedi, K. A.; Nyepetsi, G.; Kebabonye, M.; Matsheka, M.; Mine, M.; Tokajian, S.; Hassan, H.; Salloum, T.; Merhi, G.; Koweyes, J.; Geoghegan, J. L.; de Ligt, J.; Ren, X.; Storey, M.; Freed, N. E.; Pattabiraman, C.; Prasad, P.; Desai, A. S.; Vasanthapuram, R.; Schulz, T. F.; Steinbruck, L.; Stadler, T.; Swiss Viollier Sequencing, Consortium, Parisi, A.; Bianco, A.; Garcia de Viedma, D.; Buenestado-Serrano, S.; Borges, V.; Isidro, J.; Duarte, S.; Gomes, J. P.; Zuckerman, N. S.; Mandelboim, M.; Mor, O.; Seemann, T.; Arnott, A.; Draper, J.; Gall, M.; Rawlinson, W.; Deveson, I.; Schlebusch, S.; McMahon, J.; Leong, L.; Lim, C. K.; Chironna, M.; Loconsole, D.; Bal, A.; Josset, L.; Holmes, E.; St George, K.; Lasek-Nesselquist, E.; Sikkema, R. S.; Oude Munnink, B.; Koopmans, M.; Brytting, M.; Sudha Rani, V.; Pavani, S.; Smura, T.; Heim, A.; Kurkela, S.; Umair, M.; Salman, M.; Bartolini, B.; Rueca, M.; Drosten, C.; Wolff, T.; Silander, O.; Eggink, D.; Reusken, C.; Vennema, H.; Park, A.; Carrington, C.; Sahadeo, N.; Carr, M.; Gonzalez, G.; Diego, Search Alliance San, National Virus Reference, Laboratory, Seq, Covid Spain, Danish Covid-19 Genome, Consortium, Communicable Diseases Genomic, Network, Dutch National, Sars-CoV-surveillance program, Division of Emerging Infectious, Diseases, de Oliveira, T.; Faria, N.; Rambaut, A.; Kraemer, M. U. G..
Wellcome Open Research ; 6:121, 2021.
Article in English | MEDLINE | ID: covidwho-1450989

ABSTRACT

Late in 2020, two genetically-distinct clusters of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) with mutations of biological concern were reported, one in the United Kingdom and one in South Africa. Using a combination of data from routine surveillance, genomic sequencing and international travel we track the international dispersal of lineages B.1.1.7 and B.1.351 (variant 501Y-V2). We account for potential biases in genomic surveillance efforts by including passenger volumes from location of where the lineage was first reported, London and South Africa respectively. Using the software tool grinch (global report investigating novel coronavirus haplotypes), we track the international spread of lineages of concern with automated daily reports, Further, we have built a custom tracking website (cov-lineages.org/global_report.html) which hosts this daily report and will continue to include novel SARS-CoV-2 lineages of concern as they are detected.

9.
Irish Medical Journal ; 114(4), 2021.
Article in English | Scopus | ID: covidwho-1292309

ABSTRACT

Introduction Video consultation involves the live interaction between the doctor and the patient remotely. Prior to the Covid-19 pandemic, the majority of video consultations in primary care were provided by GPs who were not the individual’s own GP, which presented safety and continuity issues. This study aims to determine GPs’ attitudes to the use of video consultation for their own patients. Methods This was a qualitative study involving semi-structured interviews. Participants were purposively recruited through use of a GP tutor as a key informant and guided by a sampling framework to include those with and without previous video consultation experience. Braun and Clarke thematic analysis was used. Results Participants included eight GPs, half of whom had previously worked with video consultation. Four themes emerged: Impact on the consultation, the potential role, and the potential threat to current practice and technology and logistics. There were optimistic and cautious observations within all themes. Conclusion With the increased use of video consultation, Irish General Practice is in a unique position to frame the future its use. The provision of this modality to one’s own patients may provide benefit while mitigating some of the pitfalls but would not entirely avoid the potential dangers of video consultation. © 2021, Irish Medical Association. All rights reserved.

10.
Morbidity and Mortality Weekly Report ; 69(40):1443-1449, 2020.
Article in English | GIM | ID: covidwho-1168264

ABSTRACT

Hand hygiene is one important measure to prevent the spread of COVID-19 and other pathogens. U.S. adult Internet survey respondents in June 2020 were more likely to remember to wash their hands after experiencing respiratory symptoms, before eating in a restaurant, and before eating at home than were October 2019 survey respondents. Despite improvements, <75% of survey respondents reported remembering to wash their hands in these situations in 2020. Public health efforts should promote frequent handwashing for all, with attention to tailoring messaging to men, young adults, and non-Hispanic White adults. Particular focus should be placed on encouraging handwashing at important times such as before eating and after experiencing respiratory symptoms. In 2020, both men and women more frequently reported remembering to wash hands before eating at home and at a restaurant, and after coughing, sneezing, or blowing their nose than they did in 2019. When stratified by age group, a higher percentage of young adults (aged 18-24 years) in 2020 reported remembering to wash hands after having respiratory symptoms compared with 2019, and higher percentages of adults aged 25 years reported remembering to wash hands before eating at home and in a restaurant and after having respiratory symptoms in 2020 than did in 2019. In 2020, White participants more frequently reported remembering to wash hands before eating at home, before eating in a restaurant, after using the bathroom at home, and after having respiratory symptoms than they did in 2019. Non-Hispanic Black (Black) and Hispanic or Latino (Hispanic) participants more frequently reported remembering to wash hands after having respiratory symptoms in 2020 than they did in 2019. The findings in this report suggest that the percentage of U.S. adults who reported remembering to wash their hands in certain circumstances has increased during the COVID-19 pandemic compared with prepandemic levels. In June 2020, more U.S. adults reported remembering to wash their hands after coughing, sneezing, or blowing their nose, before eating in a restaurant, before eating at home, and after using the bathroom at home compared with responses in October 2019. The most substantial increases were in the percentages of those remembering to wash their hands after experiencing respiratory symptoms. Despite these increases, however, fewer than 75% of respondents reported remembering to wash their hands after having respiratory symptoms, before eating in a restaurant, and before eating at home. Efforts are needed to communicate the importance of handwashing during these specific situations as well as before food preparation and after using the bathroom.

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