Your search keyword '"Houldcroft, Charlotte"' showing total 11 results

1. How infectious diseases arrived in the colonial Americas

Author

Pimenoff, Ville N, primary and Houldcroft, Charlotte J, additional

Published

2021

2. Superspreaders drive the largest outbreaks of hospital onset COVID-19 infections

Author

Illingworth, Christopher JR, primary, Hamilton, William L, additional, Warne, Ben, additional, Routledge, Matthew, additional, Popay, Ashley, additional, Jackson, Chris, additional, Fieldman, Tom, additional, Meredith, Luke W, additional, Houldcroft, Charlotte J, additional, Hosmillo, Myra, additional, Jahun, Aminu S, additional, Caller, Laura G, additional, Caddy, Sarah L, additional, Yakovleva, Anna, additional, Hall, Grant, additional, Khokhar, Fahad A, additional, Feltwell, Theresa, additional, Pinckert, Malte L, additional, Georgana, Iliana, additional, Chaudhry, Yasmin, additional, Curran, Martin D, additional, Parmar, Surendra, additional, Sparkes, Dominic, additional, Rivett, Lucy, additional, Jones, Nick K, additional, Sridhar, Sushmita, additional, Forrest, Sally, additional, Dymond, Tom, additional, Grainger, Kayleigh, additional, Workman, Chris, additional, Ferris, Mark, additional, Gkrania-Klotsas, Effrossyni, additional, Brown, Nicholas M, additional, Weekes, Michael P, additional, Baker, Stephen, additional, Peacock, Sharon J, additional, Goodfellow, Ian G, additional, Gouliouris, Theodore, additional, de Angelis, Daniela, additional, and Török, M Estée, additional

Published

2021

3. Author response: Superspreaders drive the largest outbreaks of hospital onset COVID-19 infections

Author

Illingworth, Christopher JR, primary, Hamilton, William L, additional, Warne, Ben, additional, Routledge, Matthew, additional, Popay, Ashley, additional, Jackson, Chris, additional, Fieldman, Tom, additional, Meredith, Luke W, additional, Houldcroft, Charlotte J, additional, Hosmillo, Myra, additional, Jahun, Aminu S, additional, Caller, Laura G, additional, Caddy, Sarah L, additional, Yakovleva, Anna, additional, Hall, Grant, additional, Khokhar, Fahad A, additional, Feltwell, Theresa, additional, Pinckert, Malte L, additional, Georgana, Iliana, additional, Chaudhry, Yasmin, additional, Curran, Martin D, additional, Parmar, Surendra, additional, Sparkes, Dominic, additional, Rivett, Lucy, additional, Jones, Nick K, additional, Sridhar, Sushmita, additional, Forrest, Sally, additional, Dymond, Tom, additional, Grainger, Kayleigh, additional, Workman, Chris, additional, Ferris, Mark, additional, Gkrania-Klotsas, Effrossyni, additional, Brown, Nicholas M, additional, Weekes, Michael P, additional, Baker, Stephen, additional, Peacock, Sharon J, additional, Goodfellow, Ian G, additional, Gouliouris, Theodore, additional, de Angelis, Daniela, additional, and Török, M Estée, additional

Published

2021

4. Decision letter: Ancient viral genomes reveal introduction of human pathogenic viruses into Mexico during the transatlantic slave trade

Author

Guerra Amorim, C Eduardo, additional and Houldcroft, Charlotte J, additional

Published

2021

5. Patterns of within-host genetic diversity in SARS-CoV-2

Author

Tonkin-Hill, Gerry, Martincorena, Inigo, Amato, Roberto, Lawson, Andrew RJ, Gerstung, Moritz, Johnston, Ian, Jackson, David K, Park, Naomi, Lensing, Stefanie V, Quail, Michael A, Gonçalves, Sónia, Ariani, Cristina, Spencer Chapman, Michael, Hamilton, William L, Meredith, Luke W, Hall, Grant, Jahun, Aminu S, Chaudhry, Yasmin, Hosmillo, Myra, Pinckert, Malte L, Georgana, Iliana, Yakovleva, Anna, Caller, Laura G, Caddy, Sarah L, Feltwell, Theresa, Khokhar, Fahad A, Houldcroft, Charlotte J, Curran, Martin D, Parmar, Surendra, COVID-19 Genomics UK (COG-UK) Consortium, Alderton, Alex, Nelson, Rachel, Harrison, Ewan M, Sillitoe, John, Bentley, Stephen D, Barrett, Jeffrey C, Torok, M Estee, Goodfellow, Ian G, Langford, Cordelia, Kwiatkowski, Dominic, and Wellcome Sanger Institute COVID-19 Surveillance Team

Subjects

Base Sequence, SARS-CoV-2, mutational spectrum, transmission, global health, COVID-19, Genetic Variation, Genome, Viral, within-host, 3. Good health, Host-Pathogen Interactions, Mutation, genomics, Humans, epidemiology, genetics, Pandemics, Phylogeny

Abstract

Monitoring the spread of SARS-CoV-2 and reconstructing transmission chains has become a major public health focus for many governments around the world. The modest mutation rate and rapid transmission of SARS-CoV-2 prevents the reconstruction of transmission chains from consensus genome sequences, but within-host genetic diversity could theoretically help identify close contacts. Here we describe the patterns of within-host diversity in 1181 SARS-CoV-2 samples sequenced to high depth in duplicate. 95.1% of samples show within-host mutations at detectable allele frequencies. Analyses of the mutational spectra revealed strong strand asymmetries suggestive of damage or RNA editing of the plus strand, rather than replication errors, dominating the accumulation of mutations during the SARS-CoV-2 pandemic. Within- and between-host diversity show strong purifying selection, particularly against nonsense mutations. Recurrent within-host mutations, many of which coincide with known phylogenetic homoplasies, display a spectrum and patterns of purifying selection more suggestive of mutational hotspots than recombination or convergent evolution. While allele frequencies suggest that most samples result from infection by a single lineage, we identify multiple putative examples of co-infection. Integrating these results into an epidemiological inference framework, we find that while sharing of within-host variants between samples could help the reconstruction of transmission chains, mutational hotspots and rare cases of superinfection can confound these analyses.

6. How infectious diseases arrived in the colonial Americas

Author

Pimenoff, Ville N and Houldcroft, Charlotte J

Subjects

infectious disease, microbiology, b19v, virus, Communicable Diseases, 3. Good health, paleogenomics, paleovirology, Africa, hbv, genomics, Humans, ancient viruses, genetics, human, Americas, Mexico

Abstract

Analysis of viral DNA from human remains suggests that the transatlantic slave trade may have introduced new pathogens that contributed to the devastating disease outbreaks in colonial Mexico.

7. Superspreaders drive the largest outbreaks of hospital onset COVID-19 infections

Author

Illingworth, Christopher, Hamilton, William L, Warne, Ben, Routledge, Matthew, Popay, Ashley, Jackson, Chris, Fieldman, Tom, Meredith, Luke W, Houldcroft, Charlotte J, Hosmillo, Myra, Jahun, Aminu S, Caller, Laura G, Caddy, Sarah L, Yakovleva, Anna, Hall, Grant, Khokhar, Fahad A, Feltwell, Theresa, Pinckert, Malte L, Georgana, Iliana, Chaudhry, Yasmin, Curran, Martin D, Parmar, Surendra, Sparkes, Dominic, Rivett, Lucy, Jones, Nick K, Sridhar, Sushmita, Forrest, Sally, Dymond, Tom, Grainger, Kayleigh, Workman, Chris, Ferris, Mark, Gkrania-Klotsas, Effrossyni, Brown, Nicholas M, Weekes, Michael P, Baker, Stephen, Peacock, Sharon J, Goodfellow, Ian G, Gouliouris, Theodore, De Angelis, Daniela, and Török, M Estée

Subjects

superspreader, Male, SARS-CoV-2, infectious disease, evolutionary biology, microbiology, 1. No poverty, nosocomial transmission, COVID-19, virus, Middle Aged, Hospitals, 3. Good health, Disease Outbreaks, Humans, Female, hospital, Retrospective Studies

Abstract

SARS-CoV-2 is notable both for its rapid spread, and for the heterogeneity of its patterns of transmission, with multiple published incidences of superspreading behaviour. Here, we applied a novel network reconstruction algorithm to infer patterns of viral transmission occurring between patients and health care workers (HCWs) in the largest clusters of COVID-19 infection identified during the first wave of the epidemic at Cambridge University Hospitals NHS Foundation Trust, UK. Based upon dates of individuals reporting symptoms, recorded individual locations, and viral genome sequence data, we show an uneven pattern of transmission between individuals, with patients being much more likely to be infected by other patients than by HCWs. Further, the data were consistent with a pattern of superspreading, whereby 21% of individuals caused 80% of transmission events. Our study provides a detailed retrospective analysis of nosocomial SARS-CoV-2 transmission, and sheds light on the need for intensive and pervasive infection control procedures.

8. How infectious diseases arrived in the colonial Americas

Author

Charlotte J. Houldcroft, Ville Pimenoff, Department of Cultures, Pimenoff, Ville N [0000-0002-0813-7031], Houldcroft, Charlotte J [0000-0002-1833-5285], and Apollo - University of Cambridge Repository

Subjects

b19v, Disease, History, 18th Century, Colonialism, 0302 clinical medicine, paleovirology, Parvovirus B19, Human, genetics, Biology (General), Dna viral, Microbiology and Infectious Disease, 0303 health sciences, General Neuroscience, High-Throughput Nucleotide Sequencing, General Medicine, Virus, 3. Good health, History, 16th Century, hbv, Medicine, Insight, Human, Hepatitis B virus, HUMAN PARVOVIRUS B19, QH301-705.5, infectious disease, Science, Black People, Enslaved Persons, Genomics, Genome, Viral, Biology, Communicable Diseases, General Biochemistry, Genetics and Molecular Biology, History, 17th Century, 03 medical and health sciences, EPIDEMIC, genomics, Humans, DNA, Ancient, Mexico, 030304 developmental biology, General Immunology and Microbiology, microbiology, Outbreak, Genetics and Genomics, Virology, paleogenomics, Ancient Viruses, Infectious disease (medical specialty), Africa, 3111 Biomedicine, Metagenomics, Americas, Paleovirology, 030217 neurology & neurosurgery

Abstract

After the European colonization of the Americas, there was a dramatic population collapse of the Indigenous inhabitants caused in part by the introduction of new pathogens. Although there is much speculation on the etiology of the Colonial epidemics, direct evidence for the presence of specific viruses during the Colonial era is lacking. To uncover the diversity of viral pathogens during this period, we designed an enrichment assay targeting ancient DNA (aDNA) from viruses of clinical importance and applied it to DNA extracts from individuals found in a Colonial hospital and a Colonial chapel (16th-18th century) where records suggest that victims of epidemics were buried during important outbreaks in Mexico City. This allowed us to reconstruct three ancient human parvovirus B19 genomes and one ancient human hepatitis B virus genome from distinct individuals. The viral genomes are similar to African strains, consistent with the inferred morphological and genetic African ancestry of the hosts as well as with the isotopic analysis of the human remains, suggesting an origin on the African continent. This study provides direct molecular evidence of ancient viruses being transported to the Americas during the transatlantic slave trade and their subsequent introduction to New Spain. Altogether, our observations enrich the discussion about the etiology of infectious diseases during the Colonial period in Mexico.The arrival of European colonists to the Americas, beginning in the 15

Published

2021

9. Superspreaders drive the largest outbreaks of hospital onset COVID-19 infections

Author

Stephen Baker, Grant Hall, Nicholas M. Brown, Aminu S Jahun, Lucy Rivett, Luke W. Meredith, Charlotte J. Houldcroft, Sally Forrest, William L Hamilton, Iliana Georgana, Daniela de Angelis, Malte L Pinckert, Michael P. Weekes, Yasmin Chaudhry, Nick K Jones, M. Estée Török, Anna Yakovleva, Sarah L Caddy, Laura G Caller, Mark Ferris, Ashley Popay, Theresa Feltwell, Tom Fieldman, Matthew Routledge, Tom Dymond, Martin D. Curran, Christopher Jackson, Myra Hosmillo, Sharon J. Peacock, Chris Workman, Christopher J. R. Illingworth, Sushmita Sridhar, Theodore Gouliouris, Effrossyni Gkrania-Klotsas, Dominic Sparkes, Fahad A Khokhar, Ben Warne, Ian Goodfellow, Kayleigh Grainger, Surendra Parmar, Illingworth, Christopher JR [0000-0002-0030-2784], Hamilton, William L [0000-0002-3330-353X], Houldcroft, Charlotte J [0000-0002-1833-5285], Hosmillo, Myra [0000-0002-3514-7681], Jahun, Aminu S [0000-0002-4585-1701], Caddy, Sarah L [0000-0002-9790-7420], Hall, Grant [0000-0003-3928-3979], Georgana, Iliana [0000-0002-8976-1177], Rivett, Lucy [0000-0002-2781-9345], Jones, Nick K [0000-0003-4475-7761], Sridhar, Sushmita [0000-0001-7453-7482], Ferris, Mark [0000-0001-5040-4263], Gkrania-Klotsas, Effrossyni [0000-0002-0930-8330], Brown, Nicholas M [0000-0002-6657-300X], Weekes, Michael P [0000-0003-3196-5545], Baker, Stephen [0000-0003-1308-5755], Peacock, Sharon J [0000-0002-1718-2782], Goodfellow, Ian G [0000-0002-9483-510X], Török, M Estée [0000-0001-9098-8590], Apollo - University of Cambridge Repository, and Illingworth, Christopher Jr [0000-0002-0030-2784]

Subjects

superspreader, Male, Coronavirus disease 2019 (COVID-19), QH301-705.5, Science, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Microbiology, General Biochemistry, Genetics and Molecular Biology, law.invention, Disease Outbreaks, 03 medical and health sciences, 0302 clinical medicine, law, Health care, Medicine, Humans, 030212 general & internal medicine, Biology (General), hospital, 030304 developmental biology, Retrospective Studies, 0303 health sciences, Infectious disease, Evolutionary Biology, Microbiology and Infectious Disease, General Immunology and Microbiology, business.industry, SARS-CoV-2, General Neuroscience, nosocomial transmission, Outbreak, COVID-19, Retrospective cohort study, General Medicine, Middle Aged, University hospital, Hospitals, 3. Good health, Virus, Transmission (mechanics), Infectious disease (medical specialty), Female, business, Demography, Research Article

Abstract

SARS-CoV-2 is notable both for its rapid spread, and for the heterogeneity of its patterns of transmission, with multiple published incidences of superspreading behaviour. Here, we applied a novel network reconstruction algorithm to infer patterns of viral transmission occurring between patients and health care workers (HCWs) in the largest clusters of COVID-19 infection identified during the first wave of the epidemic at Cambridge University Hospitals NHS Foundation Trust, UK. Based upon dates of individuals reporting symptoms, recorded individual locations, and viral genome sequence data, we show an uneven pattern of transmission between individuals, with patients being much more likely to be infected by other patients than by HCWs. Further, the data were consistent with a pattern of superspreading, whereby 21% of individuals caused 80% of transmission events. Our study provides a detailed retrospective analysis of nosocomial SARS-CoV-2 transmission, and sheds light on the need for intensive and pervasive infection control procedures., eLife digest The COVID-19 pandemic, caused by the SARS-CoV-2 virus, presents a global public health challenge. Hospitals have been at the forefront of this battle, treating large numbers of sick patients over several waves of infection. Finding ways to manage the spread of the virus in hospitals is key to protecting vulnerable patients and workers, while keeping hospitals running, but to generate effective infection control, researchers must understand how SARS-CoV-2 spreads. A range of factors make studying the transmission of SARS-CoV-2 in hospitals tricky. For instance, some people do not present any symptoms, and, amongst those who do, it can be difficult to determine whether they caught the virus in the hospital or somewhere else. However, comparing the genetic information of the SARS-CoV-2 virus from different people in a hospital could allow scientists to understand how it spreads. Samples of the genetic material of SARS-CoV-2 can be obtained by swabbing infected individuals. If the genetic sequences of two samples are very different, it is unlikely that the individuals who provided the samples transmitted the virus to one another. Illingworth, Hamilton et al. used this information, along with other data about how SARS-CoV-2 is transmitted, to develop an algorithm that can determine how the virus spreads from person to person in different hospital wards. To build their algorithm, Illingworth, Hamilton et al. collected SARS-CoV-2 genetic data from patients and staff in a hospital, and combined it with information about how SARS-CoV-2 spreads and how these people moved in the hospital . The algorithm showed that, for the most part, patients were infected by other patients (20 out of 22 cases), while staff were infected equally by patients and staff. By further probing these data, Illingworth, Hamilton et al. revealed that 80% of hospital-acquired infections were caused by a group of just 21% of individuals in the study, identifying a ‘superspreader’ pattern. These findings may help to inform SARS-CoV-2 infection control measures to reduce spread within hospitals, and could potentially be used to improve infection control in other contexts.

Published

2021

10. Patterns of within-host genetic diversity in SARS-CoV-2.

Author

Tonkin-Hill G, Martincorena I, Amato R, Lawson ARJ, Gerstung M, Johnston I, Jackson DK, Park N, Lensing SV, Quail MA, Gonçalves S, Ariani C, Spencer Chapman M, Hamilton WL, Meredith LW, Hall G, Jahun AS, Chaudhry Y, Hosmillo M, Pinckert ML, Georgana I, Yakovleva A, Caller LG, Caddy SL, Feltwell T, Khokhar FA, Houldcroft CJ, Curran MD, Parmar S, Alderton A, Nelson R, Harrison EM, Sillitoe J, Bentley SD, Barrett JC, Torok ME, Goodfellow IG, Langford C, and Kwiatkowski D

Subjects

Base Sequence, Humans, Pandemics, Phylogeny, COVID-19 genetics, COVID-19 physiopathology, Genetic Variation, Genome, Viral, Host-Pathogen Interactions genetics, Mutation, SARS-CoV-2 genetics

Abstract

Monitoring the spread of SARS-CoV-2 and reconstructing transmission chains has become a major public health focus for many governments around the world. The modest mutation rate and rapid transmission of SARS-CoV-2 prevents the reconstruction of transmission chains from consensus genome sequences, but within-host genetic diversity could theoretically help identify close contacts. Here we describe the patterns of within-host diversity in 1181 SARS-CoV-2 samples sequenced to high depth in duplicate. 95.1% of samples show within-host mutations at detectable allele frequencies. Analyses of the mutational spectra revealed strong strand asymmetries suggestive of damage or RNA editing of the plus strand, rather than replication errors, dominating the accumulation of mutations during the SARS-CoV-2 pandemic. Within- and between-host diversity show strong purifying selection, particularly against nonsense mutations. Recurrent within-host mutations, many of which coincide with known phylogenetic homoplasies, display a spectrum and patterns of purifying selection more suggestive of mutational hotspots than recombination or convergent evolution. While allele frequencies suggest that most samples result from infection by a single lineage, we identify multiple putative examples of co-infection. Integrating these results into an epidemiological inference framework, we find that while sharing of within-host variants between samples could help the reconstruction of transmission chains, mutational hotspots and rare cases of superinfection can confound these analyses., Competing Interests: GT, IM, RA, AL, MG, IJ, DJ, NP, SL, MQ, SG, CA, MS, WH, LM, GH, AJ, YC, MH, MP, IG, AY, LC, SC, TF, FK, CH, MC, SP, AA, RN, EH, JS, SB, JB, MT, IG, CL, DK No competing interests declared, (© 2021, Tonkin-Hill et al.)

Published

2021

11. Genomic epidemiology of COVID-19 in care homes in the east of England.

Author

Hamilton WL, Tonkin-Hill G, Smith ER, Aggarwal D, Houldcroft CJ, Warne B, Meredith LW, Hosmillo M, Jahun AS, Curran MD, Parmar S, Caller LG, Caddy SL, Khokhar FA, Yakovleva A, Hall G, Feltwell T, Pinckert ML, Georgana I, Chaudhry Y, Brown CS, Gonçalves S, Amato R, Harrison EM, Brown NM, Beale MA, Spencer Chapman M, Jackson DK, Johnston I, Alderton A, Sillitoe J, Langford C, Dougan G, Peacock SJ, Kwiatowski DP, Goodfellow IG, and Torok ME

Subjects

Aged, 80 and over, COVID-19 virology, Disease Outbreaks, England epidemiology, Female, Humans, Infectious Disease Transmission, Patient-to-Professional, Infectious Disease Transmission, Professional-to-Patient, Male, Polymorphism, Single Nucleotide, Sequence Analysis, Time Factors, COVID-19 epidemiology, COVID-19 transmission, Nursing Homes, SARS-CoV-2 genetics

Abstract

COVID-19 poses a major challenge to care homes, as SARS-CoV-2 is readily transmitted and causes disproportionately severe disease in older people. Here, 1167 residents from 337 care homes were identified from a dataset of 6600 COVID-19 cases from the East of England. Older age and being a care home resident were associated with increased mortality. SARS-CoV-2 genomes were available for 700 residents from 292 care homes. By integrating genomic and temporal data, 409 viral clusters within the 292 homes were identified, indicating two different patterns - outbreaks among care home residents and independent introductions with limited onward transmission. Approximately 70% of residents in the genomic analysis were admitted to hospital during the study, providing extensive opportunities for transmission between care homes and hospitals. Limiting viral transmission within care homes should be a key target for infection control to reduce COVID-19 mortality in this population., Competing Interests: WH, GT, ES, DA, CH, BW, LM, MH, AJ, MC, SP, LC, SC, FK, AY, GH, TF, MP, IG, YC, CB, SG, RA, EH, NB, MB, MS, DJ, IJ, AA, JS, CL, GD, SP, DK, IG No competing interests declared, MT I have received grant support from the Academy of Medical Sciences, the Health Foundation, and the NIHR Biomedical Research Centre. I have also received book royalties from Oxford University Press and honoraria from the Wellcome Sanger Institute, (© 2021, Hamilton et al.)

Published

2021