Your search keyword '"Morton, Caroline"' showing total 276 results

51. Sharing study materials in health and medical research

Author

DeVito, Nicholas J, primary, Morton, Caroline, additional, Cashin, Aidan Gregory, additional, Richards, Georgia C, additional, and Lee, Hopin, additional

Published

2022

52. People at a persistent pain service can walk it, but some struggle to talk about it: Reliability, detectable difference and clinically important difference of the six‐minute walk test

Author

Murdoch, Megan, primary, Window, Peter, additional, Morton, Caroline, additional, O’Donohue, Riley, additional, Ballard, Emma, additional, and Claus, Andrew, additional

Published

2022

53. Recording of ’COVID-19 vaccine declined‘: a cohort study on 57.9 million National Health Service patients’ records in situ using OpenSAFELY, England, 8 December 2020 to 25 May 2021

Author

Curtis, Helen J, primary, Inglesby, Peter, additional, MacKenna, Brian, additional, Croker, Richard, additional, Hulme, William J, additional, Rentsch, Christopher T, additional, Bhaskaran, Krishnan, additional, Mathur, Rohini, additional, Morton, Caroline E, additional, Bacon, Sebastian CJ, additional, Smith, Rebecca M, additional, Evans, David, additional, Mehrkar, Amir, additional, Tomlinson, Laurie, additional, Walker, Alex J, additional, Bates, Christopher, additional, Hickman, George, additional, Ward, Tom, additional, Morley, Jessica, additional, Cockburn, Jonathan, additional, Davy, Simon, additional, Williamson, Elizabeth J, additional, Eggo, Rosalind M, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, O’Hanlon, Shaun, additional, Eavis, Alex, additional, Jarvis, Richard, additional, Avramov, Dima, additional, Griffiths, Paul, additional, Fowles, Aaron, additional, Parkes, Nasreen, additional, Evans, Stephen JW, additional, Douglas, Ian J, additional, Smeeth, Liam, additional, and Goldacre, Ben, additional

Published

2022

54. Software development skills for health data researchers

Author

Morton, Caroline, primary, Devito, Nicholas, additional, Morley, Jessica, additional, Dillingham, Iain, additional, Schultze, Anna, additional, Bacon, Sebastian, additional, Inglesby, Peter, additional, Maude, Steven, additional, and Goldacre, Ben, additional

Published

2022

55. Describing the population experiencing COVID-19 vaccine breakthrough following second vaccination in England: a cohort study from OpenSAFELY

Author

OpenSAFELY Collaborative, Green, Amelia, Curtis, Helen, Hulme, William, Williamson, Elizabeth, McDonald, Helen, Bhaskaran, Krishnan, Rentsch, Christopher, Schultze, Anna, MacKenna, Brian, Mahalingasivam, Viyaasan, Tomlinson, Laurie, Walker, Alex, Fisher, Louis, Massey, Jon, Andrews, Colm, Hopcroft, Lisa, Morton, Caroline, Croker, Richard, Morley, Jessica, Mehrkar, Amir, Bacon, Seb, Evans, David, Inglesby, Peter, Hickman, George, Ward, Tom, Davy, Simon, Mathur, Rohini, Tazare, John, Eggo, Rosalind, Wing, Kevin, Wong, Angel, Forbes, Harriet, Bates, Chris, Cockburn, Jonathan, Parry, John, Hester, Frank, Harper, Sam, Douglas, Ian, Evans, Stephen, Smeeth, Liam, and Goldacre, Ben

Abstract

BACKGROUND: While the vaccines against COVID-19 are highly effective, COVID-19 vaccine breakthrough is possible despite being fully vaccinated. With SARS-CoV-2 variants still circulating, describing the characteristics of individuals who have experienced COVID-19 vaccine breakthroughs could be hugely important in helping to determine who may be at greatest risk. METHODS: With the approval of NHS England, we conducted a retrospective cohort study using routine clinical data from the OpenSAFELY-TPP database of fully vaccinated individuals, linked to secondary care and death registry data and described the characteristics of those experiencing COVID-19 vaccine breakthroughs. RESULTS: As of 1st November 2021, a total of 15,501,550 individuals were identified as being fully vaccinated against COVID-19, with a median follow-up time of 149 days (IQR: ​107-179). From within this population, a total of 579,780 (

Published

2022

56. OpenSAFELY NHS Service Restoration Observatory 2: changes in primary care clinical activity in England during the COVID-19 pandemic.

Author

Curtis, Helen J, MacKenna, Brian, Wiedemann, Milan, Fisher, Louis, Croker, Richard, Morton, Caroline E, Inglesby, Peter, Walker, Alex J, Morley, Jessica, Mehrkar, Amir, Bacon, Sebastian CJ, Hickman, George, Evans, David, Ward, Tom, Davy, Simon, Hulme, William J, Macdonald, Orla, Conibere, Robin, Lewis, Tom, and Myers, Martin

Subjects

COVID-19 pandemic, PRIMARY care, CLINICAL medicine, OBSERVATORIES, KEYWORD searching

Abstract

Background: The COVID-19 pandemic has disrupted healthcare activity across a broad range of clinical services. The NHS stopped non-urgent work in March 2020, later recommending services be restored to near-normal levels before winter where possible. Aim: To describe changes in the volume and variation of coded clinical activity in general practice across six clinical areas: cardiovascular disease, diabetes, mental health, female and reproductive health, screening and related procedures, and processes related to medication. Design and setting: With the approval of NHS England, a cohort study was conducted of 23.8 million patient records in general practice, in situ using OpenSAFELY. Method: Common primary care activities were analysed using Clinical Terms Version 3 codes and keyword searches from January 2019 to December 2020, presenting median and deciles of code usage across practices per month. Results: Substantial and widespread changes in clinical activity in primary care were identified since the onset of the COVID-19 pandemic, with generally good recovery by December 2020. A few exceptions showed poor recovery and warrant further investigation, such as mental health (for example, for 'Depression interim review' the median occurrences across practices in December 2020 was down by 41.6% compared with December 2019). Conclusion: Granular NHS general practice data at population-scale can be used to monitor disruptions to healthcare services and guide the development of mitigation strategies. The authors are now developing real-time monitoring dashboards for the key measures identified in this study, as well as further studies using primary care data to monitor and mitigate the indirect health impacts of COVID-19 on the NHS. [ABSTRACT FROM AUTHOR]

Published

2023

57. Waning effectiveness of BNT162b2 and ChAdOx1 covid-19 vaccines over six months since second dose: OpenSAFELY cohort study using linked electronic health records

Author

Horne, Elsie M F, primary, Hulme, William J, additional, Keogh, Ruth H, additional, Palmer, Tom M, additional, Williamson, Elizabeth J, additional, Parker, Edward P K, additional, Green, Amelia, additional, Walker, Venexia, additional, Walker, Alex J, additional, Curtis, Helen, additional, Fisher, Louis, additional, MacKenna, Brian, additional, Croker, Richard, additional, Hopcroft, Lisa, additional, Park, Robin Y, additional, Massey, Jon, additional, Morley, Jessica, additional, Mehrkar, Amir, additional, Bacon, Sebastian, additional, Evans, David, additional, Inglesby, Peter, additional, Morton, Caroline E, additional, Hickman, George, additional, Davy, Simon, additional, Ward, Tom, additional, Dillingham, Iain, additional, Goldacre, Ben, additional, Hernán, Miguel A, additional, and Sterne, Jonathan A C, additional

Published

2022

58. Comparative effectiveness of ChAdOx1 versus BNT162b2 covid-19 vaccines in health and social care workers in England: cohort study using OpenSAFELY

Author

Hulme, William J, primary, Williamson, Elizabeth J, additional, Green, Amelia C A, additional, Bhaskaran, Krishnan, additional, McDonald, Helen I, additional, Rentsch, Christopher T, additional, Schultze, Anna, additional, Tazare, John, additional, Curtis, Helen J, additional, Walker, Alex J, additional, Tomlinson, Laurie A, additional, Palmer, Tom, additional, Horne, Elsie M F, additional, MacKenna, Brian, additional, Morton, Caroline E, additional, Mehrkar, Amir, additional, Morley, Jessica, additional, Fisher, Louis, additional, Bacon, Sebastian C J, additional, Evans, David, additional, Inglesby, Peter, additional, Hickman, George, additional, Davy, Simon, additional, Ward, Tom, additional, Croker, Richard, additional, Eggo, Rosalind M, additional, Wong, Angel Y S, additional, Mathur, Rohini, additional, Wing, Kevin, additional, Forbes, Harriet, additional, Grint, Daniel J, additional, Douglas, Ian J, additional, Evans, Stephen J W, additional, Smeeth, Liam, additional, Bates, Chris, additional, Cockburn, Jonathan, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Sterne, Jonathan A C, additional, Hernán, Miguel A, additional, and Goldacre, Ben, additional

Published

2022

59. Safety of COVID-19 vaccination and acute neurological events: A self-controlled case series in England using the OpenSAFELY platform

Author

Walker, Jemma L, primary, Schultze, Anna, additional, Tazare, John, additional, Tamborska, Arina, additional, Singh, Bhagteshwar, additional, Donegan, Katherine, additional, Stowe, Julia, additional, Morton, Caroline E, additional, Hulme, William J, additional, Curtis, Helen J, additional, Williamson, Elizabeth J, additional, Mehrkar, Amir, additional, Eggo, Rosalind M, additional, Rentsch, Christopher T, additional, Mathur, Rohini, additional, Bacon, Sebastian, additional, Walker, Alex J, additional, Davy, Simon, additional, Evans, David, additional, Inglesby, Peter, additional, Hickman, George, additional, MacKenna, Brian, additional, Tomlinson, Laurie, additional, CA Green, Amelia, additional, Fisher, Louis, additional, Cockburn, Jonathan, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Bates, Christopher, additional, Evans, Stephen JW, additional, Solomon, Tom, additional, Andrews, Nick J, additional, Douglas, Ian J, additional, Goldacre, Ben, additional, Smeeth, Liam, additional, and McDonald, Helen I, additional

Published

2022

60. Effectiveness of BNT162b2 booster doses in England: an observational study in OpenSAFELY-TPP

Author

Hulme, William J, primary, Williamson, Elizabeth J, additional, Horne, Elsie, additional, Green, Amelia, additional, Nab, Linda, additional, Keogh, Ruth, additional, Parker, Edward PK, additional, Walker, Venexia, additional, Palmer, Tom, additional, Curtis, Helen, additional, Wiedemann, Milan, additional, Cunningham, Christine, additional, Walker, Alex J, additional, Fisher, Louis, additional, MacKenna, Brian, additional, Rentsch, Christopher T, additional, Schultze, Anna, additional, Bhaskaran, Krishnan, additional, Tazare, John, additional, Tomlinson, Laurie, additional, McDonald, Helen I, additional, Morton, Caroline E, additional, Croker, Richard, additional, Andrews, Colm, additional, Parks, Robin, additional, Hopcroft, Lisa, additional, Massey, Jon, additional, Morley, Jessica, additional, Mehrkar, Amir, additional, Bacon, Seb, additional, Evans, Dave, additional, Inglesby, Peter, additional, Hickman, George, additional, Davy, Simon, additional, Dillingham, Iain, additional, Ward, Tom, additional, Mahalingasivam, Viyasaan, additional, Zheng, Bang, additional, Douglas, Ian J, additional, Evans, Stephen JW, additional, Bates, Chris, additional, Sterne, Jonathan AC, additional, Hernán, Miguel A, additional, and Goldacre, Ben, additional

Published

2022

61. OpenSAFELY NHS Service Restoration Observatory 2: changes in primary care activity across six clinical areas during the COVID-19 pandemic

Author

Curtis, Helen J, primary, MacKenna, Brian, additional, Wiedemann, Milan, additional, Fisher, Louis, additional, Croker, Richard, additional, Morton, Caroline E, additional, Inglesby, Peter, additional, Walker, Alex J, additional, Morley, Jessica, additional, Mehrkar, Amir, additional, Bacon, Sebastian CJ, additional, Hickman, George, additional, Evans, David, additional, Ward, Tom, additional, Davy, Simon, additional, Hulme, William J, additional, Macdonald, Orla, additional, Conibere, Robin, additional, Lewis, Tom, additional, Myers, Martin, additional, Wanninayake, Shamila, additional, Collison, Kiren, additional, Drury, Charles, additional, Samuel, Miriam, additional, Sood, Harpreet, additional, Cipriani, Andrea, additional, Fazel, Seena, additional, Sharma, Manuj, additional, Baqir, Wasim, additional, Bates, Chris, additional, Parry, John, additional, and Goldacre, Ben, additional

Published

2022

62. Nursing students’ experiences of seeking mental health support: a literature review

Author

Morton, Caroline, primary

Published

2022

63. Comparative effectiveness of sotrovimab and molnupiravir for prevention of severe COVID-19 outcomes in non-hospitalised patients: an observational cohort study using the OpenSAFELY platform

Author

Zheng, Bang, primary, Green, Amelia CA, additional, Tazare, John, additional, Curtis, Helen J, additional, Fisher, Louis, additional, Nab, Linda, additional, Schultze, Anna, additional, Mahalingasivam, Viyaasan, additional, Parker, Edward PK, additional, Hulme, William J, additional, Bacon, Sebastian CJ, additional, DeVito, Nicholas J, additional, Bates, Christopher, additional, Evans, David, additional, Inglesby, Peter, additional, Drysdale, Henry, additional, Davy, Simon, additional, Cockburn, Jonathan, additional, Morton, Caroline E, additional, Hickman, George, additional, Ward, Tom, additional, Smith, Rebecca M, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Mehrkar, Amir, additional, Eggo, Rosalind M, additional, Walker, Alex J, additional, Evans, Stephen JW, additional, Douglas, Ian J, additional, MacKenna, Brian, additional, Goldacre, Ben, additional, and Tomlinson, Laurie A, additional

Published

2022

64. Changes in English medication safety indicators throughout the COVID-19 pandemic: a federated analysis of 57 million patients’ primary care records in situ using OpenSAFELY

Author

Fisher, Louis, primary, Hopcroft, Lisa E. M., additional, Rodgers, Sarah, additional, Barrett, James, additional, Oliver, Kerry, additional, Avery, Anthony J., additional, Evans, Dai, additional, Curtis, Helen, additional, Croker, Richard, additional, Macdonald, Orla, additional, Morley, Jessica, additional, Mehrkar, Amir, additional, Bacon, Seb, additional, Davy, Simon, additional, Dillingham, Iain, additional, Evans, David, additional, Hickman, George, additional, Inglesby, Peter, additional, Morton, Caroline E., additional, Smith, Becky, additional, Ward, Tom, additional, Hulme, William, additional, Green, Amelia, additional, Massey, Jon, additional, Walker, Alex J., additional, Bates, Chris, additional, Cockburn, Jonathan, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, O’Hanlon, Shaun, additional, Eavis, Alex, additional, Jarvis, Richard, additional, Avramov, Dima, additional, Griffiths, Paul, additional, Fowles, Aaron, additional, Parkes, Nasreen, additional, Goldacre, Ben, additional, and MacKenna, Brian, additional

Published

2022

65. Accident and emergency (AE) attendance in England following infection with SARS-CoV-2 Omicron or Delta

Author

Grint, Daniel J., primary, Wing, Kevin, additional, Gibbs, Hamish P., additional, Evans, Stephen JW, additional, Williamson, Elizabeth, additional, Bhaskaran, Krishnan, additional, McDonald, Helen I, additional, Walker, Alex J., additional, Evans, David, additional, Hickman, George, additional, Mathur, Rohini, additional, Schultze, Anna, additional, Rentsch, Christopher T, additional, Tazare, John, additional, Douglas, Ian J, additional, Curtis, Helen J., additional, Morton, Caroline E, additional, Bacon, Sebastian, additional, Davy, Simon, additional, MacKenna, Brian, additional, Inglesby, Peter, additional, Croker, Richard, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, DeVito, Nicholas J, additional, Hulme, Will, additional, Bates, Chris, additional, Cockburn, Jonathon, additional, Mehrkar, Amir, additional, Goldacre, Ben, additional, Eggo, Rosalind M., additional, and Tomlinson, Laurie, additional

Published

2022

66. OpenSAFELY: factors associated with COVID-19 death in 17 million patients

Author

Williamson, Elizabeth J, Walker, Alex J, Bhaskaran, Krishnan, Bacon, Seb, Bates, Chris, Morton, Caroline E, Curtis, Helen J, Mehrkar, Amir, Evans, David, Inglesby, Peter, Cockburn, Jonathan, McDonald, Helen I, MacKenna, Brian, Tomlinson, Laurie, Douglas, Ian J, Rentsch, Christopher T, Mathur, Rohini, Wong, Angel YS, Grieve, Richard, Harrison, David, Forbes, Harriet, Schultze, Anna, Croker, Richard, Parry, John, Hester, Frank, Harper, Sam, Perera, Rafael, Evans, Stephen JW, Smeeth, Liam, and Goldacre, Ben

Subjects

SARS-CoV-2, Pneumonia, Viral, COVID-19, Article, Asthma, deprivation, Betacoronavirus, death, risk factors, ethnicity, informatics, Humans, Coronavirus Infections, Pandemics

Abstract

Summary COVID-19 has rapidly impacted on mortality worldwide.1 There is unprecedented urgency to understand who is most at risk of severe outcomes, requiring new approaches for timely analysis of large datasets. Working on behalf of NHS England we created OpenSAFELY: a secure health analytics platform covering 40% of all patients in England, holding patient data within the existing data centre of a major primary care electronic health records vendor. Primary care records of 17,278,392 adults were pseudonymously linked to 10,926 COVID-19 related deaths. COVID-19 related death was associated with: being male (hazard ratio 1.59, 95%CI 1.53-1.65); older age and deprivation (both with a strong gradient); diabetes; severe asthma; and various other medical conditions. Compared to people with white ethnicity, black and South Asian people were at higher risk even after adjustment for other factors (HR 1.48, 1.29-1.69 and 1.45, 1.32-1.58 respectively). We have quantified a range of clinical risk factors for COVID-19 related death in the largest cohort study conducted by any country to date. OpenSAFELY is rapidly adding further patients’ records; we will update and extend results regularly.

Published

2020

67. Comparison of methods for predicting COVID-19-related death in the general population using the OpenSAFELY platform

Author

OpenSAFELY Collaborative, Williamson, Elizabeth J, Tazare, John, Bhaskaran, Krishnan, McDonald, Helen I, Walker, Alex J, Tomlinson, Laurie, Wing, Kevin, Bacon, Sebastian, Bates, Chris, Curtis, Helen J, Forbes, Harriet J, Minassian, Caroline, Morton, Caroline E, Nightingale, Emily, Mehrkar, Amir, Evans, David, Nicholson, Brian D, Leon, David A, Inglesby, Peter, MacKenna, Brian, Davies, Nicholas G, DeVito, Nicholas J, Drysdale, Henry, Cockburn, Jonathan, Hulme, William J, Morley, Jessica, Douglas, Ian, Rentsch, Christopher T, Mathur, Rohini, Wong, Angel, Schultze, Anna, Croker, Richard, Parry, John, Hester, Frank, Harper, Sam, Grieve, Richard, Harrison, David A, Steyerberg, Ewout W, Eggo, Rosalind M, Diaz-Ordaz, Karla, Keogh, Ruth, Evans, Stephen JW, Smeeth, Liam, and Goldacre, Ben

Abstract

BACKGROUND: Obtaining accurate estimates of the risk of COVID-19-related death in the general population is challenging in the context of changing levels of circulating infection. METHODS: We propose a modelling approach to predict 28-day COVID-19-related death which explicitly accounts for COVID-19 infection prevalence using a series of sub-studies from new landmark times incorporating time-updating proxy measures of COVID-19 infection prevalence. This was compared with an approach ignoring infection prevalence. The target population was adults registered at a general practice in England in March 2020. The outcome was 28-day COVID-19-related death. Predictors included demographic characteristics and comorbidities. Three proxies of local infection prevalence were used: model-based estimates, rate of COVID-19-related attendances in emergency care, and rate of suspected COVID-19 cases in primary care. We used data within the TPP SystmOne electronic health record system linked to Office for National Statistics mortality data, using the OpenSAFELY platform, working on behalf of NHS England. Prediction models were developed in case-cohort samples with a 100-day follow-up. Validation was undertaken in 28-day cohorts from the target population. We considered predictive performance (discrimination and calibration) in geographical and temporal subsets of data not used in developing the risk prediction models. Simple models were contrasted to models including a full range of predictors. RESULTS: Prediction models were developed on 11,972,947 individuals, of whom 7999 experienced COVID-19-related death. All models discriminated well between individuals who did and did not experience the outcome, including simple models adjusting only for basic demographics and number of comorbidities: C-statistics 0.92-0.94. However, absolute risk estimates were substantially miscalibrated when infection prevalence was not explicitly modelled. CONCLUSIONS: Our proposed models allow absolute risk estimation in the context of changing infection prevalence but predictive performance is sensitive to the proxy for infection prevalence. Simple models can provide excellent discrimination and may simplify implementation of risk prediction tools.

Published

2022

68. Association between oral anticoagulants and COVID-19-related outcomes: a population-based cohort study

Author

Wong, Angel Ys, Tomlinson, Laurie, Brown, Jeremy P, Elson, William, Walker, Alex J, Schultze, Anna, Morton, Caroline E, Evans, David, Inglesby, Peter, MacKenna, Brian, Bhaskaran, Krishnan, Rentsch, Christopher T, Powell, Emma, Williamson, Elizabeth, Croker, Richard, Bacon, Seb, Hulme, William, Bates, Chris, Curtis, Helen J, Mehrkar, Amir, Cockburn, Jonathan, McDonald, Helen I, Mathur, Rohini, Wing, Kevin, Forbes, Harriet, Eggo, Rosalind M, Evans, Stephen Jw, Smeeth, Liam, Goldacre, Ben, Douglas, Ian J, and (The OpenSAFELY Collaborative)

Abstract

BACKGROUND: Early evidence has shown that anticoagulant reduces the risk of thrombotic events in those infected with COVID-19. However, evidence of the role of routinely prescribed oral anticoagulants (OACs) in COVID-19 outcomes is limited. AIM: To investigate the association between OACs and COVID-19 outcomes in those with atrial fibrillation and a CHA2DS2-VASc score of 2. DESIGN AND SETTING: On behalf of NHS England, a population-based cohort study was conducted. METHOD: The study used primary care data and pseudonymously-linked SARS-CoV-2 antigen testing data, hospital admissions, and death records from England. Cox regression was used to estimate hazard ratios (HRs) for COVID-19 outcomes comparing people with current OAC use versus non-use, accounting for age, sex, comorbidities, other medications, deprivation, and general practice. RESULTS: Of 71 103 people with atrial fibrillation and a CHA2DS2-VASc score of 2, there were 52 832 current OAC users and 18 271 non-users. No difference in risk of being tested for SARS-CoV-2 was associated with current use (adjusted HR [aHR] 0.99, 95% confidence interval [CI] = 0.95 to 1.04) versus non-use. A lower risk of testing positive for SARS-CoV-2 (aHR 0.77, 95% CI = 0.63 to 0.95) and a marginally lower risk of COVID-19-related death (aHR, 0.74, 95% CI = 0.53 to 1.04) were associated with current use versus non-use. CONCLUSION: Among those at low baseline stroke risk, people receiving OACs had a lower risk of testing positive for SARS-CoV-2 and severe COVID-19 outcomes than non-users; this might be explained by a causal effect of OACs in preventing severe COVID-19 outcomes or unmeasured confounding, including more cautious behaviours leading to reduced infection risk.

Published

2022

69. Potentially inappropriate prescribing of DOACs to people with mechanical heart valves: A federated analysis of 57.9 million patients' primary care records in situ using OpenSAFELY

Author

Fisher, Louis, Speed, Victoria, Curtis, Helen J., Rentsch, Christopher T., Wong, Angel Y.S., Schultze, Anna, Massey, Jon, Inglesby, Peter, Morton, Caroline E., Wood, Marion, Walker, Alex J., Morley, Jessica, Mehrkar, Amir, Bacon, Seb, Hickman, George, Bates, Chris, Croker, Richard, Evans, David, Ward, Tom, Cockburn, Jonathan, Davy, Simon, Bhaskaran, Krishnan, Smith, Becky, Williamson, Elizabeth, Hulme, William, Green, Amelia, Eggo, Rosalind M., Forbes, Harriet, Tazare, John, Parry, John, Hester, Frank, Harper, Sam, Meadows, Jonathan, O'Hanlon, Shaun, Eavis, Alex, Jarvis, Richard, Avramov, Dima, Griffiths, Paul, Fowles, Aaron, Parkes, Nasreen, Douglas, Ian J., Evans, Stephen J.W., Smeeth, Liam, MacKenna, Brian, Tomlinson, Laurie, and Goldacre, Ben

Published

2022

70. Waning effectiveness of BNT162b2 and ChAdOx1 COVID-19 vaccines over six months since second dose: a cohort study using linked electronic health records

Author

Horne, Elsie MF, primary, Hulme, William J, additional, Keogh, Ruth H, additional, Palmer, Tom M, additional, Williamson, Elizabeth J, additional, Parker, Edward PK, additional, Green, Amelia, additional, Walker, Venexia, additional, Walker, Alex J, additional, Curtis, Helen, additional, Fisher, Louis, additional, MacKenna, Brian, additional, Croker, Richard, additional, Hopcroft, Lisa, additional, Park, Robin Y, additional, Massey, Jon, additional, Morely, Jessica, additional, Mehrkar, Amir, additional, Bacon, Sebastian, additional, Evans, David, additional, Inglesby, Peter, additional, Morton, Caroline E, additional, Hickman, George, additional, Davy, Simon, additional, Ward, Tom, additional, Dillingham, Iain, additional, Goldacre, Ben, additional, Hernan, Miguel A, additional, and Sterne, Jonathan AC, additional

Published

2022

71. Additional file 1 of Describing the population experiencing COVID-19 vaccine breakthrough following second vaccination in England: a cohort study from OpenSAFELY

Author

Green, Amelia, Curtis, Helen, Hulme, William, Williamson, Elizabeth, McDonald, Helen, Bhaskaran, Krishnan, Rentsch, Christopher, Schultze, Anna, MacKenna, Brian, Mahalingasivam, Viyaasan, Tomlinson, Laurie, Walker, Alex, Fisher, Louis, Massey, Jon, Andrews, Colm, Hopcroft, Lisa, Morton, Caroline, Croker, Richard, Morley, Jessica, Mehrkar, Amir, Bacon, Seb, Evans, David, Inglesby, Peter, Hickman, George, Ward, Tom, Davy, Simon, Mathur, Rohini, Tazare, John, Eggo, Rosalind, Wing, Kevin, Wong, Angel, Forbes, Harriet, Bates, Chris, Cockburn, Jonathan, Parry, John, Hester, Frank, Harper, Sam, Douglas, Ian, Evans, Stephen, Smeeth, Liam, and Goldacre, Ben

Abstract

Additional file 1. This additional piece of analysis uses patients with chronic kidney disease to show how rates can be adjusted to demonstrate the public health burden and to help inform decisions around rollout of vaccine/booster programme for patients at high risk of adverse outcomes, Table S1. Number of fully vaccinated (2 doses + 2 weeks) patients with chronic kidney disease by stage, in OpenSAFELY-TPP, and associated crude and adjusted rates of positive SARS-CoV-2 swab test, COVID-19 related hospital admissions, COVID-19 related critical care admissions and COVID-19 related death, broken down by CKD stage.

Published

2022

72. Additional file 1 of Comparison of methods for predicting COVID-19-related death in the general population using the OpenSAFELY platform

Author

Williamson, Elizabeth J., Tazare, John, Bhaskaran, Krishnan, McDonald, Helen I., Walker, Alex J., Tomlinson, Laurie, Wing, Kevin, Bacon, Sebastian, Bates, Chris, Curtis, Helen J., Forbes, Harriet J., Minassian, Caroline, Morton, Caroline E., Nightingale, Emily, Mehrkar, Amir, Evans, David, Nicholson, Brian D., Leon, David A., Inglesby, Peter, MacKenna, Brian, Davies, Nicholas G., DeVito, Nicholas J., Drysdale, Henry, Cockburn, Jonathan, Hulme, William J., Morley, Jessica, Douglas, Ian, Rentsch, Christopher T., Mathur, Rohini, Wong, Angel, Schultze, Anna, Croker, Richard, Parry, John, Hester, Frank, Harper, Sam, Grieve, Richard, Harrison, David A., Steyerberg, Ewout W., Eggo, Rosalind M., Diaz-Ordaz, Karla, Keogh, Ruth, Evans, Stephen J. W., Smeeth, Liam, and Goldacre, Ben

Abstract

Additional file 1. Supplementary materials

Published

2022

73. OpenSAFELY: impact of national guidance on switching anticoagulant therapy during COVID-19 pandemic

Author

OpenSAFELY Collaborative, Curtis, Helen J, MacKenna, Brian, Walker, Alex J, Croker, Richard, Mehrkar, Amir, Morton, Caroline, Bacon, Seb, Hickman, George, Inglesby, Peter, Bates, Chris, Evans, David, Ward, Tom, Cockburn, Jonathan, Davy, Simon, Bhaskaran, Krishnan, Schultze, Anna, Rentsch, Christopher T, Williamson, Elizabeth, Hulme, William, Tomlinson, Laurie, Mathur, Rohini, Drysdale, Henry, Eggo, Rosalind M, Wong, Angel Yun, Forbes, Harriet, Parry, John, Hester, Frank, Harper, Sam, Douglas, Ian, Smeeth, Liam, Goldacre, Ben, and The OpenSAFELY Collaborative

Abstract

BACKGROUND: Early in the COVID-19 pandemic, the National Health Service (NHS) recommended that appropriate patients anticoagulated with warfarin should be switched to direct-acting oral anticoagulants (DOACs), requiring less frequent blood testing. Subsequently, a national safety alert was issued regarding patients being inappropriately coprescribed two anticoagulants following a medication change and associated monitoring. OBJECTIVE: To describe which people were switched from warfarin to DOACs; identify potentially unsafe coprescribing of anticoagulants; and assess whether abnormal clotting results have become more frequent during the pandemic. METHODS: With the approval of NHS England, we conducted a cohort study using routine clinical data from 24 million NHS patients in England. RESULTS: 20 000 of 164 000 warfarin patients (12.2%) switched to DOACs between March and May 2020, most commonly to edoxaban and apixaban. Factors associated with switching included: older age, recent renal function test, higher number of recent INR tests recorded, atrial fibrillation diagnosis and care home residency. There was a sharp rise in coprescribing of warfarin and DOACs from typically 50-100 per month to 246 in April 2020, 0.06% of all people receiving a DOAC or warfarin. International normalised ratio (INR) testing fell by 14% to 506.8 patients tested per 1000 warfarin patients each month. We observed a very small increase in elevated INRs (n=470) during April compared with January (n=420). CONCLUSIONS: Increased switching of anticoagulants from warfarin to DOACs was observed at the outset of the COVID-19 pandemic in England following national guidance. There was a small but substantial number of people coprescribed warfarin and DOACs during this period. Despite a national safety alert on the issue, a widespread rise in elevated INR test results was not found. Primary care has responded rapidly to changes in patient care during the COVID-19 pandemic.

Published

2021

74. People at a persistent pain service can walk it, but some struggle to talk about it: Reliability, detectable difference and clinically important difference of the six‐minute walk test.

Author

Murdoch, Megan, Window, Peter, Morton, Caroline, O'Donohue, Riley, Ballard, Emma, and Claus, Andrew

Subjects

PAIN management, STATISTICAL reliability, SELF-evaluation, CROSS-sectional method, HEALTH outcome assessment, MEDICAL care, HEALTH status indicators, FUNCTIONAL assessment, REPEATED measures design, DESCRIPTIVE statistics, INTRACLASS correlation, RESEARCH funding, OUTPATIENT services in hospitals, LONGITUDINAL method

Abstract

Objectives: The six‐minute walk test (6MWT) is a commonly used measure of functional capacity. This study is the first to investigate the test‐retest reliability, minimal detectable difference (MDD) and the minimal clinically important difference (MCID) for people attending a persistent pain service. Relationships between change in 6MWT performance and change in self‐reported physical, functional and psychological outcome measures were also explored. Methods: A cross‐sectional repeated measures design was used with people having >9 months of pain attending an 8‐week outpatient persistent pain programme. For reliability and MDD, 27 people were recruited, for MCID calculations, 32 people were recruited. The MCID was examined by dichotomising people into "improvers", or "non‐improvers" based upon the Global Rating of Change (GRC) in physical abilities score. Results: The mean (SD) 6MWT distance was 389.4 (93.6) m at programme start, and 427.8 (83.0) m at week eight completion. The test‐retest reliability was good (intraclass correlation coefficient = 0.89) and the MDD = 86.1 m. As there was no relationship between change in 6MWT distance and GRC physical abilities at week eight (r = 0.132, p = 0.472) the MCID could not be calculated. Furthermore, no relationships were found between change in 6MWT distance and other self‐reported measures. Changes in GRC physical abilities and 6MWT were frequently discordant, with increased 6MWT for 7/11 "GRC non‐improvers" and decreased 6MWT for 7/21 "GRC improvers". Conclusions: Amongst this cohort, change in physical ability may or may not be reflected by self‐reported change. Objective tests of physical ability are recommended for people attending pain services, and validated tests should align with intervention aims. [ABSTRACT FROM AUTHOR]

Published

2023

75. Association between warfarin and COVID-19-related outcomes compared with direct oral anticoagulants: population-based cohort study

Author

OpenSAFELY Collaborative, Wong, Angel YS, Tomlinson, Laurie A, Brown, Jeremy P, Elson, William, Walker, Alex J, Schultze, Anna, Morton, Caroline E, Evans, David, Inglesby, Peter, MacKenna, Brian, Bhaskaran, Krishnan, Rentsch, Christopher T, Powell, Emma, Williamson, Elizabeth, Croker, Richard, Bacon, Seb, Hulme, William, Bates, Chris, Curtis, Helen J, Mehrkar, Amir, Cockburn, Jonathan, McDonald, Helen I, Mathur, Rohini, Wing, Kevin, Forbes, Harriet, Eggo, Rosalind M, Evans, Stephen JW, Smeeth, Liam, Goldacre, Ben, and Douglas, Ian J

Abstract

BACKGROUND: Thromboembolism has been reported as a consequence of severe COVID-19. Although warfarin is a commonly used anticoagulant, it acts by antagonising vitamin K, which is low in patients with severe COVID-19. To date, the clinical evidence on the impact of regular use of warfarin on COVID-19-related thromboembolism is lacking. METHODS: On behalf of NHS England, we conducted a population-based cohort study investigating the association between warfarin and COVID-19 outcomes compared with direct oral anticoagulants (DOACs). We used the OpenSAFELY platform to analyse primary care data and pseudonymously linked SARS-CoV-2 antigen testing data, hospital admissions and death records from England. We used Cox regression to estimate hazard ratios (HRs) for COVID-19-related outcomes comparing warfarin with DOACs in people with non-valvular atrial fibrillation. We also conducted negative control outcome analyses (being tested for SARS-CoV-2 and non-COVID-19 death) to assess the potential impact of confounding. RESULTS: A total of 92,339 warfarin users and 280,407 DOAC users were included. We observed a lower risk of all outcomes associated with warfarin versus DOACs [testing positive for SARS-CoV-2, HR 0.73 (95% CI 0.68-0.79); COVID-19-related hospital admission, HR 0.75 (95% CI 0.68-0.83); COVID-19-related deaths, HR 0.74 (95% CI 0.66-0.83)]. A lower risk of negative control outcomes associated with warfarin versus DOACs was also observed [being tested for SARS-CoV-2, HR 0.80 (95% CI 0.79-0.81); non-COVID-19 deaths, HR 0.79 (95% CI 0.76-0.83)]. CONCLUSIONS: Overall, this study shows no evidence of harmful effects of warfarin on severe COVID-19 disease.

Published

2021

76. Trends and clinical characteristics of COVID-19 vaccine recipients: a federated analysis of 57.9 million patients’ primary care records in situ using OpenSAFELY

Author

Curtis, Helen J, Inglesby, Peter, Morton, Caroline E, MacKenna, Brian, Green, Amelia, Hulme, William, Walker, Alex J, Morley, Jessica, Mehrkar, Amir, Bacon, Seb, Hickman, George, Bates, Chris, Croker, Richard, Evans, David, Ward, Tom, Cockburn, Jonathan, Davy, Simon, Bhaskaran, Krishnan, Schultze, Anna, Rentsch, Christopher T, Williamson, Elizabeth J, Rowan, Anna, Fisher, Louis, McDonald, Helen I, Tomlinson, Laurie, Mathur, Rohini, Drysdale, Henry, Eggo, Rosalind M, Wing, Kevin, Wong, Angel Ys, Forbes, Harriet, Parry, John, Hester, Frank, Harper, Sam, O'Hanlon, Shaun, Eavis, Alex, Jarvis, Richard, Avramov, Dima, Griffiths, Paul, Fowles, Aaron, Parkes, Nasreen, Douglas, Ian J, Evans, Stephen Jw, Smeeth, Liam, Goldacre, Ben, and (The OpenSAFELY Collaborative)

Subjects

parasitic diseases

Abstract

BACKGROUND: On 8 December 2020 NHS England administered the first COVID-19 vaccination. AIM: To describe trends and variation in vaccine coverage in different clinical and demographic groups in the first 100 days of the vaccine rollout. DESIGN AND SETTING: With the approval of NHS England, a cohort study was conducted of 57.9 million patient records in general practice in England, in situ and within the infrastructure of the electronic health record software vendors EMIS and TPP using OpenSAFELY. METHOD: Vaccine coverage across various subgroups of Joint Committee on Vaccination and Immunisation (JCVI) priority cohorts is described. RESULTS: A total of 20 852 692 patients (36.0%) received a vaccine between 8 December 2020 and 17 March 2021. Of patients aged ≥80 years not in a care home (JCVI group 2) 94.7% received a vaccine, but with substantial variation by ethnicity (White 96.2%, Black 68.3%) and deprivation (least deprived 96.6%, most deprived 90.7%). Patients with pre-existing medical conditions were more likely to be vaccinated with two exceptions: severe mental illness (89.5%) and learning disability (91.4%). There were 275 205 vaccine recipients who were identified as care home residents (JCVI group 1; 91.2% coverage). By 17 March, 1 257 914 (6.0%) recipients had a second dose. CONCLUSION: The NHS rapidly delivered mass vaccination. In this study a data-monitoring framework was deployed using publicly auditable methods and a secure in situ processing model, using linked but pseudonymised patient-level NHS data for 57.9 million patients. Targeted activity may be needed to address lower vaccination coverage observed among certain key groups.

Published

2021

77. Severity of SARS-CoV-2 alpha variant (B.1.1.7) in England

Author

Grint, Daniel J, Wing, Kevin, Houlihan, Catherine, Gibbs, Hamish P, Evans, Stephen J W, Williamson, Elizabeth, McDonald, Helen I, Bhaskaran, Krishnan, Evans, David, Walker, Alex J, Hickman, George, Nightingale, Emily, Schultze, Anna, Rentsch, Christopher T, Bates, Chris, Cockburn, Jonathan, Curtis, Helen J, Morton, Caroline E, Bacon, Sebastian, Davy, Simon, Wong, Angel Y S, Mehrkar, Amir, Tomlinson, Laurie, Douglas, Ian J, Mathur, Rohini, MacKenna, Brian, Ingelsby, Peter, Croker, Richard, Parry, John, Hester, Frank, Harper, Sam, DeVito, Nicholas J, Hulme, Will, Tazare, John, Smeeth, Liam, Goldacre, Ben, and Eggo, Rosalind M

Subjects

Hospitalization, AcademicSubjects/MED00290, SARS-CoV-2, Respiratory System, Major Article, COVID-19, Humans

Abstract

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) alpha variant (B.1.1.7) is associated with higher transmissibility than wild-type virus, becoming the dominant variant in England by January 2021. We aimed to describe the severity of the alpha variant in terms of the pathway of disease from testing positive to hospital admission and death.With the approval of NHS England, we linked individual-level data from primary care with SARS-CoV-2 community testing, hospital admission, and Office for National Statistics all-cause death data. We used testing data with S-gene target failure as a proxy for distinguishing alpha and wild-type cases, and stratified Cox proportional hazards regression to compare the relative severity of alpha cases with wild-type diagnosed from 16 November 2020 to 11 January 2021.Using data from 185 234 people who tested positive for SARS-CoV-2 in the community (alpha = 93 153; wild-type = 92 081), in fully adjusted analysis accounting for individual-level demographics and comorbidities as well as regional variation in infection incidence, we found alpha associated with 73% higher hazards of all-cause death (adjusted hazard ratio [aHR]: 1.73; 95% confidence interval [CI]: 1.41-2.13; P .0001) and 62% higher hazards of hospital admission (1.62; 1.48-1.78; P .0001) compared with wild-type virus. Among patients already admitted to the intensive care unit, the association between alpha and increased all-cause mortality was smaller and the CI included the null (aHR: 1.20; 95% CI: .74-1.95; P = .45).The SARS-CoV-2 alpha variant is associated with an increased risk of both hospitalization and mortality than wild-type virus.

Published

2021

78. A comprehensive high cost drugs dataset from the NHS in England - An OpenSAFELY-TPP Short Data Report

Author

Rowan, Anna, primary, Bates, Chris, additional, Hulme, William, additional, Evans, David, additional, Davy, Simon, additional, A Kennedy, Nicholas, additional, Galloway, James, additional, E Mansfield, Kathryn, additional, Bechman, Katie, additional, Matthewman, Julian, additional, Yates, Mark, additional, Brown, Jeremy, additional, Schultze, Anna, additional, Norton, Sam, additional, J. Walker, Alex, additional, E. Morton, Caroline, additional, Bhaskaran, Krishnan, additional, T. Rentsch, Christopher, additional, Williamson, Elizabeth, additional, Croker, Richard, additional, Bacon, Seb, additional, Hickman, George, additional, Ward, Tom, additional, Green, Amelia, additional, Fisher, Louis, additional, J Curtis, Helen, additional, Tazare, John, additional, M. Eggo, Rosalind, additional, Inglesby, Peter, additional, Cockburn, Jonathan, additional, I. McDonald, Helen, additional, Mathur, Rohini, additional, YS Wong, Angel, additional, Forbes, Harriet, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, J Douglas, Ian, additional, Smeeth, Liam, additional, A Tomlinson, Laurie, additional, W Lees, Charlie, additional, Evans, Stephen, additional, Smith, Catherine, additional, M. Langan, Sinéad, additional, Mehkar, Amir, additional, MacKenna, Brian, additional, and Goldacre, Ben, additional

Published

2021

79. Clinical coding of long COVID in English primary care: a federated analysis of 58 million patient records in situ using OpenSAFELY

Author

Walker, Alex J, MacKenna, Brian, Inglesby, Peter, Tomlinson, Laurie, Rentsch, Christopher T, Curtis, Helen J, Morton, Caroline E, Morley, Jessica, Mehrkar, Amir, Bacon, Seb, Hickman, George, Bates, Chris, Croker, Richard, Evans, David, Ward, Tom, Cockburn, Jonathan, Davy, Simon, Bhaskaran, Krishnan, Schultze, Anna, Williamson, Elizabeth J, Hulme, William J, McDonald, Helen I, Mathur, Rohini, Eggo, Rosalind M, Wing, Kevin, Wong, Angel Ys, Forbes, Harriet, Tazare, John, Parry, John, Hester, Frank, Harper, Sam, O'Hanlon, Shaun, Eavis, Alex, Jarvis, Richard, Avramov, Dima, Griffiths, Paul, Fowles, Aaron, Parkes, Nasreen, Douglas, Ian J, Evans, Stephen Jw, and (The OpenSAFELY Collaborative)

Abstract

BACKGROUND: Long COVID describes new or persistent symptoms at least 4 weeks after onset of acute COVID-19. Clinical codes to describe this phenomenon were recently created. AIM: To describe the use of long-COVID codes, and variation of use by general practice, demographic variables, and over time. DESIGN AND SETTING: Population-based cohort study in English primary care. METHOD: Working on behalf of NHS England, OpenSAFELY data were used encompassing 96% of the English population between 1 February 2020 and 25 May 2021. The proportion of people with a recorded code for long COVID was measured overall and by demographic factors, electronic health record software system (EMIS or TPP), and week. RESULTS: Long COVID was recorded for 23 273 people. Coding was unevenly distributed among practices, with 26.7% of practices having never used the codes. Regional variation ranged between 20.3 per 100 000 people for East of England (95% confidence interval [CI] = 19.3 to 21.4) and 55.6 per 100 000 people in London (95% CI = 54.1 to 57.1). Coding was higher among females (52.1, 95% CI = 51.3 to 52.9) than males (28.1, 95% CI = 27.5 to 28.7), and higher among practices using EMIS (53.7, 95% CI = 52.9 to 54.4) than those using TPP (20.9, 95% CI = 20.3 to 21.4). CONCLUSION: Current recording of long COVID in primary care is very low, and variable between practices. This may reflect patients not presenting; clinicians and patients holding different diagnostic thresholds; or challenges with the design and communication of diagnostic codes. Increased awareness of diagnostic codes is recommended to facilitate research and planning of services, and also surveys with qualitative work to better evaluate clinicians' understanding of the diagnosis.

Published

2021

80. Comparative effectiveness of sotrovimab and molnupiravir for prevention of severe covid-19 outcomes in patients in the community: observational cohort study with the OpenSAFELY platform.

Author

Bang Zheng, Green, Amelia C. A., Tazare, John, Curtis, Helen J., Fisher, Louis, Nab, Linda, Schultze, Anna, Mahalingasivam, Viyaasan, Parker, Edward P. K., Hulme, William J., Bacon, Sebastian C. J., DeVito, Nicholas J., Bates, Christopher, Evans, David, Inglesby, Peter, Drysdale, Henry, Davy, Simon, Cockburn, Jonathan, Morton, Caroline E., and Hickman, George

Subjects

THERAPEUTIC use of monoclonal antibodies, COVID-19, SCIENTIFIC observation, ANTIVIRAL agents, MANN Whitney U Test, SEVERITY of illness index, TREATMENT effectiveness, T-test (Statistics), DESCRIPTIVE statistics, CHI-squared test, DATA analysis software, SENSITIVITY & specificity (Statistics), LONGITUDINAL method, ADULTS

Published

2022

81. Comparative effectiveness of ChAdOx1 versus BNT162b2 COVID-19 vaccines in Health and Social Care workers in England: a cohort study using OpenSAFELY

Author

Hulme, William J, primary, Williamson, Elizabeth J, additional, Green, Amelia, additional, Bhaskaran, Krishnan, additional, McDonald, Helen I, additional, Rentsch, Christopher T, additional, Schultze, Anna, additional, Tazare, John, additional, Curtis, Helen J, additional, Walker, Alex J, additional, Tomlinson, Laurie, additional, Palmer, Tom, additional, Horne, Elsie, additional, MacKenna, Brian, additional, Morton, Caroline E, additional, Mehrkar, Amir, additional, Fisher, Louis, additional, Bacon, Seb, additional, Evans, Dave, additional, Inglesby, Peter, additional, Hickman, George, additional, Davy, Simon, additional, Ward, Tom, additional, Croker, Richard, additional, Eggo, Rosalind M, additional, Wong, Angel YS, additional, Mathur, Rohini, additional, Wing, Kevin, additional, Forbes, Harriet, additional, Grint, Daniel, additional, Douglas, Ian J, additional, Evans, Stephen JW, additional, Smeeth, Liam, additional, Bates, Chris, additional, Cockburn, Jonathan, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Sterne, Jonathan AC, additional, Hernán, Miguel, additional, and Goldacre, Ben, additional

Published

2021

82. Risk of severe COVID-19 outcomes associated with immune-mediated inflammatory diseases and immune modifying therapies: a nationwide cohort study in the OpenSAFELY platform

Author

MacKenna, Brian, primary, Kennedy, Nicholas A., additional, Mehkar, Amir, additional, Rowan, Anna, additional, Galloway, James, additional, Mansfield, Kathryn E., additional, Bechman, Katie, additional, Matthewman, Julian, additional, Yates, Mark, additional, Brown, Jeremy, additional, Schultze, Anna, additional, Norton, Sam, additional, Walker, Alex J., additional, Morton, Caroline E, additional, Harrison, David, additional, Bhaskaran, Krishnan, additional, Rentsch, Christopher T., additional, Williamson, Elizabeth, additional, Croker, Richard, additional, Bacon, Seb, additional, Hickman, George, additional, Ward, Tom, additional, Davy, Simon, additional, Green, Amelia, additional, Fisher, Louis, additional, Hulme, William, additional, Bates, Chris, additional, Curtis, Helen J., additional, Tazare, John, additional, Eggo, Rosalind M., additional, Evans, David, additional, Inglesby, Peter, additional, Cockburn, Jonathan, additional, McDonald, Helen I., additional, Tomlinson, Laurie A., additional, Mathur, Rohini, additional, Wong, Angel YS, additional, Forbes, Harriet, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Douglas, Ian J., additional, Smeeth, Liam, additional, Lees, Charlie W, additional, Evans, Stephen JW, additional, Goldacre, Ben, additional, Smith, Catherine, additional, and Langan, Sinéad M., additional

Published

2021

83. Severity of Severe Acute Respiratory System Coronavirus 2 (SARS-CoV-2) Alpha Variant (B.1.1.7) in England

Author

Grint, Daniel J, primary, Wing, Kevin, additional, Houlihan, Catherine, additional, Gibbs, Hamish P, additional, Evans, Stephen J W, additional, Williamson, Elizabeth, additional, McDonald, Helen I, additional, Bhaskaran, Krishnan, additional, Evans, David, additional, Walker, Alex J, additional, Hickman, George, additional, Nightingale, Emily, additional, Schultze, Anna, additional, Rentsch, Christopher T, additional, Bates, Chris, additional, Cockburn, Jonathan, additional, Curtis, Helen J, additional, Morton, Caroline E, additional, Bacon, Sebastian, additional, Davy, Simon, additional, Wong, Angel Y S, additional, Mehrkar, Amir, additional, Tomlinson, Laurie, additional, Douglas, Ian J, additional, Mathur, Rohini, additional, MacKenna, Brian, additional, Ingelsby, Peter, additional, Croker, Richard, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, DeVito, Nicholas J, additional, Hulme, Will, additional, Tazare, John, additional, Smeeth, Liam, additional, Goldacre, Ben, additional, and Eggo, Rosalind M, additional

Published

2021

84. Recording of “COVID-19 vaccine declined” among vaccination priority groups: a cohort study on 57.9 million NHS patients’ primary care records in situ using OpenSAFELY

Author

Curtis, Helen J, primary, Inglesby, Peter, additional, MacKenna, Brian, additional, Croker, Richard, additional, Hulme, William, additional, Rentsch, Christopher T, additional, Bhaskaran, Krishnan, additional, Walker, Alex J, additional, Morton, Caroline E, additional, Evans, David, additional, Mehrkar, Amir, additional, Bacon, Seb, additional, Bates, Chris, additional, Hickman, George, additional, Ward, Tom, additional, Morley, Jessica, additional, Cockburn, Jonathan, additional, Davy, Simon, additional, Schultze, Anna, additional, Williamson, Elizabeth, additional, McDonald, Helen I, additional, Tomlinson, Laurie, additional, Mathur, Rohini, additional, Eggo, Rosalind M, additional, Wing, Kevin, additional, Wong, Angel YS, additional, Forbes, Harriet, additional, Tazare, John, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, O’Hanlon, Shaun, additional, Eavis, Alex, additional, Jarvis, Richard, additional, Avramov, Dima, additional, Griffiths, Paul, additional, Fowles, Aaron, additional, Parkes, Nasreen, additional, Evans, Stephen JW, additional, Douglas, Ian J, additional, Smeeth, Liam, additional, and Goldacre, Ben, additional

Published

2021

85. Rates of serious clinical outcomes in survivors of hospitalisation with COVID-19: a descriptive cohort study within the OpenSAFELY platform

Author

Tazare, John, Walker, Alex J, Tomlinson, Laurie, Hickman, George, Rentsch, Christopher T, Williamson, Elizabeth J, Bhaskaran, Krishnan, Evans, David, Wing, Kevin, Mathur, Rohini, Wong, Angel YS, Schultze, Anna, Bacon, Seb, Bates, Chris, Morton, Caroline E, Curtis, Helen J, Nightingale, Emily, McDonald, Helen I, Mehrkar, Amir, Inglesby, Peter, Davy, Simon, MacKenna, Brian, Cockburn, Jonathan, Hulme, William J, Warren-Gash, Charlotte, Bhate, Ketaki, Nitsch, Dorothea, Powell, Emma, Mulick, Amy, Forbes, Harriet, Minassian, Caroline, Croker, Richard, Parry, John, Hester, Frank, Harper, Sam, Eggo, Rosalind M, Evans, Stephen JW, Smeeth, Liam, Douglas, Ian J, and Goldacre, Ben

Abstract

BackgroundPatients with COVID-19 are thought to be at higher risk of cardiometabolic and pulmonary complications, but quantification of that risk is limited. We aimed to describe the overall burden of these complications in survivors of severe COVID-19.MethodsWorking on behalf of NHS England, we used linked primary care records, death certificate and hospital data from the OpenSAFELY platform. We constructed three cohorts: patients discharged following hospitalisation with COVID-19, patients discharged following hospitalisation with pneumonia in 2019, and a frequency-matched cohort from the general population in 2019. We studied eight cardiometabolic and pulmonary outcomes. Absolute rates were measured in each cohort and Cox regression models were fitted to estimate age/sex adjusted hazard ratios comparing outcome rates between discharged COVID-19 patients and the two comparator cohorts.ResultsAmongst the population of 31,716 patients discharged following hospitalisation with COVID-19, rates for majority of outcomes peaked in the first month post-discharge, then declined over the following four months. Patients in the COVID-19 population had markedly increased risk of all outcomes compared to matched controls from the 2019 general population, especially for pulmonary embolism (HR 12.86; 95% CI: 11.23 - 14.74). Outcome rates were more similar when comparing patients discharged with COVID-19 to those discharged with pneumonia in 2019, although COVID-19 patients had increased risk of type 2 diabetes (HR 1.23; 95% CI: 1.05 - 1.44).InterpretationCardiometabolic and pulmonary adverse outcomes are markedly raised following hospitalisation for COVID-19 compared to the general population. However, the excess risks were more comparable to those seen following hospitalisation with pneumonia. Identifying patients at particularly high risk of outcomes would inform targeted preventive measures.FundingWellcome, Royal Society, National Institute for Health Research, National Institute for Health Research Oxford Biomedical Research Centre, UK Medical Research Council, UK Research and Innovation, Health and Safety Executive.

Published

2021

86. Additional file 1 of Association between warfarin and COVID-19-related outcomes compared with direct oral anticoagulants: population-based cohort study

Author

Wong, Angel Y. S., Tomlinson, Laurie A., Brown, Jeremy P., Elson, William, Walker, Alex J., Schultze, Anna, Morton, Caroline E., Evans, David, Inglesby, Peter, MacKenna, Brian, Bhaskaran, Krishnan, Rentsch, Christopher T., Powell, Emma, Williamson, Elizabeth, Croker, Richard, Bacon, Seb, Hulme, William, Bates, Chris, Curtis, Helen J., Mehrkar, Amir, Cockburn, Jonathan, McDonald, Helen I., Mathur, Rohini, Wing, Kevin, Forbes, Harriet, Eggo, Rosalind M., Evans, Stephen J. W., Smeeth, Liam, Goldacre, Ben, and Douglas, Ian J.

Abstract

Additional file 1. Additional figures and tables for main analyses and sensitivity analyses.

Published

2021

87. Overall and cause-specific hospitalisation and death after COVID-19 hospitalisation in England: cohort study in OpenSAFELY using linked primary care, secondary care and death registration data

Author

Bhaskaran, Krishnan, primary, Rentsch, Christopher T, additional, Hickman, George, additional, Hulme, William J, additional, Schultze, Anna, additional, Curtis, Helen J, additional, Wing, Kevin, additional, Warren-Gash, Charlotte, additional, Tomlinson, Laurie, additional, Bates, Chris J, additional, Mathur, Rohini, additional, MacKenna, Brian, additional, Mahalingasivam, Viyaasan, additional, Wong, Angel, additional, Walker, Alex J, additional, Morton, Caroline E, additional, Grint, Daniel, additional, Mehrkar, Amir, additional, Eggo, Rosalind M, additional, Inglesby, Peter, additional, Douglas, Ian J, additional, McDonald, Helen I, additional, Cockburn, Jonathan, additional, Williamson, Elizabeth J, additional, Evans, David, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Evans, Stephen JW, additional, Bacon, Sebastian, additional, Smeeth, Liam, additional, and Goldacre, Ben, additional

Published

2021

88. Risks of covid-19 hospital admission and death for people with learning disability: population based cohort study using the OpenSAFELY platform

Author

Williamson, Elizabeth J, primary, McDonald, Helen I, additional, Bhaskaran, Krishnan, additional, Walker, Alex J, additional, Bacon, Sebastian, additional, Davy, Simon, additional, Schultze, Anna, additional, Tomlinson, Laurie, additional, Bates, Chris, additional, Ramsay, Mary, additional, Curtis, Helen J, additional, Forbes, Harriet, additional, Wing, Kevin, additional, Minassian, Caroline, additional, Tazare, John, additional, Morton, Caroline E, additional, Nightingale, Emily, additional, Mehrkar, Amir, additional, Evans, Dave, additional, Inglesby, Peter, additional, MacKenna, Brian, additional, Cockburn, Jonathan, additional, Rentsch, Christopher T, additional, Mathur, Rohini, additional, Wong, Angel Y S, additional, Eggo, Rosalind M, additional, Hulme, William, additional, Croker, Richard, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Douglas, Ian J, additional, Evans, Stephen J W, additional, Smeeth, Liam, additional, Goldacre, Ben, additional, and Kuper, Hannah, additional

Published

2021

89. Mortality among Care Home Residents in England during the first and second waves of the COVID-19 pandemic: an analysis of 4.3 million adults over the age of 65

Author

Schultze, Anna, primary, Nightingale, Emily, additional, Evans, David, additional, Hulme, William, additional, Rosello, Alicia, additional, Bates, Chris, additional, Cockburn, Jonathan, additional, MacKenna, Brian, additional, Curtis, Helen J, additional, Morton, Caroline E, additional, Croker, Richard, additional, Bacon, Seb, additional, McDonald, Helen I, additional, Rentsch, Christopher T, additional, Bhaskaran, Krishnan, additional, Mathur, Rohini, additional, Tomlinson, Laurie A, additional, Williamson, Elizabeth J, additional, Forbes, Harriet, additional, Tazare, John, additional, Grint, Daniel, additional, Walker, Alex J, additional, Inglesby, Peter, additional, DeVito, Nicholas J, additional, Mehrkar, Amir, additional, Hickman, George, additional, Davy, Simon, additional, Ward, Tom, additional, Fisher, Louis, additional, Green, Amelia CA, additional, Wing, Kevin, additional, Wong, Angel YS, additional, McManus, Robert, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Evans, Stephen JW, additional, Douglas, Ian J, additional, Smeeth, Liam, additional, Eggo, Rosalind M, additional, Goldacre, Ben, additional, and Leon, David A, additional

Published

2021

90. Ethnic disparities in COVID-19: increased risk of infection or severe disease? – Authors' reply

Author

Mathur, Rohini, primary, Rentsch, Christopher T, additional, Morton, Caroline E, additional, Eggo, Rosalind M, additional, Bhaskaran, Krishnan, additional, Tomlinsonn, Laurie, additional, Smeeth, Liam, additional, and Goldacre, Ben, additional

Published

2021

91. Towards a framework for evaluating the safety, acceptability and efficacy of AI systems for health: an initial synthesis (Preprint)

Author

Morley, Jessica, primary, Morton, Caroline, additional, and Karpathakis, Kassandra, additional

Published

2021

92. Association between living with children and outcomes from COVID-19: an OpenSAFELY cohort study of 12 million adults in England

Author

Forbes, Harriet, Morton, Caroline E, Bacon, Seb, McDonald, Helen I, Minassian, Caroline, Brown, Jeremy P, Rentsch, Christopher T, Mathur, Rohini, Schultze, Anna, DeVito, Nicholas J, MacKenna, Brian, Hulme, William J, Croker, Richard, Walker, Alex J, Williamson, Elizabeth J, Bates, Chris, Mehrkar, Amir, Curtis, Helen J, Evans, David, Wing, Kevin, Inglesby, Peter, Drysdale, Henry, Wong, Angel YS, Cockburn, Jonathan, McManus, Robert, Parry, John, Hester, Frank, Harper, Sam, Douglas, Ian J, Smeeth, Liam, Evans, Stephen JW, Bhaskaran, Krishnan, Eggo, Rosalind M, Goldacre, Ben, and Tomlinson, Laurie A

Abstract

BackgroundClose contact with children may provide cross-reactive immunity to SARs-CoV-2 due to more frequent prior coryzal infections from seasonal coronaviruses. Alternatively, close contact with children may increase risk of SARs-CoV-2 infection. We investigated whether risk of infection with SARs-CoV-2 and severe outcomes differed between adults living with and without children.MethodsWorking on behalf of NHS England, we conducted a population-based cohort study using primary care data and pseudonymously-linked hospital and intensive care admissions, and death records, from patients registered in general practices representing 40% of England. Using multivariable Cox regression, we calculated fully-adjusted hazard ratios (HR) of outcomes from 1st February-3rd August 2020 comparing adults living with and without children in the household.FindingsAmong 9,157,814 adults ≤65 years, living with children 0-11 years was not associated with increased risks of recorded SARS-CoV-2 infection, COVID-19 related hospital or ICU admission but was associated with reduced risk of COVID-19 death (HR 0.75, 95%CI 0.62-0.92). Living with children aged 12-18 years was associated with a small increased risk of recorded SARS-CoV-2 infection (HR 1.08, 95%CI 1.03-1.13), but not associated with other COVID-19 outcomes. Living with children of any age was also associated with lower risk of dying from non-COVID-19 causes. Among 2,567,671 adults >65 years there was no association between living with children and outcomes related to SARS-CoV-2. We observed no consistent changes in risk following school closure.InterpretationFor adults living with children there is no evidence of an increased risk of severe COVID-19 outcomes. These findings have implications for determining the benefit-harm balance of children attending school in the COVID-19 pandemic.FundingThis work was supported by the Medical Research Council MR/V015737/1.Research in contextEvidence before this studyWe searched MEDLINE on 19th October 2020 for population-based epidemiological studies comparing the risk of SARS-CoV-2 infection and COVID-19 disease in people living with and without children. We searched for articles published in 2020, with abstracts available, and terms “(children or parents or dependants) AND (COVID or SARS-CoV-2 or coronavirus) AND (rate or hazard or odds or risk), in the title, abstract or keywords. 244 papers were identified for screening but none were relevant. One additional study in preprint was identified on medRxiv and found a reduced risk of hospitalisation for COVID-19 and a positive SARS-CoV-2 infection among adult healthcare workers living with children.Added value of this studyThis is the first population-based study to investigate whether the risk of recorded SARS-CoV-2 infection and severe outcomes from COVID-19 differ between adults living in households with and without school-aged children during the UK pandemic. Our findings show that for adults living with children there is no evidence of an increased risk of severe COVID-19 outcomes although there may be a slightly increased risk of recorded SARS-CoV-2 infection for working-age adults living with children aged 12 to 18 years. Working-age adults living with children 0 to 11 years have a lower risk of death from COVID-19 compared to adults living without children, with the effect size being comparable to their lower risk of death from any cause. We observed no consistent changes in risk of recorded SARS-CoV-2 infection and severe outcomes from COVID-19 comparing periods before and after school closure.Implications of all the available evidenceOur results demonstrate no evidence of serious harms from COVID-19 to adults in close contact with children, compared to those living in households without children. This has implications for determining the benefit-harm balance of children attending school in the COVID-19 pandemic.

Published

2020

93. Association Between Common Infections and Incident Post-Stroke Dementia: A Cohort Study Using the Clinical Practice Research Datalink

Author

Morton, Caroline E, Forbes, Harriet J, Pearce, Neil, Smeeth, Liam, and Warren-Gash, Charlotte

Subjects

post-stroke dementia, electronic health records, cohort study, lcsh:RC109-216, Clinical Epidemiology, infections, lcsh:Infectious and parasitic diseases, Original Research

Abstract

Caroline E Morton,1,2 Harriet J Forbes,1 Neil Pearce,3 Liam Smeeth,1 Charlotte Warren-Gash1 1Department of Non-Communicable Disease Epidemiology, London School of Hygiene and Tropical Medicine, London WC1E 7HT, UK; 2EBM DataLab, Nuffield Department of Primary Care Health Sciences, University of Oxford, Oxford OX2 6GG, UK; 3Department of Medical Statistics, London School of Hygiene and Tropical Medicine, London WC1E 7HT, UKCorrespondence: Caroline E Morton MortonEBM DataLab, Nuffield Department of Primary Care Health Sciences, University of Oxford, Radcliffe Observatory Quarter, Woodstock Road, Oxford OX2 6GG, UKTel +44 1865 289300Email caroline.morton@phc.ox.ac.ukPurpose: To investigate the association between common infections and post-stroke dementia in a UK population-based cohort.Materials and Methods: A total of 60,392 stroke survivors (51.2% male, median age 74.3 years, IQR 63.9– 82.4 years) were identified using primary care records from the Clinical Practice Research Datalink (CPRD) linked to Hospital Episode Statistics (HES) with no history of dementia. Primary exposure was any GP-recorded infection (lower respiratory tract infection (LRTI), urinary tract infection (UTI) requiring antibiotics, skin and soft tissue infection requiring antibiotics) occurring after stroke. The primary outcome was incident all-cause dementia recorded in primary care records. In sensitivity analyses, we restricted to individuals with linked hospital records and expanded definitions to include ICD-10 coded hospital admissions. We used multivariable Cox regression to investigate the association between common infections and dementia occurring from 3 months to 5 years after stroke.Results: Of 60,392 stroke survivors, 20,969 (34.7%) experienced at least one infection and overall 4512 (7.5%) developed dementia during follow-up. Early dementia (3 months to 1-year post-stroke) risk was increased in those with at least one GP-recorded infection (HR 1.44, 95% CI 1.21– 1.71), with stronger associations when hospitalised infections were included (HR 1.84, 95% CI 1.58– 2.14). Late dementia (1– 5 years) was only associated with hospitalised, but not with GP-recorded, infections.Conclusion: There was evidence of an association between common infections and post-stroke dementia, strongest in the 3– 12 months following stroke. Better understanding of this relationship could help inform knowledge of pathways to dementia post-stroke and targeting of preventive interventions.Keywords: post-stroke dementia, infections, cohort study, electronic health records

Published

2020

94. Study protocol:Comparison of different risk prediction modelling approaches for COVID-19 related death using the OpenSAFELY platform

Author

Williamson, Elizabeth J., Tazare, John, Bhaskaran, Krishnan, Walker, Alex J., McDonald, Helen I., Tomlinson, Laurie, Bacon, Sebastian, Bates, Chris, Curtis, Helen J., Forbes, Harriet, Minassian, Caroline, Morton, Caroline E., Nightingale, Emily, Mehrkar, Amir, Evans, Dave, Nicholson, Brian D., Leon, David, Inglesby, Peter, MacKenna, Brian, Cockburn, Jonathan, Davies, Nicholas G., Hulme, William, Morley, Jessica, Douglas, Ian J., Rentsch, Christopher T., Mathur, Rohini, Wong, Angel, Schultze, Anna, Croker, Richard, Parry, John, Hester, Frank, Harper, Sam, Perera, Rafael, Grieve, Richard, Harrison, David, Steyerberg, Ewout, Eggo, Rosalind M., Diaz-Ordaz, Karla, Keogh, Ruth, Evans, Stephen J.W., Smeeth, Liam, Goldacre, Ben, Williamson, Elizabeth J., Tazare, John, Bhaskaran, Krishnan, Walker, Alex J., McDonald, Helen I., Tomlinson, Laurie, Bacon, Sebastian, Bates, Chris, Curtis, Helen J., Forbes, Harriet, Minassian, Caroline, Morton, Caroline E., Nightingale, Emily, Mehrkar, Amir, Evans, Dave, Nicholson, Brian D., Leon, David, Inglesby, Peter, MacKenna, Brian, Cockburn, Jonathan, Davies, Nicholas G., Hulme, William, Morley, Jessica, Douglas, Ian J., Rentsch, Christopher T., Mathur, Rohini, Wong, Angel, Schultze, Anna, Croker, Richard, Parry, John, Hester, Frank, Harper, Sam, Perera, Rafael, Grieve, Richard, Harrison, David, Steyerberg, Ewout, Eggo, Rosalind M., Diaz-Ordaz, Karla, Keogh, Ruth, Evans, Stephen J.W., Smeeth, Liam, and Goldacre, Ben

Abstract

On March 11th 2020, the World Health Organization characterised COVID-19 as a pandemic. Responses to containing the spread of the virus have relied heavily on policies involving restricting contact between people. Evolving policies regarding shielding and individual choices about restricting social contact will rely heavily on perceived risk of poor outcomes from COVID-19. In order to make informed decisions, both individual and collective, good predictive models are required. For outcomes related to an infectious disease, the performance of any risk prediction model will depend heavily on the underlying prevalence of infection in the population of interest. Incorporating measures of how this changes over time may result in important improvements in prediction model performance. This protocol reports details of a planned study to explore the extent to which incorporating time-varying measures of infection burden over time improves the quality of risk prediction models for COVID-19 death in a large population of adult patients in England. To achieve this aim, we will compare the performance of different modelling approaches to risk prediction, including static cohort approaches typically used in chronic disease settings and landmarking approaches incorporating time-varying measures of infection prevalence and policy change, using COVID-19 related deaths data linked to longitudinal primary care electronic health records data within the Open SAFELY secure analytics platform.

Published

2021

95. Identifying Care Home Residents in Electronic Health Records - An OpenSAFELY Short Data Report

Author

Schultze, Anna, primary, Bates, Chris, additional, Cockburn, Jonathan, additional, MacKenna, Brian, additional, Nightingale, Emily, additional, Curtis, Helen J, additional, Hulme, William J, additional, Morton, Caroline E, additional, Croker, Richard, additional, Bacon, Seb, additional, McDonald, Helen I, additional, Rentsch, Christopher T, additional, Bhaskaran, Krishnan, additional, Mathur, Rohini, additional, Tomlinson, Laurie A, additional, Williamson, Elizabeth J, additional, Forbes, Harriet, additional, Tazare, John, additional, Grint, Daniel J, additional, Walker, Alex J, additional, Inglesby, Peter, additional, DeVito, Nicholas J, additional, Mehrkar, Amir, additional, Hickman, George, additional, Davy, Simon, additional, Ward, Tom, additional, Fisher, Louis, additional, Evans, David, additional, Wing, Kevin, additional, Wong, Angel YS, additional, McManus, Robert, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Evans, Stephen JW, additional, Douglas, Ian J, additional, Smeeth, Liam, additional, Eggo, Rosalind M, additional, and Goldacre, Ben, additional

Published

2021

96. Case fatality risk of the SARS-CoV-2 variant of concern B.1.1.7 in England, 16 November to 5 February

Author

Grint, Daniel J, primary, Wing, Kevin, additional, Williamson, Elizabeth, additional, McDonald, Helen I, additional, Bhaskaran, Krishnan, additional, Evans, David, additional, Evans, Stephen JW, additional, Walker, Alex J, additional, Hickman, George, additional, Nightingale, Emily, additional, Schultze, Anna, additional, Rentsch, Christopher T, additional, Bates, Chris, additional, Cockburn, Jonathan, additional, Curtis, Helen J, additional, Morton, Caroline E, additional, Bacon, Sebastian, additional, Davy, Simon, additional, Wong, Angel YS, additional, Mehrkar, Amir, additional, Tomlinson, Laurie, additional, Douglas, Ian J, additional, Mathur, Rohini, additional, Blomquist, Paula, additional, MacKenna, Brian, additional, Ingelsby, Peter, additional, Croker, Richard, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, DeVito, Nicholas J, additional, Hulme, Will, additional, Tazare, John, additional, Goldacre, Ben, additional, Smeeth, Liam, additional, and Eggo, Rosalind M, additional

Published

2021

97. Association between living with children and outcomes from covid-19: OpenSAFELY cohort study of 12 million adults in England

Author

Forbes, Harriet, primary, Morton, Caroline E, additional, Bacon, Seb, additional, McDonald, Helen I, additional, Minassian, Caroline, additional, Brown, Jeremy P, additional, Rentsch, Christopher T, additional, Mathur, Rohini, additional, Schultze, Anna, additional, DeVito, Nicholas J, additional, MacKenna, Brian, additional, Hulme, William J, additional, Croker, Richard, additional, Walker, Alex J, additional, Williamson, Elizabeth J, additional, Bates, Chris, additional, Mehrkar, Amir, additional, Curtis, Helen J, additional, Evans, David, additional, Wing, Kevin, additional, Inglesby, Peter, additional, Drysdale, Henry, additional, Wong, Angel Y S, additional, Cockburn, Jonathan, additional, McManus, Robert, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Douglas, Ian J, additional, Smeeth, Liam, additional, Evans, Stephen J W, additional, Bhaskaran, Krishnan, additional, Eggo, Rosalind M, additional, Goldacre, Ben, additional, and Tomlinson, Laurie A, additional

Published

2021

98. Case fatality risk of the SARS-CoV-2 variant of concern B.1.1.7 in England

Author

Grint, Daniel J, primary, Wing, Kevin, additional, Williamson, Elizabeth, additional, McDonald, Helen I, additional, Bhaskaran, Krishnan, additional, Evans, David, additional, Evans, Stephen JW, additional, Walker, Alex J, additional, Hickman, George, additional, Nightingale, Emily, additional, Schultze, Anna, additional, Rentsch, Christopher T, additional, Bates, Chris, additional, Cockburn, Jonathan, additional, Curtis, Helen J, additional, Morton, Caroline E, additional, Bacon, Sebastian, additional, Davy, Simon, additional, Wong, Angel YS, additional, Mehrkar, Amir, additional, Tomlinson, Laurie, additional, Douglas, Ian J, additional, Mathur, Rohini, additional, Blomquist, Paula, additional, MacKenna, Brian, additional, Ingelsby, Peter, additional, Croker, Richard, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, DeVito, Nicholas J, additional, Hulme, Will, additional, Tazare, John, additional, Goldacre, Ben, additional, Smeeth, Liam, additional, and Eggo, Rosalind M, additional

Published

2021

99. Hydroxychloroquine treatment does not reduce COVID-19 mortality; underdosing to the wrong patients? – Authors' reply

Author

Rentsch, Christopher T, primary, DeVito, Nicholas J, additional, MacKenna, Brian, additional, Morton, Caroline E, additional, Bhaskaran, Krishnan, additional, Brown, Jeremy P, additional, Schultze, Anna, additional, Hulme, William J, additional, Croker, Richard, additional, Walker, Alex J, additional, Williamson, Elizabeth J, additional, Bates, Chris, additional, Bacon, Seb, additional, Mehrkar, Amir, additional, Curtis, Helen J, additional, Evans, David, additional, Wing, Kevin, additional, Inglesby, Peter, additional, Mathur, Rohini, additional, Drysdale, Henry, additional, Wong, Angel Y S, additional, McDonald, Helen I, additional, Cockburn, Jonathan, additional, Forbes, Harriet, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Smeeth, Liam, additional, Douglas, Ian J, additional, Dixon, William G, additional, Evans, Stephen J W, additional, Tomlinson, Laurie, additional, and Goldacre, Ben, additional

Published

2021

100. Changes in the rate of cardiometabolic and pulmonary events during the COVID-19 pandemic

Author

Walker, Alex J, primary, Tazare, John, additional, Hickman, George, additional, Rentsch, Christopher T, additional, Williamson, Elizabeth J, additional, Bhaskaran, Krishnan, additional, Evans, David, additional, Wing, Kevin, additional, Mathur, Rohini, additional, Wong, Angel YS, additional, Schultze, Anna, additional, Bacon, Sebastian CJ, additional, Bates, Chris, additional, Morton, Caroline E, additional, Curtis, Helen J, additional, Nightingale, Emily, additional, McDonald, Helen I, additional, Mehrkar, Amir, additional, Inglesby, Peter, additional, MacKenna, Brian, additional, Cockburn, Jonathan, additional, Hulme, William J, additional, Forbes, Harriet, additional, Minassian, Caroline, additional, Croker, Richard, additional, Parry, John, additional, Hester, Frank, additional, Harper, Sam, additional, Eggo, Rosalind M, additional, Evans, Stephen JW, additional, Smeeth, Liam, additional, Douglas, Ian J, additional, Tomlinson, Laurie, additional, and Goldacre, Ben, additional

Published

2021