![]() Data were collected from a sample of 31 family members above the age of 18 years from communities of the Western Cape Province and analysed through thematic analysis. A qualitative approach was employed to guide the gathering and analysis of the data. This study, therefore, explores the lessons learnt during COVID-19 by South African families. This is novel research in the South African context with no known information regarding family life during and post the pandemic. She is joined by Emma Bergstrom, a clinical research nurse who normally plays a critical role in Stephanie’s research, as she is responsible for recruiting participants to clinical trials and collecting patient samples, however in recent months she has been back on the wards treating COVID-19 patients.In a pandemic, such as COVID-19, with every single person struggling to deal with the unknown, it is often within the family that support is found but it is also within the family that circumstances, contexts and behaviours could further drive the pandemic and where they struggle to cope. Today she will describe the scientific principles behind the test that detects if you currently have the virus, and the new tests that will test if you have antibodies against the virus and thus are likely to be protected from future infection. ![]() Since April she has been working in a diagnostics testing centre at Milton Keynes. When COVID-19 hit the UK she responded to a call from the NIHR (National Institute for Health Research) for scientists with molecular biology skills to help in the testing centres. She will be joined by Zuzanna Jablonska and Elsa Lawrence, both currently undertaking the MSc in Genes Drugs and Stem Cells, and involved in her research.ĭr Stephanie Ascough is a scientist who normally investigates the body’s response to viral respiratory infections like influenza. In this session cardiac molecular biologist, Dr Michela Noseda, one of the scientists contributing to this work, will be discussing how she has adapted her single cell genomics projects, which focus on cardiac disease to investigate the response to COVID-19 at a single cell level. In response to COVID-19 these same scientists are now investigating the response of individual human cell types to COVID-19 infection. The central approach is based on the use of single cell genomics and computational biology to generate unique IDs for each type of cell in the body (eg neurons in the brain, lung epithelial (lining) cell, heart muscle cell, skin cell etc) from healthy as well as diseased tissues and organs. Since 2016 a collaborative and interdisciplinary community of world-leading scientists has been working together with the aim to build a Human Cell Atlas - a collection of maps that will describe and define the cellular basis of health and disease. Safeguarding and child protection policy.The Makerspace Manual: A Guide to Bringing Ideas to Life.Year 10 Insights into Science and Engineering Summer School.Search Imperial Search Schools Outreach Section Navigation
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