Episodes

  • What does a midwife do?

    What does a midwife do?
    May 13 2026
    In this explainer episode, we’ve asked Kate Stanbury, research midwife on the Generation Study, to tell us more about the vital role that midwives play. You can also find a series of short videos explaining some of the common terms you might encounter about genomics on our YouTube channel. If you’ve got any questions, or have any other topics you’d like us to explain, let us know on podcast@genomicsengland.co.uk. You can download the transcript or read it below. Florence: What does a midwife do? My name is Florence Cornish, and today I'm joined by Kate Stanbury, who is a research midwife working on the Generation Study, and she is going to be explaining the vital role that midwives play. So, to start off with Kate, I'm sure that most of our listeners will have heard of midwives before or maybe even like come across them in healthcare settings, but it would be good to hear from you more about what a midwife actually does. Kate: Yeah, absolutely. So, a midwife is someone who provides care and support to birthing people and their families during pregnancy, labour, and after birth as well. A lot of people just think of midwives as delivering babies, but we do a lot of other stuff around that as well. There are lots of different types of midwives as well, so we've got community midwives that might come out to your home and see you and your baby. We've got specialist midwives who might have a certain medical condition that they're experts in. And then we also have people like myself who are research midwives as well. Florence: So, you talked about a couple of different types of midwives there. Could you tell me more about the specific type of midwife that you are? Kate: Yeah, so a research midwife, as the name suggests, does research, so I also look after women during their pregnancy as well. A lot of the research that we do relates to sort of high-risk pregnancies, and so we approach women for specific research studies that might have a particular characteristic that we are investigating. We also recruit patients to these studies. We look after them during their pregnancies when they're taking part in the studies, and then we follow them up after their birth as well to collect data and see if what we've done as part of the research has had an impact. Florence: And so you are working on the Generation Study, and if any listeners want to learn more about that, then they can check out our previous Genomics 101 episode, What is the Generation Study? Kate, could you tell me a little bit more about what led you to become a midwife? Like what was the journey that you took to get to this point? Kate: Yeah, so I started my degree in midwifery straight out of college. So, I was quite young at the time, I was 18. I went to university, did a three-year degree to get a bachelor's of midwifery. That is probably the most common route that people go through in terms of to become a midwife, but some people choose to do adult nursing first, and then they can do a conversion course into midwifery, which is about 18 months long as well. So that's usually the most common route. I was sort of drawn to the occupation because one of my close friends, her mum was a midwife, so I used to see her in their lounge. They used to have lots of cards and things that she would display from patients that she'd looked after, which was really nice. Florence: And so what makes you passionate about working in the Generation Study and what motivates you in your role? Kate: I think being able to have an impact on how we can improve care, I think that's really important. Obviously everything that we do is evidence-based, so that's what really drew me to become a research midwife and being able to take part in research studies that we can look back on in the future and say, “oh, I was part of that, and because of that we've been able to improve the lives of families and babies going forward.” That's really important to me. Florence: Yeah. And, and just building off of that, have there been any specific moments that have like stood out to you during your time working on the study? Kate: Yeah, I think being able to see it from its starting point, so as a research midwife as well as working on the Generation Study. I sort of see people in clinics, I tell them about the study and then they might sign up to it. But then the other half of my role is a re regional results coordinator for the Generation Study. So I might then see that patient come through to me with a condition suspected result, and being able to follow that family through their sort of patient journey, from consent taking part in the study to getting their baby into NHS care, that potentially we might be able to give treatments really quickly for a baby that might have a really rare genetic problem. And being able to see that that process works really well and improves those outcomes for that baby and that family. That's really, really something that's amazing to see and ...
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    6 mins
  • How is genomic research being guided by patient and participant voices?

    How is genomic research being guided by patient and participant voices?
    Apr 29 2026
    In this episode, we celebrate 10 years of the Participant Panel and explore how genomic research is being guided by patient and participant voices. Made up of people who have consented for their genome, or the genome of their loved one, to be included in the National Genomics Research Library, the Panel plays a vital role in shaping how research is designed, how data is used, and how genomics is communicated. From influencing policy discussions to to advising the Genomics England board, their work helps ensure lived experience is embedded from the very beginning. Over the past decade, the Panel has driven meaningful change. From advocating for greater transparency and accessibility, to challenging how the genomics community talks about genetic conditions. But beyond the impact, this episode focuses on the people behind the work: their motivations, experiences, and the realities of representing a wider community. Our host, Sharon Jones is joined by: Kirsty Irvine – Chair of the Participant Panel and member of the NHS Genomic Medical Service People and Communities Forum Lisa Beaton - member of the Participant Panel, panel member for the North East and Yorkshire GMSA and research and development for Harrogate Hospital Foundation Trust Frances Allan – member of the Participant Panel and member of the following: CRUK Women+s Cancers PPIE at CambridgeMHRA Yellowcard BiobankNorthumberland NHS health forumOvacome HealthforumIMPRESS cancer diagnostic tool study participant You can find out more about the Participant Panel in our recent Genomics 101 episode which Lisa featured in, titled ‘What is the Participant Panel?’, and you can read about their timeline of achievements over the last 10 years. “One of the things as participants that we're always really keen to get across, particularly to the scientists, is that behind every piece of data is a face and a name” You can download the transcript, or read it below. Sharon Jones: This time on Behind the Genes, we'll be celebrating the 10th anniversary of the Participant Panel, and we'll discuss how genomic research is being guided by patient and participant voices. The panel is made up of participants whose data is held in the National Genomic Research Library. They help us to put lived experience at the heart of our work. My name is Sharon Jones, and in this podcast we cover everything from cutting-edge research to real-life stories in genomic healthcare. Joining me this time are Kirsty Irvine, chair of the Participant Panel, and Frances Allan and Lisa Beaton, who are also both members. Collectively, they wear many hats for a range of organisations, which are listed in the episode description. As you'll hear, this one is all about people power. So back in 2016, the Participant Panel was in its infancy, with 12 founding members bringing lived experience of rare conditions. The idea was straightforward but radical: that the people whose genomes were being sequenced should have a real say in how the work was done. Over the decade since, the Panel has shaped some significant changes, from pushing for a service that let participants track their own samples, to publishing a language guide that changed how the genomics community talks about genetic conditions and disability. They've navigated the pandemic, welcomed new members and, in 2025, launched their first formal strategy. This year they mark their 10th anniversary, and today we're hearing from some of the people who've been part of that story. So welcome Kirsty, Frances and Lisa. So what was your reason for joining the Participant Panel? And I will ask Frances that. Frances Allan: Hi Sharon. I joined the Panel back in 2023 following a cancer diagnosis, and as part of that investigation I was fortunate enough to have a whole genome sequence performed. And they also asked would I be interested in taking part in a panel who look after this information, and I ticked the box and then thought no more of it. And then a month or so later I heard from the then Chair, Jillian, um, and had a chat about genomics and joined the Panel, and it was a very good decision that I made. Sharon Jones: Did you have any kind of expectations? What were your early thoughts when you kind of accepted? Frances Allan: Not many thoughts. So I was in the middle of my chemotherapy treatment, but one of the things that really stood out: when I signed the consent form, I said, well, of course I would do that. And the clinician consenting me, said, actually, not everybody does. And I thought, well, why would they not want to do that? So I was really interested in finding out about that. I had no idea how influential the Panel was, and that was great to discover as I became part of it. But seeing the breadth of the research and the knowledge already gained, compared to my rudimentary A-level Biology from many, many years ago, gave me incredible hope, um, and really helped me through a very difficult, ...
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    36 mins
  • What is the Participant Panel at Genomics England?

    What is the Participant Panel at Genomics England?
    Apr 15 2026
    In this explainer episode, we’ve asked Lisa Beaton, Panel Member and Parent Representative for SWAN UK, to tell us about the Participant Panel. You can also find a series of short videos explaining some of the common terms you might encounter about genomics on our YouTube channel. If you’ve got any questions, or have any other topics you’d like us to explain, let us know on podcast@genomicsengland.co.uk. You can download the transcript or read it below. Florence: What is the Participant Panel at Genomics England? My name is Florence Cornish and today I'm joined with Lisa Beaton, who is a Parent Representative for Syndrome Without a Name, Swan UK, and a member of the Participant Panel. And we have a special episode today because it is to celebrate the 10th anniversary, so a decade of the Participant Panel at Genomics England. Lisa, I think it would be good to start with a quick rundown of what the Participant Panel is. If you had to describe it in a few sentences, what would you say? Lisa: Ooh, that's tricky actually, to cram all our wealth of expertise and knowledge into that, I guess in just a few sentences. But essentially, we are a group of lay people who have all contributed by way of being on genomic studies, such as the 100,000 Genome, for our data to be held in the NGRL, the National Genomic Research Library. We may have joined because our children or another family member have a disorder or a syndrome or a condition that requires further genetic testing. So, there are panel members who represent from different cancer communities, there's panel members who have connections with rare disease, and then there's panel members like myself who come from the undiagnosed community, where we joined to essentially try and find a diagnosis in respect of our daughter. The majority of us don't have any kind of medical background. We're all just individuals who collectively are really interested in where genomics and genetics is going to take us in the future. But probably most importantly, we all feel a sense of responsibility to ensure that there's equity of access, to diversify, to basically ensure that the lived experience of real-life people become more than just the data point to the scientific and research community. We, we are real people. Florence: Yeah. And could you explain a little bit more about the practical role of the panel? So what you aim to do as a group and what it involves to be a part of it? Lisa: Certainly. So as a panel, we meet either in person or on Teams approximately four times a year. So quarterly. We also get to listen to what we call 'Lunch and Learns', which have been absolutely fascinating. It's different people from different areas of the scientific and research community who will come along and talk to us about their latest discovery or what new things have been found. What's in pipelines, what we can be looking forward to. There's all sorts of different aspects of that. So currently a project that's been quite well known in the news is the Generation Study, the study of newborns. There have been research interviews and meetings around cancer studies. It's really exciting actually because every time there's something kind of new to learn or to see where progress is going, and that is just, I guess that's what most of us are there for, really just to see it in action. The role of the panel really is there to hold accountability, to ensure that, you know, data is being kept in a safe and secure manner, to ask any questions that we have about that. I think probably, we are all just members of the public, so our interests are widely there to ensure, you know, we're representing what we feel we would want to know, and therefore, hopefully in connection with what other members of who have kindly donated their genetic information and material towards studies so we, we can hold that agency for them and just to get more information, knowledge, share that out there with power. Power to the people, as it were! Florence: I'm interested if there's anything in particular that comes to mind that the panel has achieved that you are especially proud of, or that you are the most proud of. Lisa: Again, I think to squash that into just kind of one or two sentences is probably impossible, because there's so many things that panel members are proud of. One of the things that has definitely, we feel made a huge difference is the Plain Language Guide. We are absolutely adamant that, you know, everything should be as clear and easy to understand as possible. It's all very well having all the, the science and researchers who, you almost speak like a different language. For us, to get that passionately back to everybody who, who can be involved at different levels. You know, if you've contributed your time, your information, your DNA to research, then everybody who's done that, whether they speak English as a first language or second language, or if they have any kind of say, learning ...
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    10 mins
  • Ana Lisa Tavares and Mel Dixon: What if a treatment created for one person could transform care for thousands?

    Ana Lisa Tavares and Mel Dixon: What if a treatment created for one person could transform care for thousands?
    Mar 25 2026
    In this episode, we explore how individualised medicines are evolving from “n=1” treatments (a treatment effective for a single individual) into approaches that could transform care for many people living with rare conditions. Advances in genomic medicine are making it possible to design highly targeted treatments based on an individual’s genetic information. While these therapies may begin as bespoke solutions for a single patient, they can often be adapted, refined or reused to benefit others with similar conditions. While the research is evolving, the systems needed to deliver these treatments at scale are still catching up. From regulation to access, our guests discuss what needs to change to turn this potential into reality. Our host Sharon Jones, is joined by: Ana Lisa Tavares, Clinical Lead for Rare Disease Research at Genomics England Mel Dixon, Participant Panel member and CEO and Founder of Cure DHDDS If you enjoyed today’s conversation, please like and share wherever you listen to your podcasts. “However rare your condition is, someone has a right to have hope. Everybody should have a hope that we should be able to find a treatment.” You can download the transcript or read it below. Sharon: What if treatments once designed for just one person could now help many others? Thanks to advances in genomic medicine, regulations are changing and research is expanding. This opens up more options for treatments for rare conditions. But what does this mean and how close is real change? I'm Sharon Jones, and this is Behind the Genes. We look at how genomics is changing healthcare, covering everything from cutting-edge research to real-life stories. Individualised medicines are a fast-moving area, but there's still a big gap between scientific progress and what's actually happening to patients. You could call it the gap between hype and hope. Ana Lisa: However rare your condition is, someone has a right to have hope. Everybody should have a hope that we should be able to find a treatment. Sharon: Coming up, we'll hear from Ana Lisa Tavares, Clinical Lead for Rare Disease Research at Genomics England, and Consultant in Clinical Genetics at Cambridge University Hospital, as well as Mel Dixon, member of the Participant Panel at Genomics England and CEO and founder of Cure DHDDS. Mel opens this chat by explaining why developments in individualised healthcare really matter to her. Mel: This issue is really personal to me. I have three children, two of whom are affected with an ultra-rare DHDDS gene variant, for which there is currently no treatment. Their condition causes symptoms such as, well, it varies between mild to severe learning difficulties, seizures, tremors, and movement and coordination difficulties. But the, the most worrying thing for us was that this condition is actually also progressive. So over time it becomes more of a Parkinsonism and some patients experience dementia-like symptoms and psychosis. So for us to get a treatment that targets the genetic cause of, of their condition is, like, the most important thing in, in our lives. If we could intervene now, they could potentially, at the stage they're at, you know, live an independent life with, with some supports. But if the disease is left to progress, it would be a very different outcome for them. Sharon: I mean, that sounds so difficult and I can't even imagine how life is for you and your family. And I can see what is driving you to find anything to extend the life of your children and to give them that opportunity to, to have a better quality of life. And then Lisa. Ana Lisa: It's a huge burden for families to carry. And I think at the moment there's an additional layer of burden, which shouldn't fall on families, to feel like they need to forge a pathway for their child to have a chance of a treatment. That's, that's a lot to bear. Mel: I think as well, families feel they almost have to become mini scientists in their children's specific condition overnight, because you go to these appointments with the consultants and nobody's heard of the condition and they don't know, they just don't really know what to do with you. So they're asking you, you know, so tell me about this, this gene change. What, what does it do? What does it mean? So you have to become the mini professor in your child's condition to be able to advocate for them. We've had to really learn on our feet so that we're able to advocate and push for research into DHDDS, because without us doing it, nobody else was going to be. Sharon: Yeah. So that's, you know, that's partly what we're here and what this podcast is for, it's here to support families to, to understand this stuff. And Ana Lisa, can you just break it down to us, what is individualised medicines? Ana Lisa: An individualised medicine that's made for one individual person. In reality, sometimes there are other individuals that can also benefit from the same medicines, ...
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    27 mins
  • What is de-identified data?

    What is de-identified data?
    Mar 18 2026
    In this explainer episode, we’ve asked Georgia Chan, Senior Data Wrangler at Genomics England, to explain what de-identified data is. You can also find a series of short videos explaining some of the common terms you might encounter about genomics on our YouTube channel. If you’ve got any questions, or have any other topics you’d like us to explain, let us know on podcast@genomicsengland.co.uk. You can download the transcript or read it below. Florence: What do we mean by de-identified data? My name is Florence Cornish, and today I'm here with Georgia Chan. Georgia is Senior Data Wrangler here at Genomics England, which just means that she cleans up and adds structure to complicated data so that it becomes usable, and she is going to be telling us much more about the topic of de-identified data. Georgia, I think it would be a good place to start by talking about the National Genomic Research Library, which is the library that we at Genomics England store data in. So maybe you could explain more about that and what kind of data is in there. Georgia: Sure. Thanks Florence. So, we have genomic data. Genomic data is information that comes from a person's DNA. It helps us understand how the body works and why disease happens. This can include whole genome sequencing data, variants found in genes, small differences that make each of us unique, and information about how genes function or how they differ between people. Genomic data does not include a person's name or who they are. It's biological information, not identity, and it's used to understand health and disease. It's really important to note that by nature, it's nature, genomic information is incredibly rich. We all have millions of common genetic variants, but your whole genome is unique to you. So although genomic data alone can't directly identify you, it still counts as personal data under data protection. We also have clinical data. Clinical data provides real world context for the genomic data. It shows what's happening in someone's health. This can include diagnosis of a disease or a symptom, treatments that have been received, health outcomes over time, such as remission or progression, and this clinical data that help researchers see how genetic differences relate to symptoms, treatment response, and long-term outcomes. So, we have both of these kinds of data. Genomic data on its own can be hard to interpret, and clinical data on its own only tells part of the story. Together, they allow researchers to better understand how diseases develop, helps them discover new or more targeted treatments, and it helps them improve diagnosis, care, and outcomes. And this is why both types of this data are used together in the National Genomic Research Library. Florence: And so, both of these data types, both clinical and genomic, we say that they are de-identified. But what exactly does that mean? Georgia: Yes, good question. De-identified data means that information which directly identifies a person has been changed or removed from a health record before researchers can access it. And in practice, it means that researchers cannot see who the person is. The data cannot be used to contact individuals, and a person's identity is protected by design, which means that necessary safeguards are embedded into every stage of a service or process. So, researchers work with the data, but not with people's identities. Florence: Could you tell me a little bit more about why it's so important to de-identify data in this way? Georgia: Sure. De-identification creates a safe middle ground. It means that data can be used to improve healthcare whilst people's privacy and trust is respected. So, without de-identification, every new research question would require individual contact and large-scale, long-term research would be extremely difficult. With de-identification, we reduce the risk of someone being identified. We prevent inappropriate use of data, and we ensure that data is used only for approved research. And it's important to note also that it sits alongside a list of other safeguards, so that helps ensure data is used responsibly, such as secure Research Environment, strict access control, independent ethical and governance approvals. And all of those safeguards are provided in Genomics England's Research Environment. Florence: I think a common question that people might have, or a question that I definitely had when I first heard the term, is how de-identified data is different from anonymous data. Georgia: Yes, it is a good question. So, anonymised data cannot be linked back to an individual and is no longer considered personal data, whereas de-identified anonymised data, it has identified as hidden from researchers, but it can still be relinked by a trusted authorised organisation if needed. So, in healthcare research, ...
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    7 mins
  • Amanda Pichini, Dr Katie Snape, Bev Speight, and Dr Sarah Westbury: Can blood cancer be inherited?

    Amanda Pichini, Dr Katie Snape, Bev Speight, and Dr Sarah Westbury: Can blood cancer be inherited?
    Feb 25 2026
    Blood cancers are the fifth most common group of cancers in the UK. But for a small number of people, the condition may have an inherited genetic cause. In this episode of Behind the Genes, we explore the role of genetics in blood cancer, and what an inherited risk means for patients and their families. Our guests explain what blood cancer is, how inherited factors can increase risk, and why multidisciplinary teamwork is key to supporting families. They also look ahead to future advances, from whole genome sequencing to prevention trials. Our host Amanda Pichini, Clinical Director at Genomics England, is joined by: Dr Katie Snape, Principal Clinician at Genomics England and Consultant Cancer Geneticist Bev Speight, Principal Genetic CounsellorDr Sarah Westbury, Consultant Haematologist “By doing whole genome sequencing we get all of the information about all of the changes that might have happened, we know whether any are inherited, but importantly, we’re certain of the ones that have just occurred in the cancer cells and can help guide us with their treatment.” You can download the transcript or read it below. Amanda: Hello, and welcome to Behind the Genes. Sarah: When we think about blood cancers, it’s a whole range of different conditions and when you talk to patients who are affected with blood cancers or are living with them, their experiences are often really different from one another, depending in part on what kind of blood cancer they have. We also know that blood cancers affect not just the cell numbers but also the way that those cells function, and so the range of symptoms that people can get is really variable. Amanda: I am your host, Amanda Pichini, clinical director at Genomics England and genetic counsellor. Today I’ll be joined by Dr Katie Snape, principal clinician at Genomics England and a consultant cancer geneticist in London, Bev Speight, a principal genetic counsellor in Cambridge, and Dr Sarah Westbury, and haematologist from Bristol. They’ll be talking about blood cancers and the inherited factors that increase blood cancer risk. If you enjoy this episode, we’d love your support, so please subscribe, rate and share on your favourite podcast app. Let’s get started. Thanks to everyone for joining us today on this podcast, we’re delighted to have so many experts in the room to talk to us about blood cancer. I’d love to start with each of you introducing yourself and telling us and the listeners a little bit about your role, so, Sarah, could we start with you? Sarah: Sure. It’s great to be here. My name’s Sarah Westbury, and I’m a consultant haematologist who works down in Bristol. And my interest in this area is I’m a diagnostic haematologist so I work in the laboratories here in the hospitals, helping to make a diagnosis of blood cancer for people who are affected with these conditions. And I also look after patients in clinic who have different forms of blood cancer, but particularly looking after families who have an inherited predisposition to developing blood cancer. And in the other half of my job, I work as a researcher at the University of Bristol. And in that part of my job, I’m interested in understanding the genetic basis of how blood counts are controlled and some of the factors that lead to loss of control of those normal blood counts and how the bone marrow functions and works. Amanda: Thank you. That’s really interesting, we’ll be looking forward to hearing more about your experience. Bev, we’ll come to you next. Bev: Thank you. Hello everyone, I’m Bev Speight, I’m a genetic counsellor, and I work at Addenbrooke’s Hospital in Cambridge. I work with families with hereditary cancers in the clinical genetic service, and for the last six years or so have been focused on hereditary blood cancers. So we’ve been helping our haematologists across the region to do genetic tests and interpret the results, and then in my clinic seeing some of the onward referrals that come to clinical genetics after a hereditary cause for blood cancer is found. I’m also part of the Council for the UK Cancer Genetics Group. Amanda: Thank you, Bev. And Katie, over to you. Katie: Hello, I’m Katie Snape. I’m a genetics doctor and I am a specialist in inherited cancer. So we look after anyone who might have an increased chance of developing cancer in their lifetime due to genetic factors. I am the chair of the UK Cancer Genetics Group, so that’s a national organisation to try and improve the quality of care and care pathways for people with inherited cancer risk in the UK. And I have a special interest in inherited blood cancers through my work at King’s College Hospital, I work in the haematology medicine service there seeing individuals who might have or have been diagnosed as having an...
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    37 mins
  • Réka Novotta: What is informed consent?

    Réka Novotta: What is informed consent?
    Feb 11 2026
    In this explainer episode, we’ve asked Réka Novotta, Research Ethics Operations Manager at Genomics England, to explain what informed consent is. You can also find a series of short videos explaining some of the common terms you might encounter about genomics on our YouTube channel. If you’ve got any questions, or have any other topics you’d like us to explain, let us know on podcast@genomicsengland.co.uk. You can download the transcript or read it below. Florence: What do we mean by informed consent? My name is Florence Cornish, and today I'm here with Réka, who is Research Ethics Operations Manager here at Genomics England, and she's going to be telling us much more about it. I think it would first be helpful Réka, if you could explain the word consent. Réka: The broad definition of consent is that it's the voluntary agreement given by an individual to participate in a particular activity. We all probably give consent to a lot of different things each day without really realizing it. So, you go on to read the news in the morning, and the website asks for your consent to process cookies. You maybe go to a routine GP appointment later, and you stick your arm out for them to measure your blood pressure. Maybe you even go to a podcast and you give consent to a host to record your voice. So, these are all based on affirmative action made by you while taking into consideration the information that's available to you. The technical definition of consent often includes that it's freely given, meaning that you are not coerced. That it’s specific, meaning when you stick your arm out for your doctor, you're only agreeing to that part of the examination, and perhaps most importantly, that person needs to be adequately informed for the consent to be meaningful. Florence: So you gave lots of really interesting examples there. I think it would be good to understand what we mean by informed consent and where this distinction comes in. How does it differ? Réka: By informed consent, we mean that the person consenting has been provided with all relevant and necessary information about the activity, in a format that is accessible and understandable for them. And that latter part of the sentence is really important, because if you go to the doctor and the doctor speaks to you in French, if you speak French, then wonderful, you have all the information that you need. But if you don't, even though the information is technically there, you not understanding it makes it impossible for your consent to be informed. Similarly, if you think about maybe an older person who's not familiar with technology, if they see a QR code, they might not necessarily know what to do with it, even if it would technically lead to all of the information that they would ever want to know about Genomics England. Florence: So you mentioned Genomics England, obviously we both work for Genomics England, this is a Genomics 101 podcast. So what do we mean by informed consent in the context of genomics? Where does it come into play? Réka: So if we think about informed in a traditional research study, they test a drug, the treatment either works or it doesn't work, and there's analysis of that data, and that's sort of the end of the process. With genomics, there's a huge amount of information that gets generated and analysed, and the field itself is rapidly evolving. So we may not have an answer today, but we might do tomorrow, which puts our participants' data in the research resource that we manage in a really unique position. Because of that, it's even more important perhaps for this consent to be ongoing. Consent is often incorrectly considered a tick box exercise, where you receive information, you consider the information, you make a decision, and that's sort of it. Whereas for genomics, it's important that it is an ongoing conversation and it doesn't just stop at the signing of a form. We also employ what's called a broad consent model. Genomics England manages the National Genomic Research Library, which rather than being a single study, is a resource for a wide range of research uses. It allows us to gain permission via the informed consent conversations for the storage and the use of data and samples for upcoming studies that we don't yet know about. And this eliminates the need to reconsent each participant every time a researcher starts to use their data for a new research project, and in turn, and this also feeds back to the need for ongoing conversation, a fully informed consent is very hard to achieve at the time of consenting. Florence: So you mentioned the National Genomic Research Library, and we actually did a previous explainer podcast episode about this. So, if listeners would like to learn more about it, you can check out our previous Genomics 101 episode: ...
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    8 mins
  • What Does the Diagnostic Odyssey Really Mean for Families?

    What Does the Diagnostic Odyssey Really Mean for Families?
    Jan 28 2026
    In this special episode, recorded live at the 2025 Genomics England Research Summit, host Adam Clatworthy is joined by parents, clinicians and researchers to explore the long, uncertain and often emotional journey to a genetic diagnosis. Together, they go behind the science to share what it means to live with uncertainty, how results like variants of uncertain significance (VUS) are experienced by families, and why communication and support matter just as much as genomic testing and research. The panel discuss the challenges families face when a diagnosis remains out of reach, the role of research in refining and revisiting results over time, and how collaboration between researchers, clinicians and participants could help shorten diagnostic journeys in the future. Joining Adam Clatworthy, Vice-Chair for the Participant Panel, on this episode are: Emma Baple – Clinical geneticist and Medical Director, South West Genomic Laboratory Hub Jamie Ellingford – Lead genomic data scientist, Genomics England Jo Wright – Member of the Participant Panel and Parent Representative for SWAN UK Lisa Beaton - Member of the Participant Panel and Parent Representative for SWAN UK Linked below are the episodes mentioned in the episode: What is the diagnostic odyssey? What is a Variant of Uncertain Significance? Visit the Genomics England Research Summit website, to get your ticket to this years event. You can download the transcript, or read it below. Sharon: Hello, and welcome to Behind the Genes. My name is Sharon Jones and today we’re bringing you a special episode recorded live from our Research Summit held in June this year. The episode features a panel conversation hosted by Adam Clatworthy, Vice-Chair of the Participant Panel. Our guests explore navigating the diagnostic odyssey, the often-complex journey to reaching a genetic diagnosis. If you’d like to know more about what the diagnostic odyssey is, check our bitesize explainer episode, ‘What is the Diagnostic Odyssey?’ linked in the episode description. In today’s episode you may hear our guests refer to ‘VUS’ which stands for a variant of uncertain significance. This is when a genetic variant is identified, but its precise impact is not yet known. You can learn more about these in another one of our explainer episodes, “What is a Variant of Uncertain Significance?” And now over to Adam. -- Adam: Welcome, everyone, thanks for joining this session. I’m always really humbled by the lived experiences and the journeys behind the stories that we talk about at these conferences, so I’m really delighted to be hosting this panel session. It’s taking us behind the science, it’s really focusing on the people behind the data and the lived experiences of all the individuals and the families who are really navigating this system, trying to find answers and really aiming to get a diagnosis – that has to be the end goal. We know it’s not the silver bullet, but it has to be the goal so that everyone can get that diagnosis and get that clarity and what this means for their medical care moving forwards. So, today we’re really going to aim to demystify what this diagnostic odyssey is, challenging the way researchers and clinicians often discuss long diagnostic journeys, and we’ll really talk about the vital importance of research in improving diagnoses, discussing the challenges that limit the impact of emerging research for families on this odyssey and the opportunities for progress. So, we’ve got an amazing panel here. Rather than me trying to introduce you, I think it’s great if you could just introduce yourselves, and Lisa, I’ll start with you. Lisa: Hi, I’m Lisa Beaton and I am the parent of a child with an unknown, thought to be neuromuscular, disease. I joined the patient Participant Panel 2 years ago now and I’m also a Parent Representative for SWAN UK, which stands of Syndromes Without A Name. I have 4 children who have all come with unique and wonderful bits and pieces, but it’s our daughter who’s the most complicated. Adam: Thank you. Over to you, Jo. Jo: Hi, I’m Jo Wright, I am the parent of a child with an undiagnosed genetic condition. So I’ve got an 11-year-old daughter. 100,000 Genomes gave us a VUS, which we’re still trying to find the research for and sort of what I’ll talk about in a bit. And I’ve also got a younger daughter. I joined the Participant Panel just back in December. I’m also a Parent Rep for SWAN UK, so Lisa and I have known each other for quite a while through that. Adam: Thank you, Jo. And, Jamie, you’re going to be covering both the research and the clinician side and you kind of wear 2 hats, so, yeah, over to you. Jamie: Hi, everyone, so I’m Jamie Ellingford and, as Adam alluded to, I’m fortunate and I get to wear 2 hats. So, one of those hats is that I’m Lead Genomic Data Scientist for Rare ...
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    27 mins