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Dr. Claire Weston is an accomplished and dedicated scientific leader with a track record of success in cancer research. She was awarded a PhD in from Cambridge University in the UK and has lead teams and projects focused on cancer biomarkers in both large pharma and start-up environments. Claire founded Reveal Biosciences in 2012 and has since demonstrated strong year-on-year growth. She has authored numerous peer-reviewed publications in leading journals including Science, and is a respected member of multiple professional organizations including the Digital Pathology Association.
Reveal Biosciences is a computational pathology company focused on tissue-based research.
When I was a child I went to a local science day and watched a scientist pour liquid nitrogen onto the floor. The liquid nitrogen changed from liquid to gas, something I’d never seen before, and I thought it was amazing! It really initiated my interest in science. I love biotechnology because it's at the interface of science and technology, and solves real world problems.
Several years ago I was working at a different company developing a biomarker-based test for breast cancer. As part of that test, we sent a set of 150 patient slides to three different pathologists to review and provide a diagnosis. We then compared those results to our quantitative biomarker test. What really struck me at the time was the variation in the results that we got back from the pathologists. These are all very qualified, experienced pathologists, yet they didn't agree on the results for all the different patients. This is important because the way the patients are treated is often dependent on the way that the pathologist reviews the slide. It became clear that taking a quantitative, computational approach could help provide more accurate and reproducible data to benefit patients. This became one of the driving missions of our company.
We provide data from microscope slides or pathology samples that can benefit research, clinical trials, and patients. For example, we generate quantitative pathology data to help pharmaceutical companies develop therapeutic drugs, we use it for clinical trials to increase precision and stratify patient groups, and we're also in the process of building pathology data applications to help pathologists diagnose disease in a way that will ultimately benefit patients.
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We are fairly unique in that we have a scientific team in the lab doing pathology and a computational team of data scientists and software engineers who are developing our AI-based platform. Our ImageDx platform includes models to generate very quantitative data and diagnostic outputs that can be applied to many different diseases. The products that we are working on are unique and differentiate us, but the main driver is the quantitative pathology data that we generate.
We've been using traditional machine learning to identify and quantify cells from images for a while, but in the last few years AI has advanced significantly. It's impressive to see how well it works in pathology images. We've made the natural evolution from more traditional machine learning into AI. Compute power is now more readily available which means that we can generate data from one patient slide in minutes rather than the days or weeks it used to take. This sea change in computational speed means that the data we generate is more meaningful and relevant to routine pathology workflows.[/vc_column_text][grve_video video_link="https://www.youtube.com/watch?v=apAy6ZRi11w"][vc_column_text]Click here to watch more videos.
There's a huge shortage of pathologists worldwide. Even in the US where we have very highly qualified pathologists we’re heading for a retirement cliff, and less pathologists are coming through residency to maintain their numbers. This is particularly evident in rural areas where there's a real shortage of expertise. Having a cloud-based approach will help address some of those problems.
I'm excited by the potential for AI in a cloud-based platform to bring advanced pathology expertise to anywhere with internet access. Hospitals or pathology labs throughout the world could upload an image from a microscope slide into the cloud, and that image can be analyzed to generate advanced diagnostics. Countries with limited resources often have the ability to generate the most basic kind of microscope slide, but they sometimes lack the ability to do the more advanced diagnostics. The possibility to do so is going to revolutionize pathology and be impactful for healthcare globally. This should also benefit patients in the US by helping to lower the cost of healthcare.
The application of AI in pathology is a very new thing. We've been developing this for a while and we're launching the first products in the clinic for patients in 2019. We are also building more enhanced pathology models by integrating other data sources. We’re finding that we can use AI to detect aspects of cancer that are not obvious just by looking down a microscope. For example, we're detecting small changes in the texture of the nucleus of cells or small cellular changes that you wouldn't necessarily notice by eye but can be predictive or prognostic of disease. I think this is going to be really impactful for personalized medicine.[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column heading_color="primary-1"][vc_empty_space][grve_callout title="Tech Spotlight Interviews" button_text="Learn more" button_link="url:http%3A%2F%2Finfo.managedsolution.com%2Fc-level-interview-registration||target:%20_blank|"]IT is a journey, not a destination. We want to hear about YOUR journey!
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