̽��ֱ�� of Cambridge - Latest news

Adolescents who sleep longer perform better at cognitive tasks

cjb250 — Tue, 22 Apr 2025 15:00:23 +0000

But the study of adolescents in the US also showed that even those with better sleeping habits were not reaching the amount of sleep recommended for their age group.

Sleep plays an important role in helping our bodies function. It is thought that while we are asleep, toxins that have built up in our brains are cleared out, and brain connections are consolidated and pruned, enhancing memory, learning, and problem-solving skills. Sleep has also been shown to boost our immune systems and improve our mental health.

During adolescence, our sleep patterns change. We tend to start going to bed later and sleeping less, which affects our body clocks. All of this coincides with a period of important development in our brain function and cognitive development. ̽��ֱ��American Academy of Sleep Medicine says that the ideal amount of sleep during this period is between eight- and 10-hours’ sleep.

Professor Barbara Sahakian from the Department of Psychiatry at the ̽��ֱ�� of Cambridge said: “Regularly getting a good night’s sleep is important in helping us function properly, but while we know a lot about sleep in adulthood and later life, we know surprisingly little about sleep in adolescence, even though this is a crucial time in our development. How long do young people sleep for, for example, and what impact does this have on their brain function and cognitive performance?”

Studies looking at how much sleep adolescents get usually rely on self-reporting, which can be inaccurate. To get around this, a team led by researchers at Fudan ̽��ֱ��, Shanghai, and the ̽��ֱ�� of Cambridge turned to data from the Adolescent Brain Cognitive Development (ABCD) Study, the largest long-term study of brain development and child health in the United States.

As part of the ABCD Study, more than 3,200 adolescents aged 11-12 years old had been given FitBits, allowing the researchers to look at objective data on their sleep patterns and to compare it against brain scans and results from cognitive tests. ̽��ֱ��team double-checked their results against two additional groups of 13-14 years old, totalling around 1,190 participants. ̽��ֱ��results are published today in Cell Reports.

̽��ֱ��team found that the adolescents could be divided broadly into one of three groups:

Group One, accounting for around 39% of participants, slept an average (mean) of 7 hours 10 mins. They tended to go to bed and fall asleep the latest and wake up the earliest.

Group Two, accounting for 24% of participants, slept an average of 7 hours 21 mins. They had average levels across all sleep characteristics.

Group Three, accounting for 37% of participants, slept an average of 7 hours 25 mins. They tended to go to bed and fall asleep the earliest and had lower heart rates during sleep.

Although the researchers found no significant differences in school achievement between the groups, when it came to cognitive tests looking at aspects such as vocabulary, reading, problem solving and focus, Group Three performed better than Group Two, which in turn performed better than Group One.

Group Three also had the largest brain volume and best brain functions, with Group One the smallest volume and poorest brain functions.

Professor Sahakian said: “Even though the differences in the amount of sleep that each group got was relatively small, at just over a quarter-of-an-hour between the best and worst sleepers, we could still see differences in brain structure and activity and in how well they did at tasks. This drives home to us just how important it is to have a good night’s sleep at this important time in life.”

First author Dr Qing Ma from Fudan ̽��ֱ�� said: “Although our study can’t answer conclusively whether young people have better brain function and perform better at tests because they sleep better, there are a number of studies that would support this idea. For example, research has shown the benefits of sleep on memory, especially on memory consolidation, which is important for learning.”

̽��ֱ��researchers also assessed the participants’ heart rates, finding that Group Three had the lowest heart rates across the sleep states and Group One the highest. Lower heart rates are usually a sign of better health, whereas higher rates often accompany poor sleep quality like restless sleep, frequent awakenings and excessive daytime sleepiness.

Because the ABCD Study is a longitudinal study – that is, one that follows its participants over time – the team was able to show that the differences in sleep patterns, brain structure and function, and cognitive performance, tended be present two years before and two years after the snapshot that they looked at.

Senior author Dr Wei Cheng from Fudan ̽��ֱ�� added: “Given the importance of sleep, we now need to look at why some children go to bed later and sleep less than others. Is it because of playing videogames or smartphones, for example, or is it just that their body clocks do not tell them it’s time to sleep until later?”

̽��ֱ��research was supported by the National Key R&D Program of China, National Natural Science Foundation of China, National Postdoctoral Foundation of China and Shanghai Postdoctoral Excellence Program. ̽��ֱ��ABCD Study is supported by the National Institutes of Health.

Reference

Ma, Q et al. Neural correlates of device-based sleep characteristics in adolescents. Cell Reports; 22 Apr 2025; DOI: 10.1016/j.celrep.2025.115565

Adolescents who sleep for longer – and from an earlier bedtime – than their peers tend to have improved brain function and perform better at cognitive tests, researchers from the UK and China have shown.

Even though the differences in the amount of sleep that each group got was relatively small, we could still see differences in brain structure and activity and in how well they did at tasks

Barbara Sahakian

harpazo_hope (Getty Images)

Teenager asleep and wrapped in a blanket

̽��ֱ��text in this work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License. Images, including our videos, are Copyright © ̽��ֱ�� of Cambridge and licensors/contributors as identified. All rights reserved. We make our image and video content available in a number of ways – on our main website under its Terms and conditions, and on a range of channels including social media that permit your use and sharing of our content under their respective Terms.

Yes

Charles Darwin Archive recognised by UNESCO

ta385 — Tue, 22 Apr 2025 09:45:00 +0000

̽��ֱ��UNESCO Memory of the World Programme serves as the documentary heritage equivalent of UNESCO World Heritage Sites, protecting invaluable records that tell the story of human civilisation.

A collaboration between Cambridge ̽��ֱ�� Library, the Natural History Museum, the Linnean Society of London, English Heritage’s Down House, the Royal Botanic Gardens, Kew and the National Library of Scotland, the Charles Darwin documentary heritage archive provides a unique window into the life and work of one of the world’s most influential natural scientists.

̽��ֱ��complete archive, comprising over 20,000 items across the six major institutions, includes Darwin’s records illustrating the development of his ground-breaking theory of evolution and extensive global travels.

At Cambridge ̽��ֱ�� Library, the Darwin Archive is a significant collection of Darwin’s books, experimental notes, correspondence, and photographs, representing his scientific and personal activities throughout his life.

̽��ֱ��collection in Cambridge includes Darwin’s pocket notebooks recording early statements of key ideas contributing to his theory of evolution, notably that species are not stable. These provide important insights into the development of his thought and feature the iconic ‘Tree of Life’ diagram which he drew on his return from the voyage of the HMS Beagle.

̽��ֱ��Linnean Society of London holds several of Darwin's letters, manuscripts and books. Here is also home to John Collier’s original iconic portrait of Charles Darwin, commissioned by the Society and painted in 1883 to commemorate the first reading of the theory of evolution by natural selection at a Linnean Society meeting in 1858.

At the Natural History Museum, a letter written to his wife Emma in 1844, provides insight into Darwin’s perceived significance of his species theory research and holds instructions on what she should do in the case of his sudden death. This is alongside other letters to Museum staff and other family members which demonstrate the broad scope of his scientific thinking, research and communication ranging from caterpillars to volcanoes, dahlias to ants and the taking of photographs for his third publication Expression of the Emotions in Man and Animals.

Correspondence with Darwin’s publisher John Murray, held at the National Library of Scotland document the transformation of his research into print, including the ground-breaking On the Origin of Species publication.

At the Royal Botanic Gardens, Kew, documents include a highly significant collection of 44 letters sent around the HMS Beagle expedition from Darwin to Professor John Stevens Henslow, detailing his travels and the genesis of his theory of evolution as he comes in contact with new plants, wildlife and fossils; as well as a rare sketch of the orchid Gavilea patagonica made by Darwin. Other items include a letter from Darwin to his dear friend Joseph Hooker, Director of Kew in which he requests cotton seeds from Kew's collections for his research.

Down House (English Heritage) in Kent was both a family home and a place of work where Darwin pursued his scientific interests, carried out experiments, and researched and wrote his many ground-breaking publications until his death in 1882.

̽��ֱ��extensive collection amassed by Darwin during his 40 years at Down paint a picture of Darwin’s professional and personal life and the intersection of the two. ̽��ֱ��archive here includes over 200 books from Darwin’s personal collection, account books, diaries, the Journal of the Voyage of the Beagle MSS, and Beagle notebooks and letters. More personal items include scrapbooks, Emma Darwin’s photograph album and Charles Darwin’s will. ̽��ֱ��collection at Down House has been mainly assembled through the generous donations of Darwin’s descendants.

This inscription marks a significant milestone in recognising Darwin’s legacy, as it brings together materials held by multiple institutions across the UK for the first time, ensuring that his work's scientific, cultural, and historical value is preserved for future generations.

In line with the ideals of the UNESCO Memory of the World Programme, much of the Darwin archive can be viewed by the public at the partner institutions and locations.

̽��ֱ��UNESCO International Memory of the World Register includes some of the UK’s most treasured documentary heritage, such as the Domesday Book, the Shakespeare Documents, alongside more contemporary materials, including the personal archive of Sir Winston Churchill. ̽��ֱ��Charles Darwin archive now joins this esteemed list, underscoring its historical, scientific, and cultural significance.

̽��ֱ��inscription of the Charles Darwin archive comes as part of UNESCO’s latest recognition of 75 archives worldwide onto the International Memory of the World Register.

These newly inscribed collections include a diverse range of documents, such as the Draft of the International Bill of Human Rights, the papers of Friedrich Nietzche, and the Steles of Shaolin Temple (566-1990) in China.

Baroness Chapman of Darlington, Minister of State for International Development, Latin America and Caribbean, Foreign, Commonwealth & Development Office (FCDO) said: " ̽��ֱ��recognition of the Charles Darwin archive on UNESCO's International Memory of the World Register is a proud moment for British science and heritage.

"Darwin's work fundamentally changed our understanding of the natural world and continues to inspire scientific exploration to this day. By bringing together extraordinary material from our world class British institutions, this archive ensures that Darwin's groundbreaking work remains accessible to researchers, students, and curious minds across the globe."

Ruth Padel, FRSL, FZS, poet, conservationist, great-great-grand-daughter of Charles Darwin and King’s College London Professor of Poetry Emerita, said: "How wonderful to see Darwin’s connections to so many outstanding scientific and cultural institutions in the UK reflected in the recognition of his archive on the UNESCO Memory of the World International Register. All these institutions are open to the public so everyone will have access to his documentary heritage."

Dr Jessica Gardner, ̽��ֱ�� Librarian and Director of Library Services at Cambridge ̽��ֱ�� Libraries (CUL) said: "For all Charles Darwin gave the world, we are delighted by the UNESCO recognition in the Memory of the World of the exceptional scientific and heritage significance of his remarkable archive held within eminent UK institutions.

"Cambridge ̽��ֱ�� Library is home to over 9,000 letters to and from Darwin, as well as his handwritten experimental notebooks, publications, and photographs which have together fostered decades of scholarship and public enjoyment through exhibition, education for schools, and online access.

"We could not be prouder of UNESCO’s recognition of this remarkable documentary heritage at the ̽��ֱ�� of Cambridge, where Darwin was a student at Christ’s College and where his family connections run deep across the city, and are reflected in his namesake, Darwin College."

Read the full, illustrated version of this story on the ̽��ֱ�� Library's site.

Documentary heritage relating to the life and work of Charles Darwin has been recognised on the prestigious UNESCO International Memory of the World Register, highlighting its critical importance to global science and the necessity of its long-term preservation and accessibility.

We could not be prouder of UNESCO’s recognition of this remarkable documentary heritage

Jessica Gardner

Cambridge ̽��ֱ�� Library

Two of Charles Darwin’s pocket notebooks in Cambridge ̽��ֱ�� Library

Yes

Throwing a ‘spanner in the works’ of our cells’ machinery could help fight cancer, fatty liver disease… and hair loss

cjb250 — Fri, 18 Apr 2025 18:00:53 +0000

Scientists at the Medical Research Council (MRC) Mitochondrial Biology Unit, ̽��ֱ�� of Cambridge, have worked out the structure of this machine and shown how it operates like the lock on a canal to transport pyruvate – a molecule generated in the body from the breakdown of sugars – into our mitochondria.

Known as the mitochondrial pyruvate carrier, this molecular machine was first proposed to exist in 1971, but it has taken until now for scientists to visualise its structure at the atomic scale using cryo-electron microscopy, a technique used to magnify an image of an object to around 165,000 times its real size. Details are published today in Science Advances.

Dr Sotiria Tavoulari, a Senior Research Associate from the ̽��ֱ�� of Cambridge, who first determined the composition of this molecular machine, said: “Sugars in our diet provide energy for our bodies to function. When they are broken down inside our cells they produce pyruvate, but to get the most out of this molecule it needs to be transferred inside the cell’s powerhouses, the mitochondria. There, it helps increase 15-fold the energy produced in the form of the cellular fuel ATP.”

Maximilian Sichrovsky, a PhD student at Hughes Hall and joint first author of the study, said: “Getting pyruvate into our mitochondria sounds straightforward, but until now we haven’t been able to understand the mechanism of how this process occurs. Using state-of-the-art cryo-electron microscopy, we’ve been able to show not only what this transporter looks like, but exactly how it works. It’s an extremely important process, and understanding it could lead to new treatments for a range of different conditions.”

Mitochondria are surrounded by two membranes. ̽��ֱ��outer one is porous, and pyruvate can easily pass through, but the inner membrane is impermeable to pyruvate. To transport pyruvate into the mitochondrion, first an outer ‘gate’ of the carrier opens, allowing pyruvate to enter the carrier. This gate then closes, and the inner gate opens, allowing the molecule to pass through into the mitochondrion.

“It works like the locks on a canal but on the molecular scale,” said Professor Edmund Kunji from the MRC Mitochondrial Biology Unit, and a Fellow at Trinity Hall, Cambridge. “There, a gate opens at one end, allowing the boat to enter. It then closes and the gate at the opposite end opens to allow the boat smooth transit through.”

Because of its central role in controlling the way mitochondria operate to produce energy, this carrier is now recognised as a promising drug target for a range of conditions, including diabetes, fatty liver disease, Parkinson’s disease, specific cancers, and even hair loss.

Pyruvate is not the only energy source available to us. Our cells can also take their energy from fats stored in the body or from amino acids in proteins. Blocking the pyruvate carrier would force the body to look elsewhere for its fuel – creating opportunities to treat a number of diseases. In fatty liver disease, for example, blocking access to pyruvate entry into mitochondria could encourage the body to use potentially dangerous fat that has been stored in liver cells.

Likewise, there are certain tumour cells that rely on pyruvate metabolism, such as in some types of prostate cancer. These cancers tend to be very ‘hungry’, producing excess pyruvate transport carriers to ensure they can feed more. Blocking the carrier could then starve these cancer cells of the energy they need to survive, killing them.

Previous studies have also suggested that inhibiting the mitochondrial pyruvate carrier may reverse hair loss. Activation of human follicle cells, which are responsible for hair growth, relies on metabolism and, in particular, the generation of lactate. When the mitochondrial pyruvate carrier is blocked from entering the mitochondria in these cells, it is instead converted to lactate.

Professor Kunji said: “Drugs inhibiting the function of the carrier can remodel how mitochondria work, which can be beneficial in certain conditions. Electron microscopy allows us to visualise exactly how these drugs bind inside the carrier to jam it – a spanner in the works, you could say. This creates new opportunities for structure-based drug design in order to develop better, more targeted drugs. This will be a real game changer.”

̽��ֱ��research was supported by the Medical Research Council and was a collaboration with the groups of Professors Vanessa Leone at the Medical College of Wisconsin, Lucy Forrest at the National Institutes of Health, and Jan Steyaert at the Free ̽��ֱ�� of Brussels.

Reference

Sichrovsky, M, Lacabanne, D, Ruprecht, JJ & Rana, JJ et al. Molecular basis of pyruvate transport and inhibition of the human mitochondrial pyruvate carrier. Sci Adv; 18 Apr 2025; DOI: 10.1126/sciadv.adw1489

Fifty years since its discovery, scientists have finally worked out how a molecular machine found in mitochondria, the ‘powerhouses’ of our cells, allows us to make the fuel we need from sugars, a process vital to all life on Earth.

Drugs inhibiting the function of the carrier can remodel how mitochondria work, which can be beneficial in certain conditions

Edmund Kunji

bob_bosewell (Getty Images)

Bald young man, front view

Yes

Extreme drought contributed to barbarian invasion of late Roman Britain, tree-ring study reveals

ta385 — Thu, 17 Apr 2025 06:00:00 +0000

̽��ֱ��‘Barbarian Conspiracy’ of 367 CE was one of the most severe threats to Rome’s hold on Britain since the Boudiccan revolt three centuries earlier. Contemporary sources indicate that components of the garrison on Hadrian’s wall rebelled and allowed the Picts to attack the Roman province by land and sea. Simultaneously, the Scotti from modern-day Ireland invaded broadly in the west, and Saxons from the continent landed in the south.

Senior Roman commanders were captured or killed, and some soldiers reportedly deserted and joined the invaders. Throughout the spring and summer, small groups roamed and plundered the countryside. Britain’s descent into anarchy was disastrous for Rome and it took two years for generals dispatched by Valentian I, Emperor of the Western Roman Empire, to restore order. ̽��ֱ��final remnants of official Roman administration left Britain some 40 years later around 410 CE.

̽��ֱ�� ̽��ֱ�� of Cambridge-led study, published today in Climatic Change, used oak tree-ring records to reconstruct temperature and precipitation levels in southern Britain during and after the ‘Barbarian Conspiracy’ in 367 CE. Combining this data with surviving Roman accounts, the researchers argue that severe summer droughts in 364, 365 and 366 CE were a driving force in these pivotal events.

First author Charles Norman, from Cambridge’s Department of Geography, said: “We don’t have much archaeological evidence for the ‘Barbarian Conspiracy’. Written accounts from the period give some background, but our findings provide an explanation for the catalyst of this major event.”

̽��ֱ��researchers found that southern Britain experienced an exceptional sequence of remarkably dry summers from 364 to 366 CE. In the period 350 to 500 CE, average monthly reconstructed rainfall in the main growing season (April–July) was 51 mm. But in 364 CE, it fell to just 29mm. 365 CE was even worse with 28mm, and 37mm the following year kept the area in crisis.

Professor Ulf Büntgen, from Cambridge’s Department of Geography, said: “Three consecutive droughts would have had a devastating impact on the productivity of Roman Britain’s most important agricultural region. As Roman writers tell us, this resulted in food shortages with all of the destabilising societal effects this brings.”

Between 1836 and 2024 CE, southern Britain only experienced droughts of a similar magnitude seven times – mostly in recent decades, and none of these were consecutive, emphasising how exceptional these droughts were in Roman times. ̽��ֱ��researchers identified no other major droughts in southern Britain in the period 350–500 CE and found that other parts of northwestern Europe escaped these conditions.

Roman Britain’s main produce were crops like spelt wheat and six-row barley. Because the province had a wet climate, sowing these crops in spring was more viable than in winter, but this made them vulnerable to late spring and early summer moisture deficits, and early summer droughts could lead to total crop failure.

̽��ֱ��researchers point to surviving accounts written by Roman chroniclers to corroborate these drought-driven grain deficits. By 367 CE, Ammianus Marcellinus described the population of Britain as in the ‘utmost conditions of famine’.

“Drought from 364 to 366 CE would have impacted spring-sown crop growth substantially, triggering poor harvests,” Charles Norman said. “This would have reduced the grain supply to Hadrian’s Wall, providing a plausible motive for the rebellion there which allowed the Picts into northern Britain.”

̽��ֱ��study suggests that given the crucial role of grain in the contract between soldiers and the army, grain deficits may have contributed to other desertions in this period, and therefore a general weakening of the Roman army in Britain. In addition, the geographic isolation of Roman Britain likely combined with the severity of the prolonged drought to reduce the ability of Rome to alleviate the deficits.

Ultimately the researchers argue that military and societal breakdown in Roman Britain provided an ideal opportunity for peripheral tribes, including the Picts, Scotti and Saxons, to invade the province en masse with the intention of raiding rather than conquest. Their finding that the most severe conditions were restricted to southern Britain undermines the idea that famines in other provinces might have forced these tribes to invade.

Andreas Rzepecki, from the Generaldirektion Kulturelles Erbe Rheinland-Pfalz, said: “Our findings align with the accounts of Roman chroniclers and the seemingly coordinated nature of the ‘Conspiracy’ suggests an organised movement of strong onto weak, rather than a more chaotic assault had the invaders been in a state of desperation.”

“ ̽��ֱ��prolonged and extreme drought seems to have occurred during a particularly poor period for Roman Britain, in which food and military resources were being stripped for the Rhine frontier, while immigratory pressures increased.”

“These factors limited resilience, and meant a drought induced, partial-military rebellion and subsequent external invasion were able to overwhelm the weakened defences.”

̽��ֱ��researchers expanded their climate-conflict analysis to the entire Roman Empire for the period 350–476 CE. They reconstructed the climate conditions immediately before and after 106 battles and found that a statistically significant number of battles were fought following dry years.

Tatiana Bebchuk, from Cambridge’s Department of Geography, said: “ ̽��ֱ��relationship between climate and conflict is becoming increasingly clear in our own time so these findings aren’t just important for historians. Extreme climate conditions lead to hunger, which can lead to societal challenges, which eventually lead to outright conflict.”

Charles Norman, Ulf Büntgen, Paul Krusic and Tatiana Bebchuk are based at the Department of Geography, ̽��ֱ�� of Cambridge; Lothar Schwinden and Andreas Rzepecki are from the Generaldirektion Kulturelles Erbe Rheinland-Pfalz in Trier. Ulf Büntgen is also affiliated with the Global Change Research Institute, Czech Academy of Sciences and the Department of Geography, Masaryk ̽��ֱ�� in Brno.

Reference

C Norman, L Schwinden, P Krusic, A Rzepecki, T Bebchuk, U Büntgen, ‘Droughts and conflicts during the late Roman period’, Climatic Change (2025). DOI: 10.1007/s10584-025-03925-4

Funding

Charles Norman was supported by Wolfson College, ̽��ֱ�� of Cambridge (John Hughes PhD Studentship). Ulf Büntgen received funding from the Czech Science Foundation (# 23-08049S; Hydro8), the ERC Advanced Grant (# 882727; Monostar), and the ERC Synergy Grant (# 101118880; Synergy-Plague).

Three consecutive years of drought contributed to the ‘Barbarian Conspiracy’, a pivotal moment in the history of Roman Britain, a new Cambridge-led study reveals. Researchers argue that Picts, Scotti and Saxons took advantage of famine and societal breakdown caused by an extreme period of drought to inflict crushing blows on weakened Roman defences in 367 CE. While Rome eventually restored order, some historians argue that the province never fully recovered.

Our findings provide an explanation for the catalyst of this major event.

Charles Norman

Adam Cuerden

Milecastle 39 on Hadrian's Wall

Yes

Licence type:

Public Domain

Mouse study suggests a common diabetes drug may prevent leukaemia

cjb250 — Wed, 16 Apr 2025 07:59:00 +0000

Around 3,100 people are diagnosed with acute myeloid leukaemia (AML) each year in the UK. It is an aggressive form of blood cancer that is very difficult to treat. Thanks to recent advances, individuals at high risk of AML can be identified years in advance using blood tests and blood DNA analysis, but there’s no suitable treatment that can prevent them from developing the disease.

In this study, Professor George Vassiliou and colleagues at the ̽��ֱ�� of Cambridge investigated how to prevent abnormal blood stem cells with genetic changes from progressing to become AML. ̽��ֱ��work focused on the most common genetic change, which affects a gene called DNMT3A and is responsible for starting 10-15% of AML cases.

Professor Vassiliou, from the Cambridge Stem Cell Institute at the ̽��ֱ�� of Cambridge and Honorary Consultant Haematologist at Cambridge ̽��ֱ�� Hospitals NHS Foundation Trust (CUH) co-led the study. He said: “Blood cancer poses unique challenges compared to solid cancers like breast or prostate, which can be surgically removed if identified early. With blood cancers, we need to identify people at risk and then use medical treatments to stop cancer progression throughout the body.”

̽��ֱ��research team examined blood stem cells from mice with the same changes in DNMT3A as seen in the pre-cancerous cells in humans. Using a genome-wide screening technique, they showed that these cells depend more on mitochondrial metabolism than healthy cells, making this a potential weak spot. ̽��ֱ��researchers went on to confirm that metformin, and other mitochondria-targeting drugs, substantially slowed the growth of mutation-bearing blood cells in mice. Further experiments also showed that metformin could have the same effect on human blood cells with the DNMT3A mutation.

Dr Malgorzata Gozdecka, Senior Research Associate at the Cambridge Stem Cell Institute and first author of the research said: “Metformin is a drug that impacts mitochondrial metabolism, and these pre-cancerous cells need this energy to keep growing. By blocking this process, we stop the cells from expanding and progressing towards AML, whilst also reversing other effects of the mutated DNMT3A gene.”

In addition, the study looked at data from over 412,000 UK Biobank volunteers and found that people taking metformin were less likely to have changes in the DNMT3A gene. This link remained even after accounting for factors that could have confounded the results such as diabetes status and BMI.

Professor Brian Huntly, Head of the Department of Haematology at the ̽��ֱ�� of Cambridge, Honorary Consultant Haematologist at CUH, and joint lead author of the research, added: “Metformin appears highly specific to this mutation rather than being a generic treatment. That specificity makes it especially compelling as a targeted prevention strategy.

“We’ve done the extensive research all the way from cell-based studies to human data, so we’re now at the point where we have a made a strong case for moving ahead with clinical trials. Importantly, metformin’s lack of toxicity will be a major advantage as it is already used by millions of people worldwide with a well-established safety profile.”

̽��ֱ��results of the study, funded by Blood Cancer UK with additional support from Cancer Research UK, the Leukemia & Lymphoma Society (USA) and the Wellcome Trust, are published in Nature.

Dr Rubina Ahmed, Director of Research at Blood Cancer UK, said: “Blood cancer is the third biggest cancer killer in the UK, with over 280,000 people currently living with the disease. Our Blood Cancer Action plan shed light on the shockingly low survival for acute myeloid leukaemia, with only around 2 in 10 surviving for 5 years, and we urgently need better strategies to save lives. Repurposing safe, widely available drugs like metformin means we could potentially get new treatments to people faster, without the need for lengthy drug development pipelines.”

̽��ֱ��next phase of this research will focus on clinical trials to test metformin’s effectiveness in people with changes in DNMT3A at increased risk of developing AML. With metformin already approved and widely used for diabetes, this repurposing strategy could dramatically reduce the time it takes to bring a new preventive therapy to patients.

Tanya Hollands, Research Information Manager at Cancer Research UK, who contributed funding for the lab-based screening in mice, said: “It's important that we work to find new ways to slow down or prevent AML in people at high risk. Therefore, it’s positive that the findings of this study suggest a possible link between a commonly-used diabetes drug and prevention of AML progression in some people. While this early-stage research is promising, clinical trials are now needed to find out if this drug could benefit people. We look forward to seeing how this work progresses.”

Reference
Gozdecka, M et al. Mitochondrial metabolism sustains DNMT3A-R882-mutant clonal haematopoiesis. Nature; 16 Apr 2025; DOI: 10.1038/s41586-025-08980-6

Adapted from a press release from Blood Cancer UK

Metformin, a widely used and affordable diabetes drug, could prevent a form of acute myeloid leukaemia in people at high risk of the disease, a study in mice has suggested. Further research in clinical trials will be needed to confirm this works for patients.

We’ve done the extensive research all the way from cell-based studies to human data, so we’re now at the point where we have a made a strong case for moving ahead with clinical trials

Brian Huntly

̽��ֱ�� of Cambridge

Brown lab mouse on blue gloved hand

Yes

Growing wildflowers on disused urban land can damage bee health

jg533 — Tue, 15 Apr 2025 23:01:26 +0000

̽��ֱ��metals have previously been shown to damage the health of pollinators, which ingest them in nectar as they feed, leading to reduced population sizes and death. Even low nectar metal levels can have long-term effects, by affecting bees’ learning and memory - which impacts their foraging ability.

Researchers have found that common plants including white clover and bindweed, which are vital forage for pollinators in cities, can accumulate arsenic, cadmium, chromium and lead from contaminated soils.

Metal contamination is an issue in the soils of cities worldwide, with the level of contamination usually increasing with the age of a city. ̽��ֱ��metals come from a huge range of sources including cement dust and mining.

̽��ֱ��researchers say soils in cities should be tested for metals before sowing wildflowers and if necessary, polluted areas should be cleaned up before new wildflower habitats are established.

̽��ֱ��study highlights the importance of growing the right species of wildflowers to suit the soil conditions.

Reducing the risk of metal exposure is critical for the success of urban pollinator conservation schemes. ̽��ֱ��researchers say it is important to manage wildflower species that self-seed on contaminated urban land, for example by frequent mowing to limit flowering - which reduces the transfer of metals from the soil to the bees.

̽��ֱ��results are published today in the journal Ecology and Evolution.

Dr Sarah Scott in the ̽��ֱ�� of Cambridge’s Department of Zoology and first author of the report, said: “It’s really important to have wildflowers as a food source for the bees, and our results should not discourage people from planting wildflowers in towns and cities.

“We hope this study will raise awareness that soil health is also important for bee health. Before planting wildflowers in urban areas to attract bees and other pollinators, it’s important to consider the history of the land and what might be in the soil – and if necessary find out whether there’s a local soil testing and cleanup service available first.”

̽��ֱ��study was carried out in the post-industrial US city of Cleveland, Ohio, which has over 33,700 vacant lots left as people have moved away from the area. In the past, iron and steel production, oil refining and car manufacturing went on there. But any land that was previously the site of human activity may be contaminated with traces of metals.

To get their results, the researchers extracted nectar from a range of self-seeded flowering plants that commonly attract pollinating insects, found growing on disused land across the city. They tested this for the presence of arsenic, cadmium, chromium and lead. Lead was consistently found at the highest concentrations, reflecting the state of the soils in the city.

̽��ֱ��researchers found that different species of plant accumulate different amounts, and types, of the metals. Overall, the bright blue-flowered chicory plant (Cichorium intybus) accumulated the largest total metal concentration, followed by white clover (Trifolium repens), wild carrot (Daucus carota) and bindweed (Convolvulus arvensis). These plants are all vital forage for pollinators in cities - including cities in the UK - providing a consistent supply of nectar across locations and seasons.

There is growing evidence that wild pollinator populations have dropped by over 50% in the last 50 years, caused primarily by changes in land use and management across the globe. Climate change and pesticide use also play a role; overall the primary cause of decline is the loss of flower-rich habitat.

Pollinators play a vital role in food production: many plants, including apple and tomato, require pollination in order to develop fruit. Natural ‘pollination services’ are estimated to add billions of dollars to global crop productivity.

Scott said: “Climate change feels so overwhelming, but simply planting flowers in certain areas can help towards conserving pollinators, which is a realistic way for people to make a positive impact on the environment.”

̽��ֱ��research was funded primarily by the USDA National Institute of Food and Agriculture.

Reference
Scott, SB and Gardiner, MM: ‘Trace metals in nectar of important urban pollinator forage plants: A direct exposure risk to pollinators and nectar-feeding animals in cities.’ Ecology and Evolution, April 2025. DOI: 10.1002/ece3.71238

Wildflowers growing on land previously used for buildings and factories can accumulate lead, arsenic and other metal contaminants from the soil, which are consumed by pollinators as they feed, a new study has found.

Our results should not discourage people from planting wildflowers in towns and cities. But.. it’s important to consider the history of the land and what might be in the soil."

Sarah Scott

Chicory growing in a vacant lot

Yes

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Complete clean sweep for Cambridge at ̽��ֱ��Boat Race 2025

hcf38 — Sun, 13 Apr 2025 15:34:14 +0000

Thousands of spectators lined the banks of the River Thames on 13 April to witness a dramatic afternoon of action, with millions more following live on the BBC.

Cambridge Women secured their eighth consecutive win in the 79th Women’s Boat Race, extending their overall record to 49 victories to Oxford’s 30. ̽��ֱ��Men’s crew, too, were victorious in defending their title in the 170th edition of the event, notching up their 88th win, with Oxford sitting on 81.

Goldie, the Cambridge Men’s Reserve Crew, won the Men’s Reserve Race, while Blondie, the Cambridge Women’s Reserve Crew, won the Women’s Reserve Race. And the day before, the 2025 Lightweight Boat Race also saw two wins for Cambridge.

Cambridge’s Claire Collins said it was an incredible feeling to win the race.

“This is so cool, it’s really an incredible honour to share this with the whole club,” she said.

̽��ֱ��Women’s Race was stopped initially after an oar clash, but Umpire Sir Matthew Pinsent allowed the race to resume after a restart. Claire said that the crew had prepared for eventualities such as a restart and so were able to lean on their training when it happened.

“I had total confidence in the crew to regroup. Our focus was to get back on pace and get going as soon as possible and that’s what we did.”

For Cambridge Men’s President Luca Ferraro, it was his final Boat Roat campaign, having raced in the Blue Boat for the last three years, winning the last two.

He said: “It was a great race. ̽��ֱ��guys really stepped up. That’s something that our Coach Rob Baker said to us before we went out there, that each of us had to step up individually and come together and play our part in what we were about to do. I couldn’t be prouder of the guys, they really delivered today.”

Professor Deborah Prentice, Vice-Chancellor of the ̽��ֱ�� of Cambridge, congratulated all the crews following the wins.

“I am in awe of these students and what they have achieved, and what Cambridge ̽��ֱ�� Boat Club has been able to create,” she said.

“These students are out in the early hours of the morning training and then trying to make it to 9am lectures. It’s so inspiring. And a complete clean sweep – this was an incredibly impressive showing by Cambridge, I am so proud of them.”

̽��ֱ��Cambridge Blue Boats featured student athletes drawn from Christ’s College, Downing College, Emmanuel College, Gonville & Caius, Hughes Hall, Jesus College, Pembroke College, Peterhouse, St Edmund’s, and St John’s.

Cambridge is celebrating a complete clean sweep at ̽��ֱ��Boat Race 2025, with victories in all 4 openweight races and also both lightweight races.

Row360

Yes

Cambridge research: First global bond index to address fossil fuel expansion

plc32 — Fri, 11 Apr 2025 11:48:40 +0000

This is a critical – and hugely challenging – moment for climate action. Legal and political pressures have paralysed asset managers and other financial service providers, leading to a recent wave of actors leaving investor climate coalitions. However, asset owners are increasingly seeing the need to take a leadership role in addressing climate change, which threatens the long-term future of their portfolios and the wider economy.

That’s why we are delighted to announce that Cambridge researchers based at the Department for Land Economy have selected index provider Bloomberg Index Services Limited to launch the first global corporate bond index to cover fossil fuel producers, utilities, insurance, and financing, with the aim of driving investment to reduce real-economy emissions.

You can read the ̽��ֱ�� press release here.

“We are delighted that this project has reached such a key milestone," said Professor Martin Dixon, Head of the Department of Land Economy. "As a multidisciplinary department with a focus on outstanding academic publication and teaching, this project has the potential to serve as a ‘systems demonstrator’ for ongoing research in this important area.”

Why a bond index?

̽��ֱ��launch of the bond index by an 816-year-old institution is an unusual process and a tale worth telling. It began with a peer-reviewed paper by Dr Ellen Quigley, Principal Research Associate at Land Economy, exploring the case for evidence-based climate impact by institutional investors. This was followed by an internal feasibility study based at Jesus College, Cambridge (which continues to co-host the project), and supported by several other parts of the ̽��ֱ��.

With feasibility assessed, the team went out to global index providers to explore their interest. All of the leading players were interested in building this index, yet all grappled with a lack of access to data and the complexity of assessing companies based on their activities (e.g., whether they were building new fossil fuel infrastructure), not their business classification. An extensive Request for Proposals process resulted in naming Bloomberg Index Services Limited as our provider. ̽��ֱ��project aims to provide a genuine solution for asset owners looking to align their corporate debt instruments with their climate targets and to avoid both ineffective blanket interventions and greenwashing.

̽��ֱ��central problem, on which the industry has faltered for decades, is how to manage the risk presented by a fossil fuel industry that continues to grow. Leading climate scenarios such as the International Energy Agency’s Net Zero by 2050 scenario are clear that fossil fuel expansion is inconsistent with the transition to a decarbonised economy. With approximately 90% of new financing for fossil fuel expansion coming from bonds and bank loans, debt markets must be the focus of investor efforts to transition away from fossil fuel expansionism. Bonds offer a larger pool of capital than equities, and a greater proportion are purchased in the primary market, where companies gain access to new capital.

̽��ֱ��past decade has seen a significant rise in passive investment strategies and therefore an increase in financial flows into index funds, which have as a consequence become significant ‘auto-allocators’ of capital. This research project aims to study the extent to which the new bond index influences cost, volume, and access to capital among companies who are seeking to build new fossil fuel infrastructure and delaying the phase-down of their operations. Bond markets are not just a key part of investor action on climate change: they are the very coalface of fossil fuel expansion, i.e. new gas, oil, and coal extraction and infrastructure.

“This is an enormously impactful project which showcases the high-quality research undertaken at Cambridge," ̽��ֱ�� of Cambridge Chief Financial Officer Anthony Odgers said. " ̽��ֱ��index is a game-changer for the growing number of asset owners who invest in corporate debt and understand its impact on fossil fuel expansion, particularly the construction of new fossil fuel infrastructure such as coal- and gas-fired power plants which risk locking in fossil fuel usage for decades."

“Once the index launches, Cambridge expects to invest some of its own money against financial products referencing it. This will enable us to align our fixed income holdings with our institution-wide objectives,” Odgers said.

There are currently no off-the-shelf products that allow for passive investments in global corporate bond markets without financing fossil fuel expansion, through fossil fuel production, utilities building new coal- and gas-fired power plants, and through the banks and insurers that continue to finance and underwrite these activities. By supporting the development of this ‘systems demonstrator’, we will be able to conduct essential research on the efficacy of such a lever.

“Instead of linear year-on-year reductions or blanket bans by business classification, the index methodology identifies companies that present the greatest systemic risks to investors, while ensuring that those companies that meet the criteria can rejoin the bond index,” said project leader Lily Tomson, a Senior Research Associate at Jesus College, Cambridge.

Several years of close collaboration with leading global asset owners such as California State Teachers Retirement System (CalSTRS), Universities Superannuation Scheme (USS), Swiss Federal Pension Fund PUBLICA and the United Nations Joint Staff Pension Fund (UNJSPF) provided input and technical market expertise that underpins the index. Alongside the ̽��ֱ�� of Cambridge, the index will be used at launch by investments from the United Nations Joint Staff Pension Fund.

“Finally, large asset owners around the world have an index for this market that aims to discourage the expansion of fossil fuels,” said Pedro Guazo, Representative of the Secretary-General (RSG) for the investment of the UNJSPF assets.

Rules-based engagement: a lever for behaviour change

Debt benchmarks have a key role to play in any real efforts to tackle the expansion of fossil fuels. This project is innovative because it focuses on exclusions and weightings of companies based on their current corporate activity, instead of using an approach that relies on blanket exclusions by business classification (which does not generate incentives to change behaviour). For example, a company might be classed as a fossil fuel company, but if it stops expanding new fossil fuel operations and aligns to an appropriate phase-down pathway, the company has an opportunity to be included in the index and gain access to capital via funds which use the index, as a result.

Across the project, we are using data sources that have never previously been used to build an index – for example, the Global Coal Exit List (GCEL) and Global Oil and Gas Exit List (GOGEL) from Urgewald. We are taking a novel approach that focuses investor attention on those actors that our framework considers ‘edge cases’: companies close to reaching, or moving away from, alignment with the index. Companies have the option of being (re-)included in the index if they change their behaviour to align with the rules of the index. Academic literature suggests this is a lever for behaviour change in equities, but as an approach it is new to debt market indices. This is one of many key hypotheses that this project tests. We are convening a community of leading global academics who will support the creation of this new form of rules-based bondholder engagement.

This bond index project is one of a suite of actions rooted in academic research and collaboration that have been developed by the collegiate ̽��ֱ��. Alongside 74 other higher education institutions, Cambridge is delivering a parallel project focused on cash deposits and money market funds. We will continue to conduct research as the associated new products begin to operate through 2025.

At a time when climate damage is growing rapidly and is visible in news stories around the world, many actors across investment markets are looking for a clear path to take necessary action. As an academic institution and a long-term investor, the ̽��ֱ�� of Cambridge is committed to supporting evidence-based research and action on climate change.

̽��ֱ��bond index will be launched later this year. If you are interested in finding out more about the project or the team’s research, contact us here: bondindex@landecon.cam.ac.uk.

̽��ֱ�� of Cambridge researchers based at the Department for Land Economy have selected index provider Bloomberg Index Services Limited to launch the first global corporate bond index to cover fossil fuel producers, utilities, insurance, and financing, with the aim of driving investment to reduce real-economy emissions.

This is an enormously impactful project which showcases the high-quality research undertaken at Cambridge

Anthony Odgers, ̽��ֱ�� of Cambridge Chief Financial Officer

Yes

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Harmful effects of digital tech – the science ‘needs fixing’, experts argue

fpjl2 — Thu, 10 Apr 2025 18:01:05 +0000

Scientific research on the harms of digital technology is stuck in a ‘failing cycle’ that moves too slowly to allow governments and society to hold tech companies to account, according to two leading researchers in a new report published in the journal Science.

Dr Amy Orben from the ̽��ֱ�� of Cambridge and Dr J Nathan Matias from Cornell ̽��ֱ�� say the pace at which new technology is deployed to billions of people has put unbearable strain on the scientific systems trying to evaluate its effects.

They argue that big tech companies effectively outsource research on the safety of their products to independent scientists at universities and charities who work with a fraction of the resources – while firms also obstruct access to essential data and information. This is in contrast to other industries where safety testing is largely done ‘in house’.

Orben and Matias call for an overhaul of ‘evidence production’ assessing the impact of technology on everything from mental health to discrimination.

Their recommendations include accelerating the research process, so that policy interventions and safer designs are tested in parallel with initial evidence gathering, and creating registries of tech-related harms informed by the public.

“Big technology companies increasingly act with perceived impunity, while trust in their regard for public safety is fading,” said Orben, of Cambridge’s MRC Cognition and Brain Sciences Unit. “Policymakers and the public are turning to independent scientists as arbiters of technology safety.”

“Scientists like ourselves are committed to the public good, but we are asked to hold to account a billion-dollar industry without appropriate support for our research or the basic tools to produce good quality evidence quickly.”

“We must urgently fix this science and policy ecosystem so we can better understand and manage the potential risks posed by our evolving digital society,” said Orben.

'Negative feedback cycle'

In the latest Science paper, the researchers point out that technology companies often follow policies of rapidly deploying products first and then looking to ‘debug’ potential harms afterwards. This includes distributing generative AI products to millions before completing basic safety tests, for example.

When tasked with understanding potential harms of new technologies, researchers rely on ‘routine science’ which – having driven societal progress for decades – now lags the rate of technological change to the extent that it is becoming at times ‘unusable’.

With many citizens pressuring politicians to act on digital safety, Orben and Matias argue that technology companies use the slow pace of science and lack of hard evidence to resist policy interventions and “minimize their own responsibility”.

Even if research gets appropriately resourced, they note that researchers will be faced with understanding products that evolve at an unprecedented rate.

“Technology products change on a daily or weekly basis, and adapt to individuals. Even company staff may not fully understand the product at any one time, and scientific research can be out of date by the time it is completed, let alone published,” said Matias, who leads Cornell’s Citizens and Technology (CAT) Lab.

“At the same time, claims about the inadequacy of science can become a source of delay in technology safety when science plays the role of gatekeeper to policy interventions,” Matias said.

“Just as oil and chemical industries have leveraged the slow pace of science to deflect the evidence that informs responsibility, executives in technology companies have followed a similar pattern. Some have even allegedly refused to commit substantial resources to safety research without certain kinds of causal evidence, which they also decline to fund.”

̽��ֱ��researchers lay out the current ‘negative feedback cycle’:

Tech companies do not adequately resource safety research, shifting the burden to independent scientists who lack data and funding. This means high-quality causal evidence is not produced in required timeframes, which weakens government’s ability to regulate – further disincentivising safety research, as companies are let off the hook.

Orben and Matias argue that this cycle must be redesigned, and offer ways to do it.

Reporting digital harms

To speed up the identification of harms caused by online technologies, policymakers or civil society could construct registries for incident reporting, and encourage the public to contribute evidence when they experience harms.

Similar methods are already used in fields such as environmental toxicology where the public reports on polluted waterways, or vehicle crash reporting programs that inform automotive safety, for example.

“We gain nothing when people are told to mistrust their lived experience due to an absence of evidence when that evidence is not being compiled,” said Matias.

Existing registries, from mortality records to domestic violence databases, could also be augmented to include information on the involvement of digital technologies such as AI.

̽��ֱ��paper’s authors also outline a ‘minimum viable evidence’ system, in which policymakers and researchers adjust the ‘evidence threshold’ required to show potential technological harms before starting to test interventions.

These evidence thresholds could be set by panels made up of affected communities, the public, or ‘science courts’: expert groups assembled to make rapid assessments.

“Causal evidence of technological harms is often required before designers and scientists are allowed to test interventions to build a safer digital society,” said Orben.

“Yet intervention testing can be used to scope ways to help individuals and society, and pinpoint potential harms in the process. We need to move from a sequential system to an agile, parallelised one.”

Under a minimum viable evidence system, if a company obstructs or fails to support independent research, and is not transparent about their own internal safety testing, the amount of evidence needed to start testing potential interventions would be decreased.

Orben and Matias also suggest learning from the success of ‘Green Chemistry’, which sees an independent body hold lists of chemical products ranked by potential for harm, to help incentivise markets to develop safer alternatives.

“ ̽��ֱ��scientific methods and resources we have for evidence creation at the moment simply cannot deal with the pace of digital technology development,” Orben said.

“Scientists and policymakers must acknowledge the failures of this system and help craft a better one before the age of AI further exposes society to the risks of unchecked technological change.”

Added Matias: “When science about the impacts of new technologies is too slow, everyone loses.”

From social media to AI, online technologies are changing too fast for the scientific infrastructure used to gauge their public health harms, say two leaders in the field.

̽��ֱ��scientific methods and resources we have for evidence creation at the moment simply cannot deal with the pace of digital technology development

Dr Amy Orben

Nuthawut Somsuk via Getty

Illustration representing potential online harms

Yes

Scientists create 'metal detector' to hunt down tumours

cjb250 — Thu, 10 Apr 2025 09:00:56 +0000

In a paper published today in Nature Genetics, scientists at the ̽��ֱ�� of Cambridge and NIHR Cambridge Biomedical Research Centre analysed the full DNA sequence of 4,775 tumours from seven types of cancer. They used that data from Genomics England’s 100,000 Genomes Project to create an algorithm capable of identifying tumours with faults in their DNA that makes them easier to treat.

̽��ֱ��algorithm, called PRRDetect, could one day help doctors work out which patients are more likely to have successful treatment. That could pave the way for more personalised treatment plans that increase people’s chances of survival.

̽��ֱ��research was funded by Cancer Research UK and the National Institute for Health and Care Research (NIHR).

Professor Serena Nik-Zainal from the Early Cancer Institute at the ̽��ֱ�� of Cambridge, lead author of the study, said: “Genomic sequencing is now far faster and cheaper than ever before. We are getting closer to the point where getting your tumour sequenced will be as routine as a scan or blood test.

“To use genomics most effectively in the clinic, we need tools which give us meaningful information about how a person’s tumour might respond to treatment. This is especially important in cancers where survival is poorer, like lung cancer and brain tumours.

“Cancers with faulty DNA repair are more likely to be treated successfully. PRRDetect helps us better identify those cancers and, as we sequence more and more cancers routinely in the clinic, it could ultimately help doctors better tailor treatments to individual patients.”

̽��ֱ��research team looked for patterns in DNA created by so-called ‘indel’ mutations, in which letters are inserted or deleted from the normal DNA sequence.

They found unusual patterns of indel mutations in cancers that had faulty DNA repair mechanisms – known as ‘post-replicative repair dysfunction’ or PRRd. Using this information, the scientists developed PRRDetect to allow them to identify tumours with this fault from a full DNA sequence.

PRRd tumours are more sensitive to immunotherapy, a type of cancer treatment that uses the body’s own immune system to attack cancer cells. ̽��ֱ��scientists hope that the PRRd algorithm could act like a ‘metal detector’ to allow them to identify patients who are more likely to have successful treatment with immunotherapy.

̽��ֱ��study follows from a previous ‘archaeological dig’ of cancer genomes carried out by Professor Nik-Zainal, which examined the genomes of tens of thousands of people and revealed previously unseen patterns of mutations which are linked to cancer.

This time, Professor Nik-Zainal and her team looked at cancers which have a higher proportion of tumours with PRRd. These include bowel, brain, endometrial, skin, lung, bladder and stomach cancers. Whole genome sequences of these cancers were provided by the 100,000 Genomes Project - a pioneering study led by Genomics England and NHS England which sequenced 100,000 genomes from around 85,000 NHS patients affected by rare diseases or cancer.

̽��ֱ��study identified 37 different patterns of indel mutations across the seven cancer types included in this study. Ten of these patterns were already linked to known causes of cancer, such as smoking and exposure to UV light. Eight of these patterns were linked to PRRd. ̽��ֱ��remaining 19 patterns were new and could be linked to causes of cancer that are not fully understood yet or mechanisms within cells that can go wrong when a cell becomes cancerous.

Executive Director of Research and Innovation at Cancer Research UK, Dr Iain Foulkes, said: “Genomic medicine will revolutionise how we approach cancer treatment. We can now get full readouts of tumour DNA much more easily, and with that comes a wealth of information about how an individual’s cancer can start, grow and spread.

“Tools like PRRDetect are going to make personalised treatment for cancer a reality for many more patients in the future. Personalising treatment is much more likely to be successful, ensuring more people can live longer, better lives free from the fear of cancer.”

NIHR Scientific Director, Mike Lewis, said: “Cancer is a leading cause of death in the UK so it's impressive to see our research lead to the creation of a tool to determine which therapy will lead to a higher likelihood of successful cancer treatment.”

Chief Scientific Officer at Genomics England, Professor Matt Brown, said: “Genomics is playing an increasingly important role in healthcare and these findings show how genomic data can be used to drive more predictive, preventative care leading to better outcomes for patients with cancer.

“ ̽��ֱ��creation of this algorithm showcases the immense value of whole genome sequencing not only in research but also in the clinic across multiple diverse cancer types in advancing cancer care.”

̽��ֱ�� ̽��ֱ�� of Cambridge is fundraising for a new hospital that will transform how we diagnose and treat cancer. Cambridge Cancer Research Hospital, a partnership with Cambridge ̽��ֱ�� Hospitals NHS Foundation Trust, will treat patients across the East of England, but the research that takes place there promises to change the lives of cancer patients across the UK and beyond. Find out more here.

Reference

Koh, GCC et al. Redefined indel taxonomy reveals insights into mutational signatures. Nat Gen; 10 Apr 2025; DOI:

Adapted from a press release from Cancer Research UK

Cambridge researchers have created a ‘metal detector’ algorithm that can hunt down vulnerable tumours, in a development that could one day revolutionise the treatment of cancer.

Genomic sequencing is now far faster and cheaper than ever before. We are getting closer to the point where getting your tumour sequenced will be as routine as a scan or blood test

Professor Serena Nik-Zainal

̽��ֱ�� of Cambridge

Serena Nik-Zainal at the Early Cancer Institute

Yes

Licence type:

Attribution

Handheld device could transform heart disease screening

sc604 — Tue, 08 Apr 2025 08:10:47 +0000

̽��ֱ��researchers, from the ̽��ֱ�� of Cambridge, developed a device that makes it easy for people with or without medical training to record heart sounds accurately. Unlike a stethoscope, the device works well even if it’s not placed precisely on the chest: its larger, flexible sensing area helps capture clearer heart sounds than traditional stethoscopes.

̽��ֱ��device can also be used over clothing, making it more comfortable for patients – especially women – during routine check-ups or community heart health screening programmes.

̽��ֱ��heart sound recordings can be saved on the device, which can then be used to detect signs of heart valve disease. ̽��ֱ��researchers are also developing a machine learning algorithm which can detect signs of valve disease automatically. ̽��ֱ��results are reported in the IEEE Journal of Biomedical and Health Informatics.

Heart valve disease (valvular heart disease or VHD) has been called the ‘next cardiac epidemic,’ with a prognosis worse than many forms of cancer. Up to 50% of patients with significant VHD remain undiagnosed, and many patients only see their doctor when the disease has advanced and they are experiencing significant complications.

In the UK, the NHS and NICE have identified early detection of heart valve disease as a key goal, both to improve quality of life for patients, and to decrease costs.

An examination with a stethoscope, or auscultation, is the way that most diagnoses of heart valve disease are made. However, just 38% of patients who present to their GP with symptoms of valve disease receive an examination with a stethoscope.

“ ̽��ֱ��symptoms of VHD can be easily confused with certain respiratory conditions, which is why so many patients don’t receive a stethoscope examination,” said Professor Anurag Agarwal from Cambridge’s Department of Engineering, who led the research. “However, the accuracy of stethoscope examination for diagnosing heart valve disease is fairly poor, and it requires a GP to conduct the examination.”

In addition, a stethoscope examination requires patients to partially undress, which is both time consuming in short GP appointments, and can be uncomfortable for patients, particularly for female patients in routine screening programmes.

̽��ֱ��‘gold standard’ for diagnosing heart valve disease is an echocardiogram, but this can only be done in a hospital and NHS waiting lists are extremely long – between six to nine months at many hospitals.

“To help get waiting lists down, and to make sure we’re diagnosing heart valve disease early enough that simple interventions can improve quality of life, we wanted to develop an alternative to a stethoscope that is easy to use as a screening tool,” said Agarwal.

Agarwal and his colleagues have developed a handheld device, about the diameter of a drinks coaster, that could be a solution. Their device can be used by any health professional to accurately record heart sounds, and can be used over clothes.

While a regular or electronic stethoscope has a single sensor, the Cambridge-developed device has six, meaning it is easier for the doctor or nurse – or even someone without any medical training – to get an accurate reading, simply because the surface area is so much bigger.

̽��ֱ��device contains materials that can transmit vibration so that it can be used over clothes, which is particularly important when conducting community screening programmes to protect patient privacy. Between each of the six sensors is a gel that absorbs vibration, so the sensors don’t interfere with each other.

̽��ֱ��researchers tested the device on healthy participants with different body shapes and sizes and recorded their heart sounds. Their next steps will be to test the device in a clinical setting on a variety of patients, against results from an echocardiogram.

In parallel with the development of the device, the researchers have developed a machine learning algorithm that can use the recorded heart sounds to detect signs of valve disease automatically. Early tests of the algorithm suggest that it outperforms GPs in detecting heart valve disease.

“If successful, this device could become an affordable and scalable solution for heart health screening, especially in areas with limited medical resources,” said Agarwal.

̽��ֱ��researchers say that the device could be a useful tool to triage patients who are waiting for an echocardiogram, so that those with signs of valve disease can be seen in a hospital sooner.

A patent has been filed on the device by Cambridge Enterprise, the ̽��ֱ��’s commercialisation arm. Anurag Agarwal is a Fellow of Emmanuel College, Cambridge.

Reference:
Andrew McDonald et al. ‘A flexible multi-sensor device enabling handheld sensing of heart sounds by untrained users.’ IEEE Journal of Biomedical and Health Informatics (2025). DOI: 10.1109/JBHI.2025.3551882

Researchers have developed a handheld device that could potentially replace stethoscopes as a tool for detecting certain types of heart disease.

This device could become an affordable and scalable solution for heart health screening, especially in areas with limited medical resources

Anurag Agarwal

Acoustics Lab

Person demonstrating use of a handheld device for heart disease screening

Yes

Researchers demonstrate the UK’s first long-distance ultra-secure communication over a quantum network

sc604 — Mon, 07 Apr 2025 23:38:58 +0000

̽��ֱ��team, from the Universities of Bristol and Cambridge, created the network, which uses standard fibreoptic infrastructure, but relies on a variety of quantum phenomena to enable ultra-secure data transfer.

̽��ֱ��network uses two types of quantum key distribution (QKD) schemes: ‘unhackable’ encryption keys hidden inside particles of light; and distributed entanglement: a phenomenon that causes quantum particles to be intrinsically linked.

̽��ֱ��researchers demonstrated the capabilities of the network via a live, quantum-secure video conference link, the transfer of encrypted medical data, and secure remote access to a distributed data centre. ̽��ֱ��data was successfully transmitted between Bristol and Cambridge – a fibre distance of over 410 kilometres.

This is the first time that a long-distance network, encompassing different quantum-secure technologies such as entanglement distribution, has been successfully demonstrated. ̽��ֱ��researchers presented their results at the 2025 Optical Fiber Communications Conference (OFC) in San Francisco.

Quantum communications offer unparalleled security advantages compared to classical telecommunications solutions. These technologies are immune against future cyber-attacks, even with quantum computers, which – once fully developed – will have the potential to break through even the strongest cryptographic methods currently in use.

In the past few years, researchers have been working to build and use quantum communication networks. China recently set up a massive network that covers 4,600 kilometres by connecting five cities using both fibreoptics and satellites. In Madrid, researchers created a smaller network with nine connection points that use different types of QKD to securely share information.

In 2019, researchers at Cambridge and Toshiba demonstrated a metro-scale quantum network operating at record key rates of millions of key bits per second. And in 2020, researchers in Bristol built a network that could share entanglement between multiple users. Similar quantum network trials have been demonstrated in Singapore, Italy and the USA.

Despite this progress, no one has built a large, long-distance network that can handle both types of QKD, entanglement distribution, and regular data transmission all at once, until now.

̽��ֱ��experiment demonstrates the potential of quantum networks to accommodate different quantum-secure approaches simultaneously with classical communications infrastructure. It was carried out using the UK’s Quantum Network (UKQN), established over the last decade by the same team, supported by funding from the Engineering and Physical Sciences Research Council (EPSRC), and as part of the Quantum Communications Hub project.

“This is a crucial step toward building a quantum-secured future for our communities and society,” said co-author Dr Rui Wang, Lecturer for Future Optical Networks in the Smart Internet Lab's High Performance Network Research Group at the ̽��ֱ�� of Bristol. “More importantly, it lays the foundation for a large-scale quantum internet—connecting quantum nodes and devices through entanglement and teleportation on a global scale.”

“This marks the culmination of more than ten years of work to design and build the UK Quantum Network,” said co-author Adrian Wonfor from Cambridge’s Department of Engineering. “Not only does it demonstrate the use of multiple quantum communications technologies, but also the secure key management systems required to allow seamless end-to-end encryption between us.”

“This is a significant step in delivering quantum security for the communications we all rely upon in our daily lives at a national scale,” said co-author Professor Richard Penty, also from Cambridge and who headed the Quantum Networks work package in the Quantum Communications Hub. “It would not have been possible without the close collaboration of the two teams at Cambridge and Bristol, the support of our industrial partners Toshiba, BT, Adtran and Cisco, and our funders at UKRI.”

“This is an extraordinary achievement which highlights the UK’s world-class strengths in quantum networking technology,” said Gerald Buller, Director of the IQN Hub, based at Heriot-Watt ̽��ֱ��. “This exciting demonstration is precisely the kind of work the Integrated Quantum Networks Hub will support over the coming years, developing the technologies, protocols and standards which will establish a resilient, future-proof, national quantum communications infrastructure.”

̽��ֱ��current UKQN covers two metropolitan quantum networks around Bristol and Cambridge, which are connected via a ‘backbone’ of four long-distance optical fibre links spanning 410 kilometres with three intermediate nodes.

̽��ֱ��network uses single-mode fibre over the EPSRC National Dark Fibre Facility (which provides dedicated fibre for research purposes), and low-loss optical switches allowing network reconfiguration of both classical and quantum signal traffic.

̽��ֱ��team will pursue this work further through a newly funded EPSRC project, the Integrated Quantum Networks Hub, whose vision is to establish quantum networks at all distance scales, from local networking of quantum processors to national-scale entanglement networks for quantum-safe communication, distributed computing and sensing, all the way to intercontinental networking via low-earth orbit satellites.

Reference:
R. Yang et al. ‘A UK Nationwide Heterogeneous Quantum Network.’ Paper presented at the 2025 Optical Fiber Communications Conference and Exhibition (OFC): https://www.ofcconference.org/en-us/home/schedule/

Researchers have successfully demonstrated the UK’s first long-distance ultra-secure transfer of data over a quantum communications network, including the UK’s first long-distance quantum-secured video call.

MR.Cole_Photographer via Getty Images

Abstract background

Yes

One in 3,000 people at risk of punctured lung from faulty gene – almost 100 times higher than previous estimate

cjb250 — Mon, 07 Apr 2025 23:01:05 +0000

̽��ֱ��gene in question, FLCN, is linked to a condition known as Birt-Hogg-Dubé syndrome, symptoms of which include benign skin tumours, lung cysts, and an increased risk of kidney cancer.

In a study published today in the journal Thorax, a team from the ̽��ֱ�� of Cambridge examined data from UK Biobank, the 100,000 Genomes Project, and East London Genes & Health – three large genomic datasets encompassing more than 550,000 people.

They discovered that between one in 2,710 and one in 4,190 individuals carries the particular variant of FLCN that underlies Birt-Hogg-Dubé syndrome. But curiously, whereas patients with a diagnosis of Birt-Hogg-Dubé syndrome have a lifetime risk of punctured lung of 37%, in the wider cohort of carriers of the genetic mutation this was lower at 28%. Even more striking, while patients with Birt-Hogg-Dubé syndrome have a 32% of developing kidney cancer, in the wider cohort this was only 1%.

Punctured lung – known as pneumothorax – is caused by an air leak in the lung, resulting in painful lung deflation and shortness of breath. Not every case of punctured lung is caused by a fault in the FLCN gene, however. Around one in 200 tall, thin young men in their teens or early twenties will experience a punctured lung, and for many of them the condition will resolve itself, or doctors will remove air or fluid from their lungs while treating the individual as an outpatient; many will not even know they have the condition.

If an individual experiences a punctured lung and doesn’t fit the common characteristics – for example, if they are in their forties – doctors will look for tell-tale cysts in the lower lungs, visible on an MRI scan. If these are present, then the individual is likely to have Birt-Hogg-Dubé syndrome.

Professor Marciniak is a researcher at the ̽��ֱ�� of Cambridge and an honorary consultant at Cambridge ̽��ֱ�� Hospitals NHS Foundation Trust and Royal Papworth Hospital NHS Foundation Trust. He co-leads the UK’s first Familial Pneumothorax Rare Disease Collaborative Network, together with Professor Kevin Blyth at Queen Elizabeth ̽��ֱ�� Hospital and ̽��ֱ�� of Glasgow. ̽��ֱ��aim of the Network is to optimise the care and treatment of patients with rare, inherited forms of familial pneumothorax, and to support research into this condition.

Professor Marciniak said: “If an individual has Birt-Hogg-Dubé syndrome, then it’s very important that we’re able to diagnose it, because they and their family members may also be at risk of kidney cancer.

“ ̽��ֱ��good news is that the punctured lung usually happens 10 to 20 years before the individual shows symptoms of kidney cancer, so we can keep an eye on them, screen them every year, and if we see the tumour it should still be early enough to cure it.”

Professor Marciniak says he was surprised to discover that the risk of kidney cancer was so much lower in carriers of the faulty FLCN gene who have not been diagnosed with Birt-Hogg-Dubé syndrome.

“Even though we’ve always thought of Birt-Hogg-Dubé syndrome as being caused by a single faulty gene, there’s clearly something else going on,” Professor Marciniak said. “ ̽��ֱ��Birt-Hogg-Dubé patients that we've been caring for and studying for the past couple of decades are not representative of when this gene is broken in the wider population. There must be something else about their genetic background that’s interacting with the gene to cause the additional symptoms.”

̽��ֱ��finding raises the question of whether, if an individual is found to have a fault FLCN gene, they should be offered screening for kidney cancer. However, Professor Marciniak does not believe this will be necessary.

“With increasing use of genetic testing, we will undoubtedly find more people with these mutations,” he said, “but unless we see the other tell-tale signs of Birt-Hogg-Dubé syndrome, our study shows there's no reason to believe they’ll have the same elevated cancer risk.”

̽��ֱ��research was funded by the Myrovlytis Trust, with additional support from the National Institute for Health and Care Research Cambridge Biomedical Research Centre.

Katie Honeywood, CEO of the Myrovlytis Trust, said: " ̽��ֱ��Myrovlytis Trust are delighted to have funded such an important project. We have long believed that the prevalence of Birt-Hogg-Dubé syndrome is far higher than previously reported. It highlights the importance of genetic testing for anyone who has any of the main symptoms associated with BHD including a collapsed lung. And even more so the importance of the medical world being aware of this condition for anyone who presents at an emergency department or clinic with these symptoms. We look forward to seeing the impact this projects outcome has on the Birt-Hogg-Dubé and wider community."

Reference
Yngvadottir, B et al. Inherited predisposition to pneumothorax: Estimating the frequency of Birt-Hogg-Dubé syndrome from genomics and population cohorts. Thorax; 8 April 2025; DOI: 10.1136/thorax-2024-221738

As many as one in 3,000 people could be carrying a faulty gene that significantly increases their risk of a punctured lung, according to new estimates from Cambridge researchers. Previous estimates had put this risk closer to one in 200,000 people.

If an individual has Birt-Hogg-Dubé syndrome, then it’s very important that we’re able to diagnose it, because they and their family members may also be at risk of kidney cancer

Stefan Marciniak

wildpixel (Getty Images)

Chest pain

Yes

Cambridge researchers named 2025 Schmidt Science Fellows

Anonymous — Mon, 07 Apr 2025 11:55:17 +0000

Now in its eighth year, the Fellowship provides financial support for a postdoctoral placement of one to two years at a world-class research institution.

̽��ֱ��funding equips scientists to apply their knowledge to a new field of study with the goal of accelerating discoveries, and to develop their leadership potential.

Dr Poppy Oldroyd, a 2025 Schmidt Science Fellow from the Department of Engineering, plans to pioneer a new frontier in understanding brain communication through optical measurements, ultimately advancing treatments for memory-related diseases.

̽��ֱ��human brain communicates through intricate networks of neurons, crucial for learning and memory. However, how these neural conversations translate into memory formation remains a mystery in neuroscience. Oldroyd’s research aims to use light-based tools, like advanced optogenetics, to explore these pathways in detail. By uncovering how specific brain circuits contribute to learning and memory, this research could revolutionise our understanding of these essential brain functions.

Ultimately, this knowledge may enhance our comprehension of memory-related disorders like Alzheimer’s disease and epilepsy.

Dr Matthew McLouglin, a 2025 Schmidt Science Fellow from the Cambridge Stem Cell Institute, plans to develop tools to study how our cells age in real time. This will help us understand why we age and how we might promote healthy aging to improve quality of life in the elderly.

Our DNA is organised into structures called chromosomes. Each chromosome has a protective cap, the ‘telomere’, which is partially lost with each cell division. In old age, cells cannot function properly due to the loss of telomeres, increasing the risk of age-related diseases such as cancer and dementia. McLoughlin will use cutting-edge imaging technology to track the loss of telomeres over time, understanding how telomeres are lost and why this stops cells from functioning.

Oldroyd and McLoughlin join a community of 209 Schmidt Science Fellows from nearly 40 countries who are leaders in interdisciplinary science.

“Philanthropic funding of scientific research, and especially support of early-career researchers, has never been more important,” said Wendy Schmidt, who co-founded Schmidt Science Fellows with her husband, Eric.

“By providing Schmidt Science Fellows with support, community, and freedom to work across disciplines and gain new insights, we hope they’ll tackle some of the world’s most vexing challenges, achieve breakthroughs and help create a healthier, more resilient world for all.”

Established in 2017, Schmidt Science Fellows is a programme of Schmidt Sciences delivered in partnership with the Rhodes Trust.

̽��ֱ��2025 Fellows represent 15 nationalities, including researchers from Jordan and the United Arab Emirates for the first time in the programme’s history.

This year’s cohort will work on a range of problems from cancer treatment to quantum technologies to sustainability.

Alongside their research Placement, Fellows participate in a 12-month interdisciplinary Science Leadership Programme.

Each year, Schmidt Science Fellows works in partnership with more than 100 universities to identify candidates for the Fellowship.

Nominees are selected via an application process that includes an academic review with panels of experts in their original disciplines and final interviews with a multidisciplinary panel of scientists and private sector leaders.

“ ̽��ֱ��Schmidt Science Fellows Program is cultivating a dynamic global community of remarkable scientists and champions of interdisciplinary research,” said Stu Feldman, Chief Scientist at Schmidt Sciences.

“Their work exemplifies Schmidt Sciences’ commitment to support pioneering approaches that will drive the next era of discovery and innovation.”

̽��ֱ��2025 Schmidt Science Fellows represent 27 nominating universities, including, for the first time, McGill ̽��ֱ�� in Canada, RWTH Aachen ̽��ֱ�� in Germany, Tecnológico de Monterrey in Mexico, ̽��ֱ�� of California, Los Angeles in the US, and ̽��ֱ�� of Groningen in the Netherlands.

Two ̽��ֱ�� of Cambridge researchers are among the thirty-two early career researchers, tackling issues from improving food security to developing better medical implants, who have been announced as the 2025 Schmidt Science Fellows.

Schmidt Science Fellows

Poppy Oldroyd (left) and Matthew McLoughlin (right)

Yes

New funding to model solar geoengineering impacts

plc32 — Thu, 03 Apr 2025 14:23:00 +0000

̽��ֱ��UK government is taking steps to research potential interventions that could reduce global warming by reflecting sunlight into space.

New research will model the risks and impacts of using solar radiation modification (SRM) to guide informed decision-making on climate interventions.

Read more at the Centre for Climate Repair

Cambridge is leading one of four projects receiving new funding from the Natural Environment Research Council (NERC) to model the risks and impacts of solar radiation modification (SRM).

We need to build up our understanding

Dr Shaun Fitzgerald

Yes