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We’ve long known that a woman’s lifestyle and exposures during pregnancy can influence her child’s health. But what about men?⁣
⁣
Oskar Karlsson and his team from Stockholm University reveal that, even before conception, a father’s environment – from chemical exposure to stress – can alter gene expression in ways that are passed down to future generations.⁣
⁣
By revealing how a father’s past can shape his child’s future, the project doesn’t just advance biology and public health concerns – it also demands we rethink reproductive responsibility, from the lab to the living room.⁣

Check their website: https://karlssonlab.se
⁣
#FrontierResearch ⁣
⁣
@stockholmuniversity @scilifelab @environment_sthlmuni @eukommissionen

We’ve long known that a woman’s lifestyle and exposures during pregnancy can influence her child’s health. But what about men?⁣
⁣
Oskar Karlsson and his team from Stockholm University reveal that, even before conception, a father’s environment – from chemical exposure to stress – can alter gene expression in ways that are passed down to future generations.⁣
⁣
By revealing how a father’s past can shape his child’s future, the project doesn’t just advance biology and public health concerns – it also demands we rethink reproductive responsibility, from the lab to the living room.⁣

Check their website: https://karlssonlab.se
⁣
#FrontierResearch ⁣
⁣
@stockholmuniversity @scilifelab @environment_sthlmuni @eukommissionen

We’ve long known that a woman’s lifestyle and exposures during pregnancy can influence her child’s health. But what about men?⁣
⁣
Oskar Karlsson and his team from Stockholm University reveal that, even before conception, a father’s environment – from chemical exposure to stress – can alter gene expression in ways that are passed down to future generations.⁣
⁣
By revealing how a father’s past can shape his child’s future, the project doesn’t just advance biology and public health concerns – it also demands we rethink reproductive responsibility, from the lab to the living room.⁣

Check their website: https://karlssonlab.se
⁣
#FrontierResearch ⁣
⁣
@stockholmuniversity @scilifelab @environment_sthlmuni @eukommissionen

We’ve long known that a woman’s lifestyle and exposures during pregnancy can influence her child’s health. But what about men?⁣
⁣
Oskar Karlsson and his team from Stockholm University reveal that, even before conception, a father’s environment – from chemical exposure to stress – can alter gene expression in ways that are passed down to future generations.⁣
⁣
By revealing how a father’s past can shape his child’s future, the project doesn’t just advance biology and public health concerns – it also demands we rethink reproductive responsibility, from the lab to the living room.⁣

Check their website: https://karlssonlab.se
⁣
#FrontierResearch ⁣
⁣
@stockholmuniversity @scilifelab @environment_sthlmuni @eukommissionen

We’ve long known that a woman’s lifestyle and exposures during pregnancy can influence her child’s health. But what about men?⁣
⁣
Oskar Karlsson and his team from Stockholm University reveal that, even before conception, a father’s environment – from chemical exposure to stress – can alter gene expression in ways that are passed down to future generations.⁣
⁣
By revealing how a father’s past can shape his child’s future, the project doesn’t just advance biology and public health concerns – it also demands we rethink reproductive responsibility, from the lab to the living room.⁣

Check their website: https://karlssonlab.se
⁣
#FrontierResearch ⁣
⁣
@stockholmuniversity @scilifelab @environment_sthlmuni @eukommissionen

Zoom in, researchers. ⁣
⁣
Breakthroughs don’t happen overnight. They start with curiosity - and the freedom to explore it.

Winning a grant from the European Research Council means the freedom to explore bold ideas, ask big questions and push the frontiers of knowledge.⁣
⁣
For many researchers, it’s a moment they will never forget.⁣
⁣
Interested in applying for a grant?⁣
⁣
The ERC offers several types of grants for researchers at different stages of their careers:

👉 Starting Grants for early-career scientists
👉 Consolidator Grants for researchers building their own team
👉 Advanced Grants for established research leaders
👉 Synergy Grants bring together small groups of researchers to tackle ambitious problems
👉 Proof of Concept Grants explore the innovation potential of ERC-funded discoveries.⁣
⁣
Find out more on our website!

🎵 What does music have to do with medicine, physics or urban life? More than you might think.⁣
⁣
At the ERC, researchers explore questions that cross disciplines and connect fields in unexpected ways. And that’s how we end up exploring music as a window into health, science, history and society.⁣
⁣
Four ERC-funded projects show what this looks like in practice.⁣
⁣
👉 Elaine Chew uses mathematical models to understand how music can support cardiovascular health⁣
👉 J Griffith Rollefson studies how hip hop culture produces and circulates knowledge across cities and communities⁣
👉 Maciej Lewenstein explores the connections between jazz and quantum physics⁣
👉 David Trippett reconstructs an unfinished opera, bringing a lost 19th-century work back to life for modern performance.⁣
⁣
While music is the common thread, the discoveries of these projects reach far beyond the arts.⁣
⁣
#MusicResearch⁣
⁣
@cambridgeuniversity @icfonians @globalcipher @universitycollegecork⁣
@cambridgeuniversity⁣

🎵 What does music have to do with medicine, physics or urban life? More than you might think.⁣
⁣
At the ERC, researchers explore questions that cross disciplines and connect fields in unexpected ways. And that’s how we end up exploring music as a window into health, science, history and society.⁣
⁣
Four ERC-funded projects show what this looks like in practice.⁣
⁣
👉 Elaine Chew uses mathematical models to understand how music can support cardiovascular health⁣
👉 J Griffith Rollefson studies how hip hop culture produces and circulates knowledge across cities and communities⁣
👉 Maciej Lewenstein explores the connections between jazz and quantum physics⁣
👉 David Trippett reconstructs an unfinished opera, bringing a lost 19th-century work back to life for modern performance.⁣
⁣
While music is the common thread, the discoveries of these projects reach far beyond the arts.⁣
⁣
#MusicResearch⁣
⁣
@cambridgeuniversity @icfonians @globalcipher @universitycollegecork⁣
@cambridgeuniversity⁣

🎵 What does music have to do with medicine, physics or urban life? More than you might think.⁣
⁣
At the ERC, researchers explore questions that cross disciplines and connect fields in unexpected ways. And that’s how we end up exploring music as a window into health, science, history and society.⁣
⁣
Four ERC-funded projects show what this looks like in practice.⁣
⁣
👉 Elaine Chew uses mathematical models to understand how music can support cardiovascular health⁣
👉 J Griffith Rollefson studies how hip hop culture produces and circulates knowledge across cities and communities⁣
👉 Maciej Lewenstein explores the connections between jazz and quantum physics⁣
👉 David Trippett reconstructs an unfinished opera, bringing a lost 19th-century work back to life for modern performance.⁣
⁣
While music is the common thread, the discoveries of these projects reach far beyond the arts.⁣
⁣
#MusicResearch⁣
⁣
@cambridgeuniversity @icfonians @globalcipher @universitycollegecork⁣
@cambridgeuniversity⁣

🎵 What does music have to do with medicine, physics or urban life? More than you might think.⁣
⁣
At the ERC, researchers explore questions that cross disciplines and connect fields in unexpected ways. And that’s how we end up exploring music as a window into health, science, history and society.⁣
⁣
Four ERC-funded projects show what this looks like in practice.⁣
⁣
👉 Elaine Chew uses mathematical models to understand how music can support cardiovascular health⁣
👉 J Griffith Rollefson studies how hip hop culture produces and circulates knowledge across cities and communities⁣
👉 Maciej Lewenstein explores the connections between jazz and quantum physics⁣
👉 David Trippett reconstructs an unfinished opera, bringing a lost 19th-century work back to life for modern performance.⁣
⁣
While music is the common thread, the discoveries of these projects reach far beyond the arts.⁣
⁣
#MusicResearch⁣
⁣
@cambridgeuniversity @icfonians @globalcipher @universitycollegecork⁣
@cambridgeuniversity⁣

🎵 What does music have to do with medicine, physics or urban life? More than you might think.⁣
⁣
At the ERC, researchers explore questions that cross disciplines and connect fields in unexpected ways. And that’s how we end up exploring music as a window into health, science, history and society.⁣
⁣
Four ERC-funded projects show what this looks like in practice.⁣
⁣
👉 Elaine Chew uses mathematical models to understand how music can support cardiovascular health⁣
👉 J Griffith Rollefson studies how hip hop culture produces and circulates knowledge across cities and communities⁣
👉 Maciej Lewenstein explores the connections between jazz and quantum physics⁣
👉 David Trippett reconstructs an unfinished opera, bringing a lost 19th-century work back to life for modern performance.⁣
⁣
While music is the common thread, the discoveries of these projects reach far beyond the arts.⁣
⁣
#MusicResearch⁣
⁣
@cambridgeuniversity @icfonians @globalcipher @universitycollegecork⁣
@cambridgeuniversity⁣

Forests around the world are undergoing unprecedented changes due to climate change and human activity 🌲🌲. But how can we better understand the impact of disturbances such as droughts, fires and logging on forest ecosystems?⁣
⁣
ERC grantee Kim Calders and his team at Ghent University are building highly detailed “digital twin” forests to help answer these questions.⁣
⁣
Using advanced 3D laser scanning and spectrometry, the researchers create virtual forest models that capture forest structure and spectral properties in remarkable detail.⁣
⁣
Their work combines field measurements with satellite observations to improve the monitoring of forest disturbances and recovery across tropical and temperate ecosystems.⁣
⁣
Some of this research involves extraordinary fieldwork - including mounting a laser scanner in an 80 m-tall tree in Tasmania to scan giant forest canopies.⁣
⁣
The team also collaborates closely with local partners around the world to better understand the drivers of forest disturbances.⁣
⁣
Through their research, the scientists aim to improve forecasts of forest carbon dynamics and reduce uncertainties in climate models - insights that are urgently needed in the context of global warming and climate mitigation.⁣
⁣
Find out more about the project 👉 @qforestlab⁣
⁣
@kimcalders @ugent @nationaalparkbosland @thetreeprojects⁣
@eu4be

Forests around the world are undergoing unprecedented changes due to climate change and human activity 🌲🌲. But how can we better understand the impact of disturbances such as droughts, fires and logging on forest ecosystems?⁣
⁣
ERC grantee Kim Calders and his team at Ghent University are building highly detailed “digital twin” forests to help answer these questions.⁣
⁣
Using advanced 3D laser scanning and spectrometry, the researchers create virtual forest models that capture forest structure and spectral properties in remarkable detail.⁣
⁣
Their work combines field measurements with satellite observations to improve the monitoring of forest disturbances and recovery across tropical and temperate ecosystems.⁣
⁣
Some of this research involves extraordinary fieldwork - including mounting a laser scanner in an 80 m-tall tree in Tasmania to scan giant forest canopies.⁣
⁣
The team also collaborates closely with local partners around the world to better understand the drivers of forest disturbances.⁣
⁣
Through their research, the scientists aim to improve forecasts of forest carbon dynamics and reduce uncertainties in climate models - insights that are urgently needed in the context of global warming and climate mitigation.⁣
⁣
Find out more about the project 👉 @qforestlab⁣
⁣
@kimcalders @ugent @nationaalparkbosland @thetreeprojects⁣
@eu4be

Forests around the world are undergoing unprecedented changes due to climate change and human activity 🌲🌲. But how can we better understand the impact of disturbances such as droughts, fires and logging on forest ecosystems?⁣
⁣
ERC grantee Kim Calders and his team at Ghent University are building highly detailed “digital twin” forests to help answer these questions.⁣
⁣
Using advanced 3D laser scanning and spectrometry, the researchers create virtual forest models that capture forest structure and spectral properties in remarkable detail.⁣
⁣
Their work combines field measurements with satellite observations to improve the monitoring of forest disturbances and recovery across tropical and temperate ecosystems.⁣
⁣
Some of this research involves extraordinary fieldwork - including mounting a laser scanner in an 80 m-tall tree in Tasmania to scan giant forest canopies.⁣
⁣
The team also collaborates closely with local partners around the world to better understand the drivers of forest disturbances.⁣
⁣
Through their research, the scientists aim to improve forecasts of forest carbon dynamics and reduce uncertainties in climate models - insights that are urgently needed in the context of global warming and climate mitigation.⁣
⁣
Find out more about the project 👉 @qforestlab⁣
⁣
@kimcalders @ugent @nationaalparkbosland @thetreeprojects⁣
@eu4be

Forests around the world are undergoing unprecedented changes due to climate change and human activity 🌲🌲. But how can we better understand the impact of disturbances such as droughts, fires and logging on forest ecosystems?⁣
⁣
ERC grantee Kim Calders and his team at Ghent University are building highly detailed “digital twin” forests to help answer these questions.⁣
⁣
Using advanced 3D laser scanning and spectrometry, the researchers create virtual forest models that capture forest structure and spectral properties in remarkable detail.⁣
⁣
Their work combines field measurements with satellite observations to improve the monitoring of forest disturbances and recovery across tropical and temperate ecosystems.⁣
⁣
Some of this research involves extraordinary fieldwork - including mounting a laser scanner in an 80 m-tall tree in Tasmania to scan giant forest canopies.⁣
⁣
The team also collaborates closely with local partners around the world to better understand the drivers of forest disturbances.⁣
⁣
Through their research, the scientists aim to improve forecasts of forest carbon dynamics and reduce uncertainties in climate models - insights that are urgently needed in the context of global warming and climate mitigation.⁣
⁣
Find out more about the project 👉 @qforestlab⁣
⁣
@kimcalders @ugent @nationaalparkbosland @thetreeprojects⁣
@eu4be

Forests around the world are undergoing unprecedented changes due to climate change and human activity 🌲🌲. But how can we better understand the impact of disturbances such as droughts, fires and logging on forest ecosystems?⁣
⁣
ERC grantee Kim Calders and his team at Ghent University are building highly detailed “digital twin” forests to help answer these questions.⁣
⁣
Using advanced 3D laser scanning and spectrometry, the researchers create virtual forest models that capture forest structure and spectral properties in remarkable detail.⁣
⁣
Their work combines field measurements with satellite observations to improve the monitoring of forest disturbances and recovery across tropical and temperate ecosystems.⁣
⁣
Some of this research involves extraordinary fieldwork - including mounting a laser scanner in an 80 m-tall tree in Tasmania to scan giant forest canopies.⁣
⁣
The team also collaborates closely with local partners around the world to better understand the drivers of forest disturbances.⁣
⁣
Through their research, the scientists aim to improve forecasts of forest carbon dynamics and reduce uncertainties in climate models - insights that are urgently needed in the context of global warming and climate mitigation.⁣
⁣
Find out more about the project 👉 @qforestlab⁣
⁣
@kimcalders @ugent @nationaalparkbosland @thetreeprojects⁣
@eu4be

Forests around the world are undergoing unprecedented changes due to climate change and human activity 🌲🌲. But how can we better understand the impact of disturbances such as droughts, fires and logging on forest ecosystems?⁣
⁣
ERC grantee Kim Calders and his team at Ghent University are building highly detailed “digital twin” forests to help answer these questions.⁣
⁣
Using advanced 3D laser scanning and spectrometry, the researchers create virtual forest models that capture forest structure and spectral properties in remarkable detail.⁣
⁣
Their work combines field measurements with satellite observations to improve the monitoring of forest disturbances and recovery across tropical and temperate ecosystems.⁣
⁣
Some of this research involves extraordinary fieldwork - including mounting a laser scanner in an 80 m-tall tree in Tasmania to scan giant forest canopies.⁣
⁣
The team also collaborates closely with local partners around the world to better understand the drivers of forest disturbances.⁣
⁣
Through their research, the scientists aim to improve forecasts of forest carbon dynamics and reduce uncertainties in climate models - insights that are urgently needed in the context of global warming and climate mitigation.⁣
⁣
Find out more about the project 👉 @qforestlab⁣
⁣
@kimcalders @ugent @nationaalparkbosland @thetreeprojects⁣
@eu4be

Can music reveal hidden signs of heart disease? 🎵🎵 For Prof. Elaine Chew at King's College London, the answer lies in the patterns she’s spent a lifetime studying. As a mathematician and pianist, Chew saw how algorithms could decode music’s emotional power.⁣
⁣
Her research has revealed that music doesn’t just affect our emotions — it can physically influence how our hearts beat and how our blood flows. By tracking these subtle shifts, music could help detect early signs of heart problems or even calm stress-related conditions like high blood pressure.⁣
⁣
@lifeatkings @euinuk⁣

From sunlight-powered electronics to next-generation solar cells, frontier research is opening new possibilities for the green transition ☀️⁣
⁣
Inspired by photosynthesis in green leaves, Michael Grätzel pioneered solar technologies that can harvest even ambient indoor light — helping power devices such as e-readers, headphones and smartphones with reduced charging needs.⁣
⁣
His research has also contributed to advances in photovoltaic technologies designed to be more adaptable, efficient and accessible for future energy systems.⁣
⁣
His research is based at the Ecole Polytechnique Federale De Lausanne in Switzerland!⁣
⁣
@epflcampus

From sunlight-powered electronics to next-generation solar cells, frontier research is opening new possibilities for the green transition ☀️⁣
⁣
Inspired by photosynthesis in green leaves, Michael Grätzel pioneered solar technologies that can harvest even ambient indoor light — helping power devices such as e-readers, headphones and smartphones with reduced charging needs.⁣
⁣
His research has also contributed to advances in photovoltaic technologies designed to be more adaptable, efficient and accessible for future energy systems.⁣
⁣
His research is based at the Ecole Polytechnique Federale De Lausanne in Switzerland!⁣
⁣
@epflcampus

From sunlight-powered electronics to next-generation solar cells, frontier research is opening new possibilities for the green transition ☀️⁣
⁣
Inspired by photosynthesis in green leaves, Michael Grätzel pioneered solar technologies that can harvest even ambient indoor light — helping power devices such as e-readers, headphones and smartphones with reduced charging needs.⁣
⁣
His research has also contributed to advances in photovoltaic technologies designed to be more adaptable, efficient and accessible for future energy systems.⁣
⁣
His research is based at the Ecole Polytechnique Federale De Lausanne in Switzerland!⁣
⁣
@epflcampus

From sunlight-powered electronics to next-generation solar cells, frontier research is opening new possibilities for the green transition ☀️⁣
⁣
Inspired by photosynthesis in green leaves, Michael Grätzel pioneered solar technologies that can harvest even ambient indoor light — helping power devices such as e-readers, headphones and smartphones with reduced charging needs.⁣
⁣
His research has also contributed to advances in photovoltaic technologies designed to be more adaptable, efficient and accessible for future energy systems.⁣
⁣
His research is based at the Ecole Polytechnique Federale De Lausanne in Switzerland!⁣
⁣
@epflcampus

Meet Prof. Kath Browne, whose work explores lesbian, gay, bisexual and trans exclusions and, more recently, groups and organisations that resist sexual and gender equality.⁣
⁣
Her research examines new ways of understanding difference and the social effects of changing attitudes towards sex and gender in the 21st century.⁣
⁣
Watch the video to hear more about the project’s findings.⁣
⁣
#IDAHOT⁣
⁣
@universitycollegedublin @euireland⁣
⁣

🌊 Who controls the science of the high seas? The new UN High Seas Treaty is a big win for ocean protection, but it also tells another story.⁣
⁣
Alice Vadrot, Professor in International Relations and the Environment at the Universität Wien, followed the negotiations closely and found that science wasn’t just guiding decisions, it was part of the negotiations.⁣
⁣
📊 Countries used data strategically⁣
🌍 Not everyone had equal access to science⁣
⚖️ A balance had to be struck between conservation and fairness⁣
⁣
Power in global politics is closely tied to who produces and controls knowledge. In the end, science isn’t just about facts, it’s about influence.⁣
⁣
#ScienceDiplomacy⁣
⁣
@univienna

On Europe Day, we're asking a question we think is worth sitting with: what happens when science is free to follow curiosity, without knowing where it will lead?⁣
⁣
The answer, time and again, is that it leads somewhere important.⁣
⁣
Researchers spend years exploring questions with no obvious application – from how AI reshapes warfare, to what ancient ice reveals about climate, to how policies build up over time.⁣
⁣
None of these started with a guaranteed outcome. All of them produced knowledge that matters.⁣
⁣
That is free science. And it is worth protecting.⁣
⁣
@eu_science europeancommission

On Europe Day, we're asking a question we think is worth sitting with: what happens when science is free to follow curiosity, without knowing where it will lead?⁣
⁣
The answer, time and again, is that it leads somewhere important.⁣
⁣
Researchers spend years exploring questions with no obvious application – from how AI reshapes warfare, to what ancient ice reveals about climate, to how policies build up over time.⁣
⁣
None of these started with a guaranteed outcome. All of them produced knowledge that matters.⁣
⁣
That is free science. And it is worth protecting.⁣
⁣
@eu_science europeancommission

On Europe Day, we're asking a question we think is worth sitting with: what happens when science is free to follow curiosity, without knowing where it will lead?⁣
⁣
The answer, time and again, is that it leads somewhere important.⁣
⁣
Researchers spend years exploring questions with no obvious application – from how AI reshapes warfare, to what ancient ice reveals about climate, to how policies build up over time.⁣
⁣
None of these started with a guaranteed outcome. All of them produced knowledge that matters.⁣
⁣
That is free science. And it is worth protecting.⁣
⁣
@eu_science europeancommission

On Europe Day, we're asking a question we think is worth sitting with: what happens when science is free to follow curiosity, without knowing where it will lead?⁣
⁣
The answer, time and again, is that it leads somewhere important.⁣
⁣
Researchers spend years exploring questions with no obvious application – from how AI reshapes warfare, to what ancient ice reveals about climate, to how policies build up over time.⁣
⁣
None of these started with a guaranteed outcome. All of them produced knowledge that matters.⁣
⁣
That is free science. And it is worth protecting.⁣
⁣
@eu_science europeancommission

On Europe Day, we're asking a question we think is worth sitting with: what happens when science is free to follow curiosity, without knowing where it will lead?⁣
⁣
The answer, time and again, is that it leads somewhere important.⁣
⁣
Researchers spend years exploring questions with no obvious application – from how AI reshapes warfare, to what ancient ice reveals about climate, to how policies build up over time.⁣
⁣
None of these started with a guaranteed outcome. All of them produced knowledge that matters.⁣
⁣
That is free science. And it is worth protecting.⁣
⁣
@eu_science europeancommission

Every year, around 3.2 million women are diagnosed with breast, ovarian or cervical cancers. Together, these cancers cause over 1.2 million deaths annually.⁣
⁣
An ERC-funded project led by Claudia Allemani is tackling a crucial question: why survival for these cancers differ so dramatically around the world.⁣
⁣
It provides the first truly global picture of cancer care pathways, based on data for more than 275 000 women, diagnosed between 2025 and 2018, across 39 countries.⁣
⁣
🔷 The findings show that for ovarian cancer, fewer than 20% of women are diagnosed at an early stage worldwide, although the situation remains slightly worse for women in low-and middle income countries. ⁣
🔷 Access to surgery and treatments that align with international guidelines also varies widely, and older women are less likely to receive recommended care. ⁣
⁣
By identifying where and why care falls short, the project aims to guide policymakers and help prevent avoidable deaths worldwide.⁣
⁣
“Optimal treatment for early-stage tumours is more accessible in most countries. Efforts to promote early detection should continue,” says Claudia Allemani, based at the London School of Hygiene and Tropical Medicine in the UK.⁣
⁣
Co-author Veronica Di Carlo refers to international clinical guidelines, stressing “women everywhere need to be able to discuss their treatment with medical professionals, in order to access the best available options according to recommended guidelines.” ⁣
⁣
#WorldOvarianCancerDay⁣
⁣
@lshtm ⁣
⁣

Every year, around 3.2 million women are diagnosed with breast, ovarian or cervical cancers. Together, these cancers cause over 1.2 million deaths annually.⁣
⁣
An ERC-funded project led by Claudia Allemani is tackling a crucial question: why survival for these cancers differ so dramatically around the world.⁣
⁣
It provides the first truly global picture of cancer care pathways, based on data for more than 275 000 women, diagnosed between 2025 and 2018, across 39 countries.⁣
⁣
🔷 The findings show that for ovarian cancer, fewer than 20% of women are diagnosed at an early stage worldwide, although the situation remains slightly worse for women in low-and middle income countries. ⁣
🔷 Access to surgery and treatments that align with international guidelines also varies widely, and older women are less likely to receive recommended care. ⁣
⁣
By identifying where and why care falls short, the project aims to guide policymakers and help prevent avoidable deaths worldwide.⁣
⁣
“Optimal treatment for early-stage tumours is more accessible in most countries. Efforts to promote early detection should continue,” says Claudia Allemani, based at the London School of Hygiene and Tropical Medicine in the UK.⁣
⁣
Co-author Veronica Di Carlo refers to international clinical guidelines, stressing “women everywhere need to be able to discuss their treatment with medical professionals, in order to access the best available options according to recommended guidelines.” ⁣
⁣
#WorldOvarianCancerDay⁣
⁣
@lshtm ⁣
⁣

Every year, around 3.2 million women are diagnosed with breast, ovarian or cervical cancers. Together, these cancers cause over 1.2 million deaths annually.⁣
⁣
An ERC-funded project led by Claudia Allemani is tackling a crucial question: why survival for these cancers differ so dramatically around the world.⁣
⁣
It provides the first truly global picture of cancer care pathways, based on data for more than 275 000 women, diagnosed between 2025 and 2018, across 39 countries.⁣
⁣
🔷 The findings show that for ovarian cancer, fewer than 20% of women are diagnosed at an early stage worldwide, although the situation remains slightly worse for women in low-and middle income countries. ⁣
🔷 Access to surgery and treatments that align with international guidelines also varies widely, and older women are less likely to receive recommended care. ⁣
⁣
By identifying where and why care falls short, the project aims to guide policymakers and help prevent avoidable deaths worldwide.⁣
⁣
“Optimal treatment for early-stage tumours is more accessible in most countries. Efforts to promote early detection should continue,” says Claudia Allemani, based at the London School of Hygiene and Tropical Medicine in the UK.⁣
⁣
Co-author Veronica Di Carlo refers to international clinical guidelines, stressing “women everywhere need to be able to discuss their treatment with medical professionals, in order to access the best available options according to recommended guidelines.” ⁣
⁣
#WorldOvarianCancerDay⁣
⁣
@lshtm ⁣
⁣

Every year, around 3.2 million women are diagnosed with breast, ovarian or cervical cancers. Together, these cancers cause over 1.2 million deaths annually.⁣
⁣
An ERC-funded project led by Claudia Allemani is tackling a crucial question: why survival for these cancers differ so dramatically around the world.⁣
⁣
It provides the first truly global picture of cancer care pathways, based on data for more than 275 000 women, diagnosed between 2025 and 2018, across 39 countries.⁣
⁣
🔷 The findings show that for ovarian cancer, fewer than 20% of women are diagnosed at an early stage worldwide, although the situation remains slightly worse for women in low-and middle income countries. ⁣
🔷 Access to surgery and treatments that align with international guidelines also varies widely, and older women are less likely to receive recommended care. ⁣
⁣
By identifying where and why care falls short, the project aims to guide policymakers and help prevent avoidable deaths worldwide.⁣
⁣
“Optimal treatment for early-stage tumours is more accessible in most countries. Efforts to promote early detection should continue,” says Claudia Allemani, based at the London School of Hygiene and Tropical Medicine in the UK.⁣
⁣
Co-author Veronica Di Carlo refers to international clinical guidelines, stressing “women everywhere need to be able to discuss their treatment with medical professionals, in order to access the best available options according to recommended guidelines.” ⁣
⁣
#WorldOvarianCancerDay⁣
⁣
@lshtm ⁣
⁣

Every year, around 3.2 million women are diagnosed with breast, ovarian or cervical cancers. Together, these cancers cause over 1.2 million deaths annually.⁣
⁣
An ERC-funded project led by Claudia Allemani is tackling a crucial question: why survival for these cancers differ so dramatically around the world.⁣
⁣
It provides the first truly global picture of cancer care pathways, based on data for more than 275 000 women, diagnosed between 2025 and 2018, across 39 countries.⁣
⁣
🔷 The findings show that for ovarian cancer, fewer than 20% of women are diagnosed at an early stage worldwide, although the situation remains slightly worse for women in low-and middle income countries. ⁣
🔷 Access to surgery and treatments that align with international guidelines also varies widely, and older women are less likely to receive recommended care. ⁣
⁣
By identifying where and why care falls short, the project aims to guide policymakers and help prevent avoidable deaths worldwide.⁣
⁣
“Optimal treatment for early-stage tumours is more accessible in most countries. Efforts to promote early detection should continue,” says Claudia Allemani, based at the London School of Hygiene and Tropical Medicine in the UK.⁣
⁣
Co-author Veronica Di Carlo refers to international clinical guidelines, stressing “women everywhere need to be able to discuss their treatment with medical professionals, in order to access the best available options according to recommended guidelines.” ⁣
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#WorldOvarianCancerDay⁣
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@lshtm ⁣
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🌍 The biggest challenges we face can’t be solved alone. From climate change to global health and digital security, progress depends on cooperation across borders, yet collaboration is under pressure.⁣
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In the new #ERCMagazine, ERC President Maria Leptin discusses why science diplomacy matters and how science can help bridge divides. ⁣
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She highlights three key ideas:⁣
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🔸 Knowledge as a global common⁣
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🔸 Science as a tool for diplomacy⁣
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🔸 Inclusive scientific research systems⁣
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By supporting curiosity-driven research, the ERC helps sustain open international collaboration.⁣
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📖 Read the editorial in the latest ERC Magazine: Check the link in bio