Saturday, August 10, 2024

Cleveland Clinic study adds to increasing evidence that sugar substitute erythritol raises cardiovascular risk

Erythritol is a common artificial sweetener found in baked goods, beverages, gum and candy

Cleveland Clinic

August 8, 2024, Cleveland: New Cleveland Clinic research shows that consuming foods with erythritol, a popular artificial sweetener, increases risk of cardiovascular events such as heart attack and stroke. The findings, from a new intervention study in healthy volunteers, show erythritol made platelets (a type of blood cell) more active, which can raise the risk of blood clots. Sugar (glucose) did not have this effect.

Published in Arteriosclerosis, Thrombosis and Vascular Biology, the research adds to increasing evidence that erythritol may not be as safe as currently classified by food regulatory agencies and should be reevaluated as an ingredient. The study was conducted by a team of Cleveland Clinic researchers as part of a series of investigations on the physiological effects of common sugar substitutes.

“Many professional societies and clinicians routinely recommend that people at high cardiovascular risk – those with obesity, diabetes or metabolic syndrome – consume foods that contain sugar substitutes rather than sugar,” said senior and corresponding author Stanley Hazen, M.D., Ph.D., chair of Cardiovascular and Metabolic Sciences in Cleveland Clinic’s Lerner Research Institute and co-section head of Preventive Cardiology. “These findings underscore the importance of further long-term clinical studies to assess the cardiovascular safety of erythritol and other sugar substitutes.”

Erythritol and other artificial sweeteners are common replacements for table sugar in low-calorie, low-carbohydrate and “keto” products. Erythritol is about 70% as sweet as sugar and is produced through fermenting corn. After ingestion, erythritol is poorly metabolized by the body. Instead, it goes into the bloodstream and leaves the body mainly through urine. The human body creates low amounts of erythritol naturally, so any additional consumption can accumulate.

Erythritol is classified by the U.S. Food and Drug Administration and the European Food Safety Authority as a GRAS (“generally recognized as safe”) ingredient, allowing its use without restriction in food products. This is primarily because it is a sugar alcohol found naturally in fruits and vegetables and a byproduct of glucose metabolism in human tissue, although in small quantities.

However, recent studies by Dr. Hazen’s group, have found evidence that erythritol in typically consumed amounts may increase cardiovascular risk.

The current research builds on the team’s previous study, published last year in Nature Medicine, which revealed that cardiac patients with high erythritol levels were twice as likely to experience a major cardiac event in the following three years compared to those with low levels. The study also discovered that adding erythritol to patients’ blood or platelets increased clot formation. These findings were confirmed by pre-clinical studies.

The new human intervention study was designed to more directly observe the effects on platelets following erythritol ingestion at a dose typically contained in a “sugarless” soda or muffin. In 20 healthy volunteers, researchers found that the average erythritol level after eating increased over 1,000 times in the group that consumed erythritol compared to their initial levels. Results also revealed participants showed a significant increase in blood clot formation after consuming erythritol, but no change was observed after consuming glucose.

“This research raises some concerns that a standard serving of an erythritol-sweetened food or beverage may acutely stimulate a direct clot-forming effect,” said study co-author W. H. Wilson Tang, M.D., research director for Heart Failure and Cardiac Transplantation Medicine at Cleveland Clinic. “Erythritol and other sugar alcohols that are commonly used as sugar substitutes should be evaluated for potential long-term health effects especially when such effects are not seen with glucose itself.”

He adds that the results of this study are especially notable because they come on the heels of another recent study by this research group showing that xylitol, another common artificial sweetener, produced similar increases in plasma levels and affected platelet aggregation in healthy volunteers the same way. Like erythritol, studies with xylitol also included large-scale observation studies demonstrating that high xylitol levels are associated with increased risk of heart attack, stroke or death over the following three years.

The authors note that further clinical studies assessing the long-term cardiovascular safety of erythritol are warranted.

“I feel that choosing sugar-sweetened treats occasionally and in small amounts would be preferable to consuming drinks and foods sweetened with these sugar alcohols, especially for people at elevated risk of thrombosis such as those with heart disease, diabetes or metabolic syndrome,” Dr. Hazen advises. “Cardiovascular disease builds over time, and heart disease is the leading cause of death globally. We need to make sure the foods we eat aren’t hidden contributors.”

The research is part of Dr. Hazen’s ongoing investigation into factors that contribute to residual cardiovascular risk. His team follows patients over time and finds chemical signatures in blood that can predict the future development of heart and metabolic disease. He has made pioneering discoveries in atherosclerosis and inflammatory disease research, including the seminal discovery linking gut microbial pathways to cardiovascular disease and metabolic diseases.

Dr. Hazen also directs Cleveland Clinic’s Center for Microbiome and Human Health and holds the Jan Bleeksma Chair in Vascular Cell Biology and Atherosclerosis.

The study was supported in part by National Institutes of Health and the Office of Dietary Supplements.

Disclosures: Dr. Hazen is named as co-inventor on pending and issued patents held by Cleveland Clinic in relation to cardiovascular diagnostics and therapeutics.

Journal

Arteriosclerosis Thrombosis and Vascular Biology

DOI

10.1161/ATVBAHA.124.321019

Article Title

Ingestion of the Non-Nutritive Sweetener Erythritol, but Not Glucose, Enhances Platelet Reactivity and Thrombosis Potential in Healthy Volunteers

Article Publication Date

8-Aug-2024

HKUST develops groundbreaking artificial compound eye to revolutionize robotic vision at lower cost but higher sensitivity

Enhancing autonomous driving and emergency rescue

Hong Kong University of Science and Technology

Cover article in Science Robotics — image:
The research paper was featured as the cover article in Science Robotics (Volume 9, Issue 90) in May 2024. The cover shows a fusion of an image composite of a robber fly’s eye on the left and an illustration of the pinhole compound eye on the right.
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Credit: HKUST

A research team at the School of Engineering of the Hong Kong University of Science and Technology (HKUST) has recently developed a novel artificial compound eye system that is not only more cost-effective, but demonstrates a sensitivity at least twice that of existing market products in small areas. The system promises to revolutionize robotic vision, enhance robots' abilities in navigation, perception and decision-making, while promoting commercial application and further development in human-robot collaboration.

Mimicking the visual capabilities of compound eyes, this innovative system can be applied in a wide range of scenarios, such as installing on drones to improve their accuracy and efficiency in tasks like irrigation or emergency rescue in disaster sites. With its high sensitivity, the system can also enable closer collaboration among robots and other connected devices. In the long term, the compound eye system will enhance autonomous driving safety and accelerate the adoption of intelligent transport systems, fostering the development of smart cities.

Developed by the team led by Prof. FAN Zhiyong, Chair Professor at HKUST’s Department of Electronic & Computer Engineering and Department of Chemical & Biological Engineering, this groundbreaking technology represents a significant leap forward in the field of biomimetic vision systems.

Traditionally, roboticists have mainly focused on replicating the visual capabilities of insects, which offer a wide field of view and advanced motion-tracking capabilities. However, integrating compound eye systems into autonomous platforms like robots or drones has been challenging as these systems often suffer from issues related to complexity and stability during deformation, geometry constraints, as well as potential mismatches between optical and detector components.

To address these challenges, Prof. Fan’s team developed a pinhole compound vision system by adopting new materials and structures. This system features several key characteristics, including an inherent hemispherical perovskite nanowire array imager with high pixel density to enlarge the imaging field; and a 3D-printed lens-free pinhole array with a customizable layout to regulate incident light and eliminate the blind area between neighboring ommatidia (individual units within an insect’s compound eye). Owing to its good angular selectivity, a wide field of view, wide spectrum response in monocular and binocular configurations, as well as its dynamic motion tracking capability, the pinhole compound eye not only can accurately locate targets but can also track a moving quadruped robot after incorporated onto a drone.

Prof. Fan said, “This compound eye design is simple, light and cheap. Although it won’t fully replace traditional cameras, it could be a huge boost in certain robotics applications, such as in a swarm of drones flying in close formation. By further miniaturizing the device size and increasing the number of ommatidia, imaging resolution, and response speed, this type of device can find broad applications in optoelectronics and robotics.”

As a renowned researcher in biomimetic optoelectronics, Prof. Fan is keen on combining practical approach with daring imaginations to drive innovative research. This unique compound eye work marks another breakthrough in the field of vision and robotic systems following his development of the world’s first spherical artificial eye with 3D retina in 2020.

The research work was published and featured as a cover article in top-tier international journal Science Robotics. Dr. ZHOU Yu (postdoc), Dr. SUN Zhibo (postdoc), and DING Yucheng (PhD student) are the co-first authors while Prof. Fan is the corresponding author.

Research Team

(From left) Prof. Fan Zhiyong and co-first authors Dr. Zhou Yu (postdoc), Dr. Sun Zhibo (postdoc), and Ding Yucheng (PhD student).
Schematic illustration and images of the pinhole compound eye camera and integrated components
Imaging capability of the pinhole compound eye camera.
ng and on-drone motion tracking of the pinhole compound eye camera system.
**An ultra-wide field-of-view pi [VIDEO] |**
**An ultra-wide field-of-view pinhole compound eye using hemispherical nanowire array for robot vision**

Journal

Science Robotics

DOI

10.1126/scirobotics.adi8666

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

An ultrawide field-of-view pinhole compound eye using hemispherical nanowire array for robot vision

New solution for green hydrogen production

Scientists at Paderborn University are researching carbon materials for photocatalysis

Universität Paderborn

Coal, gas, oil: the use of fossil fuels is declining. Clean energy gained from renewable sources is gradually supplanting its polluting competition. For an energy source to be able to be widely used, it must be affordable and, above all, available. In recent years, hydrogen has proven to be particularly suitable for various applications. However, its production currently usually requires fossil fuels. To change this, scientists at Paderborn University are working on a new research project to examine how hydrogen could be obtained from solar energy using specific carbon materials – in other words, thoroughly green. This project, entitled ‘C2-SPORT’ (standing for ‘Carbon Composites as Direct Z-Scheme Photocatalysts for Overall Water Splitting’), is receiving around 20,000 euros of funding as part of Paderborn University’s internal Wissenschaftskolleg.

‘Using sunlight for water splitting in hydrogen and oxygen brings us a step closer to the ideal concept of a profitable, environmentally friendly energy source’, explains Junior Professor Maria Nieves López Salas of the Department of Chemistry at Paderborn University, who is heading up the project with Dr. Ying Pan, also from the Department of Chemistry. Their concept is based on what is known as the ‘direct Z-scheme’, a method inspired by natural photosynthesis. In simple terms, this involves combining two types of semiconductors. What makes this process special is that it incorporates the strengths of both types, achieving a previously unheard-of level of efficiency in water splitting. López Salas explains: ‘Semiconductor-based photocatalytic water splitting using solar energy to produce hydrogen and oxygen from water has proven to be a promising solution for tackling energy and environmental issues’. However, there are still obstacles to overcome: for example, splitting water entirely into hydrogen and oxygen using just one catalyst material is extremely difficult. ‘In photocatalytic reactions, light absorption, charge carrier separation and the surface reactions of catalysts work together to create hydrogen from sunlight. To ensure high efficiency, these catalysts must be able to absorb light and separate charges efficiently, among other things’, López Salas adds. The currently available semiconductors that consist of a single material struggle to meet these requirements.

Semiconductors containing carbon could be an interesting option for Z-scheme photocatalyst systems. This is partly because they offer good photocatalytic activity and are lighter than other materials such as titanium dioxide. They are also cheaper, reliable, and widely available on this planet. Suitable strategies that need to be researched could make them excellent candidates for hydrogen production. Pan notes: ‘Understanding this will have a significant impact on the search for technologies to convert solar energy into hydrogen energy. It could form the basis for extremely efficient catalysts and represent a major step towards new artificial photosynthesis devices.’

This project has been funded under the Paderborner Wissenschaftskolleg since April of this year. The aim is to create new research impetus at Paderborn University via interdisciplinary research projects and international collaborations. The call for tender is open to applicants from all fields and is aimed at postdoctoral researchers. The Wissenschaftskolleg offers an opportunity to work together with colleagues from foreign universities or research institutions on internationally oriented research projects. Visiting researchers from universities in Australia and China are also involved in the ‘C2-Sport’ project.

As temperatures break records, many are unaware of symptoms of heat-related illnesses

Increasing numbers link extreme heat to climate change

Reports and Proceedings

Annenberg Public Policy Center of the University of Pennsylvania

Cooling Center Knowledge — image:
Cooling center knowledge
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Credit: Annenberg Public Policy Center

PHILADELPHIA – With NASA data showing that July 22, 2024, was the hottest day on record and indications that July may have been the hottest month, an Annenberg Public Policy Center survey conducted in mid-July found that most people know three of the symptoms of a heat-related illness but do not know the location of their nearest cooling center. At the same time, increasing numbers of people think that heat waves are becoming more frequent and intense and affecting their daily activities.

Knowledge of cooling centers in the case of extreme heat

Although the locations of cooling centers, or indoor air-conditioned facilities such as libraries, community and senior centers, schools are publicized by city governments on hot days, many of those surveyed report being unaware of where to find one. Two-thirds of respondents (67%) say they do not know the location of a cooling center to which they could go to in case of extreme heat, a number statistically unchanged from last November. “Communities must do a better job of making the public, especially the most vulnerable, aware of these centers,” said Ken Winneg, managing director of survey research at APPC.

Signs of heat-related illnesses

Notably, most people also know three of the telltale signs of heat-related illnesses:

Dizziness (89% compared to 86% in August 2022)
Nausea (83% compared to 79% in August 2022)
Hot, red, dry, or damp skin (72%, statistically unchanged from August 2022)
Cold, pale, and clammy skin (42%, statistically unchanged from August 2022).

Public understands some extreme heat risks better than others

Thinking about the next 10 years, just under 6 in 10 (58%) think that people in their community will be more likely to experience heat stroke caused by extreme heat waves. This is significantly higher than in November 2023 when just over half (52%) said they thought people in their community would be more likely to experience heat stroke caused by extreme heat waves in the next 10 years.

However, only 3 in 10 (30%) know that a pregnant person in the U.S. who is exposed to extreme heat is more likely to deliver their baby early than a pregnant person who is not exposed to extreme heat. About a quarter (23%) incorrectly say that a pregnant person in the U.S. is either less or just as likely to deliver a baby early. Forty-seven percent (47%) are unsure which is correct.

Broad awareness that heat-related deaths are most common among seniors

Two-thirds (67%) know that heat-related deaths are most common among older adults, aged 65 or older, slightly but significantly higher than in August 2022 (62%).

Preventing heat-related illnesses

Nearly all (92%) know that drinking water is better to prevent heat-related illnesses than drinking sugary drinks.

APPC’s ASAPH survey

The survey data come from the 20th wave of a nationally representative panel of 1,496 U.S. adults, first empaneled in April 2021, conducted for the Annenberg Public Policy Center by SSRS, an independent market research company. This wave of the Annenberg Science and Public Health Knowledge (ASAPH) survey was fielded July 11-18, 2024, and has a margin of sampling error (MOE) of ± 3.6 percentage points at the 95% confidence level. All figures are rounded to the nearest whole number and may not add to 100%. Combined subcategories may not add to totals in the topline and text due to rounding.

Download the topline and methodology statement.

The policy center has been tracking the American public’s knowledge, beliefs, and behaviors regarding vaccination, Covid-19, mpox, flu, maternal health, climate change, and other consequential health issues through this Annenberg Science and Public Health (ASAPH) knowledge survey panel for over three years. In addition to Winneg, the APPC team includes senior data analyst Laura Gibson; research analyst Shawn Patterson Jr. and Patrick E. Jamieson, director of the Annenberg Health and Risk Communication Institute.

The Annenberg Public Policy Center was established in 1993 to educate the public and policy makers about communication’s role in advancing public understanding of political, science, and health issues at the local, state, and federal levels.

Method of Research

Survey

Subject of Research

People

New study will provide HIV prevention and treatment for incarcerated people with opioid use disorder

UMass Amherst and Tufts Medical Center receive $4.74 million grant from the National Institute on Drug Abuse to design, implement and assess the intervention

University of Massachusetts Amherst

The University of Massachusetts Amherst and Tufts Medical Center are conducting a study to provide HIV prevention, diagnosis and treatment for people with opioid use disorders who are incarcerated in the Boston area.

The study is funded with a $4.74 million CONNECT grant from the National Institute on Drug Abuse (NIDA), part of the National Institutes of Health (NIH).

Elizabeth Evans, professor of community health education in the UMass Amherst School of Public Health and Health Sciences, and Dr. Alysse Wurcel, a physician and infectious disease consultant for the Massachusetts Sheriffs Association, will collaborate to lead the research.

“Many people with opioid use disorder pass through carceral and legal systems,” Evans notes. “Improved access to high-quality, evidence-based treatment for HIV and other infectious diseases in justice settings is critical to addressing the overdose crisis.”

Dr. Wurcel adds, “We’re trying to increase the number of incarcerated people who are tested and treated. Overall people who are incarcerated are more likely to test positive for HIV than people who are not incarcerated. By the CDC guidelines, anyone in jail is at risk.”

Those who test positive should be given treatment and those who test negative should be offered pre-exposure HIV medications to prevent the disease. Treatment and prevention while incarcerated involves taking medication every day, Wurcel says.

“Dr. Wurcel and I are fortunate to lead this study in collaboration with the Massachusetts Department of Public Health and the Suffolk County jail system, where there is unprecedented cross-sector motivation to learn how to improve HIV care for incarcerated people and integrate HIV care into the jails’ existing programs,” Evans says.

Initial study activities are focused on developing an intervention program called ID-TOUCH. Linnea Evans and Kaitlyn Jaffe, assistant professors of health promotion and policy at UMass Amherst, are co-leading efforts to examine the feasibility and acceptability of the intervention by incarcerated people, staff at the Suffolk jails and other community-based partners.

“HIV testing and medications that prevent HIV (pre-exposure prophylaxis, known as PrEP) are evidence-based and cost-effective, yet are not adequately reaching justice-involved people,” Linnea Evans says. “Many are members of minoritized racial/ethnic groups and live in communities disproportionately impacted by HIV and the opioid epidemic. Addressing the health disparities that these service-need gaps exacerbate for socially and economically marginalized groups is a key impetus for our study.”

The study will serve as the foundation for future research that may create a model HIV treatment and prevention program for other jurisdictions around the commonwealth and the country.

“Our research will help us better understand how to create equitable access to infectious disease healthcare and treatment for people living in jail settings and returning to the community,” Jaffe says. “Along the way, we are involving people with lived and living experience of incarceration and opioid use to ensure that the intervention is matched to the needs of this population.”

Lemurs use long-term memory, smell, and social cues to find food

Multiple factors work in tandem to help lemurs locate cantaloupe and remember where to find the fruit weeks later

New York University

Brown lemurs eating cantaloupe — image:
Two mongoose lemurs find cantaloupe hidden in a container at the Lemur Conservation Foundation in Florida.
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Credit: Elena Cunningham

How do foraging animals find their food? A new study by New York University researchers shows that lemurs use smell, social cues, and long-term memory to locate hidden fruit—a combination of factors that may have deep evolutionary roots.

“Our study provides evidence that lemurs can integrate sensory information with ecological and social knowledge, which demonstrates their ability to consider multiple aspects of a problem,” said anthropologist Elena Cunningham, a clinical professor of molecular pathobiology at NYU College of Dentistry and the lead author of the study, published in the International Journal of Primatology.

Animals rely on their senses and environmental and social knowledge to locate food and water. These factors—perhaps in combination—are thought to have played a role in primates evolving to have larger brains and higher cognitive abilities than other animals.

“Historically, there have been two schools of thought on why primates developed bigger brains: ecological pressures, such as needing to find scarce fruit in the forest, and the social pressures of living in a group where everyone is trying to outsmart one another,” said Cunningham. “I have long been interested in the interplay between social and ecological factors when it comes to cognition—it seems like a given that these would have evolved in relation to each other.”

To better understand how primates integrate these factors in order to find food, Cunningham traveled to the Lemur Conservation Foundation in Myakka City, Florida, a reserve dedicated to researching and protecting lemurs outside of their native Madagascar. The Foundation is home to several lemur species, including brown lemurs—social animals who have a keen sense of smell (far better than humans) and whose diet is primarily fruit.

Studying the brown lemurs in pairs and groups of three, the researchers conducted several experiments by hiding pieces of cantaloupe in cardboard takeout containers and placing both fruit-filled and empty containers in the lemurs’ environments. They then observed how the groups of lemurs investigated and opened the containers, noting their interactions with one another.

Despite the empty takeout containers outnumbering the ones with cantaloupe, the lemurs had little trouble finding and eating the fruit—and several factors appeared to be working in tandem. The lemurs quickly learned which containers had food in them, and could remember the location of the fruit-filled containers days, weeks, and even months later: the order in which they approached baited containers was about 50 percent better than chance. But, the lemurs almost always (98 percent of the time) opened the fruit-filled containers first, suggesting that they used their sense of smell to detect the cantaloupe at close range.

In addition, the researchers observed that the lemurs’ individual strategies for finding fruit were influenced by social factors. Some groups were egalitarian and information and melon were willingly shared, while in other more hierarchical groups, the dominant lemurs took advantage of the subordinates discovering the cantaloupe and helped themselves once the fruit was found. But the subordinates were more likely to find the fruit and some used their “finder’s advantage” to eat more of the melon.

“What our study shows is that these three factors are all operating at the same time—the lemurs have memories of where the food is and they are considering olfactory information and social factors,” said Cunningham. “We still have much to learn about how this interplay and the evolution of cognition, but it's important to look at these factors not in isolation, but in conversation.”

Additional study authors include Malvin Janal, Rachelle Wolk, and Maria Gonzalez-Robles of NYU Dentistry. The research was supported by the NYU Research Challenge Fund Program and NYU College of Dentistry Academy of Distinguished Educators Funding Award.

A mongoose lemur looks for food in a takeout container at the Lemur Conservation Foundation in Florida.

Credit

Elena Cunningham

Journal

International Journal of Primatology

DOI

10.1007/s10764-024-00448-0

Method of Research

Experimental study

Subject of Research

Animals

Article Title

Brown Lemur (Eulemur spp.) Use of Olfaction, Memory, and Social Strategies to Obtain Cantaloupe

Radiotherapy benefits last a decade, breast cancer study reveals

University of Edinburgh

Providing radiotherapy after surgery could prevent breast cancer from returning in the same place for up to 10 years, a long-term study suggests.

This protective effect is limited after a decade, when the risk of cancer recurrence is similar to that in those who have not received radiotherapy.

The findings provide a more complete picture of the long-term benefits of radiotherapy following breast cancer surgery, experts say.

Surgery followed by radiotherapy remains the standard care for women with early-stage breast cancer. Radiotherapy targets high doses of radiation to the breast to destroy any remaining cancer cells after removal of the tumour.

The Scottish Breast Conservation Trial, led by the University of Edinburgh, looked at 585 women who received treatment for early-stage breast cancer in Scotland – half received radiotherapy and half did not. The average follow-up period for patients was 18 years, with some cases followed for more than three decades.

After 10 years, 16 per cent of those who had radiotherapy had experienced the return of their cancer in the same location, compared with 36 per cent of those who did not have the treatment.

Despite a reduction in cancer recurrence, survival rates did not improve with radiotherapy treatment.

Average overall survival rates after 30 years were similar for those who received postoperative radiotherapy and those who did not – 19.2 years and 18.7 years, respectively.

There were fewer deaths from breast cancer among those who received radiotherapy than those who did not – 37 per cent versus 46 per cent. By contrast, there were more deaths from other cancers in the group who received radiotherapy – 20 per cent versus 11 per cent.

Understanding the long-term impact of radiotherapy is increasingly important, as improvements in the detection and treatment of early-stage breast cancer mean that patients are living longer, experts say.

The study, funded by Exact Sciences and the Breast Cancer Institute, part of NHS Lothian Charity, is published in the journal The Lancet Oncology: https://www.thelancet.com/journals/lanonc/article/PIIS1470-2045(24)00347-4/fulltext [URL will become active after embargo lifts].

The research team included experts from the Usher Institute and the Institute of Genetics and Cancer at the University of Edinburgh, Public Health Scotland, Queen Elizabeth University Hospital in Glasgow, and the Western General Hospital in Edinburgh.

Dr Linda Williams, from the University of Edinburgh’s Usher Institute and lead author, said: “This 30-year study marks the longest follow-up of postoperative radiotherapy in the treatment of early-stage breast cancer. Long-term studies like this, which go beyond 10 years of follow up, are crucial to fully assess the risks and benefits of treatments.”

Professor Ian Kunkler, from the University of Edinburgh’s Institute of Genetics and Cancer, said: “Our evidence suggests that radiotherapy protects against cancer returning in the same breast for up to 10 years. It supports the continued use of radiotherapy after breast-conserving surgery for most patients with early breast cancer. Like other anti-cancer treatments, radiotherapy loses its beneficial effects in the long term."

For further information, please contact: Jess Conway, Press and PR Office, 07979 446209, jess.conway@ed.ac.uk

Journal

The Lancet Oncology

DOI

10.1016/S1470-2045(24)00347-4

Method of Research

Randomized controlled/clinical trial

Subject of Research

People

Article Title

Postoperative radiotherapy in women with early operable breast cancer (Scottish Breast Conservation Trial): 30-year update of a randomised, controlled, phase 3 trial

Article Publication Date

7-Aug-2024

Saturday, August 10, 2024

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ng and on-drone motion tracking of the pinhole compound eye camera system.

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Knowledge of cooling centers in the case of extreme heat

More today see link between extreme heat and climate change.

Credit

Signs of heat-related illnesses

Public understands some extreme heat risks better than others

Broad awareness that heat-related deaths are most common among seniors

Preventing heat-related illnesses

APPC’s ASAPH survey

Method of Research

Subject of Research

Credit

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DOI

Method of Research

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DOI

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