Saturday, January 06, 2024

 

Worm study raises concern about DEET's effect on reproduction


Findings suggest need to consider reproductive health alongside prevention of insect-borne diseases


Peer-Reviewed Publication

HARVARD MEDICAL SCHOOL

Monica Colaiácovo 

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MONICA COLAIÁCOVO

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CREDIT: RICK GROLEAU




Researchers have uncovered evidence hinting that the most common bug spray ingredient, DEET, might cause reproductive problems by affecting the formation of egg cells during pregnancy.

The findings come from a study in C. elegans — worms that don’t look like they have much in common with humans yet serve as surprisingly useful bellwethers of how toxins in the environment affect human reproduction.

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The research, published Jan. 4 in iScience, raises difficult questions. Chief among them is how to balance the possible reproductive harms of DEET-containing products in people — including infertility, miscarriage, or birth defects — with the need to ensure that people remain protected from diseases transmitted through insect bites, such as malaria, Lyme disease, West Nile virus, and Zika virus disease.

Whether and how much DEET use causes reproductive problems in humans will need to be confirmed in future studies. Such studies have been scarce to date in humans because of the ethical concerns involved.

Harvard Medicine News spoke with study senior author Monica Colaiácovo, professor of genetics in the Blavatnik Institute at Harvard Medical School, about what her team found and what it means.

Harvard Medicine News: Why did you conduct this study?

Monica Colaiácovo: The biggest motivator was how high DEET scored in our initial screens of how various chemicals in our environment affect meiosis, using the model organism C. elegans. Meiosis is the type of cell division that creates eggs and sperm. DEET was one of our top hits in terms of chromosomes not separating properly, so eggs end up with abnormal numbers of chromosomes. In humans, this can cause miscarriage, stillbirth, infertility, and genetic conditions such as Down syndrome. We knew we had to look at this carefully.

Monica Colaiácovo

Research has shown that DEET products can have neurologic effects on people who use them, but no one had really looked at what DEET is doing in meiosis. We wanted to understand whether it would cause a problem. Only a few human studies have been done, and practically everyone uses DEET, so the possibility that it could affect reproduction felt palpable for people in our lab.

HMNews: What did you find?

Colaiácovo: Using our worm model, we showed for the first time that DEET can have effects on meiosis. Then we showed why.

We saw that DEET has a significant impact on gene expression — the pattern of genes that are active or inactive in a cell. We found that the change resulted in oxidative stress (an imbalance between free radicals and antioxidants) and abnormal structure of the materials that form chromosomes, which compromised the ability of chromosomes to separate properly as the cell divided. Egg cells and the worm embryos they gave rise to were less healthy.

Left two images: Normal chromosome separation during meiosis in worms. Right three images: DEET exposure caused a variety of disruptions. Images: Nara Shin

HMNews: How applicable are the worm findings to humans?

Colaiácovo: That is always the big question. Many human genes have equivalents in C. elegans, and worms are a powerful model for looking at effects on reproduction. C. elegans have been instrumental in uncovering how environmental toxicants such as the plastics chemical BPA can harm reproductive health.

We observed the changes in meiosis when the levels of DEET inside the worms were the same as, and in some cases lower than, what you find in blood or urine samples from the regular human population. That said, the paradigm for exposure wasn’t the same as it is for most people. The worms were exposed to DEET for 24 hours at a time, which may not apply to anyone, or apply to only certain groups, such as agricultural workers. And there are some metabolic and physiological differences between worms and humans.

A very important thing from our studies is that we’re providing reproducible, well-controlled, substantial data. Other groups can take up this work in mice or other animal models and further advance our understanding of what DEET may be doing in human reproductive systems. We can also build on this evidence to flag chemicals of concern for policymakers.

DEET exposure led to missing, aggregated, and abnormal eggs in the worms. Images: Nara Shin

HMNews: At this stage, how would you frame recommendations for people? How do you balance reproductive health with prevention of diseases from mosquitoes and ticks?

Colaiácovo: My family is from South America, where Zika and dengue, for example, are common, and I want to make sure people are not scared away from being careful. So-called tropical diseases transmitted by insects are moving into new regions of the world as the climate changes, putting more and more people at risk. The consequences of stopping the use of insect repellents can be very serious.

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What We Sow

So, we want prevention. We want repellents. And DEET is a very effective option we have right now. At this moment, I would say we should be aware of the potential reproductive risks of DEET-containing products and be sure to follow the application instructions when using them. Our work suggests this is very important for pregnant women because female meiosis begins in the developing fetus in the womb.

I would love to see research give rise to best practices for applying DEET products during pregnancy, when there’s often so much confusion and anxiety about what to do or not do.

I also hope our work helps drive the development of DEET alternatives that are safe and effective. It would be great to have an effective insect repellent that doesn’t make us worry about our health or that of our children.

Authorship, funding, disclosures

The work was led by co-first authors Nara Shin, a former postdoc in the Colaiácovo lab who is now at BostonGene, and Laura Lascarez-Lagunas, HMS annual research associate in genetics.


DEET Pic2 

Left two images: Normal chromosome separation during meiosis in worms. Right three images: DEET exposure caused a variety of disruptions. Images: Nara Shin

DEET Pic3 

DEET exposure led to missing, aggregated, and abnormal eggs in the worms. Images: Nara Shin

 

Study reveals new genetic link between anorexia nervosa and being an early riser


Individuals with the eating disorder often wake early and experience insomnia.


Peer-Reviewed Publication

MASSACHUSETTS GENERAL HOSPITAL




BOSTON – New research indicates that the eating disorder anorexia nervosa is associated with being an early riser, unlike many other disorders that tend to be evening-based such as depression, binge eating disorder and schizophrenia.

The study, which is published in JAMA Network Open and led by investigators at Massachusetts General Hospital (MGH), in collaboration with University College London and the University of the Republic in Uruguay, also revealed a link between anorexia nervosa and insomnia risk.

Previous research has suggested a possible connection between eating disorders and the body’s internal clock, or circadian clock, which controls a wide range of biological functions such as sleep and affects nearly every organ in the body.

This study aimed to further understand this relationship by assessing genes associated with anorexia nervosa, the circadian clock and several sleep traits including insomnia.

The investigators used a statistical method called Mendelian Randomization to see how genes that are associated with a certain trait affect other traits of interest. For example, examining the sleep patterns of people with genetic differences that makes them more likely to have anorexia nervosa, this provides evidence on the relationship between anorexia nervosa and sleep.

They found a two-way association between genes associated with anorexia nervosa and genes associated with morning chronotype (waking early and going to bed early).

In other words, the findings suggest that being an early riser could increase the risk for having anorexia nervosa, and having anorexia nervosa could lead to an earlier wake time. The team also found an association between anorexia nervosa and insomnia.

When they further assessed the insomnia connection using the Mass General Brigham Biobank by developing a “genetic risk score” for anorexia nervosa, the scientists found that the genetic risk score was indeed associated with higher insomnia risk.

“Our findings implicate anorexia nervosa as a morning disorder in contrast to most other evening-based psychiatric diseases and support the association between anorexia nervosa and insomnia as seen in earlier studies,” says senior author Hassan S Dashti, PhD, RD, an assistant investigator in the Department of Anesthesia, Critical Care and Pain Medicine at MGH and an assistant professor of anesthesia at Harvard Medical School.

Treatments for anorexia nervosa are limited and current treatments have relapse rates of up to 52%. In addition, the cause of the disease is still unclear.

With anorexia nervosa having the second highest mortality rate of psychiatric diseases, more research is desperately needed into new prevention strategies and treatments.

“The clinical implications of our new findings are currently unclear; however, our results could direct future investigations into circadian-based therapies for anorexia nervosa prevention and treatment,” says Hannah Wilcox, lead author of the study and researcher at MGH.

 

Additional authors include Valentina Paz, MSc, Richa Saxena, PhD, John W. Winkelman, MD, PhD, and Victoria Garfield, PhD.

 

This research was supported by the National Institutes of Health.

 

About the Massachusetts General Hospital

Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The Mass General Research Institute conducts the largest hospital-based research program in the nation, with annual research operations of more than $1 billion and comprises more than 9,500 researchers working across more than 30 institutes, centers and departments. In July 2022, Mass General was named #8 in the U.S. News & World Report list of "America’s Best Hospitals." MGH is a founding member of the Mass General Brigham healthcare system.

JAMA

Evaluation of changes in prices and purchases following implementation of sugar-sweetened beverage taxes across the US


JAMA Health Forum

Peer-Reviewed Publication

JAMA NETWORK




About The Study: Sugar-sweetened beverage (SSB) taxes in Boulder, Colorado; Philadelphia, Oakland, San Francisco, and Seattle led to substantial, consistent declines in SSB purchases following price increases associated with those taxes. Scaling SSB taxes nationally could yield substantial public health benefits. 

Authors: Scott Kaplan, Ph.D., of the U.S. Naval Academy in Annapolis, Maryland, is the corresponding author.

To access the embargoed study: Visit our For The Media website at this link https://media.jamanetwork.com/

(doi:10.1001/jamahealthforum.2023.4737)

Editor’s Note: Please see the article for additional information, including other authors, author contributions and affiliations, conflict of interest and financial disclosures, and funding and support.

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About JAMA Health Forum: JAMA Health Forum is an international, peer-reviewed, online, open access journal that addresses health policy and strategies affecting medicine, health and health care. The journal publishes original research, evidence-based reports and opinion about national and global health policy; innovative approaches to health care delivery; and health care economics, access, quality, safety, equity and reform. Its distribution will be solely digital and all content will be freely available for anyone to read.

 

More lives can be saved if ambulance staff receive AI-support



Peer-Reviewed Publication

CHALMERS UNIVERSITY OF TECHNOLOGY

More lives can be saved if ambulance staff receive AI-support. 

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ASSESSING HOW SERIOUSLY INJURED A PERSON IS, INVOLVES WEIGHING UP LOTS OF DIFFERENT PARAMETERS FAST.  IF HEALTHCARE PROFESSIONALS COULD GET SUPPORT MAKING FAST-PACED, LIFE-CRITICAL DECISIONS FROM AN AI TOOL, MORE LIVES COULD BE SAVED. THIS IS SHOWN BY RESEARCH FROM CHALMERS UNIVERSITY OF TECHNOLOGY IN SWEDEN, ALONG WITH THE UNIVERSITY OF GOTHENBURG AND THE UNIVERSITY OF BORÅS.

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CREDIT: CHALMERS UNIVERSITY OF TECHNOLOGY | MIA HALLERÖD PALMGREN




Assessing how seriously injured a person is, involves weighing up lots of different parameters fast. If healthcare professionals could get support making fast-paced, life-critical decisions from an AI tool, more lives could be saved. This is shown by research from Chalmers University of Technology in Sweden, along with the University of Gothenburg and the University of Borås. 

"If severely injured people are transported directly to a university hospital, the chances of survival increase, as there are resources to take care of all types of injuries. Therefore, we need to be able to better say who is severely injured, and who is not, so that everyone receives the right care and that resources are used in the best way," says Anna Bakidou, doctoral student in the research group Care@Distance – Remote and Prehospital Digital Health at the Department of Electrical Engineering at Chalmers University of Technology.

In a recently published study, Anna Bakidou and her co-authors have developed five different mathematical models based on the data of adults who came into contact with ambulance care between 2013 and 2020. This data is from over 47,000 real events, retrieved from the Swedish Trauma Registry, which also showed where the people had been transported. By weighing up a number of complex variables, such as respiratory rate, injury type, blood pressure, age and gender, it turned out that all AI models could perform better than the clinical outcome – which were the transport decisions made by the ambulance staff at the time of the incident. 

Many severely injured taken to regular hospitals

It turned out that 40 percent of the severely injured patients were not sent directly to a university hospital. At the same time, 45 percent of the non-severely injured were sent to university hospitals unnecessarily, as their injuries could have been taken care of in a regular hospital. 

"Ambulance personnel are constantly faced with difficult and quick decisions. Our hope is that a more objective decision support system will be able to function as an 'extra colleague' that makes staff see more complex connections and think twice in cases where injuries can be difficult to perceive or assess," says Anna Bakidou. 

As an example, she mentions that younger people – who are often involved in traffic accidents – are frequently judged to be more severely injured than they are. On the other hand; older people, who are involved in events such as fall accidents, are often assessed as mildly injured – despite the fact that their condition can suddenly become life-threatening, due to consequences such as internal bleeding.

Several steps before the technology can be put into use

Although the mathematical models show that many human lives could potentially be saved, there is still a long way to go before ambulance staff can use the technology. A crucial step is to find methods to input all of the information quickly and easily into the AI tool, and for the service to be able to interact with the users in a good way. 

"For example, can you talk to the tool to be able to have both hands free? How can existing routines and protocols be used to work together with the AI, and how can the advice to staff be updated when new data is added? We need to test and take these things into account when we proceed with more studies and prototype work," says Anna Bakidou. 

Before AI services could become part of everyday life for ambulance staff, large-scale clinical trials over time are also required. 

"The regulations mean that it takes time and there is also a fear of AI. There can be serious consequences if things go wrong. Everything that is to be introduced into healthcare must be validated. At the same time, we know that some of the methods used today are not always the best. When it comes to ambulance care, there is not much research on AI, and we hope that our mathematical models will be able to contribute with support that is adapted to the work environment and that in the long run provides more equal care," says co-author Stefan Candefjord, Associate Professor at the Department of Electrical Engineering at Chalmers.  
 

More about the research:

  • The scientific article "On Scene Injury Severity Prediction (OSISP) model for trauma developed using the Swedish Trauma Registry" has been published in BMC Medical Informatics and Decision Making.
  • Behind the study are Anna Bakidou, Eva-Corina Caragounis, Magnus Andersson Hagiwara, Anders Jonsson, Bengt Arne Sjöqvist and Stefan Candefjord. The researchers are active at Chalmers University of Technology, Sahlgrenska Academy at the University of Gothenburg and the University of Borås.
  • The study was conducted within different projects, such as Kontiki and ASAP PoC, and the research has been funded by Interreg Sweden-Norway, IoT Sweden, the Swedish Carnegie Hero Fund, the Adlerbertska Foundations and the Centre for Disaster Medicine.


 

Monitoring the well-being of reservoir water through an uncrewed surface vehicle


Peer-Reviewed Publication

POHANG UNIVERSITY OF SCIENCE & TECHNOLOGY (POSTECH)

Figure 1 

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(LEFT) UNCREWED SURFACE VEHICLE OBSERVATIONS DEPICTING DEPTH AND NITRATE CONCENTRATIONS IN DALJEONJI RESERVOIR

(RIGHT) A HIGH-RESOLUTION MAP ILLUSTRATING THE TOTAL NITRATE, DERIVED FROM DATA COLLECTED BY THE VEHICLE (NOVEMBER 26, 2021)view more 

CREDIT: POSTECH




In a recent tragic incident, approximately 100 elephants in Africa perished due to inadequate access to water. The United Nations Environment Programme (UNEP) issues a warning that around 2.5 billion people worldwide could face water scarcity by 2025. In the face of water shortages affecting not only human society but also the entire ecological community due to the climate crisis, it becomes crucial to adopt comprehensive measures for managing water quality and quantity to avert such pressing challenges.

 

A research team led by Professor Jonghun Kam and PhD candidate Kwang-Hun Lee from the Division of Environmental Science and Engineering at Pohang University of Science and Technology (POSTECH), has implemented an advanced technique employing an uncrewed surface vehicle to concurrently assess the reservoir water depths and nitrate (NO3-) concentrations from the reservoir water surface. The findings from their research were featured in Water Resources Research, an international journal dedicated to the water environment.

 

Monitoring available water quantity and quality uses indicators such as water depth and nitrate concentration. Nitrates, originating from atmospheric and soil nutrients, enter streams through various pathways, posing a potential threat to aquatic ecosystems and biodiversity when their levels become excessive. Fluctuation of precipitation and water usage further impact water quality, and rising water temperatures contribute to decreased dissolved oxygen, resulting in diminished water quality.

 

Effective management of water resources requires the dual monitoring of nitrate concentration and water depth. However, these measurements can vary significantly based on the timing and location of assessment. Traditional water depth measurement, typically taken at a single point, introduces uncertainty in estimating the total reservoir water volume. In recent times, uncrewed devices or instruments have been introduced to address this challenge, yet simultaneous measurement of nitrate concentration and water depth has proven challenging.

 

The research team has achieved the simultaneous measurement of nitrate concentration and water depth using an uncrewed surface vehicle. Over the course of a year, starting in 2021, an uncrewed boat equipped with electrochemical sensors and acoustic doppler current profile sensors was employed to gauge nitrate concentration and water depth in a reservoir (Daljeonji) in Pohang, North Gyeongsang Province in South Korea. The 30 measurements revealed seasonal variations with nitrate levels ranging from 1 ton to 4 tons. Following intense rainfall, the observed nitrate amount was up to 17% lower than previous readings due to rapid water expansion. This underscores the importance of considering timing and weather conditions in water quality assessments, as measurements may lead to over- or underestimation.

 

Furthermore, the team successfully generated a high-resolution map illustrating the cumulative nitrate content in Daljeonji Reservior based on data collected by the uncrewed surface vehicle. Despite a one-year measurement period and the study's confinement to Pohang, its significance lies in the independent development of technology capable of simultaneous measurement of nitrate concentration and water depth.

 

Professor Jonghun Kam who led the research explained, "Our study has outlined both the possibilities and constraints of employing uncrewed robotics in water environment research.” He added, “It is envisioned that this research will provide a guiding framework for the development of the next generation of the Korean national water resources management system, leveraging advanced technologies like uncrewed aerial vehicles to enhance prediction accuracy and optimize water management."

 

The study was conducted with the support from the Group Research in Science and Engineering Program and the Ocean, Land, and Atmosphere Carbon Cycle System Research Program of the Ministry of Science and ICT and the National Research Foundation of Korea (2021M3I6A1086808).

 

Arctic cold snap transforms into a blessing


Peer-Reviewed Publication

POHANG UNIVERSITY OF SCIENCE & TECHNOLOGY (POSTECH)

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VARIATIONS IN CARBON DIOXIDE ABSORPTION IN THE EAST SEA DUE TO THE SOUTHWARD MOVEMENT OF ARCTIC AIR

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CREDIT: POSTECH




The recent cold spell has plunged the nation into a deep freeze, resulting in the closure of 247 national parks, the cancellation of 14 domestic flights, and the scrapping of 107 cruise ship voyages. While the cold snap brought relief by significantly reducing the prevalence of particulate matter obscuring our surroundings, a recent study indicates that, besides diminishing particulate matter, it is significantly contributing to the heightened uptake of carbon dioxide by the East Sea.

 

According to research conducted by a team of researchers including Professor Kitack Lee from the Division of Environmental Science & Engineering at Pohang University of Science and Technology (POSTECH), and Professor Tongsup Lee and So-Yun Kim from the Department of Oceanography at Pusan National University, the cold atmosphere in the Arctic is influencing the absorption of carbon dioxide by the East Sea. The research findings were published in Geophysical Research Letters, an international journal by the American Geophysical Union (AGU).

 

The research team investigated the correlation between the East Sea's surface-deep circulation and its carbon dioxide absorption capacity, drawing insights from observations in 1992, 1999, 2007, and 2019. During the initial period (1992-1999), the ocean absorbed 20 million tons of carbon dioxide annually. In the subsequent period (1999-2007), this amount decreased to under 10 million tons per year. However, in the final period (2007-2019), the carbon dioxide uptake surged to 30 million tons per year.

The team observed that the internal circulation along the East Coast within the East Sea was influenced by the Arctic cold wave. Cold air from the Arctic infiltrates the East Sea, causing the surface water, laden with carbon dioxide, to become denser. This process induces vertical ventilation as the water descends into the middle and deep ocean layers. Consequently, the intensified descent of cold air from the Arctic strengthens the internal circulation, leading to a heightened uptake of carbon dioxide in the East Sea.

 

Professor Kitack Lee who led the research remarked, " The oceans represent an immense reservoir of carbon dioxide and offer a secure and sustainable avenue for mitigating atmospheric carbon dioxide levels." He further stated, “It is crucial to anticipate the global ocean's capacity for carbon removal as we navigate future climate changes and identify suitable methods to leverage this potential.”

 

In a related development, the team's earlier research uncovered the mechanism through which the ocean absorbs carbon dioxide. Approximately half of the carbon dioxide generated by human activities remains in the atmosphere with the other half entering marine and terrestrial ecosystems. With a carbon content 400,000 times greater than that of the atmosphere, the oceans present vast and promising potential for storing carbon dioxide.

 

The research was sponsored by the Ocean, Land, and Atmosphere Carbon Cycle System Research Program of the National Research Foundation of Korea and a research contract program of the National Institute of Fisheries Sciences of Korea.

 

Climate change and human impact: Looking into the future of the ocean


METEOR Expedition uses the Eastern Mediterranean as a laboratory for the future


Business Announcement

HELMHOLTZ CENTRE FOR OCEAN RESEARCH KIEL (GEOMAR)




The Eastern Mediterranean Sea (EMS) is one of the most rapidly changing ocean basins on Earth. It is particularly affected by both climate change and extensive pressures from human activities. This makes it a unique research environment that can provide information on future changes in the global ocean.

“The Eastern Mediterranean Sea as a Model for Future Ocean Research” (EMS FORE) is the name of an international project led by the GEOMAR Helmholtz Centre for Ocean Research Kiel and funded by the Helmholtz Association as a Helmholtz International Laboratory. “In the project, we are using the Eastern Mediterranean Sea from the coast to the deep sea as a natural laboratory,” explains Dr Thomas Browning, Junior Research Group leader in the Research Unit Chemical Oceanography at GEOMAR. He is the chief scientist of METEOR expedition M197, a key part of the project, which starts today.

“As the surface waters of the ocean warm, this affects the nutrient supply, which in turn affects marine ecosystems,” says Browning, citing an example of the links between environmental change and ocean processes. “The waters of the Eastern Mediterranean have already warmed rapidly, faster than in other subtropical regions of the global ocean”. So the scientists on the expedition will be looking at things like which nutrients are limiting the growth of phytoplankton, how nutrients are supplied to surface seawaters, recording the different microorganisms that live from the sea surface down to the sediments, and measuring carbon export from surface to deep waters. Continuously deployed autonomous platforms and satellite observations measuring more basic properties alongside computer modelling work will help to put the observations of the research expedition into a broader context. In addition, investigation of collected sediments will also be used to reconstruct past environmental changes in the Eastern Mediterranean over the last few thousand years.

The research expedition will host multiple teams with expertise in the different topics and deploy a wide range of instruments, from specialized equipment for collecting seawater to assess trace element concentrations without contamination, instruments collecting dust transporting nutrients from land to the surface of the ocean, through to towed video cameras to observe deep-sea life.

The research expedition represents a strong international collaboration, with 28 scientists from 12 nationalities participating from GEOMAR, The University of Haifa and the Institute for Seas and Lakes Research (Israel), the Cyprus Marine and Maritime Institute (Republic of Cyprus), the Marine Biological Laboratory and University of Chicago (USA), and Xiamen University (China).

Expedition at a glance:

METEOR Expedition M197

Eastern Mediterranean Process Study, EMS PS

Chief scientist: Dr Thomas Browning (GEOMAR)

06.01.2024 - 06.02.2024

Start: Limassol (Republic of Cyprus)

End: Catania (Italy)