Possible ‘Trojan Horse’ found for treating stubborn bacterial infections

Peer-Reviewed Publication

WASHINGTON STATE UNIVERSITY

 

IMAGE: 

TRANSMISSION ELECTRON MICROSCOPE (TEM) IMAGE OF THE BACTERIAL CELL WITH AN EXTRACELLULAR VESICLE ATTACHED.

view more 

CREDIT: WSU

PULLMAN, Wash. – Bacteria can be tricked into sending death signals to stop the growth of their slimy, protective homes that lead to deadly infections, a new study demonstrates.

The discovery by Washington State University researchers could someday be harnessed as an alternative to antibiotics for treating difficult infections. Reporting in the journal, Biofilm, the researchers used the messengers, which they named death extracellular vesicles (D-EVs), to reduce growth of the bacterial communities by up to 99.99% in laboratory experiments.

“Adding the death extracellular vesicles to the bacterial environment, we are kind of cheating the bacteria cells,” said Mawra Gamal Saad, first author on the paper and a graduate student in WSU’s Gene and Linda Voiland School of Chemical Engineering and Bioengineering. “The cells don’t know which type of EVs they are, but they take them up because they are used to taking them from their environment, and with that, the physiological signals inside the cells change from growth to death.”

Bacterial resistance is a growing problem around the world. In the U.S., at least 2 million infections and 23,000 deaths are attributable to antibiotic-resistant bacteria each year, according to the U.S. Centers for Disease Control. When doctors use antibiotics to treat a bacterial infection, some of the bacteria can hide within their tough-to-penetrate, slimy home called a biofilm. These subpopulations of resistor cells can survive treatment and are able to grow and multiply, resulting in chronic infections.

“They are resistant because they have a very advanced and well-organized adaptive system,” said Saad. “Once there is a change in the environment, they can adapt their intracellular pathways very quickly and change it to resist the antibiotics.” 

In their new study, the researchers discovered that the extracellular vesicles are key to managing the growth of the protective biofilm. The vesicles, tiny bubbles from 30 to 50 nanometers or about 2,000 times smaller than a strand of hair, shuttle molecules from cells, entering and then re-programming neighboring cells and acting as a cell-to-cell communications system. 

As part of this study, the researchers extracted the vesicles from one type of bacteria that causes pneumonia and other serious infections. They determined that the bacteria initially secrete vesicles, called growth EVs, with instructions to grow its biofilm, and then later, depending on available nutrients, oxygen availability and other factors, send EVs with new instructions to stop growing the biofilm. 

The researchers were able to harness the vesicles with the instructions to stop growth and use them to fool the bacteria to kill off the biofilm at all stages of its growth. Even when the biofilms were healthy and rapidly growing, they followed the new instructions from the death EVs and died. The death EVs can easily penetrate the biofilm because they are natural products secreted by the bacteria, and they have the same cell wall structure, so the cells don’t recognize them as a foreign enemy.

“By cheating the bacteria with these death EVs, we can control their behavior without giving them the chance to develop resistance,” said Saad. “The behavior of the biofilm just changed from growth to death.”

WSU Professor and corresponding author Wen-Ji Dong, who has been studying the vesicles for several years initially thought that all of the bacterial-secreted vesicles would promote cell growth. The researchers were surprised when they found that older biofilms provided instructions on shutting themselves down. 

“So now we’re paying attention to the extracellular vesicles secreted by older biofilms because they have therapeutic potential,” he said. 

The researchers are applying for research funding from the National Institutes of Health to continue investigating exactly how the messengers work and how well the process works with other bacterial types or fungi. They are working with WSU’s Office of Commercialization and have applied for a provisional patent. 

 

 

 

---

JOURNAL

Biofilm

DOI

10.1016/j.bioflm.2024.100183 

ARTICLE TITLE

Dual roles of the conditional extracellular vesicles derived from Pseudomonas aeruginosa biofilms: Promoting and inhibiting bacterial biofilm growth

 

Revolutionizing urban landscapes: The eco-metropolis model

Peer-Reviewed Publication

CHINESE SOCIETY FOR ENVIRONMENTAL SCIENCES

In a revolutionary stride toward sustainable urban development, researchers have introduced the eco-metropolis model. This innovative approach seamlessly integrates ecological conservation with urban agglomeration, promising a future where cities thrive in harmony with nature.

The concept of the metropolitan area is pivotal in studying innovation economics and ecological conservation. Recent scholarly perspectives challenge the traditional view of urban development as merely spatial expansion. Instead, they highlight the role of innovative agglomeration, redefining the essence of urban studies. This shift calls for a new paradigm: the eco-metropolis model.

The news (https://doi.org/10.1016/j.ese.2023.100342) published in Volume 19 of the journal Environmental Science and Ecotechnology, researchers from Harbin Institute of Technology Shenzhen propose the eco-metropolis model as a revolutionary approach to urban development. This model integrates ecological conservation with the concept of innovative agglomeration, challenging traditional urban expansion methods and highlighting the synergistic potential of combining green technologies with urban growth.

This model challenges the conventional expansionist urban planning methods, advocating for a sustainable growth strategy that harmonizes with nature. By emphasizing the importance of green technologies and ecological preservation within the urban fabric, the study showcases how cities can evolve into vibrant, sustainable environments. It details the mechanisms through which urban areas can achieve economic growth and innovation without compromising ecological integrity, offering a comprehensive framework for policymakers and urban planners to adopt.

Highlights

• Economists have identified contemporary urban development as innovative agglomeration, instead of linear expansion.
• Conservation should go beyond natural infrastructure and find new ways for agglomerative factors to coexist with ecology.
• Technological innovation makes conservation cost-efficient and coordinates public debate with conservation initiatives.
• Service industries in an agglomeration economy is critical in coordinating public and private sectors to finance conservation.

Dr. H. Li, the study's lead author, states, "The eco-metropolis model redefines urban development by prioritizing ecological conservation alongside innovation and economic growth. It represents a critical shift towards creating sustainable, livable cities for future generations."

The eco-metropolis model presents a visionary approach to urban development, marrying ecological conservation with economic and technological innovation. Its implementation could redefine the future of urban living, making cities more sustainable, resilient, and vibrant places to live.

###

References

DOI

10.1016/j.ese.2023.100342

Original Source URL

https://doi.org/10.1016/j.ese.2023.100342

About Environmental Science and Ecotechnology

Environmental Science and Ecotechnology (ISSN 2666-4984) is an international, peer-reviewed, and open-access journal published by Elsevier. The journal publishes significant views and research across the full spectrum of ecology and environmental sciences, such as climate change, sustainability, biodiversity conservation, environment & health, green catalysis/processing for pollution control, and AI-driven environmental engineering. The latest impact factor of ESE is 12.6, according to the Journal Citation ReportTM 2022.

---

JOURNAL

Environmental Science and Ecotechnology

DOI

10.1016/j.ese.2023.100342 

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Eco-metropolis: Re-interpreting ecological conservation in the context of innovative agglomeration

 

Revolutionizing infant formula safety: A new frontier in pathogen detection

ZHEJIANG UNIVERSITY

 

IMAGE: 

A FLOWCHART OF THE METHODOLOGY USED IN THE DESIGN OF THE DETECTION KIT.

view more 

CREDIT: FOOD QUALITY AND SAFETY

Cronobacter sakazakii is a harmful germ that can be found in powdered baby formula. It can cause very serious health problems in infants, such as meningitis and septicemia. Right now, it takes a long time and is complicated to check if the germ is in the formula. However, a new study has created a special test that uses a computer program to find the germ in the formula. This new method makes it easier and faster to find the germ, which is known for causing serious illness in babies. It helps make sure that baby formula is safe to use.

Cronobacter sakazakii, a pathogen in powdered infant formula, poses significant risks to neonates, causing outbreaks in NICUs with high mortality rates. This Gram-negative bacterium, resistant to desiccation, can survive in dry environments like powdered formula. Despite its prevalence, current detection methods are slow, requiring skilled personnel and expensive equipment, underscoring the need for a more efficient, cost-effective solution.

In a new study (https://doi.org/10.1093/fqsafe/fyae005) published in the journal Food Quality and Safety on 22 January 2024, researchers from University of Birmingham, unveils a novel bioinformatics-based detection kit for identifying Cronobacter sakazakii in powdered infant formula. This breakthrough offers a more effective approach to detecting this harmful pathogen, commonly linked to severe infant illnesses.

In this cutting-edge study, researchers have harnessed the power of bioinformatics to create a detection kit specifically designed to identify Cronobacter sakazakii in powdered infant formula. This pathogen, known for its severe health risks to infants, has been challenging to detect with traditional methods. The research team embarked on a meticulous process, selecting genes associated with the bacterium's virulence. They then employed sophisticated immunoinformatics techniques to analyze these genes for antigenicity and epitope characteristics, leading to the creation of a multi-epitope detection kit. This bioinformatics approach allowed for the precise identification of pathogen-specific markers, making the detection kit not only innovative but also highly efficient and potentially transformative in the field of food safety.

Lead researchers Elijah K. Oladipo and Helen Onyeaka emphasize, "This study represents a major step forward in infant food safety, potentially revolutionizing how we detect and respond to foodborne pathogens like Cronobacter sakazakii."

This detection kit promises rapid and precise identification of Cronobacter sakazakii, crucial for preventing outbreaks and ensuring infant formula safety. Its application could significantly reduce the time and resources needed for pathogen detection in food safety labs. The research underscores the importance of integrating computational methods in the fight against foodborne illnesses, offering a faster, more accurate way to safeguard infant health.

###

References

DOI

10.1093/fqsafe/fyae005

Original Source URL

https://doi.org/10.1093/fqsafe/fyae005

About Food Quality and Safety

Food Quality and Safety is an open access, international, peer-reviewed journal providing a platform to highlight emerging and innovative science and technology in the agro-food field, publishing up-to-date research in the areas of food quality, food safety, food nutrition and human health. It is covered by SCI-E and the 2022 Impact Factor (IF)=5.6, 5-yr IF=6.2

---

JOURNAL

Food Quality and Safety

DOI

10.1093/fqsafe/fyae005 

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Immunoinformatics Assisted Design of a Multi-Epitope Kit for Detecting Cronobacter sakazakii in Powdered Infant Formula (PIF)

 

Game-changing sensor unveiled for spotting chemical threats

Peer-Reviewed Publication

AEROSPACE INFORMATION RESEARCH INSTITUTE, CHINESE ACADEMY OF SCIENCES

 

IMAGE: 

SCHEMATIC AND WORKING PRINCIPLE OF THE PROPOSED SAW CHEMICAL SENSOR.

view more 

CREDIT: MICROSYSTEMS & NANOENGINEERING

Scientists have unveiled a groundbreaking sensor that can wirelessly detect chemical warfare agents, marking a significant leap in public safety technology. This innovative device, capable of identifying substances like dimethyl methylphosphonate (DMMP), offers a new level of efficiency and reliability in monitoring and responding to chemical threats, without the need for direct power sources or physical connections.

The urgent need for advanced detection of chemical warfare agents (CWAs) to ensure global security has led to the development of a novel gas sensor. This sensor is distinguished by its rapid response, high sensitivity, and compact size, crucial for the early detection of CWAs. Accurate detection and monitoring of CWAs are vital for effective defense operations, both military and civilian. Due to the hazardous nature of CWAs, research is typically limited to authorized laboratories using simulants that mimic CWAs' chemical structure without their toxic effects.

A recent study (doi: https://doi.org/10.1038/s41378-023-00627-8) led by a team of experts, published on January 3, 2024, in the journal Microsystems & Nanoengineering, have developed a cutting-edge sensor that wirelessly identifies chemical warfare agents, revolutionizing safety measures. This device efficiently detects DMMP, enhancing threat response capabilities without relying on power sources or connections.

In the study, researchers have innovated a passive, wireless sensor system using surface acoustic wave (SAW) technology, set to revolutionize chemical warfare agent detection by specifically targeting dimethyl methylphosphonate (DMMP), a simulant for nerve agents. This sensor operates at 433 MHz, using a unique coating of fluoroalcohol polysiloxane (SXFA) on a lithium niobate substrate, enhancing its sensitivity and stability under various environmental conditions. The system's core is built around a YZ lithium niobate substrate equipped with metallic interdigital transducers (IDTs) and an attached antenna. The SXFA film's interaction with DMMP alters the SAW's properties, such as velocity, enabling precise detection. This design ensures stable operation within a 0-90 cm transmission range and is resilient across a wide temperature range (-30 °C to 100 °C) and humidity levels up to 60% RH.

According to the research team, this sensor system marks a significant leap forward in CWA detection technology. Its passive wireless nature allows operation in inaccessible or hazardous areas, ensuring safety and efficiency.

This technology has immense potential in military and civilian defense, offering a reliable, efficient means of early CWA detection. Its ability to operate wirelessly and in challenging environments makes it a valuable tool for ensuring public safety and preparedness against chemical threats.

###

References

DOI

10.1038/s41378-023-00627-8

Original Source URL

https://doi.org/10.1038/s41378-023-00627-8

About Microsystems & Nanoengineering

Microsystems & Nanoengineering is an online-only, open access international journal devoted to publishing original research results and reviews on all aspects of Micro and Nano Electro Mechanical Systems from fundamental to applied research. The journal is published by Springer Nature in partnership with the Aerospace Information Research Institute, Chinese Academy of Sciences, supported by the State Key Laboratory of Transducer Technology.

---

JOURNAL

Microsystems & Nanoengineering

DOI

10.1038/s41378-023-00627-8 

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

A passive wireless surface acoustic wave (SAW) sensor system for detecting warfare agents based on fluoroalcohol polysiloxane film

 

Multinational collaborative research to improve climate-smart grain for Ethiopian farmers receives $4.9 million grant

Funding from The Bill & Melinda Gates Foundation will support improving the productivity of tef, a promising climate-resilient crop

Grant and Award Announcement

DONALD DANFORTH PLANT SCIENCE CENTER

ST. LOUIS, MO, March 5, 2024 – The Donald Danforth Plant Science Center and the Ethiopian Institute of Agricultural Research (EIAR) have received a $4.9 million grant from The Bill & Melinda Gates Foundation to build on previous advances in gene editing of tef for reduced height and lodging resistance in advanced, farmer preferred tef lines. 

The grant will support research to validate the improved semi dwarf tef in Ethiopia under greenhouse and multi location field conditions and generate lodging resistance traits in already improved breeding lines. In addition, new edits will be created in farmer-preferred varieties at EIAR where Ethiopian scientists will be trained on the development of cultivar-independent transformation and editing methodologies. 

“By harnessing the genome editing technology, it was possible to achieve semidwarf lodging resistant lines that breeders have been looking for decades,” said Getu Duguma, PhD, senior research scientist and principal investigator at the Danforth Center. “The funding from the Gates Foundation will support bringing this technology closer to where farmers need it the most.” 

Tef (Eragrostis tef) is the largest cereal cultivated by area in Ethiopia. More than 80 million people rely on the crop. It is central to food and economic security, providing up to two-thirds of the country's protein and dietary fiber. The ancient grain is gluten-free and rich in essential minerals such as iron, calcium, and magnesium. Tef is renowned for its adaptability to diverse growing conditions and drought tolerance, making it a promising candidate for a climate-resilient crop. While tef is grown mostly by smallholder farmers, it has growing importance for sustaining the rapidly growing urban population.

However, tef yields remain low and it is perhaps the only cereal crop whose cultivation has yet to be mechanized. Tef requires high labor input; seeding, weeding, harvest, and post-harvest which is typically carried out by women and family members. The challenge lies in the tall and weak stem causing the plants to fall over, a phenomenon known as "lodging" that is often affected by rain, wind, soil type, topography and the addition of nitrogen fertilizer. Lodging is a major impediment to modernizing tef production and inhibiting mechanized harvesting. The estimated annual production loss due to lodging amounts to 23-30%.

To address the issue of tef lodging, Duguma and his collaborators deployed gene editing to generate semi dwarf tef lines that are 10-50% shorter than the original. These improved lines have demonstrated lodging resistance in the Danforth Center’s greenhouse and Field Research Site. 

“I believe that the outputs of this project will change the ‘ancient’ nature tef husbandry,” said Dejene Girma, PhD, the principal investigator of the project and director of Ag-Biotech Research at EIAR. “In addition, the generous grant from the foundation will provide EIAR the opportunity to train its researchers and develop gene editing capacity for this key food security crop and ultimately deliver lodging resistant tef lines to smallholder farmers.”

Learn more about Getu’s work with tef here.

 

About the Donald Danforth Plant Science Center

Founded in 1998, the Donald Danforth Plant Science Center is a not-for-profit research institute with a mission to improve the human condition through plant science. Research, education, and outreach aim to have an impact at the nexus of food security and the environment and position the St. Louis region as a world center for plant science. The Center’s work is funded through competitive grants from many sources, including the National Science Foundation, National Institutes of Health, U.S. Department of Energy, U.S. Agency for International Development, and The Bill & Melinda Gates Foundation, and through the generosity of individual, corporate, and foundation donors. Follow us on Twitter at @DanforthCenter.

 

About the Ethiopian Institute of Agricultural Research (EIAR)

The Ethiopian Institute of Agricultural Research is one of the oldest and largest agricultural public research institution in Africa. The Institute has evolved through several stages since its first initiation during the late 1940s. EIAR’s mission is to conduct research that will provide market competitive agricultural technologies that will contribute to increased agricultural productivity and nutrition quality, sustainable food security, economic development, and conservation of the integrity of natural resources and the environment. There are 22 fully fledged agricultural research centers administered by EIAR. These centers are strategically spread across the country to address agricultural problems in different agroecologies. EIAR works with national, regional, and international partners and collaborators based on mutually agreed frameworks in research, capacity building, and promoting scaling up of agricultural technologies. EIAR is mainly funded by the government of Ethiopia and supported by funding in the form of project grants from external sources. 

###

Donald Danforth Plant Science Center contact: Karla Roeber, kroeber@danforthcenter.org

SOCCER

Sprinting ‘like a jet’ will produce Premier League strikers of tomorrow

Peer-Reviewed Publication

UNIVERSITY OF ESSEX

Sprinting “like a jet plane taking off” will help produce Premier League star strikers of tomorrow, new research has revealed.  

A University of Essex study of Tottenham Hotspur’s academy has shown that just a few words can instantly boost sprinting speed by 3 per cent over 20 metres.   

It would normally take weeks of targeted training to achieve such a large increase. 

These short bursts of acceleration are largely seen in goal-scoring situations and could be the difference in beating a defender and finding the net. 

Dr Jason Moran, from the School of Sport, Rehabilitation and Exercise Sciences, discovered simple analogies increased performance in this key area.  

The study showed elite young players ran faster when focusing on their environment rather than their body. 

Dr Moran said: “The words we speak to athletes have a demonstrable and instant effect on their performance.  

“It’s long been known that it’s better to direct an athlete’s attention to the environment around them rather than focusing on their body positions which seems to interfere with the fluidity of movement.

“This could be enhanced even further by using certain analogies, for example, asking a player to ‘accelerate like a Ferrari’ may create a more evocative image in their mind instead of simply telling them to run fast.”

The research used 20 members of the North London side’s academy, all between 14-15-years-old. 

Before taking part in sprint drills the promising players were given different directions before running.  
 
External analogies telling them to “push the ground away’ achieved better results than “driving their legs into the ground”.  

And top performances were encouraged by players being urged to “sprint as if you are a jet taking off into the sky ahead”.

In coaching, analogies can make it easier for someone to learn how to move their body in the right way by hiding complicated instructions within in simple spoken words.  

For example, by using analogies, a coach can tell an athlete how fast and in what position their body needs to be, without using hard-to-understand technical terms.  

It is thought that this could be particularly advantageous in young learners who may show relatively lower levels of focus. 
 
Away from elite sport it is thought these cues and coaching tactics could be used in PE lessons and at the grassroots.  
 
Dr Moran added: “Although these findings focus on the highest level of youth football, it could easily be used in schools or on a Saturday morning.  

“By using a simple analogy teachers and parents might be able to get the most out of their kids whatever the sport.” 

---

JOURNAL

Journal of Sports Science

DOI

10.1080/02640414.2024.2309814 

METHOD OF RESEARCH

Experimental study

SUBJECT OF RESEARCH

People

ARTICLE TITLE

How effective are external cues and analogies in enhancing sprint and jump performance in academy soccer players?

Running performance helped by mathematical research

Peer-Reviewed Publication

CNRS

 

IMAGE: 

SIMULATED RUNNING SPEED FOR JAKOB INGEBRIGTSEN: DURING HIS RACE IN MUNICH (BLUE LINE), WITH THE MAXIMAL VALUE OF VO2 INCREASED BY 5% (GREEN LINE), WITH ANAEROBIC ENERGY E0 INCREASED BY 5% (RED LINE), WITH THE MAXIMAL PROPULSIVE FORCE FM INCREASED BY 10% (BLACK LINE), AND WITH KINETICS INCREASED BY 5% (PURPLE LINE).

view more 

CREDIT: © AMANDINE AFTALION

How to optimise running? A new mathematical model1 has shown, with great precision, the impact that physiological and psychological parameters have on running performance and provides tips for optimised training. The model grew out of research conducted by a French-British team including two CNRS researchers2, the results of which will appear on March 5th 2024 in the journal Frontiers in Sports and Active Living.

This innovative model was developed thanks to extremely precise data3 from the performances of Matthew Hudson-Smith (400m), Femke Bol (400m), and Jakob Ingebrigtsen (1500m) at the 2022 European Athletics Championships in Munich, and for Gaia Sabbatini (1500m) at the 2021 European Athletics U23 Championships in Tallinn. It led to an optimal control problem for finishing time, effort, and energy expenditure. This is the first time that such a model has also considered the variability of motor control, i.e., the role of the brain in the process of producing movement. The simulations allow the researchers to have access to the physiological parameters of the runners—especially oxygen consumption (or VO2)4, and energy expenditure during the race—as well as compute their variations. Quantifying costs and benefits in the model provides immediate access to the best strategy for achieving the runner’s optimal performance.

The study details multiple criteria, such as the importance of a quick start in the first 50 metres (due to the need for fast oxygen kinetics), or reducing the decrease in velocity in a 400m race. The scientists also demonstrated that improving the aerobic metabolism (oxygen uptake) and the ability to maintain VO2 are crucial elements to 1500m race performance.

The development of this model represents considerable progress in studying variations in physiological parameters during championship races, for which in vivo measurements are not possible.

 

1 For more details on the model, “Be a champion, 40 facts you didn't know about sports and science”, Amandine Aftalion, Springer, to appear May 14th 2024.

2 From the Centre for Analysis and Social Mathematics (CNRS/EHESS), in collaboration with the Jacques-Louis Lions Laboratory (CNRS/Sorbonne Université/Université Paris Cité) and the Carnegie School of Sport at Leeds Beckett University.

3 Values measured every 100 milliseconds.

4 Rate at which oxygen is transformed into energy.

 

Modeling the optimization of World-class 400m and 1500m running performances using high-resolution data. Antoine Le Hyaric, Amandine Aftalion, Brian Hanley. Frontiers in Sports and Active Living, March 5th 2024.

---

JOURNAL

Frontiers

DOI

10.3389/fspor.2024.1293145 

METHOD OF RESEARCH

Case study

SUBJECT OF RESEARCH

People

ARTICLE TITLE

Running performance helped by mathematical research

ARTICLE PUBLICATION DATE

5-Mar-2024

 

Pioneering research reveals empathetic communication can help overcome vaccine hesitancy

Peer-Reviewed Publication

UNIVERSITY OF BRISTOL

An international study has shown for the first time how empathetic correction of misinformation among vaccine-hesitant patients can significantly improve attitudes towards vaccination – and potentially boost vaccine uptake.

The research, led by the University of Bristol, also found this new style of communication could help build and maintain a positive relationship with health professionals, increasing trust and public confidence. With the UK currently facing a growing measles outbreak, fuelled by declining rates of the Measles, Mumps, and Rubella (MMR) vaccination, the results are timely and present important learnings for vaccine delivery programmes.

Its findings, published today in the journal Health Psychology, found the more than two-thirds (around 69%) of vaccine-hesitant study participants who received empathetic engagement from a healthcare professional preferred this compared with a group who were just told the facts.

Lead author Dr Dawn Holford, Senior Research Associate in Psychology, said: “Although we expected people to generally respond more positively to an empathetic approach, it was surprising how much greater the preference for this style of communication was among those who expressed concerns about vaccination.

“The study highlights how the way misinformation is tackled, especially with vaccine averse groups, can play a vital role in changing perceptions which can be hard to shift.”

The study, which involved more than 2,500 participants in the UK and US, compared their response to direct, factual communication with a novel dialogue-based technique empathising with their views, while also addressing false or misleading anti-vaccination arguments.

The results showed participants overall preferred the new approach, known as empathetic refutational interviewing – and this was response was strongest for the vaccine-hesitant, who found it more compelling than being presented purely with facts.

The majority of participants (around 64%) who experienced the empathetic refutational interview also indicated they were more open to continuing the conversation with a healthcare professional, and around 12% became more willing to be vaccinated compared to those participants who received the factual approach.

The interview technique comprises a four-step process. First the patient is invited to share their thoughts and concerns about vaccination so that healthcare professionals can understand their motivations and reservations. Then understanding and trust is built by affirming the patient's feelings and concerns. Thirdly, a tailored explanation is provided to challenge misconceptions, offering a truthful alternative to any misinformed beliefs. Finally, relevant facts about vaccination are provided, such as how they can benefit the individual by guarding against disease as well as collectively protecting others by reducing the spread and building vaccine-induced herd immunity.

Dr Holford said: “The findings actively demonstrate the power of communication, which healthcare professionals can use in their daily roles. Our study shows it is possible to gain trust and change minds if we take people’s concerns seriously and tailor our approach to help them make informed decisions about their health.

“This is hugely encouraging, especially with the growing influence of misinformation and fake news worldwide.”

The research is currently being developed into training tools and programmes to support healthcare professionals in the UK, France, Germany, and Romania.

During the COVID-19 pandemic, misinformation about vaccines fuelled vaccine hesitancy especially among vulnerable groups. In the wake of the pandemic, reduced uptake of various vaccines remains a major public health concern.

The UK Health Security Agency (UKHSA) recently declared a national incident due to a growing outbreak of measles, one of the most contagious viruses, with extra clinics and vaccine buses targeting communities with low vaccination rates. Uptake of the MMR (Measles, Mumps and Rubella) vaccine has fallen worldwide in the wake of the pandemic.  

A recent study by the World Health Organisation found the global decline in childhood vaccinations, to protect against devastating but preventable diseases, was the largest sustained drop in around 30 years.

Co-author Stephan Lewandowsky, Chair in Cognitive Psychology at the University of Bristol, has led numerous studies demonstrating the alarming influence of misinformation and during the pandemic developed a unique online guide addressing and correcting the proliferation of misleading myths surrounding COVID-19 vaccines.

Professor Lewandowsky added: “It is important to understand the motivations underlying people’s vaccine hesitancy so we can correct misconceptions without confronting people’s deeply held attitudes head-on. By affirming and empathising with those deeply held attitudes we create a space where people are sufficiently comfortable to process corrective information, so they can make a better informed decision.”

Paper

‘The Empathetic Refutational Interview to tackle vaccine misconceptions: four randomised experiments’ by Dawn Holford et al in Health Psychology

 

---

JOURNAL

Health Psychology

SUBJECT OF RESEARCH

People

ARTICLE TITLE

‘The Empathetic Refutational Interview to tackle vaccine misconceptions: four randomised experiments’

ARTICLE PUBLICATION DATE

3-Mar-2024