Simple maintenance can reduce hospital Legionella risks

Photo Credit: PublicDomainPictures

Hospital water systems are a significant source of Legionella, resulting in the potentially fatal Legionnaires’ disease – but Flinders University researchers have proven simple maintenance that involves running hot water regularly and flushing the pipes has a huge effect in reducing the risk of the disease.

One of the biggest challenges for Legionella management within large hospital systems is that under unfavorable conditions, Legionella transforms itself into a state (called viable but non culturable – VBNC) that cannot be detected using standard methods.

To understand the extent of the problem, Flinders University researchers conducted the first comprehensive study that quantified all Legionella, including those in the VBNC state, and free-living amoebae from a hospital water system under dynamic flow and temperature conditions.

“We took a different approach because we didn’t know how often the standard method was returning false negative results for Legionella and it’s really hard to determine the optimal management approach if you can’t trust your testing method,” says Flinders University’s Associate Professor Harriet Whiley.

Gravity foundations: A marine-friendly future for wind turbines

Photo Credit: Tom Swinnen

Gravity-base structures may offer a porpoise and dolphin-friendly construction alternative to traditional pile-driven wind turbine foundations, new research suggests.

Marine scientists from Newcastle University investigated short- and long-term impacts of this new wind turbine installation method on cetaceans off Blyth, Northumberland. The response of dolphins and harbor porpoises was investigated using cetacean echolocation recorders over a three-year period, covering one year before, during and after the installation.

The findings revealed that wind turbine installation using gravity-base foundations had no long-term effects on the occurrence of dolphins or porpoises.

“Our findings are important in light of the global expansion of offshore wind farms and the need to find installation methods that have less impact to the marine environment”, says lead author and master’s graduate Kelsey Potlock. “These findings are promising for conservationists, marine environmental managers, and for the future of offshore renewable energy.”

Physicists Have Presented a New Way to Control Wheat Quality

Russia is one of the world's largest grain producers
Photo Credit: Andriy Nestruiev

A team of scientists from the Ural Federal University and the Ural Branch of the Russian Academy of Sciences has tested a new method that can be used to verify whether wheat has been irradiated and how safe the consequences are for consumers. Without documentation and sophisticated equipment, it is difficult to determine whether grain has been treated. Currently, there are methods for testing irradiated products, but they are more expensive and not as accurate, physicists say. The method of verification proposed by the scientists can make the analysis easier and cheaper, because the products themselves will act as an alternative to the detector in the radiation treatment. The study was supported by the Russian Foundation for Basic Research (project № 20-58-26002). The experimental results were published in the journal Radiation Physics and Chemistry.

Ionizing radiation of agricultural products is an effective method of disinfecting and neutralizing harmful microorganisms. This method is widely used in many countries and is approved by international organizations such as the World Health Organization, the Food and Agriculture Organization, and the International Atomic Energy Agency. After irradiation, the product is safe and does not lose its beneficial properties. Moreover, the destruction of harmful microorganisms (for example, mold) can increase the safety of the same wheat for further planting. In Russia, radiation treatment of agricultural products is allowed by law. There are several facilities in the country that use this type of decontamination. However, this type of food decontamination is not as widespread as, for example, in the United States or China.

Chemistry without detours: TUD researchers introduce a two-step process for producing phosphorus-containing chemicals

Example of a complex biomolecule from the group of functionalized nucleotides, achieved through the method developed by the Weigand Research Group using conventional phosphoric acid.
Image Credit: © Weigand Group

Professor Jan J. Weigand and his team from the TUD Dresden University of Technology have achieved a ground breaking advancement in the production of phosphorus-containing chemicals. In a recent publication in the renowned scientific journal Nature Synthesis, they present an innovative synthesis method that requires only two process steps for the previously complex production of functionalized phosphates. This promising innovation not only contributes to environmental protection but also saves significant time and costs. Furthermore, it offers the industry the opportunity to become less dependent on third countries. The research team has already filed two patents for this new process.

Phosphorus and its compounds are essential components of life and indispensable in our daily lives. In the human body, this element plays a crucial role in energy transfer and numerous cellular functions. Phosphorus compounds are used in fertilizers, detergents, medications, and many other products. Additionally, phosphorus is an essential ingredient in flame retardants, battery electrolytes, and catalysts. On Earth, phosphorus exists exclusively in the form of phosphates. The production of phosphorus-containing chemicals typically involves a complex and energy-intensive multi-step process. Initially, highly toxic white phosphorus (P4) is produced via a redox pathway and then further processed into phosphorus trichloride (PCl3) and other problematic and sometimes highly toxic intermediate products. Phosphorus chemistry based on P4 is associated with significant challenges but plays an indispensable role in the chemical industry due to its great importance.

Diagnosis of rare, genetic muscle disease improved by new approach

Researchers at Washington University School of Medicine in St. Louis have developed an approach that could help doctors distinguish between the many subtypes of limb girdle muscular dystrophy, a rare, genetic muscle disease. With new therapies poised to enter the clinic, identifying the precise subtype is necessary to ensure that people get access to the treatment most likely to benefit them.
Image Credit: ANIRUDH

It’s not easy to distinguish between the dozens of subtypes of limb girdle muscular dystrophy — a rare, genetic muscle disease characterized by weakness in the hips and shoulders that causes difficulty walking and lifting the arms. Until now, determining the subtype has not been critical in caring for patients, because no specific treatments have been available. But gene therapies are on the horizon, and such therapies are targeted to specific genetic variants, so pinpointing the genetic roots of each patient’s disease has taken on a new importance.

In new research, a team at Washington University School of Medicine in St. Louis has developed an approach that could help doctors make more precise diagnoses. The study is published June 15 in The Journal of Clinical Investigation.

Hundreds of genes are associated with limb girdle muscular dystrophy. While genetic testing may identify a handful of rare genetic variants in each patient with the condition, there’s no way to know without painstaking, time-consuming additional experiments which, if any, of those variants is responsible for a patient’s symptoms. Unfortunately, no comprehensive catalog exists yet of all the variants of all the genes linked to limb girdle muscular dystrophy, and whether each of those variants can cause disease or is harmless.

Pharmacy researcher develops intervention for metabolic diseases like diabetes, stroke and heart disease

Photo Credit: Michal Jarmoluk

An investigator with the University of Kansas School of Pharmacy has filed an invention disclosure, part of a provisional patent application with the United States Patent and Trademark Office, for a treatment that could apply to heart disease, stroke and a host of other human diseases related to metabolism.

Liqin Zhao, KU associate professor of pharmacology & toxicology and investigator at the Life Span Institute2, has researched the human ApoE gene for years. A major focus of her work centers on how the ApoE2 variant — one of three major isoforms of ApoE gene — might protect people from Alzheimer’s disease3.

Now, based upon a discovery made during her Alzheimer’s-disease work, Zhao is patenting a way to leverage rhApoE2 to regulate blood lipids. Lipids, like fats and oils, are building materials of life at the cellular level that also are tied to heart disease and other metabolic diseases.

“In essence, we found that rhApoE2 significantly lowered blood levels of a number of ceramides,” Zhao said. “Moreover, rhApoE2 increased blood levels of a variety of ‘good triglycerides’ — triglycerides that contain health-promoting, long-chain polyunsaturated fatty acids such as alpha-linolenic acid, EPA and DHA, and lowered levels of ‘bad triglycerides,’ or triglycerides that contain saturated or monosaturated fatty acids that can impose a cardiovascular risk.”

Post-traumatic stress affects more than one in 10 cardiac device patients

Image Credit: Joshua Chehov

Nearly one-third of patients with an implanted device to prevent sudden death have anxiety in the first year, while depression affects one in five. That’s the finding of a study published this week in EP Europace, a journal of the European Society of Cardiology (ESC).

Lead author Professor Hannah Keage from the University of South Australia says implantable cardioverter defibrillators (ICDs) are effective at extending patients’ lives, “but we need to make sure that is a good quality life”.

“Rates of mood disorders in people with an ICD are much higher than in the general population, suggesting that psychological assessment and therapy should be integrated into the routine care of these patients,” Prof Keage says.

An ICD is recommended for people at high risk of a life-threatening heart rhythm and those who have had a cardiac arrest. Anxiety and depression are associated with a higher likelihood of premature death in patients with an ICD.

The study compiled the best available evidence to determine levels of depression, anxiety, and post-traumatic stress disorder (PTSD) in patients with an ICD.

The Egyptian vulture is a threatened bird of prey worldwide.

The Egyptian vulture is a threatened bird of prey worldwide.
Photo Credit: Conservation Biology Group, University of Barcelona

If urban landfills disappear under the new European regulation, some endangered birds such as the Egyptian vulture will need alternatives to their feeding patterns in order to survive in the future. This is one of the main conclusions of a study published in the journal Movement Ecology, led by Professor Joan Real, director of the UB Conservation Biology Group (EBC-UB) of the Faculty of Biology and the Biodiversity Research Institute (IRBio) of the University of Barcelona. The study includes the collaboration of teams from the Centre for Advanced Studies of Blanes (CEAB-CSIC) and the University of Seville.

The Egyptian vulture (Neophron percnopterus) is one of the smallest vultures and a threatened bird of prey worldwide, which is included in the International Union for the Conservation of Nature’s Red List as an Endangered Species. In the Iberian Peninsula, this species has been in regression for years, with the exception of some areas such as Catalonia, where there has been a progressive increase in its populations.

This Trans-Saharan migratory species spends the winter in Mali, Senegal and Mauritania and returns to the Iberian Peninsula during spring and summer to breed. It usually feeds on small carrion and dead animals found in the countryside, especially extensive livestock dead animals as well as wildlife. Therefore, it is an indicator species of the environmental status and it helps to eliminate organic remains from our ecosystems.

New insights on bacteria that causes food poisoning

The pathogenic genes of Providencia rustigianii can be transferred to Enterobacteriaceae as well.
   Illustration Credit: Shinji Yamasaki, Osaka Metropolitan University

Latest research reveals the properties of a type of food poisoning bacteria, and paves way for establishment of preventive methods.

The transfer of pathogenic genes between not only same bacterial species but also different species

Recently, Providencia spp. which have been detected in patients with gastroenteritis, and similar to enterohemorrhagic Escherichia coli. O157 and Salmonella spp., have been attracting attention as causative agents of food poisoning. For children with low immunity, food poisoning can be lethal as it causes severe symptoms such as diarrhea and dehydration, so clarifying the source of infection and pathogenic factors of Providencia spp., and establishing preventive methods are urgent issues worldwide.

Researchers created a new and improved way to view the mechanics of life

RESORT. A diagram to show the basic overview of the system. Firstly, the sample is labeled with the photoswitchable Raman probe. It’s then irradiated with two-color infrared laser pulses, ultraviolet light, and a special donut-shaped beam of visible light to constrain the area where Raman scattering can occur. As a result, the probe can be detected at a very precise point for high spatial resolution images.
Illustration Credit: ©2023 Ozeki et al.
(CC BY 2.0)

There are various ways to image biological samples on a microscopic level, and each has its own pros and cons. For the first time, a team of researchers, including those from the University of Tokyo, has combined aspects from two of the leading imaging techniques to craft a new method of imaging and analyzing biological samples. Its concept, known as RESORT, paves the way to observe living systems in unprecedented detail.

For as long as humanity has been able to manipulate glass, we have used optical devices to peer at the microscopic world in ever increasing detail. The more we can see, the more we can understand, hence the pressure to improve upon tools we use to explore the world around, and inside, us. Contemporary microscopic imaging techniques go far beyond what traditional microscopes can offer. Two leading technologies are super-resolution fluorescence imaging, which offers good spatial resolution, and vibrational imaging, which compromises spatial resolution but can use a broad range of colors to help label many kinds of constituents in cells.