Research gives new insights into fighting antimicrobial resistance
Menu

Image: In the foreground, there is a golden chip, which is used for the analysis, held by two fingers. The background is black. Copyright: David Baillot/University of California San Diego

David Baillot/University of California San Diego

Faster and more accurate pathogen detection through DNA melting

05.03.2024

Unlike conventional blood cultures, which can take anywhere from 15 hours to several days to yield results, the new digital DNA melting analysis delivers actionable insights in under six hours. This accelerated turnaround time enables clinicians to initiate targeted treatment strategies promptly, minimizing the risk of disease progression and improving patient outcomes.
Read more
Image: The team at the Institute of PharmaceuticalMicrobiology: Three women and a man in white coats smile for the camera; Copyright: Gregor Hübl/University of Bonn

Gregor Hübl/University of Bonn

Researchers decode new antibiotic

29.08.2023

Cooperation between the University of Bonn, the USA and the Netherlands cracks the mode of action of clovibactin
Read more
Image: Healthy food. Fresh vegetables, fruits, meat and fish on the table. View from above; Copyright: LanaSweet

LanaSweet

Research gives new insights into fighting antimicrobial resistance

25.08.2023

Cooking food thoroughly and avoiding some types of vegetables and salad during a course of antibiotic treatment could potentially reduce antibiotic resistance, by preventing bacteria carrying resistance genes getting into the gut, according to a new study.
Read more
Image: View of a laboratory, where a robotic facility has been built; Copyright: Anna Schroll/Leibniz-HKI

Anna Schroll/Leibniz-HKI

Robotics: modular platform for antibiotics research

27.07.2023

The high cost and limited commercial value of new antibiotics discourage their development, as they are used sparingly to avoid resistance. To address this, a new robotics platform aims to simplify the development of active substances to combat the problem of antibiotic resistance. While we cannot always prevent resistance, this approach offers a promising solution.
Read more
Image: Magnetic nanoparticles (red) bind specifically to the spherical bacteria (yellow) which are about 1 µm in size (electron microscopy digitally colored); Copyright: Empa

Empa

Antibiotics crisis: rapid test for sepsis with nanoparticles

09.06.2023

For Qun Ren, every minute counts. The Empa researcher and her team are currently developing a diagnostic procedure that can detect life-threatening blood poisoning caused by staphylococcus bacteria rapidly. This is because staphylococcal sepsis is fatal in up to 40 percent of the cases.
Read more
Image: One man and two women posing for the camera with a building in the background; Copyright: Karolinska Institutet

Karolinska Institutet

New method reveals bacterial reaction to antibiotics in five minutes

26.05.2023

Researchers at Karolinska Institutet in Sweden have developed a molecular method able to detect whether or not bacteria respond to antibiotics within minutes.
Read more
Image: A Setup to conduct Optical Nanomotion Detection, b Optical image of E. coli bacteria. C. Same field of view as B in false colors; Copyright: Ines Villalba (EPFL)

Ines Villalba (EPFL)

Antibiotic resistance: fast, cheap, and easy test method

02.05.2023

“We have developed a technique in our laboratories that allows us to obtain an antibiogram within 2-4 hours – instead of the current 24 hours for the most common germs and one month for tuberculosis,” says Dr Sandor Kasas at EPFL.
Read more
Image: Two men in dark clothes posing in front of the experimental station Alvra of the Swiss X-ray free-electron laser SwissFEL; Copyright: Paul Scherrer Institut/Markus Fischer

Paul Scherrer Institut/Markus Fischer

Using light to switch drugs on and off

27.02.2023

In the ImageTox project, the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS) and the CISPA Helmholtz Center for Information Security are pooling their expertise in the fields of drug discovery and artificial intelligence (AI).
Read more
Image: Researchers at HIPS work with zebrafish larvae to detect potential side effects of new drugs at an early stage; Copyright: Dietze / HIPS

Dietze / HIPS

HIPS and CISPA join forces to make future active ingredients safer

23.02.2023

In the ImageTox project, the Helmholtz Institute for Pharmaceutical Research Saarland (HIPS) and the CISPA Helmholtz Center for Information Security are pooling their expertise in the fields of drug discovery and artificial intelligence (AI).
Read more
Image: A woman with black hair in a white coat sits in a research laboratory and operates a microscope; Copyright: wichayada69

wichayada69

Funding to produce biodegradable antiviral and antibacterial materials

08.02.2023

A new junior research group at Freie Universität Berlin, which will investigate the production of biodegradable antiviral and antibacterial materials, with one of the goals of synthesis being new alternatives to conventional antibiotics, will receive a total budget of more than 1.8 million euros from the German Federal Ministry of Education and Research (BMBF) over the next five years.
Read more
Image: The doctor treats the wound on the patient's leg in a clinic room; Copyright: Okrasyuk

Okrasyuk

Wound care: New spray fights infections and antibiotic resistance

07.02.2023

A group of researchers at Chalmers University of Technology in Sweden are presenting a new spray that can kill even antibiotic-resistant bacteria, and that can be used for wound care and directly on implants and other medical devices.
Read more