Wearable sensor for continuous analysis of sweat
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Image: Medical professional places a dressing on the leg of a lying person

Wound dressings: Thermoresponsive polymer for painless removal

08.10.2024

A team of researchers led by Prof. Rolf Mülhaupt and Prof. Thorsten Steinberg at the University of Freiburg has developed a thermoresponsive polymer that enables wound dressings to be removed painlessly and without leaving any residue.
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Image: Man holding stretched 3D-printed material with purple gloves; Copyright: Casey Cass/CU Boulder

Casey Cass/CU Boulder

3D printed custom implants for the heart

05.09.2024

Researchers at the University of Colorado Boulder, in collaboration with the University of Pennsylvania, have developed an advanced 3D printing method to create materials that support human tissue effectively. This new approach could lead to significant improvements in personalized medical implants and tissue repair.
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Image: An environmentally friendly rapid antigen test placed on a green leaf; Copyright: Okos Diagnostics

Okos Diagnostics

From waste to sustainable wins: Rapid tests with biomaterials

27.08.2024

Over 2 billion rapid test (lateral flow assay) kits are produced every year, adding tens of thousands of tons of used materials to the growing global volume of medical waste. Every test kit contains around 12 grams of plastic and is designed for single use. The company Okos Diagnostics, founded in 2022, aims to reduce the waste with a sustainable rapid test solution.
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Image: A person in a white coat explains the human heart with the help of an anatomical model. The model shows the inner structure of the heart in detail.

From permanent to resorbable: self-dissolving stents as heart implants

02.08.2024

Cardiology is increasingly transitioning from traditional metal stents to self-dissolving stents for the treatment of coronary heart disease. These new magnesium stents have the potential to improve the treatment and outcomes for a large patient population.
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Image: A man and a woman in a workshop check bio-based material for the production of respiratory masks; Copyright: Hamburg/TU Ilmenau

Hamburg/TU Ilmenau

Environmentally friendly respiratory masks: sustainable and biobased

10.07.2024

In view of the global challenges posed by environmental pollution and the need to make medical protective equipment efficient and sustainable, a team at Ilmenau University of Technology, led by Prof. Florian Puch, has developed an innovative solution: bio-based respiratory masks.
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Image: Close-up of the surgeon's hands during an operation

Wound closure: soldering with light and nanotechnology

02.04.2024

With "iSoldering", the Particles Biology Interactions Laboratory at the Swiss Federal Laboratories for Materials Science and Technology (Empa) in St. Gallen and the Nanoparticle Systems Engineering Laboratory at ETH Zurich have developed a method that does not require surgical sutures or synthetic adhesives. Instead, nanoparticles and light enable secure wound closure.
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Image: In the middle of this excerpt of a graphic there is a human body, visualizing the function of the underwater bio-adhesive for healing inner wounds; Copyright: POSTECH

POSTECH

Tailored medical adhesives for personalized healing

26.02.2024

POSTECH researchers led by Prof. Hyung Joon Cha, alongside colleagues, introduced groundbreaking personalized underwater bio-adhesive patches (CUBAP) derived from mussel adhesive proteins. This discovery, featured in Advanced Materials, improves biomedical adhesives, offering tailored internal healing solutions.
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Image: Storage room with sterilely packed textiles in a hospital; Copyright: Mint Images

Mint Images

Disinfection in hospitals: textiles inhibit pathogens

14.02.2024

Antimicrobial textiles can curb the spread of pathogens in hospitals. On the one hand, they reduce the amount of disinfection required by staff and, on the other, they increase the protection of patients against infection. Empa in Switzerland has tested the coating of curtains with antimicrobial substances in a study.
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Image: Two women looking at a display of cells on a monitor; Copyright: University of Jyväskylä

University of Jyväskylä

Antiviral resin destroys COVID-19 from plastic surfaces

06.02.2024

Researchers at the University of Jyväskylä in Finland are pioneering the development of antiviral surfaces to mitigate the spread of infectious diseases, particularly focusing on coronaviruses.
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Image: A woman with gray hair and sunglasses goes for a walk with a cane. She wears a navigation belt; Copyright: feelSpace

feelSpace

Wearable for the visually impaired: Vibrations lead the way

14.12.2023

The German Institutes of Textile and Fiber Research Denkendorf (DITF) have developed a contacting process with which orientation aids - and e-textiles in general - can be produced more economically and conveniently.
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Image: A printer applies the dopamine-based tissue adhesive to the three-dimensional titanium shaft of a hip joint; Copyright: Fraunhofer CMI

Fraunhofer CMI

Inspired by mussels: printable adhesives for tissues and bones

08.12.2023

Titanium hip implants do not last forever — they gradually loosen, sooner or later losing their hold on the bone as it recedes over time. Researchers at the Fraunhofer IAP have been working alongside the Fraunhofer IGB and the Fraunhofer CMI to develop a tissue adhesive that can help avoid early replacement of prostheses in the future.
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Image: Scanning electron microscopy, 30,000x magnification, colored: Even distribution of the antimicrobial coating on the textile fibers; Copyright: Empa

Empa

Antimicrobial hospital curtains - Bacteria, stay out!

01.12.2023

A coating process can be used to treat fabrics in such a way that bacterial and viral pathogens are killed or inhibited in their growth. In hospitals, the coated textiles could be used in future as antimicrobial curtains between patient beds, for example.
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Image: An artist’s impression of a GELECTO machine interacting with biological cells via sending and reading of electrical and biochemical signals; Copyright: Leibniz-IPF, Ivan Minev

Leibniz-IPF, Ivan Minev

New era of cyborganics – Prof. Ivan Minev receives ERC Consolidator Grant

30.11.2023

Over the next five years, the ERC will provide two million euro of funding for the development of a new class of electronic components that consist almost entirely of water and could make the interface between biological tissue and machine seamless.
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Image: At the pilot plant, a 3D printer builds the scaffold from the composite material; Copyright: BellaSeno

BellaSeno

Bioactive composite supports healing of broken bones

09.11.2023

A broken bone failing to heal represents an enormous burden for patients. Fraunhofer researchers have worked alongside partners to develop a composite material to be used in the treatment of such non-union cases. The resulting implant is designed to significantly improve treatment success rates and speed up the healing process.
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Image: Prosthesis: 3D-printed plastics polylactic acid and thermoplastic polyurethane. Each finger contains four parts held together by plastic pins; Copyright: University of Houston

University of Houston

3D printable prostheses to restore amputees' finger mobility

18.10.2023

A groundbreaking, easy-to-use 3D printable finger prosthesis created by a recent University of Houston graduate could offer amputees a low-cost solution to restore finger functionality.
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Image: The patch with sensors, electronics and battery; Copyright: Fraunhofer IZM / Volker Mai

Fraunhofer IZM / Volker Mai

ECG with a patch: APPLAUSE European collaborative project successfully completed

17.10.2023

Researchers from Fraunhofer IZM, together with 31 partners from industry and research, have developed a stretchable and wireless patch that can be used to make it possible to conduct diagnostically relevant cardiac monitoring in everyday life.
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Image: Close up: A new wearable sensor to monitor glucose levels in sweat; Copyright: Kate Myers/Penn State

Kate Myers/Penn State

Wearable sensor for continuous analysis of sweat

06.10.2023

Continuous monitoring of sweat can reveal valuable information about human health, such as the body’s glucose levels. However, wearable sensors previously developed for this purpose have been lacking, unable to withstand the rigors or achieve the specificity needed for continuous monitoring, according to Penn State researchers.
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Image: Schematic structure of a sensor for the detection of viral pathogens; Copyright: TUD

TUD

Diagnostics: pioneering approaches for the detection of viral antigens

22.09.2023

Scientists from the Chair of Materials Science and Nanotechnology at TU Dresden (TUD) have made considerable progress in the development of highly innovative solutions for the detection of viral pathogens in two studies they presented recently.
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Image: A blue 3d printed wrist splint on a hand; Copyright: Courtesy of Faraz Faruqi and Stefanie Mueller

Courtesy of Faraz Faruqi and Stefanie Mueller

AI-driven tool to personalize 3D-printable models

20.09.2023

MIT researchers developed a generative-AI-driven tool that enables the user to add custom design elements to 3D models without compromising the functionality of the fabricated objects. A designer could utilize this tool, called Style2Fab, to personalize 3D models of objects using only natural language prompts to describe their desired design.
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Image: A starch implant photographed in microscopic image; Copyright: Uni Halle / Esfahani Golbarg

Uni Halle / Esfahani Golbarg

Pharmacy: Using starch as a novel drug transporter?

30.08.2023

A special type of starch could soon be used as an excipient in medicine to improve the treatment of patients.
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Picture: A man in a white coat holds a medical tube in his hands; Copyright: UKW / Stefan Dreising

UKW / Stefan Dreising

Sustainable endoscopy: Würzburg University Hospital reduces CO2 footprint

22.08.2023

In a pilot project, the University Hospital of Würzburg has succeeded in significantly reducing the CO2 footprint in endoscopy. The focus was on consumables. Prof. Alexander Meining initiated the project together with his colleague Dr. Dorothea Henniger.
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Image: Diagram of a fully synthetic cell-instructive matrix with programmable mechanical properties; Copyright: Elisha Krieg und Yu-Hsuan Peng

Elisha Krieg und Yu-Hsuan Peng

Programmable DNA hydrogels for advanced cell culture and personalized medicine

22.08.2023

The team of Dr. Elisha Krieg at the Leibniz Institute of Polymer Research Dresden has developed a dynamic DNA-crosslinked matrix (DyNAtrix) by combining classical synthetic polymers with programmable DNA crosslinkers.
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Image: A man with dark hair and a white shirt inspects a 3D printer; Copyright: Patrick Mansell/Penn State

Patrick Mansell/Penn State

High-speed bioprinting of bones, tracheas, organs

28.07.2023

Developing technology to quickly and efficiently bioprint human tissues at scale is the goal of a new project led by Penn State researchers. When fully developed, the technology will be the first to enable the fabrication of scalable, native tissues such as bones, tracheas and organs.
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Image: Physiotherapy in the upper back with TENS electrode pads, transcutaneous electrical nerve stimulation; Copyright: microgen

microgen

Electrodes: 4D printing for nerve stimulation

25.07.2023

Specific nerves may be stimulated artificially, for example to treat pain. The finer the nerves, the more difficult it is to attach the required electrodes. Researchers have now developed flexible electrodes produced with 4D printing technology. On contact with moisture, they automatically fold and wrap themselves around thin nerves.
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Image: A scientist in lab uniform inspects a smooth surface; Copyright: StreetOncamara_From_Twenty20

StreetOncamara_From_Twenty20

NOVA project: next generation of antimicrobial coating technologies

07.07.2023

Researchers develop and test highly efficient, environmentally friendly and stable antimicrobial (antibacterial, antiviral, antifungal) coating technologies in the NOVA project.
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Image: Illustration of an evolutionary development from a natural pangolin to an pangolin-inspired robot; Copyright: MPI-IS

MPI-IS

Medical robot inspired by the pangolin

26.06.2023

Scientists at the Max Planck Institute for Intelligent Systems in Stuttgart have developed a magnetically controlled soft medical robot with a unique, flexible structure inspired by the body of a pangolin. The robot is freely movable despite built-in hard metal components.
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Image: The hydrogel composite is demonstratively stretched by Alexandre Anthis; Copyright: Empa

Empa

Sensor patch for abdominal surgery

23.06.2023

Researchers from Empa and ETH Zurich have developed a plaster with a sensor function to ensure that wounds in the abdomen remain tightly closed after an operation.
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Image: Researcher Carles Mas and doctoral students Patricia López and Nerea García working with several samples as part of the Bio-TUNE project in a lab; Copyright: BarcelonaTech (UPC)

BarcelonaTech (UPC)

Medical implants: new generation of antibacterial materials

23.06.2023

The UPC’s Biomaterials, Biomechanics and Tissue Engineering Group (BBT) leads the international project Bio-TUNE, which aims to develop multifunctional materials with high antibacterial potential and efficient tissue integration.
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Image: Renacer bioresorbable membrane against a black background; Copyright: K. Selsam, Fraunhofer ISC

K. Selsam, Fraunhofer ISC

Wound healing: Fraunhofer Institutes develop bioresorbable membrane RENACER

13.06.2023

Treating large-area and internal wounds and promoting their often protracted healing remains a challenging task for medicine. Researchers at the Fraunhofer Institute for Silicate Research (ISC) and the Fraunhofer Institute for Toxicology and Experimental Medicine (ITEM) have developed the bioresorbable membrane RENACER®.
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Image: Woman with glasses and gray-brown hair, Carole Planchette, stands by a pillar; Copyright: Fotogenia - Renate Trummer

Fotogenia - Renate Trummer

Tissue Engineering: TU Graz revolutionises production of biocompatible microfibres

02.06.2023

Using a newly developed method for the efficient and cost-effective production of biocompatible microfibres, the production of autologous skin and organs can be significantly accelerated. Responsible for the development are Carole Planchette and her team from TU Graz.
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Image: Close-up: A 3D printed amber pill; Copyright: MPI-INF

MPI-INF

3D-printed pills with desired drug release

29.05.2023

A group of Computer Scientists from the Max Planck Institute for Informatics in Saarbrücken, Germany, and the University of California at Davis, have invented a process that relies solely on the shape of the object for a time-controlled release.
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Image: PhD student Maja Struczynska with the model of a single fibrinogen molecule; Copyright: Jens Meyer/Uni Jena

Jens Meyer/Uni Jena

Specially coated titanium reduces risk of clots on prostheses

26.05.2023

An international research team led by the german University of Jena has now developed a promising approach to significantly reducing blood clotting on the heart valve material titanium.
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Image: Prof. Dr. Thomas Scheibel and Vanessa Trossmann in a laboratory for the microscopic examination of cell structures; Copyright: UBT / Chr. Wißler.

UBT / Chr. Wißler.

Regenerative medicine: cell-specific properties of novel spider silk materials

12.05.2023

Materials made of spider silk can be specifically modified or processed in such a way that living cells of a certain type adhere to them, grow and proliferate. This has been discovered by researchers at the University of Bayreuth under the direction of Prof. Dr. Thomas Scheibel.
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Image: A transparent miniaturized muscle implant lies on a black table; Copyright: Fraunhofer IBMT

Fraunhofer IBMT

Human-machine interface stops muscle tremors

10.05.2023

Scientists at the Fraunhofer Institute for Biomedical Engineering IBMT have been working with international partners to develop a technology platform to help relieve the symptoms of muscle tremors.
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Image: Three women and a man - Prof. Maria Teresa Pisabarro, Dr. Gloria Ruiz Gómez, Dr. Juliane Salbach-Hirsch and Prof. Lorenz Hofbauer; Copyright: TUD/Magdalena Gonciarz

TUD/Magdalena Gonciarz

A sweet solution to a cracking problem: new bio-inspired molecules to promote bone regeneration

08.05.2023

An interdisciplinary team of scientists in Dresden developed novel bio-inspired sugar-based molecules that show potential to improve bone regeneration.
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Image: A spoon piled with bits of plastic. The spoon lies on a salmon-colored background; Copyright: xalien/Shutterstock

xalien/Shutterstock

Tiny plastic particles also find their way into the brain

28.04.2023

With the help of computer models, researchers have discovered that a specific surface structure (biomolecular corona) is crucial for the passage of plastic particles into the brain.
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Image: Daniel Aili, professor at the Department of Physics, man with brown hair and glasses, smiles at the camera; Copyright: Magnus Johansson

Magnus Johansson

Wound dressing reveals infection

26.04.2023

A nanocellulose wound dressing that can reveal early signs of infection without interfering with the healing process has been developed by researchers at Linköping University, Sweden.
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Image: Prof Giuseppe Intini in a blue sweat jacket, smiles at the camera; Copyright: Giuseppe Intini

Giuseppe Intini

New approach helps skull bones mend themselves

24.04.2023

In a new study published in Proceedings of the National Academy of Sciences, University of Pittsburgh researchers developed a novel approach that promoted bone regeneration in mice without implantation of bone tissue or biomaterials.
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Image: Female physician in a hospital is throwing trash into a trash can; Copyright: karrastock

karrastock

CirculAid: funding for a circular economy in healthcare

17.04.2023

The health care system and its activities consume a lot of resources. The COVID-19 pandemic has exacerbated the existing problem due to the increased need for hygiene and protective equipment. Urgent action is needed to protect the environment and combat climate change by reducing consumption and improving resource efficiency.
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Image: Dr Ioana Slabu and Benedict Bauer with the nanomodified stent fot he camera; Copyright: Peter Winandy

Peter Winandy

Novel technology for hollow organ tumour therapy

10.04.2023

Ioana Slabu from the Institute of Applied Medical Technology and Benedict Bauer from the Institut für Textiltechnik of RWTH Aachen University have developed a novel technology for the therapy of hollow organ tumours, which was awarded second place in the RWTH Innovation Award.
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Image: ARC trial participant in active therapy: ARC Therapy is designed to deliver targeted, programmed spinal cord stimulation; Copyright: ONWARD Medical NV

ONWARD Medical NV

Kick-off: new Marie Skłodowska-Curie Doctoral Network "ReWIRE"

05.04.2023

Through ReWIRE, next-generation scientists will be trained to develop translational breakthrough therapeutic solutions for patients with paralysis caused by traumatic spinal cord injuries.
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Image: A smart bandage rests on a gloved finger.; Copyright: Caltech

Caltech

‘Smart’ bandages monitor wounds and provide targeted treatment

03.04.2023

Most of the time, when someone gets a cut, scrape, burn, or other wound, the body takes care of itself and heals on its own. But this is not always the case. Diabetes can interfere with the healing process and create wounds that will not go away and that could become infected and fester.
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Image: An insole is made on a 3D printer; Copyright: Marco Binelli / ETH Zürich

Marco Binelli / ETH Zürich

3D-printed insoles measure sole pressure directly in the shoe

24.03.2023

Researchers at ETH Zurich, Empa and EPFL are developing a 3D-printed insole with integrated sensors that allows the pressure of the sole to be measured in the shoe and thus during any activity.
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Image: A small dark box, a mobile impedance spectrometer; Copyright: Fraunhofer ISC

Fraunhofer ISC

Innovative in vitro eye irritation test to replace standard animal testing

10.03.2023

Researchers at the Translational Center for Regenerative Therapies TLC-RT of the Fraunhofer Institute for Silicate Research ISC want to work with partners to replace animal testing.
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Image: Photograph of the semitransparent hydrogel used in this study; Copyright: Satoshi Tanikawa, et al. 2023

Satoshi Tanikawa, et al. 2023

Healing the brain: hydrogels enable neuronal tissue growth

03.03.2023

Synthetic hydrogels were shown to provide an effective scaffold for neuronal tissue growth in areas of brain damage, providing a possible approach for brain tissue reconstruction.
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Image: Xing Xie is holding holding a chip in close up; Copyright: Georgia Tech

Georgia Tech

New ultrafast water disinfection method is more environmentally friendly

27.02.2023

Georgia Institute of Technology researchers have found a way to use small shocks of electricity to disinfect water, reducing energy consumption, cost, and environmental impact.
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Image: The use of sound waves to create a pressure field to print particles; Copyright: Kai Melde, MPI für medizinische Forschung

Kai Melde, MPI für medizinische Forschung

Creating 3D objects with sound

17.02.2023

Scientists from the Micro, Nano and Molecular Systems Lab at the Max Planck Institute for Medical Research and the Institute for Molecular Systems Engineering and Advanced Materials at Heidelberg University have created a new technology to assemble matter in 3D.
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Image: Illustration of the nanomaterial graphene with gold nano disks array; Copyright: NTNU

NTNU

Super quick COVID test uses new technology

13.02.2023

The ability of gold particles to reflect light in different colours is used in applications from stained glass to pregnancy tests. Now researchers are set to exploit the same properties in an ultra-fast sensor for the coronavirus.
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Image: A white electrospun Renacer membrane (5 x 5 cm) on a black background; Copyright: Fraunhofer ISC

Fraunhofer ISC

Bioresorbable membrane for healing internal and external wounds

10.02.2023

Fraunhofer researchers have succeeded in using the bioresorbable silica gel Renacer to produce an electrospun membrane that is neither cytotoxic to cells nor genotoxic.
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Image: A contact lens prototype that is specially designed to prevent contact lens-induced dry eye.; Copyright: Terasaki Institute for Biomedical Innovation

Terasaki Institute for Biomedical Innovation

Contact lenses to treat dry eye syndrome

06.02.2023

A collaborative team from the Terasaki Institute for Biomedical Innovation (TIBI) has developed a contact lens prototype that is specifically designed to prevent contact lens-induced dry eye (CLIDE).
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Image: An Illustration of the microelectronic fibers fabricated by the thermal drawing process and its fabrics for sweat sensing.; Copyright: Tohoku University

Tohoku University

Analyzing sweat via microelectronic fibers for non-invasive health monitoring

25.01.2023

Imagine if a t-shirt could analyze sweat, potentially alerting the wearer to any health abnormalities. Well, this is now closer to reality thanks to a research group's recent innovation.
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Image: Preview picture of video

Sustainable hospital – Cardiac catheter in the raw material cycle

03.01.2023

Particularly in hospitals, a lot of waste is generated due to the large number of disposable products. In the case of cardiac catheters, this is doubly annoying, as they contain precious metals such as platinum and copper. A pilot project has therefore been launched at the Heart and Diabetes Center NRW to return used catheters to the raw materials cycle.
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Image: Top view of FFP2 class clean face mask on blue background; Copyright: Photology75

Photology75

Radon: Face masks reduce radiation exposure

21.12.2022

Researchers from the GSI Helmholtzzentrum für Schwerionenforschung now have proven in a paper published in the “International Journal of Environmental Research and Public Health” that face masks - both FFP2 and surgical masks - strongly reduce lung exposure and thus the dose.
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Image: Microscopic image: The picture shows a textile fiber with salt crystals (light blue) and viruses around 100 nanometers in size (green); Copyright: Empa

Empa

Watching viruses fail

20.12.2022

Using a new analytical method, Empa researchers have tracked viruses as they pass through face masks and compared their failure on the filter layers of different types of masks.
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Image: A man with brown hair in a white coat, Ángel Serrano Aroca, smiles at the camera; Copyright: Asociación RUVID

Asociación RUVID

Biomaterial capable of regenerating bones and preventing infections

15.12.2022

Researchers from the Bioengineering and Biomaterials Laboratory of Universidad Católica de Valencia (UCV) have developed a new porous material capable of regenerating bones and preventing infections at the same time.
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Image: An employee in protective clothing holds a piece of non-woven fabric in his hand and examines it; Copyright: Freudenberg Performance Materials

Freudenberg Performance Materials

ProQuIV optimizes the production of nonwoven masks

12.12.2022

Producing infection control clothing requires a lot of energy and uses lots of material resources. Fraunhofer researchers have now developed a technology which helps to save materials and energy when producing nonwovens.
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Image: A woman with long blonde hair and black glasses smiles at the camera - Anna Rising, research group leader; Copyright: Lena Holm

Lena Holm

Scientists develop gel made from spider silk proteins for biomedical applications

19.08.2022

Researchers at Karolinska Institutet in Sweden and the Swedish University of Agricultural Sciences have discovered that spider silk proteins can be fused to biologically active proteins and be converted into a gel at body temperature.
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Image: Preview picture of video

Fibers for fibers – Textile implants repair the body

08.06.2022

We are nowadays already able to weave implants out of artificial fibers that can replace tissue or heal injuries. Different materials like polymers or nitinol are used to create flexible shapes. But the materials and their uses can still be improved.
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Image: A blue surgical glove is hanging over the edge of a trash can; Copyright: PantherMedia/srikijt

PantherMedia/srikijt

Sustainability and medical consumables – where to put the waste?

01.03.2022

Medicine produces a lot of waste through medical consumables like protective gear or laboratory equipment. All of this gets destroyed due to hygiene reasons after use, but it is nonetheless true: Our resources are not unlimited and medical waste is a burden for the environment, too.
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Image: A used surgical mask is hanging from a branch in the woods; Copyright: PantherMedia/Valery Vvoennyy

PantherMedia/Valery Vvoennyy

Medical consumables: Will the pandemic inspire more sustainable practices?

01.03.2022

The COVID-19 pandemic has prompted a global increase in healthcare commodities and medical consumables: demand for face masks, gloves, protective apparel, and other personal protective equipment has soared as a result. This also applies to rapid tests, reagents, laboratory equipment and supplies. But all this sparked a myriad of problems.
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Image: Several medical masks as well as other disposable waste products in a trash can; Copyright: PantherMedia / Fotofabrika

PantherMedia / Fotofabrika

How to reduce plastic waste: innovative process promises recycling of single-use face masks

01.03.2022

The COVID-19 pandemic forced the use of disposable face masks. Discarding them has become an environmental challenge on a global scale. This has prompted the Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT to develop an innovative recycling process for used plastics.
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Image: Closeup view with selective focus of shiny glittering  water balls hydrogel; Copyright: PantherMedia/PhotoChowk

PantherMedia/PhotoChowk

Improving strength, stretchiness and adhesion in hydrogels for wound healing

31.08.2021

Scientists use the adhesive capabilities of mussels as a model for optimizing hydrogels’ mechanical properties.
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Image: A physician puts a bandage around the foot of a patient; Copyright: PantherMedia/Wavebreakmedia (YAYMicro)

PantherMedia/Wavebreakmedia (YAYMicro)

Chronic wounds: new, inexpensive wound dressing

29.07.2021

An MSU-led team is developing an inexpensive biopolymer dressing to heal injuries like diabetic foot ulcers that affect millions of patients all over the world.
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Image: A skull of a pig whose bones have been set using a white mass; Copyright: Daniel Hutchinson

Daniel Hutchinson

Fracture setting method could replace metal plates

02.07.2021

A new biocompatible polymer-based composite material could soon replace metal plates in treating difficult and unstable fractures. Developed at KTH Royal Institute of Technology in Stockholm, the newly-developed material is as strong as dental composites yet non-toxic.
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Image: Sheath of a leg prosthesis that gets printed by a 3D printer; Copyright: PantherMedia/Markov81

Digital orthopedic technology: scan, customize, print

01.07.2021

When auxiliary means like orthoses or prostheses do not come from the shelf, but are adapted to the wearer, this means true crafting: In the past, a plaster mold of a body part had to be made as a template to create an individual aid from it step by step. Fortunately, we have come a long way until today.
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Image: a 3D-printed orthosis designed by Luxinergy and kerkoc; Copyright: Luxinery/kerkoc

Luxinergy/kerkoc

Customized and freshly printed: 3D printing in orthopedics

01.07.2021

Creating custom-made medical devices to target individual patient needs: that is the core function and primary objective of orthopedics. Using 3D printers for this will make sense in the future. Luxinergy is an innovative Austrian technology company that specializes in the development of biocompatible resins and large-format 3D printers.
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Image: Graphic showing an oval shape that is being gripped by a hook during endoscopic surgery; Copyright: Purenum GmbH

Purenum GmbH

CE Mark for medical device for effective removal of kidney stones

28.06.2021

In December 2017, Purenum GmbH started its business as a spin-off of Fraunhofer IFAM. Its mission is to develop biomimetic adhesives for use in medical technology.
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Image: Preview picture of video

Smart implant – Healing fractures autonomously with smart materials

07.06.2021

Lower leg fractures put a great strain on patients due to their long healing process. In the future, an intelligent implant could control how the bone grows together again and thus optimize the healing process. In our video, you can learn from the developers at Saarland University how this works and what role artificial intelligence plays here.
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Image: A hospital employee is cleaning an endoscope; Copyright: PantherMedia/sielemann

PantherMedia/sielemann

Medical devices: hygienic design combats pathogens

03.02.2021

Medical hygiene does not just play a key role during the COVID-19 pandemic. Preventing the transmission of infectious diseases and especially the spread of multidrug-resistant organisms is paramount even in non-pandemic times. While hygiene practices in hospitals and medical offices are essential, the industry can also make an important contribution with hygienic product design.
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Image: Artist’s rendering of small robots with grapplers and searchlights that swim between red blood cells; Copyright: PantherMedia/Andreus

Autonomous medical technology: independently in the body

01.02.2021

Therapies need to be carried out with high reliability by trained personal. This will not change in the future. But maybe we will be able to let systems in the patient’s body do some of the work. Some approaches are already aiming to make implants more independent so they will be able to flexibly react to changes. Read more in our Topic of the Month!
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Image: A group of researchers is discussing a chemical structural formula in front of a whiteboard; Copyright: PantherMedia/depositedhar

Intelligent implants: when the material is the key to the solution

01.02.2021

Today we use implants to stabilize or compensate for injuries inside the body and to aid in the healing process. Implants cannot act autonomously and treat the patient if they deem it necessary. However, it is just a matter of time before this happens because research on intelligent implant materials that respond to stimuli is on the cusp of a breakthrough.
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Image: A nurse is donning a red cloth mask; Copyright: PantherMedia/Jakub Mrocek

PantherMedia/Jakub Mrocek

Reviewing the evidence for cloth mask use among health care workers

13.01.2021

A rapid, evidence-based review summarizes the effectiveness of cloth masks in protecting health care clinicians from respiratory viral infections, such as COVID-19. Nine studies were included in the review, and all but one were conducted prior to the COVID-19 pandemic.
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Image: Illustrations of various 3D-printed prostheses, implants and organs; Copyright: PantherMedia/annyart

Printed life – possibilities and limits of bioprinting

01.12.2020

Implants, prostheses and various other components made of plastic, metal or ceramics are already being produced by additive manufacturing. But skin, blood vessels or entire organs from the printer – is that possible? For years now, intensive research has been underway into the production of biologically functional tissue using printing processes. Some things are already possible with bioprinting.
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Image: Surgical utensils lying on a table in the OR; Copyright: WavebreakmediaMicro - stock.adobe.com

Sustainable Nonwoven Solutions Improve Hygiene

02.11.2020

Whether it is hospitals or care homes - the right hygiene tools are crucial for process efficiency. These products can be composed of a wide variety of materials. NORAFIN offers a sustainable solution with products made from nonwoven fabric.
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Image: room in a hospital; Copyright: PantherMedia / imagesupply

PantherMedia / ImageSupply

How Hospitals Can Foster Environmental Sustainability

01.07.2020

When it comes to their environmental impact, hospitals present a challenge, yet can boost opportunities at the same time. They are an environmental burden due to a higher energy use resulting from frequently outdated technology. However, once they are modernized and switch to a sustainable concept, they can turn into a "green hospital".
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