12.09.2024
A sensor-equipped orthosis is being developed at Bielefeld University of Applied Sciences to improve patient self-management during the treatment of diabetic foot syndrome.15.08.2024
Researchers from North Carolina State University and Columbia University have developed a cost-effective bandage that uses an electric field to accelerate the healing of chronic wounds. In animal tests, this electric bandage improved wound healing by 30 percent compared to conventional bandages.02.07.2024
A team of researchers from the Keck School of Medicine of USC and the California Institute of Technology (Caltech) is developing advanced electronic bandages and other tools to improve the monitoring and healing of chronic wounds. These wearable bioelectronic systems, tested in animal models, have the potential to enhance wound care through controlled drug release and electrical stimulation.10.05.2024
Research from Monash and Osaka Universities highlights the key role sensory neurons play in tissue repair and regeneration, marking a significant advancement for regenerative medicine.07.05.2024
People with long-term diabetes often struggle with pressure sores and chronic wounds on their feet. These occur due to circulatory and sensory disorders. Careful monitoring of one's own feet is necessary for prevention. A newly developed insole with sensors, in combination with telemedicine, is intended to prevent the formation of foot ulcers.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.11.03.2024
The University of Granada (UGR) has pioneered a solution for burn treatment with its artificial skin “UGRSKIN”. Developed by the Tissue Engineering Research Group, this advanced therapy medicinal product (ATMP) has improved the approach to treating severe burns, offering patients new hope and enhanced outcomes.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.24.01.2024
Empa researchers have pioneered a novel soldering process that employs nanoparticles and lasers to gently fuse tissue, ushering in a new era in wound closure.04.12.2023
A research team headed by Professor Julia Bandow and Dr. Tim Dirks from the Chair for Applied Microbiology at Ruhr University Bochum, Germany, showed that bacteria that overproduce the heat shock protein Hsp33 can withstand plasma treatment more effectively than others.30.11.2023
When a wound heals, ideally the new tissue fully closes a skin lesion. But with chronic wounds, seemingly harmless tissue damages can turn into permanent health problems. In some chronic wounds with infections, antibiotics or disinfectants can no longer get to the germs. To counteract this, Empa researchers have now developed a dressing containing probiotic lactobacilli.15.11.2023
Avery Dennison, a global powerhouse in materials science, is advancing the field of medical adhesives, both for wound and surgical care as well as for wearables. With a multidisciplinary team and a dedication to addressing current industry challenges, they deliver solutions that not only meet the practical needs of medical applications but also enhance the comfort for patients.18.09.2023
A group of researchers at the Technical University of Munich (TUM) has developed the world’s first microrobot (“microbot”) capable of navigating within groups of cells and stimulating individual cells.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.28.07.2023
The team of Prof. Dr. Thomas Scheibel, Chair of Biomaterials at the University of Bayreuth, has compiled a current overview of the state of research on protein-based bioadhesives.26.07.2023
Like us, cells communicate. Well, in their own special way. Using waves as their common language, cells tell one another where and when to move.20.07.2023
Dr. Jasmina Gačanin, postdoctoral researcher at the Max Planck Institute for Polymer Research in the department of Prof. Dr. Tanja Weil, has been appointed as a “Peretti-Schmucker Fellow”.13.07.2023
Skin diseases, chronic wounds or postoperative wounds often greatly restrict the quality of life for those affected. Improvement or healing of these conditions is usually time-consuming and costly. Terraplasma medical GmbH, a company of the Viromed Medical Group, uses cold plasma to pursue an effective approach to wound treatment.30.06.2023
The number of cases of skin cancer is continuing to rise sharply, in Sweden and internationally, involving high costs for a healthcare economy that is already under severe strain in many places. Eva Backman and her team studied the efficacy of treatment options.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.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®.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.24.05.2023
Researchers in the UNC School of Medicine's Department of Microbiology and Immunology and the UNC-NC State Joint Department of Biomedical Engineering have developed a new strategy to improve drug-delivery into chronic wounds infections.19.05.2023
Wavy wounds heal faster than straight wounds because shapes influence cell movements, a team of researchers at Nanyang Technological University, Singapore (NTU Singapore) has found.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.24.04.2023
Under the leadership of the Leibniz Institute for Plasma Science and Technology (INP), the international doctoral candidates network PlasmACT is investigating the use of medical gas plasma technology as a treatment method.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.21.04.2023
Using electric stimulation, researchers in a project at Chalmers University of Technology, Sweden, and the University of Freiburg, Germany, have developed a method that speeds up the healing process, making wounds heal three times faster.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.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.08.02.2023
Recently, a Korean joint research team from POSTECH-KKU has developed a new tissue adhesive that restores the damaged cornea by simply filling it and exposing it to light.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.01.12.2022
Currently, wound care is limited to either waiting for wounds to heal while keeping them clean and free of infection or using grafts from the patient’s own body to cover larger defects. With the ongoing development tissue engineering and bioprinting, there could be a third option in future: Will we be able to print new tissue directly in the OR to cover surgical wounds?01.12.2022
Wound care by nurses is directly about cleaning, sterile covering, and documentation. Medical and surgical interventions may also be necessary. In this context, wound care also offers potential for the use of technical aids that can help prevent complications.01.12.2022
Wounds – both acute and chronic ones – can have many different causes. They all have in common that they require meticulous care because complications in wound healing can severely reduce both the patients’ health and quality of life. But there is more to modern wound care than just cleaning and bandaging them. Nursing staff and physicians can also access technical aids for this work.01.12.2022
Caring for chronic wounds is a tedious task for caregivers and physicians, as these wounds take a long time to heal and may easily worsen. They also require a lot of documentation to plan and monitor treatment. With the Wound Viewer from Omnidermal Biomedics, a device is available that supports medical staff in this task.01.07.2022
Most people would not immediately consider hospitals places that create a "feel-good atmosphere". And yet, the environment plays a key role in a patient’s healing process and recovery. As a leading medical and safety technology product manufacturer, Dräger Medical Deutschland GmbH knows how to create a design that blends function with comfort.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.10.09.2021
Scientists from Nanyang Technological University, Singapore (NTU Singapore), the Skin Research Institute of Singapore (SRIS), and local biotech start-up Celligenics are working together to develop accessible and affordable therapies to accelerate healing in chronic wounds such as diabetic ulcers and bed sores.31.08.2021
Scientists use the adhesive capabilities of mussels as a model for optimizing hydrogels’ mechanical properties.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.07.12.2020
Researchers from the Department of Biochemistry of RUDN University developed a wound-healing gel based on a substance that is produced by Trichoderma fungi. The results of the study were published in the Nov.-Dec. 2020 issue Systematic Reviews in Pharmacy journal.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.03.02.2020
Severe wounds heal slowly and leave scars. This is why we have been using regenerative therapies for some time now to accelerate and improve healing. They also help to avoid permanent damage. Still, complex applications like replacing organs or limbs will rather remain vision than become reality for a long time.03.02.2020
Collagen is the stuff that holds our bodies together and that houses our cells. In regenerative medicine, it is also the stuff that can be applied to wounds to support healing. However, collagen from animal or human sources has some drawbacks for today’s medicine. This is where rhCollagen from the Israeli company CollPlant comes into play.03.02.2020
Regenerative medicine aims to repair the human body after injuries, accidents or major cancer surgery. Unfortunately, we are still not at a stage where this process can achieve optimal results for every conceivable situation. Having said that, various new methods are on the cusp of breakthrough.