Autonomous medical technology: independently in the body
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Image: AI model of a hand to research motor manipulation; Copyright: EPFL / UNIGE

EPFL / UNIGE

AI model enhances understanding of hand movements for neuroprosthetics

11.10.2024

A research team led by EPFL Professor Alexander Mathis has developed an AI model that provides in-depth insights into hand movements, crucial for advancing neuroprosthetics and rehabilitation technologies.
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Image: A transparent, flexible electronic device wrapped around a fingertip featuring visible circuits and components printed on a thin, stretchable material; Copyright: Shichao Ding

Shichao Ding

Sweat-powered finger wrap enables continuous health monitoring

19.09.2024

Engineers at the University of California San Diego have developed a sweat-powered finger wrap that monitors vital health biomarkers such as glucose, lactate, vitamin C, and levodopa. This wearable device utilizes sweat from the wearer’s fingertip for both power and health monitoring, making it a convenient and non-invasive tool for personalized health tracking.
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Image: Man sitting before a monitor showing data from a microscope in the foreground while a woman in the background is looking through a microscope; Copyright: MPIKG

MPIKG

Harnessing light to control cellular dynamics

23.05.2024

Researchers led by Rumiana Dimova at the Max Planck Institute for Colloids and Interfaces have developed a technique that uses light to understand and control the inner dynamics of cells. By employing lights of different colors, they can alter the interactions within cellular components, offering a precise and non-invasive method to administer drugs directly into the cells.
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Image: In the foreground of the left half of the picture is a small black device with a screen. A hospital bed can be seen blurred in the background; Copyright: HZDR / Xinne Zhao

HZDR / Xinne Zhao

Monitoring after pancreatic surgery through real-time diagnosis

07.05.2024

Scientists at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) and the University Hospital Carl Gustav Carus Dresden (UKD) have now developed a portable device that can carry out enzyme determinations continuously and in real time after pancreatic surgery. This can counteract complications such as the development of pancreatic fistulas.
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Image: Depiction of the bioelectronic mesh in purple and green with red graphene sensors; Copyright: Gao et al., 10.1038/s41467-024-46636-7

Gao et al., 10.1038/s41467-024-46636-7

Bioelectronic mesh for cardiac tissue monitoring

30.04.2024

A team of engineers, led by the University of Massachusetts Amherst, has developed a cutting-edge bioelectronic mesh system integrated with graphene sensors to monitor both mechanical movement and electrical signals in lab-grown human cardiac tissue.
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Image: Two researchers are standing side by side, smiling for a photo in a bright corridor with windows, likely within a university or research facility; Copyright: CHUM

CHUM

Liver cancer treatment: Utilizing magnetic field-guided microrobots

12.04.2024

A new medical technique utilizing magnet-guided microrobots for treating liver tumors has been developed by a Canadian research team, offering a potential new approach in oncology.
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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: Follow-up examination: Professor Duncker checks whether the implanted device is working.; Copyright: Karin Kaiser / MHH

Karin Kaiser / MHH

New device against sudden cardiac death

10.11.2023

Hannover Heart Rhythm Center at MHH implants Germany's first innovative defibrillator with an electrode under the sternum.
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Image: A surgeon in the operating room performs laser surgery on a patient's eyes; Copyright: Chibelek

Chibelek

Funding partially autonomous surgical robotics development

09.11.2023

The research association ForNeR’s two million euro grant from the Bavarian Research Foundation's Board of Trustees integrates assistive robots for surgery through intuitive interfaces in the operating room. This not only helps patients but also supports operating room staff in performing demanding procedures.
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Image: Close-up of a sensor bracelet demonstrator; Copyright: Fraunhofer IBMT

Fraunhofer IBMT

Bidirectional control of prosthetic hands using ultrasonic sensors

13.10.2023

Researchers at Fraunhofer are working as part of an EU research project to improve control of prosthetic hands down to individual fingers.
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Image: Female engineer in laboratory clothing inspects a small circuit board; Copyright: wosunan

wosunan

Microrobots: opportunities for cancer treatment and wound healing

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.
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Image: Man with dark hair, glasses and a checked shirt smiles into the camera against a gray and white background; Copyright: Peer Erfle/IMT

Peer Erfle/IMT

Microchips: better understand diseases like schizophrenia

15.09.2023

The European Research Council (ERC) has announced the recipients of its prestigious Starting Grants. Among them is a researcher from the Technical University of Braunschweig: Dr. Thomas Winkler will receive €1.5 million for his research on modular organ-on-chip technology to better understand neuropsychiatric disorders such as schizophrenia.
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Image: In the picture you can see a lotus leaf with water two hands in gloves and the product. ; Copyright: National University of Singapore

National University of Singapore

Nature-inspired pressure sensing technology aims to transform healthcare and surgical robots

22.08.2023

NUS researchers have developed 'eAir', an innovative pressure sensor inspired by the lotus leaf effect. This sensor could revolutionize minimally invasive surgeries by providing tactile feedback to surgeons and improve patient experiences in monitoring intracranial pressure. Its unique design enhances precision and reliability, potentially transforming various medical applications.
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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: Patient wearing a prosthetic arm directly attached to the skeleton and neuromuscular system; Copyright: Chalmers University of Technology

Chalmers University of Technology

Bionic hand: surgical and engineering innovations enable unprecedented control

21.07.2023

For the first time, a person with an arm amputation can manipulate each finger of a bionic hand as if it was his own. Thanks to revolutionary surgical and engineering advancements that seamlessly merge humans with machines, this breakthrough offers new hope and possibilities for people with amputations worldwide.
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Image: The monitor uses a biosensor made with nanobodies that is integrated into an air sampler that operates based on the wet cyclone technology; Copyright: Joseph Puthussery

Joseph Puthussery

Biosensing: air monitor can detect COVID-19 variants

13.07.2023

Scientists are looking at ways to surveil indoor environments in real time for viruses. By combining recent advances in aerosol sampling technology and an ultrasensitive biosensing technique, researchers at Washington University in St. Louis have created a real-time monitor that can detect any of the SARS-CoV-2 virus variants in a room in about 5 minutes.
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Image: Group picture with 16 people, at Fraunhofer IZM in Berlin in spring; Copyright: Alex Dolce, Florida Atlantic University

Fraunhofer IZM

Pregnancy: intelligent patch for remote monitoring

03.07.2023

A patch equipped with highly sensitive electronics is meant to collect and evaluate vital data. In addition, the sensors will be integrated into baby clothing in order to improve the future of medical monitoring for newborns with the highest level of data security.
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Image: Depiction of a brain and the nerve connections that run down the spinal cord; Copyright: joaquincorbalan

joaquincorbalan

Fiber-based endo-microscope: understanding neuronal communication

28.06.2023

A new hair-thin endo-microscope, developed by an international team with the participation of Leibniz IPHT, promises extremely gentle in-depth observations.
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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: 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: Illustration of wounds on cultured skin cells heal while stimulated with electric current; Copyright: Science Brush | Hassan A. Tahini

Science Brush | Hassan A. Tahini

How electricity can heal wounds three times as fast

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.
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Image: Three men and a woman in white lab coats pose for the camera in a laboratory; Copyright: Universidad de Barcelona

Universidad de Barcelona

Microfluidics physics-based device to predict cancer therapy response

06.04.2023

A team of experts has designed a microfluidic device called microfluidic dynamic BH3 profiling (μDBP) that predicts the effectiveness of cancer treatment quickly and automatically.
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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: Close-up of a sample tray and analyzer in the laboratory; Copyright: Fraunhofer IPK / Larissa Klassen

Fraunhofer IPK / Larissa Klassen

New technologies for producing mRNA-based pharmaceuticals

24.03.2023

Together with partners from science and industry, Fraunhofer IPK is researching how mRNA therapeutics and other medication can be better produced and more effectively applied.
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Image: Nose surgery performed on a woman; Copyright: GabiStock

GabiStock

ENT surgery – Interventions for speech and hearing

27.02.2023

Speaking and hearing are the two most important abilities that connect humans to their environment. If they get limited through disease or injury, it is all the more important to restore them as broadly as possible. Depending on the cause for their limitation, there are different surgical treatment possibilities. We take a look at current methods in our Topic of the Month.
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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 project team, consisting of 15 people, poses in front of a gray wall; Copyright: The Project Team / Claudia Pock

The Project Team / Claudia Pock

Multinational research consortium to advance nanomedicine manufacturing

15.02.2023

Gattefossé, InProcess-LSP, Knauer, Microfluidics, Skyepharma, and the University of Graz join the RCPE-led European Consortium for Continuous Pharmaceutical Manufacturing (ECCPM) to jointly develop a modular, flexible toolkit to advance industrial-scale production of lipid nanoparticles.
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Image: A digital model of an arm: Coordinated stimulation from the microimplants helps with executing hand movements.; Copyright: WILDDESIGN GmbH, Gelsenkirchen

WILDDESIGN GmbH, Gelsenkirchen

A new generation of microimplants

09.02.2023

Miniature assistants can act as a stimulus in cases of tinnitus or digestive tract disorders or help a person’s hand to regain the ability to grip.
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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: Patient testing a brain-computer interface developed by Charité to control an exoskeleton hand; Copyright: AG Klinische Neurotechnologie, Charité Berlin

AG Klinische Neurotechnologie, Charité Berlin

Controlling neural exoskeletons more precisely with diamond sensors

02.02.2023

In the recently launched NeuroQ lighthouse project, the project partners develop highly sensitive diamond-based quantum sensors that will enable paralyzed people to control neural exoskeletons more precisely.
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Image: Dr. Maximilian Kückelhaus presents the new method in a dry-run training session with an operations robot ; Copyright: WWU - Peter Leßmann

WWU - Peter Leßmann

First completely robot-supported microsurgical operations on humans

24.08.2022

A team led by Dr. Maximilian Kückelhaus and Prof. Tobias Hirsch from the Centre for Musculoskeletal Medicine at the University of Münster has carried out the first completely robot-supported microsurgical operations on humans.
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Image: Chip with adipose tissue is held in place by hands in purple disposable gloves; Copyright: Berthold Steinhilber

Berthold Steinhilber

Ex vivo obesity research thanks to the adipose-on-chip system

08.07.2022

Ex vivo studies of human obesity without animal testing? The Adipose-on-Chip system offers a solution that allows scientists to gain better insights into various obesity-linked secondary diseases and comorbidities in the future.
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Image: OR where a patient undergoes eye surgery; Copyright: Universitätsklinikum Bonn (UKB)/J.F. Saba

Universitätsklinikum Bonn (UKB)/J.F. Saba

Retina chip: Implant helps with age-related macular degeneration

01.03.2022

People who suffer from partial or total loss of vision caused by illness must use assistive technology to replace their sense of sight. In recent years, implants offered hope of restoring limited functional vision. Now an innovative microchip designed to help with age-related macular degeneration (AMD) is currently undergoing international testing.
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Image: Face and eye of a young woman in a close-up shot; Copyright: PantherMedia/Meseritsch Herby

PantherMedia/Meseritsch Herby

Implants for the senses – Hearing and seeing with technology

01.12.2021

We can replace certain functions of the body with implants nowadays, others we cannot. When it comes to the human senses, we are still quite at the beginning. The technologies and materials we can use are way to coarse compared to our nervous system. But implants can also help us to maintain senses.
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Image: Preview picture of video

Deep Brain Stimulation – Measuring electrodes against Parkinson's disease

23.08.2021

We cannot heal Parkinson’s disease yet, all we can do is alleviate the symptoms. One possibility to do this are implantable electrodes that stimulate part of the brain and counteract the characteristic tremor. In our video, Prof. Cordula Matthies and Prof. Jens Volkmann from the University Hospital Würzburg explain how this stimulation can be targeted better with a new electrode generation.
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Image: A very small, very flat silver device on the palm of a hand; Copyright: Vibrosonic GmbH

Vibrosonic GmbH

A contact lens for the ear

15.07.2021

Excessive noise, hearing loss, vascular constriction, old age – hearing difficulties can be caused by many factors. To help improve the quality of life of people with hearing impairment, Mannheim start-up Vibrosonic have developed a new, innovative hearing aid with an integrated loudspeaker that sits directly on the eardrum.
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Image: Two small, angular-shaped, electrical devices that are held with tweezers; Copyright: Fraunhofer EMFT/Bernd Müller

Tumor therapy: drug delivery pump instead of injection

01.02.2021

Drugs always have undesired side effects. Cytostatics are powerful drugs used to treat cancer. They reach almost all cells in the body, killing healthy cells as well as cancer cells in the process. A targeted delivery to the specific cellular site would be a gentler treatment.
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Image: Artist’s rendering of small star-shaped machines between red blood cells; Copyright: PantherMedia/Michael Osterrieder

Autonomous medical devices: running well in your body

01.02.2021

In theory, autonomous medical technologies can be used in a diagnostic or therapeutic capacity inside the body under certain conditions. This may not sound like a new invention at first. After all, implantable cardioverter-defibrillators have monitored and fixed abnormal heart rhythm for many years.
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Image: Microimplant; Copyright: Fraunhofer IZM

Fraunhofer IZM

Microimplants: electricity instead of pills

23.11.2020

Active implants such as pacemakers revolutionized healthcare decades ago. But they also have disadvantages: their size and relatively short life span, for example. At Fraunhofer IZM, research is therefore being conducted on durable microimplants that stimulate nerve cells electrically in a targeted manner and are even to be used to treat multiple sclerosis.
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Image: A miniaturized, round sensor under a fingertip; Copyright: TU Dresden

SmartLab: all-in-one automation, digitalization, and miniaturization

01.09.2020

Laboratories have to analyze and interpret an ever-increasing number of samples for research and diagnostic services, generating lots of data in the process. At the same time, labs are required to produce quality results and operate with speed. Processes that could once be managed using laboratory notebooks and isolated systems must become smart in the future to improve lab efficiency.
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Image: UV Visual Lift; Copyright: by UVentions

by UVentions

Hygiene: Smart protection against pathogens like the coronavirus

23.03.2020

Germs such as bacteria, viruses or pathogenic fungi can spread from one person to another through direct contact when we shake hands or touch objects. People touch door handles and push elevator buttons in public places and constantly move in and out of spaces. Regular manual high-level disinfection is practically impossible. UVentions GmbH has found an intelligent solution for this problem.
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Image: Man and woman in a laboratory presenting a multi-organ chip; Copyright: TissUse GmbH

Multi-Organ Chips – The Patients of Tomorrow?

01.02.2019

The liver, nervous tissue or the intestines: all are important human organs that have in the past been tested for their function and compatibility using animal or in vitro test methods. In recent years, TissUse GmbH, a spin-off of the Technical University of Berlin (TU Berlin), has launched multi-organ chip platforms. But that’s not all.
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Image: Cell cultivation in a Petri dish; Copyright: panthermedia.net / matej kastelic

Organ-on-a-chip – Organs in miniature format

01.02.2019

In vitro processes and animal tests are used to develop new medications and novel therapeutic approaches. However, animal testing raises important ethical concerns. Organ-on-a-chip models promise to be a feasible alternative. In a system the size of a smartphone, organs are connected using artificial circulation.
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Image: Sock TelePark; Copyright: Marc Eisele, University Hospital Dresden

Marc Eisele, Universitätsklinikum Dresden

Better living thanks to telemedicine – "TelePark"- project targets patients with Parkinson’s disease

08.01.2019

Parkinson's disease is a progressive nervous system disorder that primarily affects movement of patients and makes their everyday lives very challenging. It also makes regular doctor appointments and treatment sessions necessary. "TelePark" - a project that collects different movement-related parameters using sensors and apps is designed to improve the quality of life for Parkinson’s patients.
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Image: digital capture of an eye; Copyright: panthermedia.net / cosmin momir

A digital look inside the human eye – when algorithms diagnose Diabetes

02.01.2019

Diabetes mellitus or simply diabetes has become very common and is often described as a lifestyle disease. More and more people are suffering from this chronic metabolic disorder. Next to established diagnostic procedures, digital retinal screening has shown to be successful - a promising technique that will also play an important role in the diagnosis of other diseases in the future.
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