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  • Press release - 01/07/2026

    Hahn-Schickard Becomes a gGmbH – Karl-Peter Fritz Is the New Managing Director

    Effective July 1, the Hahn-Schickard Association for Applied Research e.V. will spin off its operational business and transfer it to the newly founded Hahn-Schickard gGmbH. This nonprofit company has assumed the universal legal succession of the association and has been entered in the commercial register of the Stuttgart District Court. It is legally represented by its managing director, Dr. Karl-Peter Fritz.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/hahn-schickard-becomes-ggmbh-karl-peter-fritz-new-managing-director
  • FlareOn Biotech - fluorescence-guided tumour margin detection - 01/07/2026 Tisse samples under UV light.

    A sensor designed to visualise residual tumour tissue during surgery

    In order to safely remove tumours in the head and neck region, surgeons must be able to reliably distinguish diseased tissue from healthy tissue. FlareOn Biotech, a start-up based in Frickenhausen, has developed a biochemical sensor capable of visualising tumour cells in tissue samples directly in the operating theatre within just ten minutes. The company is now seeking partners to help bring its diagnostic platform to market.

    https://www.gesundheitsindustrie-bw.de/en/article/news/sensor-designed-visualise-residual-tumour-tissue-during-surgery
  • Press release - 18/06/2026

    Medical Diagnostics and Materials Analysis Using Compact Magnetic Resonance

    The Collaborative Research Center (SFB) “High Performance Compact Magnetic Resonance” (HyPERiON) has been exploring new avenues in magnetic resonance technology since 2022. Under the leadership of the Karlsruhe Institute of Technology (KIT), the researchers aim to develop high-performance magnetic resonance systems in a benchtop format to make them suitable for widespread use.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/medical-diagnostics-and-materials-analysis-using-compact-magnetic-resonance
  • Press release - 11/06/2026

    VERAXA Biotech to Debut as a Publicly Traded Company Pioneering Next-Generation Cancer Therapies on June 11, 2026

    VERAXA Biotech AG, an emerging leader in designing novel cancer therapies, today announced that its previously announced business combination (“Business Combination”) with Voyager Acquisition Corp. (NASDAQ: VACH, “Voyager”), a special purpose acquisition company sponsored by Cantor Fitzgerald & Co., Voyager Acquisition Sponsor Holdco LLC, and Odeon Capital Group LLC, was closed successfully (the “Closing”)

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/veraxa-biotech-debut-publicly-traded-company-pioneering-next-generation-cancer-therapies-june-11-2026
  • Quantum sensors for magnetic measurements - 02/06/2026 Graphical representation of a skin-coloured muscle fibre bundle with muscle fibres. Around a protruding muscle fibre and its muscle cells, black circles are shown.

    New insights into muscle physiology – contactless and three-dimensional

    Contactless measurement of muscle activity and training effects: using highly sensitive quantum sensors, researchers at the Universities of Tübingen and Stuttgart are setting new standards. This technology has the potential to revolutionise clinical diagnostics and optimise training and neuroscience research.

    https://www.gesundheitsindustrie-bw.de/en/article/news/new-insights-muscle-physiology-contactless-and-three-dimensional
  • Press release - 21/05/2026

    Breakthrough in synthetic cell research

    Living systems such as cells rely on membrane pores and channels to transport molecules, exchange signals, and organize biochemical reactions. These functions emerge from dynamic interactions between molecular components. Researchers at the University of Stuttgart have used DNA nanotechnology to develop a synthetic membrane architecture that mimics such interactions.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/breakthrough-synthetic-cell-research
  • Press release - 12/05/2026

    3D Microscopy: Laser Rotates Samples Contact-Free

    Until now, it has been technically nearly impossible to rotate highly sensitive samples in all directions under a microscope without making contact. Researchers at the KIT have developed a new laser-based technique that allows microscopic samples such as cells to be rotated contact-free in all three spatial directions. The laser creates tiny temperature differences in the liquid, which trigger gentle fluid flows that move the sample.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/3d-microscopy-laser-rotates-samples-contact-free
  • Press release - 20/04/2026

    3D-Printed Tissue Substitute

    A novel biomimetic tissue substitute combines precisely tunable mechanical properties with biological functionality and is now ready for applications in medical technology. The material was developed in the »PolyKARD« project by Fraunhofer IAP and the NMI Natural and Medical Sciences Institute. From 20.-24.04, 2026, the material will be presented together with further developments at the Hannover Messe, Fraunhofer joint booth.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/3d-printed-tissue-substitute
  • Press release - 15/04/2026

    Electricity without cables or plugs

    How can you charge electric cars without plugging them into the power grid for hours on end? How can industrial robots be “refueled” during operation? And how does wireless energy transfer improve medical technology? These questions have occupied Prof. Nejila Parspour, Director of the Institute of Electrical Energy Conversion (IEW) at the University of Stuttgart, for more than twenty years.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/electricity-without-cables-or-plugs
  • Press release - 15/04/2026

    Pacemakers for the Brain

    Brain-computer interfaces can read neural signals and influence brain activity. We spoke with Pascal Fries about how this technology can benefit people with neurological and psychiatric conditions, future developments, and his views on ethical boundaries.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/pacemakers-brain
  • Press release - 02/04/2026

    Pocket-sized biomedical technology to become smarter Volkswagen Foundation supports mobile health expert Professor Walter Karlen

    The Volkswagen Foundation is supporting the Ulm scientist Professor Walter Karlen with more than 940,000 euros from the funding initiative "Momentum - funding for first-time researchers". The engineer has headed the Institute of Biomedical Engineering at Ulm University since 2021. Karlen conducts research in the field of mobile health on so-called Medicine Wearables, i.e. portable technology for recording health data.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/pocket-sized-biomedical-technology-become-smarter-volkswagen-foundation-supports-mobile-health-expert-professor-walter-karlen
  • Press release - 01/04/2026

    Digital Assistance System Designed to Prevent Recurrent Heart Disease

    Women who have experienced a stroke or heart attack are at a higher risk of mortality than men. Fraunhofer researchers want to improve gender-specific aftercare with a customized assistance system – thus helping to prevent further heart disease.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/digital-assistance-system-designed-prevent-recurrent-heart-disease
  • Press release - 04/03/2026

    Thermogenetics: How Proteins are controllable by heat

    Protein activity can be precisely regulated via subtle changes in temperature using heat-sensitive switches. Underlying this capability is a novel modular design strategy developed by researchers at the Institute of Pharmacy and Molecular Biotechnology of Heidelberg University. The strategy allows the integration of sensory domains in various proteins regardless of function or spatial structure.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/thermogenetics-how-proteins-are-controllable-heat
  • Press release - 10/02/2026

    CorTec Announces Successful Second Human Implantation of Its Brain-Computer Interface (BCI) System

    CorTec GmbH, a pioneer in active implantable medical technologies, announced the successful second implantation of its proprietary Brain-Computer Interface system in a clinical trial. The implantation follows neurological gains observed in the study’s first participant. This represents another key milestone to evaluate CorTec’s fully implantable closed-loop BCI platform for therapeutic applications.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/cortec-announces-successful-second-human-implantation-its-brain-computer-interface-bci-system
  • Press release - 08/01/2026

    Award for EMG electrode research

    How modern medical technology can prevent serious consequences of surgical procedures is demonstrated by a recent internationally recognized scientific publication. The study “Validation of conductive resin as electrode material in neuromonitoring with 3D-printed probes” under the leadership of Drs. Kiese and Bucher was awarded at the ICST Conference in Japan and highlights a medical topic that is crucial for the quality of life of many people.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/award-emg-electrode-research
  • Between conservative and surgical intervention - 04/12/2025 Illustration of the positioning of the barrier at the stomach outlet.

    Innovative tubular prosthesis enables reversible treatment for type 2 diabetes

    Severe obesity is considered a major cause of type 2 diabetes. Building on gastric bypass surgery, the Mannheim-based company Trans-Duodenal Concepts has developed an endoscopically implantable tubular prosthesis that lines the duodenum. This both reduces food intake and can restore normal blood sugar metabolism.

    https://www.gesundheitsindustrie-bw.de/en/article/news/innovative-tubular-prosthesis-enables-reversible-treatment-type-2-diabetes
  • Press release - 25/11/2025

    CELLnROLL receives funding from EXIST Research Transfer

    CELLnROLL is a spin-off from the Max Planck Institute for Intelligent Systems. The newly founded company develops a high-precision microrobotic-based cell sorting system to help clinicians make fast, affordable, and informed decisions for cancer diagnostics. Now, the project has received €865,000 in funding through the EXIST Transfer of Research program, a funding program initiated by the German Federal Ministry for Economic Affairs and Energy.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/cellnroll-receives-funding-exist-research-transfer
  • Press release - 13/11/2025

    Agile, lightweight, efficient, intelligent: Researchers are developing next-generation robots

    At the new Institute for Adaptive Mechanical Systems (IAMS) at the University of Stuttgart, the focus is on a new generation of walking robots and “soft robotics”. The researchers are developing adaptable robots inspired by natural movement patterns and made from innovative soft materials. The applications range from healthcare and industrial production to energy supply.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/agile-lightweight-efficient-intelligent-researchers-are-developing-next-generation-robots
  • Press release - 05/11/2025

    Novel Technique Improves Brain-State Detection

    Researchers have developed a new method that greatly improves the accuracy of brain-state classification with functional near-infrared spectroscopy (fNIRS). The brain-imaging technique fNIRS allows researchers to measure neural activity: Active brain cells need more oxygen, so variations in blood flow and oxygen saturation indicate which brain regions are at work. fNIRS detects these changes safely and without invasive procedures.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/novel-technique-improves-brain-state-detection
  • Help for tracheostomy patients - 23/10/2025 The image shows a plastic valve from the side.

    Biomimetic speaking valve: how a carnivorous plant makes speaking safer

    Nature is the best engineer, so they say, and it's always worth taking a closer look. An interdisciplinary group of researchers did just this and drew inspiration from an aquatic plant to develop a novel speaking valve for tracheostomy patients. At the University Medical Center Freiburg, Dr. Claudius Stahl and his team may have addressed a life-threatening issue that can arise in everyday clinical practice by creating a biomimetic valve with…

    https://www.gesundheitsindustrie-bw.de/en/article/news/biomimetic-speaking-valve-how-carnivorous-plant-makes-speaking-safer
  • Using nanostructures to fight bacteria - 09/10/2025 Four images showing that bacteria adhere much less readily to the nanoshape surface: in the top row, two blue-stained microscopic images – on the left, an untreated surface with a large number of colonies; on the right, nanoshape with far fewer colonies. Below are two images showing a schematic representation of the principle: bacteria on a smooth surface and on an implant with serrations.

    Inspired by insect wings: antibacterial surfaces for implants

    What do dragonfly wings and dental implants have in common? Nothing yet but that could soon change. The Karlsruhe-based start-up nanoshape has developed a process for coating medical implants with nanostructures similar to those found on insect wings. The coating makes surfaces bacteria-repellent and is aimed at reducing the risk of post-surgical inflammation. The first product could be on the market as early as next year.

    https://www.gesundheitsindustrie-bw.de/en/article/news/Inspired-by-insect-wings-antibacterial-surfaces-for-implants
  • Press release - 22/09/2025

    Research into novel microelectrodes: Dr. Maximilian Becker receives NanoMatFutur funding

    With the FeMEA project – Ferroelectric Microelectrodes for Biomedical Applications – Hahn-Schickard is setting a pioneering course in bioelectronics research. The aim of the project is to develop novel microelectrode arrays in which ferroelectric materials are used as functional interfaces in CMOS chips for the first time.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/research-novel-microelectrodes-dr-maximilian-becker-receives-nanomatfutur-funding
  • Press release - 18/09/2025

    groninger acquires Reinraumtechnik Ulm

    The groninger Group has acquired Reinraumtechnik Ulm GmbH (RTU). With this strategic move, the family-owned company headquartered in Crailsheim not only expands its technological portfolio but also strengthens its expertise in a field that is crucial to the pharmaceutical industry: cleanroom and isolator technology.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/groninger-acquires-reinraumtechnik-ulm
  • Press release - 09/09/2025

    Soft materials for smarter robots

    Soft robots, robot systems made of soft materials, open up new perspectives for medical technology and industry. Jun.-Prof. Dr. Aniket Pal from the University of Stuttgart is conducting research into viscoelastic materials that have the potential to embed intelligent functions in soft robots. He is receiving 1.5 million euros in funding for this research as part of the Emmy Noether Program. The funding period began on September 1, 2025.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/soft-materials-smarter-robots
  • Press release - 04/09/2025

    Fraunhofer researchers develop innovative diagnostics for detecting antibiotic resistance in bacterial infections

    The rapid increase in antibiotic-resistant bacteria is one of the most pressing challenges facing global health. A new transatlantic Fraunhofer research project aims to counter these threats with an innovative diagnostic approach: a microfluidic rapid test system using carbon nanotubes (SWCNT) will make bacterial resistance visible in just a few minutes, significantly faster than conventional methods.

    https://www.gesundheitsindustrie-bw.de/en/article/press-release/fraunhofer-researchers-develop-innovative-diagnostics-detecting-antibiotic-resistance-bacterial-infections

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