Fraunhofer IWS Develops Microphysiological Systems for Cultivation of Tumor Tissue Sections in Joint Effort

New Opportunity for Cancer Therapy: Miniature Lab Provides Insights into Metastases Development

Every year, around half a million people in Germany are diagnosed with cancer. Despite the existence of effective treatment options for many types of cancer, many questions about the development of the disease remain unanswered. Why does a tumor develop? What factors promote the growth of cancer cel…

Dank eines ausgeklügelten Baukastenprinzips mit erprobt-effizienten Komponenten ist SURFinpro breit einsetzbar und leicht zu adaptieren. © Shutterstock/Fraunhofer IWS / Thanks to a sophisticated modularization approach using efficient components, SURFinpro has a wide variety of potential deployments and is easy to adapt. © Shutterstock/Fraunhofer IWS

Mit Hilfe Künstlicher Intelligenz und optischer Messtechnik detektiert, klassifiziert, und visualisiert SURFinpro Fehler in Prozess-Echtzeit. © Fraunhofer IWS / Using artificial intelligence and optical measurement technology, SURFinpro detects, classifies and visualizes defects in real time as the process is ongoing. © Fraunhofer IWS

09.06.2023
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Artificial intelligence

Fraunhofer IWS at Laser World of Photonics

Optimizing Production Processes through Modularization

Improved speed, precision and flexibility – it is important to take advantage of every possible opportunity in optimizing production. To this end, researchers at the Fraunhofer Institute for Material and Beam Technology IWS have developed SURFinpro, a solution that uses artificial intelligence and…

Dr. Philipp Wollmann, Dr. Wulf Grählert, Oliver Throl und Livia Szathmáry (v. l.) gründen BMWK-gefördert mit der »DIVE imaging systems GmbH« ein Unternehmen aus, das eine vielversprechende, am Fraunhofer IWS entwickelte Technologie kommerzialisiert. © Amac Garbe/Fraunhofer IWS / Dr. Philipp Wollmann, Dr. Wulf Grählert, Oliver Throl and Livia Szathmáry (from left) founded the BMWK-funded company

Im Mittelpunkt steht ein Messsystem, das Hyperspektral-Sensorik, Künstliche Intelligenz und spezielle Beleuchtungstechniken zu einem leistungsfähigen hochflexiblen Inspektionssystem integriert. © Amac Garbe/Fraunhofer IWS / The focus is on a measurement system that integrates hyperspectral sensor technology, artificial intelligence and special illumination techniques into a powerful, highly flexible inspection system. © Amac Garbe/Fraunhofer IWS

Die Gründerinnen und Gründer denken nicht nur an Kunden aus der Halbleiterindustrie. Perspektivisch will das Quartett seine innovative DIVE-Technologie für die Inspektion und Analyse von Oberflächen und Schichten breit in unterschiedlichen Branchen etablieren. © Amac Garbe/Fraunhofer IWS / The founders envision not only semiconductor customers. In the future, the quartet plans to establish its innovative DIVE technology for the inspection and analysis of surfaces and layers in a wide range of industries. © Amac Garbe/Fraunhofer IWS

23.04.2023
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Systems

“DIVE imaging systems” Spins off from Fraunhofer IWS in Dresden

Sharp Hyperspectral Eye for Chip Production

Precise two-dimensional analysis of high-tech layers in microelectronics, battery factories or even in the automotive sector approaches within reach. A measuring system developed at the Fraunhofer Institute for Material and Beam Technology IWS facilitates this by integrating hyperspectral sensor tec…

Radiopharmaka kommen zum Einsatz, wenn gegen einen Tumor Chemotherapie, Operation oder Bestrahlung wirkungslos geblieben sind. In mikrophysiologischen Systemen lassen sich 3D-Tumormodelle in einer realistischen Mikroumgebung kultivieren, was die Testung exakter und gleichzeitig einfacher macht. © Amac Garbe/Fraunhofer IWS / Radiopharmaceuticals enter the picture when chemotherapy, surgery or radiation have proven ineffective against a tumor. Microphysiological systems emulate the micro environment of the body and are an easy to use platform for the cultivation of 3D tumor models. © Amac Garbe/Fraunhofer IWS

Ein Projektteam von HZDR und Fraunhofer IWS forscht daran, mithilfe von sogenannten mikrophysiologischen Systemen Tierversuche zu reduzieren, die aktuell vor der Anwendung am Menschen notwendig sind. © Amac Garbe/Fraunhofer IWS / An HZDR and Fraunhofer IWS project team is researching how to use so-called microphysiological systems to reduce animal testing, which is currently necessary before human application. © Amac Garbe/Fraunhofer IWS

Die ersten Tests mit den Multiorgan-Chips zeigten positive Ergebnisse. Die Bindung bekannter Substanzen an den Tumorsphäroiden funktionierte bereits. Geplant ist, die mikrophysiologischen Systemen um ein Nierenmodell und ein Leberorganoid zu erweitern. © Amac Garbe/Fraunhofer IWS / First tests with the multi-organ chips already showed positive results. The binding of known substances to the tumor spheroids already worked. It is planned to further extend the microphysiological system by adding a kidney model and a liver organoid. © Amac Garbe/Fraunhofer IWS

Bindung von [68Ga]Ga-C225 (2 nM) in MPS-Modulen an A431 (1, 2) und MDA-MB435S (3, 4); (2) zeigt die unspezifische Bindung an A431, (4) an MDA-MB435S (0,8 μM C225); unten: Diagramme von Sättigungsassays auf A431-Monolayer in MPS-Chips mit [64Cu]Cu-C225 (5) und [68Ga]Ga-C225 (6) (dunkelblaue, graue, grüne Symbole: gesamte, unspezifische, spezifische Bindung). © HZDR/Fraunhofer IWS / Binding of [68Ga]Ga-C225 (2 nM) in MPS-modules on A431 (A) and MDA-MB435S (C); (B) shows the nonspecific binding on A431, (D) on MDA-MB435S (0.8 μM C225); below: graphs of saturation assays on A431 monolayer in MPS chips with [64Cu]Cu-C225 (E) and [68Ga]Ga-C225 (F) (black, gray, red symbols: total, nonspecific, specific binding). © HZDR/Fraunhofer IWS

24.01.2023
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Science

Two Dresden Research Institutes want to Reduce the Number of Animal Experiments in Radiopharmaceutical Research with a New Idea

Radioactive Substances Fight Cancer in the Mini-lab

Radioactivity can save lives. When neither chemotherapy or surgery nor radiation from the outside help against a tumor, modern medicine uses so-called radiopharmaceuticals. These radioactive drugs not only detect cancer cells, they also enable targeted radiation from the inside to destroy the tumor…

Um die geeigneten Filtersubstanzen zu finden, nutzen die Forschenden des Fraunhofer IWS eine Multi-Adsorptionsanlage, womit das Adsorptionsverhalten gleichzeitig konkurrierender Gase untersucht wird. © Jürgen Jeibmann/Fraunhofer IWS / The researchers at Fraunhofer IWS use a multi-adsorption system to investigate the adsorption behavior of competing gases to find suitable filter substances. © Jürgen Jeibmann/Fraunhofer IWS

Im gemeinsamen Gespräch, etwa über die Anforderungen an die angestrebte Filterlösung, werden die Grundlagen für die Auswahl geeigneter Trocknungsmittel gelegt. © Jürgen Jeibmann/Fraunhofer IWS / The researchers discuss the specifications of the new filter solution and select suitable drying agents on this basis. © Jürgen Jeibmann/Fraunhofer IWS

Die besten Adsorbentien-Kandidaten werden in den Filteranlagen-Prototypen integriert, den das Unternehmen ULT aus Löbau gefertigt hat. Eine Besonderheit im Vergleich zu herkömmlichen Filteranlagen ist die Messsensorik, die automatisch erkennt, wann das Filtermedium mit Substanzen gesättigt ist und ausgetauscht werden muss. © Jürgen Jeibmann/Fraunhofer IWS / The best adsorbents are then integrated into the filter system prototype, which was manufactured by the company ULT from Löbau. A distinguishing feature of this system com-pared with conventional filter systems is its sensor monitoring, which automatically detects when the filter medium is saturated with substances and needs to be replaced. © Jürgen Jeibmann/Fraunhofer IWS

Das Projekt MultiFUN wurde durch den Europäischen Fonds für regionale Entwicklung (EFRE) gefördert. / The MultiFUN project was funded by the European Regional Development Fund (ERDF).

16.10.2021
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Filter

Filter solutions for high technology processes

Clean air at all times

Metal processing with lasers and plasma releases many different pollutants into the ambient air. The Fraunhofer Institute for Material and Beam Technology IWS, together with partners, has developed a filter system that efficiently removes these substances from the air. The filter can be adapted to t…

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