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Here you can see our projects that are open to the public. Filter according to your interests.
Holistic sepsis diagnostics and management through combined molecular biology and immunology testing on an integrated, automated platform for an improved and personalized therapeutic approach.
Hahn-Schickard coordinates the “Zukunftscluster nanodiag BW” together with the University of Freiburg. As part of the German federal government's "Clusters4Future" initiative, the Hahn-Schickard sites in Freiburg and Villingen-Schwenningen are involved in several scientific and strategic projects.
Liquid biopsy enables the minimally invasive early detection of tumors and their progression. KI-VesD-2 assesses the innate immune response to tumor development by extracting extracellular vesicles (EV) from blood and analyzing them using artificial intelligence.
The aim of this project is the development of a platform for molecular diagnostic characterization of the immune response in viral diseases from blood serum. The platform shall be usable for high throughput professional laboratory diagnostics as well as decentralized at the point of care.
The selective organoid handling platform (SpheroPro) developed in ADAPT will be extended in ADAPT-2 to include an AI-assisted selection of suitable 3D cell culture models and a 3D imaging module based on holographic tomography for non-invasive and label-free analysis of organoids and spheroids.
The earliest possible diagnosis of cancer and the detection of therapy resistance are of utmost importance in order to maximize the survival chances of those affected. In the EV-Surf project, a new method for diagnosing cancers based on liquid biopsies is being researched.
The aim of the project is to make proteome data usable for the stratification of clear cell renal carcinoma patients and thus maximise the chances of therapeutic success.
The WUMMS project is investigating a mobile, multimodal diagnostic platform with telemedicine connectivity for on-site analysis of chronic wounds. The platform to be developed combines the performance of laboratory-based molecular detection methods with the advantages of rapid tests.
Have you ever wished for rapid prototyping of 3D plastic parts with injection molding grade featured with electrical conductive traces? And achieving decentralized production of small to medium series, cost-efficient design utilization and a fast design-product cycle? Maybe even sustainable production of smart 3D components using recycled and biodegradable plastics?
Development of mobile on-site diagnostics for the detection of relevant multi-resistant pathogens and establishment of prevalence monitoring in poultry farming
Within the project LiquidXtractPT, a sustainably adaptable robotic platform for microfluidic cancer diagnosis in bodily fluids like blood is being developed. The prototype will be validated in two clinical pilot studies upon construction.
This cooperation project between Hahn-Schickard and the University of Freiburg investigates the continuous program verification for interface specifications during incremental software development to avoid serious programming errors in embedded software.
Mit SmaC soll eine integrative und gleichzeitig erweiterbare Kooperationsbasis geschaffen werden, welche Firmen, Entwicklern, Dienstleistern und auch Endanwendern ermöglicht neue Ideen im Smart Home-Bereich und ähnlichen Geschäftsfeldern zu entwickeln, realisieren, evaluieren und letztendlich zu erleben.
The project goal is to enable the use of protein profiles from samples with few cells for drug development. For this purpose, a workflow consisting of automated sample preparation, AI-supported image analysis and data evaluation as well as mass spectrometry will be developed and validated.
The Smartlab2 project involves the thermoforming of plastic films with pre-applied electronic components. The aim is to develop intelligent consumables with enhanced functionalities for use in diagnostics.
