The powerhouse of the cells, known as mitochondria, appear to be able to influence the number of lipid droplets in the cell. Research into this previously unknown mechanism was conducted using baker’s yeast. This is shown by a recent study by the University of Freiburg, the University of Bonn and the University Hospital Bonn and the University of Freiburg. The results have now been published in the journal Nature Cell Biology.

Technology impulse for the Lake Constance region: The new Single Cell Centre at the University of Konstanz offers technology and expertise to study cells individually and at high resolution – for applications in medical diagnostics, medication development and basic research at universities.

Even before a tumour in the pancreas becomes discernible, an activated cancer gene actively remodels its future environment and creates an inflammatory and immune-defensive microenvironment in which the carcinoma can grow. The scientists' study opens up new possibilities for developing personalised intervention strategies - before a difficult-to-treat tumour even develops.

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.

nanodiag BW has received approval from the BMFTR for a further three-year implementation phase under the Clusters4Future initiative. With the approval of €15 million, the innovation network will be able to continue its work on nanopore-based diagnostic methods seamlessly from April 2026 onwards. The Baden-Württemberg Ministry of Economic Affairs, Labour and Tourism is supporting the cluster management through accompanying measures.

Artificial intelligence allows tracing the evolution of genetic control elements in the developing mammalian cerebellum. An international research team led by biologists from Heidelberg University as well as the Vlaams Instituut voor Biotechnologie and KU Leuven has now developed advanced AI models that can predict the activity of these elements based solely on their DNA sequence.

Scientists at the German Cancer Research Center (DKFZ), Heidelberg University Hospital (UKHD), and Mannheim University Medical Center (UMM) are presenting a method that enables artificial intelligence (AI) to learn how to transfer medical image data from animals to humans. This “xeno-learning” could help make surgical procedures safer and more precise in the future – without relying on human training data.

Exciva GmbH, a biopharmaceutical company developing novel therapeutic compounds for the treatment of neuropsychiatric conditions, today announces the closing of a €51 million ($59m) Series B financing round. Gimv and EQT Life Sciences co-led the round. Additional participants included new investors Fountain Healthcare Partners, LifeArc Ventures, Carma Fund and Modi Ventures, as well as existing investors Andera Partners and LBBW.

At a time of geopolitical tensions and growing supply shortages, surgical capability is becoming a critical factor for resilient health systems. Hellstern medical GmbH has been accepted into the NATO DIANA innovation program with its key technology, the Robotic Surgeon Assist noac — NATO’s accelerator for defense and dual-use technologies.

Recreating tumour tissue in the laboratory as realistically as possible and developing new approaches for personalised cancer medicine: A total of 20 doctoral students in the life sciences and ten Medicine students will be researching this in the new "Organoid-Based mOdelling of Solid Tumours" research training group. They want to gain a better understanding of cancer and better predict the course of the disease and the effect of…

The European Commission has today proposed an ambitious package of measures to improve the health of EU citizens, while ensuring the long-term resilience and competitiveness of the health sector.

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.

With victims numbering in the millions, malaria is an infectious disease caused by the bite of a mosquito carrying the malaria parasite. After penetrating the skin, the pathogen moves with helical trajectories. It almost always turns toward the right, as a team of physicists and malaria researchers from Heidelberg University recently discovered.

Heidelberg University has been successful in the current approval round of the German Research Foundation (DFG) with three grant applications for major research consortia. In the life sciences and medicine, a Collaborative Research Centre working on the Wnt signaling pathway will enter its third funding period. Two transregional consortia with major participation by researchers from Ruperto Carola have also been extended.

In the current selection round, the German Research Foundation (DFG) has granted funding for two new Collaborative Research Centres at the University of Konstanz. Over the next four years, the research teams will be working intensively on trigger signals in biological cells as well as on "silence" and "noise" in human speech.

The Fraunhofer Industrial Quantum Computing Consulting and Testing Center INQUBATOR is implementing innovative, easy access offerings to help industrial users get started with quantum computing. The aim is to identify and evaluate new application-related use cases where the use of quantum computers promises a foreseeable advantage.

Endometriosis, menopause, ovarian cancer – still poorly researched and often misdiagnosed. Ângela Gonçalves combines AI, molecular biology, and clinical findings to develop non-invasive tools for early detection, personalized care, and healthier aging. The scientist from the DKFZ-Hector Cancer Institute is the winner of the Falling Walls Foundation's “Breakthrough of the Year 2025” award in the Women's Impact category.

In the PRECISION-ImmunoRad project, a multidisciplinary team of scientists from Heidelberg, USA, and Cyprus will unite their expertise to develop novel curative therapeutic strategies for currently hard-to-treat cancers. These strategies will integrate high-precision ion beam therapy with genetically engineered immune cells therapies (CAR-T cells), personalized cancer vaccines, and the targeted reprogramming of the tumor immune microenvironment.

LICIT Solutions completes Series A financing to accelerate the development and commercialization of next-generation sustainable active ingredients for hygiene, preservation, and protective applications LICIT Solutions GmbH, a spin-out from the Institute for Clinical Anatomy and Cell Analysis at the University of Tübingen, has successfully completed its Series A financing round.

Ependymomas, brain tumors that occur particularly in young children, are especially difficult to treat and more than half of the children affected have an increased risk of relapse. As part of an international consortium, the KiTZ, the DKFZ, the MFHD and UKHD have received a grant of 1.5 million pounds sterling (GBP) from the British organization The Brain Tumor Charity to develop a new type of immunotherapy for ependymoma.

The German Research Foundation (DFG) is funding a new Emmy Noether project led by Jens Puschhof from the German Cancer Research Center (DKFZ). With this project, the junior researcher aims to decipher the role of certain intestinal bacteria in the earliest stages of colorectal cancer development and investigate how this process can be halted. The long-term goal is to develop new preventive strategies against colorectal cancer.

Federal government awards 3.5 million euros in funding to the collaborative research project FLU-PREP. Researchers are developing methods to identify the pandemic potential of new viruses at an early stage.

Heidelberg researchers identify local outbreak indicators and develop new regional modeling approach. The highly pathogenic avian influenza virus infection – commonly known as bird flu – primarily affects birds. Mammals, however, are also increasingly infected. This increases the probability that the virus will cross over to humans.

Dr. Andrea Toulouse from the Institute of Applied Optics receives €1.8 million in funding from the Carl-Zeiss-Stiftung as part of the CZS Nexus program to establish a new junior research group. She conducts research in the field of micro-optics and fiber-based 3D printing. Her vision is to develop 3D printers that will one day be able to build biological tissue directly inside the body.

Human immunodeficiency viruses (HIV) are insidious. They can evade the immune defence and antiviral drugs by becoming "latent". In this state, they are largely invisible and unassailable. As long as these dormant viruses persist, there is no cure for HIV/AIDS. However, researchers at Ulm University Hospital have discovered a new way to reactivate latent HI viruses.