31/10/2024
The diagnosis and assessment of lung diseases often presents medical professionals with major challenges. Traditional methods such as computed tomography (CT) offer detailed structural images of the lungs, but involve radiation exposure for patients and provide no information on regional lung function.03/07/2024
Hannover Medical School (MHH) is leading the RACOON-RESCUE project, which aims to open up new diagnostic possibilities for non-Hodgkin's lymphomas in children and adolescents with the help of automated image data analysis from CT and MRI. The project, led by Prof. Diane Renz, aims to determine disease stages more precisely and optimize therapy follow-up.30/04/2024
MRI-integrated proton therapy (MRiPT) marks a significant advance in cancer treatment by increasing the precision of radiation treatment. In an interview with MEDICA.de, Prof. Aswin Hoffmann presents current technological challenges and highlights the potential benefits of real-time MRI imaging for proton therapy.22/03/2024
Researchers at Chalmers University of Technology unveil an AI model capable of detecting lymphatic cancer with 90 percent accuracy, improving medical imaging analysis. This new technology promises to enhance diagnostic capabilities and streamline patient care.22/02/2024
Floy from Munich brings AI in imaging into practical application and is already present in numerous German radiology practices. The start-up's software is designed to support radiologists in diagnostics and prevention by reliably detecting critical incidental findings.27/11/2023
Imaging techniques such as computed tomography (CT) or positron emission tomography (PET) are indispensable today for the diagnosis and localization of many diseases. A newly developed procedure now enables PET to be used specifically on the basis of changes in the human genome.14/11/2023
Vincent Besnard, Software Development Manager, tells us about the recent developments in medical robotics from the point of view of BizLink. The company has been an expert for safe patient positioning during proton therapy for years now. At MEDICA 2023, they present their new robotic platform PULSAR.02/10/2023
A new clinical and research partnership has created an AI model that can predict whether or not cancerous tissue has been fully removed from the body during breast cancer surgery.18/08/2023
New UBC Okanagan research takes aim at improving diagnostic imaging17/08/2023
Researchers discovered that the consistency of a tumor can have a decisive influence on the further course of cancer.04/08/2023
Physicists at the University of Würzburg have succeeded in making a new imaging technique ready for use on humans. Radioactive markers and radiation are not necessary for this.14/07/2023
Osaka Metropolitan University scientists have unveiled an innovative use of AI that classifies cardiac functions and pinpoints valvular heart disease with unprecedented accuracy, demonstrating continued progress in merging the fields of medicine and technology to advance patient care.01/06/2023
Thanks to the radiation they emit, radioactive compounds are suited both to imaging and treating cancers. By appropriately combining them in novel, so-called radionuclide theranostics, both applications can be dovetailed.27/04/2023
Not all advances in medical technology immediately catch your eye – take biologicals, for example. These are molecules that are biotechnologically designed for a specific application. In the German state of Baden-Württemberg, the Biologicals Development Center (BioDevCenter) and its infrastructure aim to bring them to market faster in the future.12/04/2023
An interdisciplinary research group at MedUni Vienna has investigated a new imaging technique that can improve the treatment of intestinal strictures from Morbus Crohn.28/03/2023
Imaging reaches its limits when it comes to looking at the lungs: Alveoli are tiny, balloon-shaped air sacs in our lungs. These tissue structures are micrometers in diameter and currently cannot be visualized directly. Meanwhile, they exhibit early changes prompted by lung diseases such as COVID-19. Dark-field X-ray images could visualize these signs in the future.22/03/2023
UWS School of Computing Engineering and Physical Sciences are developing breakthrough investigations into advanced radiation treatment technique, after receiving funding from Cancer Research UK RadNet – the charity's radiation research network.24/02/2023
An imaging process that today is used mainly in research labs could potentially detect early-stage lung disease if developed for use in hospitals and clinics, a new research study shows.19/01/2023
A pioneering phase II clinical study on tri-modality therapy (START-FIT), conducted by the Department of Surgery and Department of Clinical Oncology, School of Clinical Medicine, LKS Faculty of Medicine of the University of Hong Kong (HKUMed), has found that nearly 50% of patients with inoperable locally advanced liver cancer, can be cured through such an innovative approach.17/01/2023
For the first time, a study conducted by a research group at the Comprehensive Cancer Centre Vienna of MedUni Vienna and Vienna General Hospital using data from the multicentre EMBRACE-I trial demonstrated the superiority of a targeted approach in brachytherapy.13/01/2023
Two Dresden research institutes want to reduce the number of animal experiments in radiopharmaceutical research with a new idea.04/01/2023
License agreement and joint development: Fraunhofer MEVIS commences cooperation with Israeli partner for worldwide use of innovative software technology in ultrasound-aided tumor ablation.21/12/2022
Researchers from the GSI Helmholtzzentrum für Schwerionenforschung now have proven in a paper published in the “International Journal of Environmental Research and Public Health” that face masks - both FFP2 and surgical masks - strongly reduce lung exposure and thus the dose.01/02/2022
Does medicine get digital when we scan in diagnostic findings and digitize them in the process? It obviously is more efficient to record data directly in digital form, but not all diagnostic tools have this option. Computed tomography has now made enormous progress in this area: Unlike conventional CT technology, the new photon-counting CT directly creates digital image data.05/11/2021
When the coronavirus enters the lung, it causes massive tissue damage. Now, an international research team has been able to demonstrate for the first time, using a highly innovative X-ray technique in a non-destructive manner, that severe COVID-19 causes massive remodelling of the finest blood vessels by causing normally separate blood systems to join together with unusual frequency.10/02/2020
If life has given you many blessings, you should share them with others – and you also need to be a little crazy. That's Dagmar Braun's point of view. She initiated the construction of a hospital in Togo, Africa. The country currently lacks the system required to deliver comprehensive medical care. Surgical equipment and gynecology devices are much-needed to compensate for these deficits.17/01/2020
A hospital generates several thousands of gigabytes of data each day. The growing flood of data is no longer manageable for doctors. The great hope: artificial intelligence. Radiology is the main beneficiary. Dr. Felix Nensa from Essen University Hospital and Dr. Peter Langkafel from the Digital Health Factory tell us more about the possibilities and limits of learning machines.02/09/2019
Radiology is a field that produces large volumes of data, which can no longer be managed without the help of intelligent systems. This is especially true when it comes to the interpretation of medical images. While this takes physicians years of training and experience, several hours of work and the highest level of concentration, AI only requires a few seconds to accomplish the same task.02/09/2019
In modern medicine, especially in the field of imaging, huge amounts of data are produced – so much that radiologists can hardly keep up with diagnosing the images. Artificial Intelligence could be the solution to this problem. But how exactly can it help in this task? How can man and machine work together? And what else will be possible in the future with the support of intelligent systems?02/09/2019
Artificial intelligence is no longer a dream of the future in medicine. Many studies and initial application examples show that it sometimes achieves better results than human physicians. At Jena University Hospital, the work with AI is already lived practice. It is the first institution in the world to use algorithms in radiological routine to reconstruct CT images.17/06/2019
Medical imaging techniques have developed considerably in recent decades. In addition to morphological imaging techniques more and more functional imaging techniques are used in oncology that can continously record the functions of specific organs locally and regionally in real time. These are groundbreaking for diagnostics, therapies and preoperative preparations.23/04/2019
It's noisy, tight and scary - that's how children feel about a magnetic resonance imaging (MRI) machine. Because they are scared, they are often too fidgety and anxious during the procedure, causing the images to blur or the scan to be stopped. Researchers have now developed a VR app called Pingunauten Trainer that’s designed to gently prepare the little patients for MRI scans.08/04/2019
Cardiac arrhythmia is a group of conditions where nerve cells trigger uncontrolled contractions of the heart muscle. They are treated with either medicine or catheter ablation of the tissue. In an interdisciplinary collaboration, cardiologists and radiotherapists took a different approach and used high-precision radiation therapy to treat a patient for whom the other options proved unfeasible.