Efficient fixation of pelvic ring fractures
The technology enables a simultaneous fixation of the anterior and posterior pelvic ring fracture, in combination with an adaptive force control and efficient compression of fracture gaps.
Dopamine producing organoids for therapy of Parkinson’s Disease
Researchers at the University Medical Center in Göttingen, Germany, have developed a method to produce special brain organoids called „dopamine-producing neuronal organoids“ (d-NOs). These organoids have been shown to release dopamine at levels that are effective for biological processes. This method is ideal for the production of an advanced therapy medicinal tissue-engineered product (ATMP-TEP) for clinical use in Parkinson’s disease. Furthermore, the invention provides a method for producing d-NOs for use in disease modelling, drug screening and drug development.
OAD – Smart Defibrillation: Adaptive Energy. Personalized shocks. Improved outcomes.
Every second counts — and every shock matters. Optimized Amplitude Defibrilation (OAD) personalizes defibrillation in real time, protecting the heart and giving patients a better chance of survival. A smart upgrade for every defibrillator, where precision meets compassion.
AI supported ventilation tube
Our smart ventilation tube revolutionizes the monitoring and control of patient ventilation in anaesthesiology, emergency and intensive care medicine. By integrating a MEMS microphone and a suction channel, it enables precise recording and analysis of of respiratory and ventilation parameters in real time. Using advanced detection algorithms, the tube provides medical staff with important information and recommendations to improve the quality of care and detect abnormalities in ventilation at an early stage.
High-precision microCT phantom
Phantoms suitable for micro computed tomography (microCT) can be produced either in high resolution or with defined contrast. This technology describes the production of microCT phantoms characterized by adjustable X-ray contrasts which can be printed in various high-resolution 3D structures.
Membrane or implant that mimic healthy subchondral bone microarchitecture for treating joint-related diseases
Scientist at the University Medicine Göttingen, Germany developed a method for determining the health-state of a joint (e.g. in osteoarthritis) by analyzing subchondral bone microarchitecture. The invention not only allows diagnosis, but also the design of a biocompatible membrane and/or an implant for the replacement and finally regeneration of damaged subchondral bone allowing regeneration of cartilage and joint function.
LICE ERASER — sicheres Vernichten von Kopfläusen und deren Nissen
Der LICE-ERASER vernichtet zuverlässig die Kopfläuse und deren Nissen ohne Nebenwirkungen. Der LICE-ERASER wird ähnlich einer Haarbürste durch die Haare und über die Kopfhaut geführt. Durch die spezielle Konstruktion wird in der nähe der Kopfhaut ein Plasma erzeugt, welches die Läuse und Nissen abtötet. Das Verfahren ist völlig schmerzfrei für den Anwender.
New plasma device to treat hair loss
The prevalence of hair loss (Alopecia) is increasing due changing lifestyle pattern, increased emphasis on appearances among the young population, high level of stress and rising geriatric population. In addition, hair loss cases are rising due to chronic diseases such as Polycystic Ovary Syndrome (PCOS), cancer, or rheumatoid arthritis.
Scientists at the HAWK in Göttingen, Germany developed a new brush-like plasma device for treatment of the scalp to promote hair growth. The device can significantly enhance microcirculation as well as oxygen saturation, which are key parameters for stimulating hair growth.