The Royal Swedish Academy of Engineering Sciences (IVA) has published this year’s 100 list of the most promising research projects from Sweden’s colleges and universities. All applications to the list have been reviewed by IVA’s expert group and the selected projects are considered to have great potential to benefit society. The list includes several projects involving researchers at Karolinska Institutet.
The theme of this year’s list of 103 research projects is innovation through interdisciplinarity. The prestigious list includes projects in a wide range of application areas that can create value for business and society.
Three of the total 103 research projects on the list involve researchers at KI:
AI for early detection and prognosis of biliary tract cancer
The project’s goal is to develop an AI-powered system for early detection and prognosis of biliary tract cancer, a highly aggressive and difficult-to-diagnose disease. Researchers at KI are , researcher at the , Huddinge, and Yassine Turki.
Due to diffuse symptoms, biliary tract cancer can be difficult to detect at an early stage. AI makes it possible to identify patterns that human interpretation may miss, enabling earlier intervention and more effective treatment.
The goal is to integrate advanced machine learning algorithms with clinical records and molecular data to create a comprehensive tool for healthcare providers. The researchers are now developing the AI models based on the data collected.
Protection against sexually transmitted infections through nature-inspired gels
A joint EU project with researchers from Karolinska Institutet and Uppsala University has been selected for IVA’s list of 100 most promising projects.
Researchers at Karolinska Institutet are , professor at the , Huddinge, and , professor at the .
The goal of the research project is to develop protective gels to prevent sexually transmitted infections (STIs) in women, a group that is twice as vulnerable but currently lacks effective and adapted infection protection.
The gel is inspired by the body’s mucus and its built-in defenses, which are strengthened here and form a protective and adhesive layer that covers the mucous membrane of the vagina and traps viruses that are then eliminated naturally.
Evolution of DNA structures as alternatives to antibodies for virus binding
Antibodies are proteins that can be adapted to bind to different targets and integrated in, for example, COVID tests, and are essential for medical research.
Today, antibodies develop in animals, which is slow and leads to uncertain quality. In this project, the researchers want to develop an alternative to antibodies, completely free of DNA. The principal investigator is at the , KI.
In the project, the researchers have created a new method in which millions of different DNA nanostructures are produced at the same time.
About IVA’s 100 list
The 100 list is produced by IVA’s Research2Business, R2B, which works to ensure that Sweden is a leader in transforming academic research, in technical and economic sciences, into innovation and competitiveness in the business sector. IVA’s 100 list was launched in connection with the organisation’s 100th anniversary in 2019.
The selection committee consists of more than 60 experts from IVA’s broad network of representatives from academia, industry and the public sector.
IVA’s R2B is run in collaboration with, among others, Vinnova, the Swedish Patent and Registration Office (PRV), and the Swedish Council for Higher Education.
Source: IVA