UBC Okanagan researchers have developed a 3D bio-printed model that closely mimics the complexity of natural lung tissue, an innovation that could transform how scientists study lung disease and develop new treatments.

Dr. Emmanuel Osei, Assistant Professor in the Irving K. Barber Faculty of Science, says the model produces tissue that closely resembles the complexity of a human lung, enabling improved testing of respiratory diseases and drug development.

In AIP Advances, by AIP Publishing, researchers from Chongqing Jiaotong University and Chongqing No. 7 Middle School compared the performance of three helmet materials under the most common types of impact and loading conditions. Though participation in sports can have positive impacts both physiologically and socially, extreme sports come with elevated risks. Researchers used computational simulations to run material comparisons for helmets made of strong plastic Acrylonitrile Butadiene Styrene (ABS), fiberglass alloys, and aluminum composites. The findings are valuable for all extreme sports, but Wang notes the importance of customizing helmet properties to their intended activity, as the effect of an impact depends on its interaction with gravity, the potential for a rebound, and more.

The Hong Kong Polytechnic University (PolyU) is committed to driving cutting-edge research that creates societal impact and technological advancement. Prof. YANG Hongxia, Executive Director of the PolyU Academy for Artificial Intelligence, Associate Dean (Global Engagement) of the Faculty of Computer and Mathematical Sciences, and Professor of the Department of Computing, has received funding from the Theme-based Research Scheme 2025/26 under the Research Grants Council for her pioneering project, “Collaborative Generative AI (Co-GenAI)”.