Mathematical models and computer simulations are the new frontiers in COVID-19 drug trials
Researchers are using computer models to simulate COVID-19 infections on a cellular level – the basic structural level of the human body.
The models allow for virtual trials of drugs and vaccines, opening the possibility of pre-assessment for drug and vaccine efficacy against the virus.
Time of day boosts effectiveness of anti-aging supplements
Aging is a disease that can be fought with the appropriate combinations of supplements and behaviours, according to new research from the University of Waterloo.
Using a comprehensive mathematical model, the researchers also found that the best time of day for someone to take these supplements depends on their age. Some anti-aging supplements should be taken by young people at night, while older people should take it midday for the greatest effectiveness.
How math is revolutionizing medicine
Clinical trials in medicine are slow, expensive, and most fail. Can mathematical models help us find life-saving drugs faster and more efficiently?
Math is the new microscope
Breakthroughs in technology and computing are changing the way researchers approach medicine. Early scientists wielded the revolutionary tools of their time, such as the microscope, to understand human health. Today, researchers increasingly use math as a microscope to understand biology and medicine, dictating the need for scientists to navigate between the worlds of computations and medicine comfortably.
Engaging the Faculty of Mathematics
Nanotechnology greatly benefits from mathematical disciplines such as data science, informatics and computational modeling, assisting with theoretical and experimental approaches to designing materials with novel physical and chemical characteristics, optimizing device design, and predicting behaviour of complex biological-pharmaceutical systems.