A small molecule that can turn short-lived ‘killer T-cells’ into long-lived, renewable cells that can last in the body for a longer period of time, activating when necessary to destroy tumour cells, could help make cell-based immunotherapy a realistic prospect to treat cancer.
A combination of historical and genetic research reveals the error and hype that led to the coining of the term ‘Patient Zero’ and the blaming of one man for the spread of HIV across North America.
A new prototype of a lithium-sulphur battery – which could have five times the energy density of a typical lithium-ion battery – overcomes one of the key hurdles preventing their commercial development by mimicking the structure of the cells which allow us to absorb nutrients.
The next generation of imaging technology, newly installed at the University of Cambridge, will give researchers an unprecedented view of the human body – in particular of the myriad connections within our brains and of tumours as they grow and respond to treatment – and could pave the way for development of treatments personalised for individual patients.
A new design for transistors which operate on ‘scavenged’ energy from their environment could form the basis for devices which function for months or years without a battery, and could be used for wearable or implantable electronics.
“The best or worst thing to happen to humanity” - Stephen Hawking launches Centre for the Future of Intelligence19 Oct 2016
Artificial intelligence has the power to eradicate poverty and disease or hasten the end of human civilisation as we know it – according to a speech delivered by Professor Stephen Hawking this evening.
Anti-inflammatory drugs similar to those used to treat conditions such as rheumatoid arthritis and psoriasis could in future be used to treat some cases of depression, concludes a review led by the University of Cambridge, which further implicates our immune system in mental health disorders.
In a new study, researchers measure the spin properties of electronic states produced in singlet fission – a process which could have a central role in the future development of solar cells.
Researchers have developed a new method for making effective calculations in “high-dimensional space” – and proved its worth by using it to solve a 93-dimensional problem.
A new model of fatal brain diseases is being developed in the fruit fly by a team led by Dr Raymond Bujdoso at the University of Cambridge, and could lead to a low cost, fast and efficient blood test to diagnose – and prevent possible transmission of – variant Creutzfeldt-Jakob disease (vCJD).