Nuclear medicine is one of those cool specialities that doesn’t get enough attention. While nuclear energy has enjoyed a revival in recent years, little attention has been paid to nuclear medicine. That’s probably partly because explaining it in technical terms inevitably removes some of the magic and partly because many people fear radiation and don’t want to think about it.

But nuclear medicine deserves attention. Not all of the world's nuclear reactors are used for producing energy; they are also used for producing radioisotopes for medicine and industry, training, and other purposes. They are known as research reactors, and there are currently around 220 research reactors in 53 countries. In the heyday of nuclear development, in 1975, there were 373 neutron factories in 55 countries. //

Outside of the wealthier nations, there is a significant shortage of equipment and workforce for nuclear imaging around the world, and one study found that:

A comprehensive scale-up of imaging, treatment, and care quality would avert 9·55 million (12·5%) of all cancer deaths caused by the modelled cancers worldwide, saving 232·30 million life-years. Scale-up of imaging would cost US$6·84 billion in 2020–30 but yield lifetime productivity gains of $1·23 trillion worldwide, a net return of $179·19 per $1 invested.

Healthy people benefit humanity. For those living in the poorest nations to gain access to improved healthcare, nuclear medicine will play a vital role going forward, although when and how that will happen remains to be seen.