Yeah, particularly for cancer. Cancer, as I understand it, is a dice game from start to finish. The two commonalities all cancers have are that they’re cells that have immortalized and reproduce out of control. That is, they don’t die when they get signals to die, and they pick up one or more mutations that cause them to undergo cellular division at a higher rate than normal. This is how we still have HeLa cells today. So, the first dice game is getting one cell in your tissue to roll some flavor of those mutations together. From there, the dice start piling up in Cancer’s favor that it can roll more mutations to help it survive when it shouldn’t. The earlier you pick it up, the fewer dice cancer has to play with. Not to mention you’re not also having to fight the battle of trying to kill the cancer while it tries to kill you.

This is also one of the fronts where it’s thought that mRNA vaccines are going to be huge. In fact, IIRC, the technology was specifically developed with cancer in mind and its use for creating pathogen immunity was a secondary consideration. COVID may have helped catapult that technology years ahead of schedule in terms of development pipeline. IMO, COVID is going to do for medical science what WWII did for machinery, electronics, and atomic science; we’re probably going to start seeing some huge leaps forward in biomedical knowledge and technology coming from theCOVID-centered research initiatives launched all over the world.