Is likely possible to hack into the way our immune system functions and let the relevant cells produce a specific RNA sequences who’s quantity corresponds to the amount that a specific antibody binds it’s targets. It’s likely scalable in a way where you can have hundreds of antibody in parallel and produce RNA in quantities that correspond to the amount those antibodies bind.
Afterwards you can read the RNA to get the quantity of all the substances.
This means that you will get the ability to know the quantity of hundreds of different substances at the same time. This means you can cheaply test the quantity of all the different hormones and other substances in the blood which is presently very expensive and the present tests for most hormone tests we have unfortunately don’t get cheaper with Moore’s law.
Is likely possible to hack into the way our immune system functions and let the relevant cells produce a specific RNA sequences who’s quantity corresponds to the amount that a specific antibody binds it’s targets. It’s likely scalable in a way where you can have hundreds of antibody in parallel and produce RNA in quantities that correspond to the amount those antibodies bind.
Afterwards you can read the RNA to get the quantity of all the substances.
This means that you will get the ability to know the quantity of hundreds of different substances at the same time. This means you can cheaply test the quantity of all the different hormones and other substances in the blood which is presently very expensive and the present tests for most hormone tests we have unfortunately don’t get cheaper with Moore’s law.