This is a bit of a leap. In principle (some of) the technology "is there" but there is a huge amount of complexity in the steps 1 through 5!

> Yet doctors can't engage in this work without going through the lengthy drug trial process.

I think it needs to be said that the "lengthy drug trial process" exists for extremely good reasons. Were a treatment to be shown to be so incredibly effective during the trial process, based on pre-defined statistics monitored by an independent data safety monitoring committee, the trial would be stopped as it would be unethical not to provide all patients with the clear benefits. (recent example: https://www.ncbi.nlm.nih.gov/pubmed/29132880)

> So instead, they recommend much riskier treatment options including some that would complicate future gene-therapy attempts.

I believe it is unquestionable that doctors should be advocating treatment based on the best available evidence, and that the process for obtaining said evidence is a thorough and rigorous as possible, otherwise great harm can be done (classic example, thalidomide).

I would question the doctor that routinely recommended an experimental treatment which has not been shown to be efficacious over a "risky procedure" which has been shown to have $X efficacy.

Making patients aware of trials which may be of benefit to them is a valid and valuable part of medical practice, which is not always done very well. This is improving (in the UK at least) with greater numbers of research nurses and the use of databases such as https://www.ukctg.nihr.ac.uk.

Excuse my ignorance here, but has there been a single other drug that the FDA has stopped before it became an issue that a less insanely thorough process wouldn't have? It seems like the FDA was right about thalidomide and has been using that as justification ever since. At this point, clinical trials have become so onerous that the FDA can't even vet them and just trusts the drug companies to be above board.

On the other hand, something which is exceptionally well known to work should also attract huge and immediate capital to do the proper tests. Even for rare diseases, a sure thing would be funded.

I think the difficulty is more about procedural or cell based cures vs. drug-based cures or treatments. The system is set up for the latter, but is not comfortable with the former.

Only if there is a ROI. Which also means that even treatments for not-so-rare diseases don't get funded if the majority of patients won't be able to afford the treatment at a price that provides that ROI. Clinical trials in the US or Europe are insanely expensive and you cannot even budget them: Adverse reactions by "male patients over 45, born on a new moon Tuesday"? In worst case you restart the trial, excluding the problematic group to at least get the proof of safety and effectiveness for some part of the population so you can finally make some money...

On the more consumer side of things, being able to fix some sort of obnoxious but perfectly survivable condition that genetic engineering may be able to solve (say lactose intolerant) may be something that you could sell to a lot of people.

For Medicare or certain people on Medicaid it might be worth it.