skeptigirl, gr8wight:
I've said repeatedly.... I am testing for the ADDITIVE effect of prayer.
I am not going to try to make sure that the control group is not prayed for at all (that would be impossible as well as unethical). What I can say with certainty is that they aren't getting any extra prayer from their participation, and with statistical certainty that they (as a group) are getting less than the active group.
That diff is what I am testing.[.quote]
The trouble is it is not statistical certainty. You need to demonstrate this, not assume it.
As a subset I will also be doing analysis of other variables I'm tracking - e.g. whether religion, directedness, frequency, etc *correlate* to effectiveness. Same thing for disease outcomes (eg perhaps pain is more affected than survival rate or $ spent in treatment). This part is not intended (at this point) to be a causal study, just a correlative analysis; I'll be using it to construct the score equation & additional prerequisites for participation in later rounds. Those will still be done in the same, causal double blind model; if the correlative data is accurate then one would expect a larger effect demonstrated as it's better tuned.
This is the worst kind of analysis possible. If you gather data from people and then try to find a correlation with anything, you will find one. This is why studies only ever focus on one cause and try to control for all others. Occasionally a strong trend may be noticed that is commented upon and recommended for further study, but a trial that is set up to examine one possible correlation cannot reliably comment on any other.
digithead - I think there's been no question that I have answered your points 1-3 explicitly. Reiterating them is somewhat silly.
Point 1 asked for your measure for the outcome, which you explicitly stated you would not provide and said you would change for different trials. This is not acceptable for a medical trial.
Point 3 asked what diseases you would look at. All you have said is "cancer". This refers to hundreds of different diseases, many of which progress very differently from one another.
Your point #4 is understood, but you haven't demonstrated that Startz' monte carlo simulation of your objection is inaccurate, and it shows that your objection is unfounded.
In the same post digithead said excatly what was wrong with this simulation. Put simply, it is too simple. In any case, it is not up to us to show how it is wrong, but up to you to show that it acurately represents your trial, which is unlikely to be the case.
I heed advice, but not blindly - I get to be a skeptic too, y'know. You have to make your case, and so far you have not. You've just stated that you *think* these confounders would result in a false positive, but you haven't given any monte carlo sims or math to back it up or refute Startz' counter examples.
No, you have to make your case. If someone thinks something could be a problem, it is up to the person running the trial to show that it is not.
IMHO you're trying to make this look "very far away from settled" when in reality it's pretty much a solid protocol with very little tweaking required to finish and be completely sound.
The points raised say that this protocol is far from solid. Even if we assume that your protocol is perfect, you have to
show this, which you have hardly even tried to do. I very much doubt the JREF would accept this without raising exactly the same points that we have. At the least they will require you to show that these points are not valid.
