4DQSAR
Bluelighter
- Joined
- Feb 3, 2025
- Messages
- 5,434
To be fair, the US laws surrounding the reserach into schedule 1 chemicals does somewhat conspire against research into mescaline. I believe Dr. Dave mentions that he was legally able to synthesize upto 500mg of any Shcedule 1 compound which means quite a lot of doses if it's a lysergamide or an NBOMe, but not many if mescaline is the target.
I think it interesting that Shulgin went to the effort of producing deuteated homologues of mescaline i.e (β-dideuteromescaline & 4-trideuteromescaline. I'm slighly suspicious of the stated Extensions and Commentry because as early as the 1970s it was known that the C-D bond will tend to alter (sllow down) the metabolismcompared to a C-H and it's known that demethylatyion of the para methoxy and oxudation of the β carbon are major metabolites of mescaline.
Certainly after Teva successfully patented the deuterated homologue of tetrabenzapine on the basis that it altered the activity of the drug, there were many other attempts to evergreen patented medicines on the basis that the deuterated homologues WERE patentable. It didn't last long as it was demonstable that in the vast majority of the cases, there was no observed differences but a few are in the pipeline.
So in no way does Shulgins work provide compelling data, clearly metabolites were recognized and an attempt was made to discover if modifying the metabolism of mescaline would alter the subjective effects.
Before bk-2CB we first tried bk-mescaline and it proved inactive at any reaonable dose. Now I have no way of knowing if knowing this is of value. but I felt it's a little bit of data that may be of value. It's worth noting that the LogP of mescaline is only 0.7 so to be honest, I did not hold out high hopes for any derivative with an even lower LogP. I'm pretty sure that there are free RO5 calculators on-line. Not perfect, I'm sure, but in my experience still useful in spotting trends.
I suppose if someone was more seriously looking into the metabolites of mescaline, tritation would potentially allow modern instumental analysis to provide further insights to the metabolic fate of mescaline. I seem to a recall a Japanese team using LiAlT4 to tritate BOL-148 (2-bromo LSD) with a view to instumental analysis so it's not a new or novel methodology.
I do appreciate that such analysis may not be practical but If there are several enzymes that can metabolize mescaline, blockade one and test.
I have no idea if the assertion that 50% of an oral dose of metabolism of mescaline undergoes first-pass metabolism but I can think of several relatively simple parentheral routes for a (non-toxic and water-soluble) addition salt of mescaline to test that statment and that's going to provide the most data for the least effort (depending on what you have access to).
I think it interesting that Shulgin went to the effort of producing deuteated homologues of mescaline i.e (β-dideuteromescaline & 4-trideuteromescaline. I'm slighly suspicious of the stated Extensions and Commentry because as early as the 1970s it was known that the C-D bond will tend to alter (sllow down) the metabolismcompared to a C-H and it's known that demethylatyion of the para methoxy and oxudation of the β carbon are major metabolites of mescaline.
Certainly after Teva successfully patented the deuterated homologue of tetrabenzapine on the basis that it altered the activity of the drug, there were many other attempts to evergreen patented medicines on the basis that the deuterated homologues WERE patentable. It didn't last long as it was demonstable that in the vast majority of the cases, there was no observed differences but a few are in the pipeline.
So in no way does Shulgins work provide compelling data, clearly metabolites were recognized and an attempt was made to discover if modifying the metabolism of mescaline would alter the subjective effects.
Before bk-2CB we first tried bk-mescaline and it proved inactive at any reaonable dose. Now I have no way of knowing if knowing this is of value. but I felt it's a little bit of data that may be of value. It's worth noting that the LogP of mescaline is only 0.7 so to be honest, I did not hold out high hopes for any derivative with an even lower LogP. I'm pretty sure that there are free RO5 calculators on-line. Not perfect, I'm sure, but in my experience still useful in spotting trends.
I suppose if someone was more seriously looking into the metabolites of mescaline, tritation would potentially allow modern instumental analysis to provide further insights to the metabolic fate of mescaline. I seem to a recall a Japanese team using LiAlT4 to tritate BOL-148 (2-bromo LSD) with a view to instumental analysis so it's not a new or novel methodology.
I do appreciate that such analysis may not be practical but If there are several enzymes that can metabolize mescaline, blockade one and test.
I have no idea if the assertion that 50% of an oral dose of metabolism of mescaline undergoes first-pass metabolism but I can think of several relatively simple parentheral routes for a (non-toxic and water-soluble) addition salt of mescaline to test that statment and that's going to provide the most data for the least effort (depending on what you have access to).
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