Hammilton
Bluelighter
- Joined
- Sep 2, 2008
- Messages
- 3,435
It seems that there is a kratom product on the market that is actually not merely an extract but a semi-synthetic. It seems likely that the identity of the derivative is mitragynine pseudoindoxyl or a close analogue. I had some of my first experiences with it yesterday and while they're documented elsewhere on the site here, I'll simply say that 1g was a wonderful dose.
However, I have a question about the stability of this compound, specifically in solution.
I made up a 1.13g blend with applesauce before going to work, and consumed it on an entirely empty stomach 10 hours later, just as I was leaving. This was 130mg more thanI'd taken before, so I was expecting it to be stronger.
Reasonable, I think.
However, it was almost entirely without effect. Two hours later I mixed another 1.25g and consumed it in the same manner, only without letting it sit first. This was strong, comparable to my first experience.
I'd like to try this again, but given the price I'm gonna pass- I don't want to mix up a gram and let it sit to see if it becomes inactive again.
Is there reason to believe that mitragynine pseudoindoxyl is unstable in an aqueous solution? Perhaps that's why it's found at such low levels naturally.
However, I have a question about the stability of this compound, specifically in solution.
I made up a 1.13g blend with applesauce before going to work, and consumed it on an entirely empty stomach 10 hours later, just as I was leaving. This was 130mg more thanI'd taken before, so I was expecting it to be stronger.
Reasonable, I think.
However, it was almost entirely without effect. Two hours later I mixed another 1.25g and consumed it in the same manner, only without letting it sit first. This was strong, comparable to my first experience.
I'd like to try this again, but given the price I'm gonna pass- I don't want to mix up a gram and let it sit to see if it becomes inactive again.
Is there reason to believe that mitragynine pseudoindoxyl is unstable in an aqueous solution? Perhaps that's why it's found at such low levels naturally.