I recently came across information indicating that THH (tetrahydroharmine) is formed in-situ while B Caapi is boiled. It appears that THH is not present in the caapi vine. THH is formed by chemical reaction with the acids and antioxidants in the vine. Specifically, hydrogen atoms from the acids/antioxidants combine with harmaline (and harmine) to form THH.
THH has a reputation for mood enhancement during the trip. THH is a serotonin reuptake inhibitor, so a mood-enhancing effect is to be expected. THH appears to be highly desirable in ayahuasca.
In another thread on this website, data is presented showing that B caapi contains little THH. These analyses were done on methanol extracts, presumably without long duration oooking. I would expect that THH will not be produced by methanol extraction.
https://www.dmt-nexus.me...aspx?g=posts&t=29967I have done ayahuasca with both syrian rue and B caapi. The B caapi is far preferable. Its more pleasant, less negative, and is more healing. I think this might be because THH is formed during B caapi preparation, but not syrian rue preparation.
The times I did syrian rue, the seeds were brewed for a very short period of time (10 minutes or so). It just isnt necessary to boil syrian rue for a long period to extract the alkaloids. Without a long boiling I believe that THH will not be formed.
The times I did B caapi, the vine was boiled for many hours, because it takes this long to extract the alkaloids. Also, I added citric acid to improve alkaloid solubility.
I am wondering what might happen if syrian rue seeds are boiled for many hours with acid (citric acid) and antioxidants. My hypothesis is that the harmalas in syrian rue would be converted to THH. So it may be possible to make a good quality ayahuasca analog using syrian rue if its boiled long enough with acid and antioxidant.
Has anyone tried long duration cooking of syrian rue? With acids and antioxidants?
The attached paper mentions that THH is likely produced in situ during boiling of B Caapi. It states:
"In Situ Production of THH
The average ratio of THH to harmine in the vegetáis
was consistently near 1:1, from all sources (Table 2), while this ratio was closer to 1:5 in a large survey of source plant material (i.e., B. caapi, see Callaway, Brito & Neves 2005 in this issue). It is presently unclear whether harmine and harmaline are being chemically reduced to THH during the acidic process of decoction, or if THH is simply more stable than the other two harmala alkaloids, which maybe lost through decomposition, or a combination of both processes. Figure 1 illustrates a likely chemical pathway for the conversion of both harmine and harmaline to THH through reduction under acidic conditions."