Making Synthetic Psilocybe – Microdosing Psilocybe Mushrooms & Spore Prints
There’s a certain crowd of people who probably wouldn’t mind being identified as mushroom “purists” that do not like synthetic psilocybe. These are the folks who laud the many health benefits of medicinal mushrooms by eating two mushrooms a day who would prefer to consume them normally to gain those benefits – eating them, that is – perhaps with the most modification being a powdered form in a vitamin-like gel tablet.
➢ Learn about what is psilocin and about what are the psilocin effects and what about safety?
➢ There are also those that prefer the psilocybe cubensis spore print for research and benefits purposes.
Then, of course, there’s the other crowd: the scientists, chemists, and biomedicine engineers who believe in the cold efficiency of isolating and synthesizing the most beneficial compounds from the fungi, and believe in microdosing creativity offering multiple choices for the best mushroom strain for microdosing psilocybe cubensis mushrooms.
Synthetic psilocybe is undeniably pure, capable of being accurately dosed, and effectuates scalability. This is how much of the cubensis used in clinical trials is sourced.
The question is this: is there a therapeutic difference between consuming synthesized psilocybe and so-called “full-spectrum” psilocybe (i.e., the whole fruiting body)? Full-spectrum psilocybe cubensis is worth looking in to for authenticity value!
Many researchers insist that yes, there is a difference, and that the therapeutic benefits of whole-fungi psilocybe is superior to that of synthetic psilocybe. We’ll go into this in more detail later in the post.
Psilocybe Spore Kits and The “Shroom Boom” in the USA
While this author doesn’t consider himself a member of either party, any research into the beneficial properties of fungi is always going to be a good thing; frankly it’s just nice to see it being done after the psilocybe dark ages. The topic of synthetic psilocybe has been making the rounds lately as the specials industry, loosening legal regulation, and in researching psilocybe spore kits, and overall “shroom boom” in the psilocybe industry continues to expand.
Let’s discuss why psilocybe is synthesized in the first place, how it’s done, and why there’s a big difference between the effects of synthesized psilocybe and whole-fungi psilocybe.
Why Synthesize Psilocybe in the First Place?
Let’s take a quick moment to understand the term synthetic. When used conversationally, people usually take the word to mean “fake” or “an unnatural copy”. This, by definition, is not actually what the word means. Chemical synthesis refers to the process by which chemical compounds are created by combining (or stripping away) other, simpler compounds. The resulting synthesized compound is “real” in the sense that it really is the desired chemical structure, but artificial in the sense that it was created in a laboratory.
Psilocybe synthesis is still in the early stages, relatively speaking. While isolating the psilocybe compound has been possible since the late 1950s, synthetic or naturally isolated psilocybe has really never been done on a large scale—until now, since demand for psilocybe is skyrocketing around the world as a result of the growing awareness of the efficacy of psilocybe-assisted therapies.
This has resulted in many health and science companies like Mydecine and many others scrambling to find ways to produce synthetic psilocybe in a cost effective manner to distribute to researchers and, perhaps in the very near future, patients.
Why Synthesize Psilocybe?
So, why synthesize psilocybe? It’s easier and cheaper than cultivating mushrooms themselves, and—as we’ll learn in the next section—may offer certain benefits to patients of psilocybe therapy.
The Purported Benefits of Synthesized Psilocybe – Full-Spectrum Psilocybe Cubensis & Dose
Traditional production methods to obtain psilocybe—i.e., growing mushrooms—is too expensive to be conducted at a mass scale, let alone a global one. The primary argument in favor of synthetic psilocybe isn’t necessarily that it’s better or worse than full spectrum psilocybe or full spectrum psilocybe cubensis; it’s more a matter of creating a feasible supply chain. This makes synthetic psilocybe very attractive from the perspective of the specials industry.
From the perspective of a patient, one of the most immediate benefits of synthesized psilocybe has to do with dosing. There’s an old joke in certain circles that says, “the mushroom chooses the dosage”, and anyone who has legally partaken in the whole-fungi psilocybe experience will usually nod their head and chuckle knowingly. In other words, consuming a psilocybe mushroom can yield unpredictable results.
However, it’s possible to get an incredibly accurate dose of psilocybe when consumed in a synthesized form—perhaps even reaching best psilocybe dose and “sweet spot” that Johns Hopkins researchers attempted to discover. This can help medical professionals provide their patients with reliable, well-reasoned dosages. Accuracy is also very helpful in psilocybe-based clinical trials, since without being able to accurately measure the amount being administered, results could be seriously skewed.
But what about all the other compounds found in a psilocybe-containing mushroom? What happens when you strip those away and leave only the psilocybe itself? These are the questions being asked by full spectrum psilocybe advocates.
The Difference Between “Full Spectrum” Psilocybe & Lab-Created Chemically Synthesized Psilocybe
“Full spectrum” psilocybe refers to psilocybe in its natural state: within fungi. Some researchers believe that whole-fungi psilocybe is superior to synthetic psilocybe, and we think you’ll agree that they make a very compelling argument.
Synthesized psilocybe is generally a 100% pure individual psilocybe molecule. That is to say, it’s just psilocybe, and nothing else. Whole fungi psilocybe sourced from a mushroom contains many other compounds. Why does this matter? We’ll quote Andrew Chadeayne again:
In other words, these additional active ingredients available only in the natural fungi contribute to the overall special experience. For example, mushroom mushrooms contain a whole series of other compounds, some of which interact with the serotonin receptors in the brain and act as natural MAOIs.
Synthetic psilocybe cannot offer the exact same experience as whole fungi psilocybe. Perhaps it really is better after all, in a regulated therapeutic setting, to allow the mushroom to choose the dose.