- Joined
- Jun 24, 2021
- Messages
- 1,643
- Solutions
- 2
- Reaction score
- 1,753
- Points
- 113
- Deals
- 666
Psilocybins and Injectable opiates
Psilocybin is a naturally occurring psychedelic compound found in certain species of mushrooms, commonly referred to as "magic mushrooms." When ingested, psilocybin is converted in the body to psilocin, the active metabolite responsible for its psychoactive effects.
Psilocybin's primary mechanism of action is through the modulation of serotonin, a neurotransmitter that plays a critical role in regulating mood, cognition, and perception. By binding to serotonin receptors, particularly 5-HT2A, psilocin enhances the excitability of certain brain regions, most notably the prefrontal cortex, which is involved in higher-order functions such as thought, attention, and decision-making. This enhanced excitability leads to increased connectivity between different areas of the brain that don’t typically communicate directly, which helps explain the profound alterations in consciousness, perception, and emotions experienced during a psilocybin trip.
One key feature of psilocybin's effects is its impact on the default mode network (DMN), a network of brain regions associated with self-referential thought, ego, and the perception of time. Under normal conditions, the DMN is relatively active, providing a sense of cohesive self-awareness and helping maintain a stable sense of identity. However, psilocybin temporarily reduces the activity of the DMN, leading to a dissolution of the ego, a phenomenon often described as "ego death" or a feeling of oneness with the universe. This reduction in DMN activity is thought to contribute to the mystical or spiritual experiences reported by many psilocybin users.
Injectable opiates, such as heroin, morphine, and fentanyl, are powerful drugs that work by binding to specific receptors in the brain, spinal cord, and other parts of the body. These receptors, known as opioid receptors, are part of the endogenous opioid system, which helps regulate pain, reward, and emotional responses. When injectable opiates are administered, they mimic the body’s natural pain-relieving chemicals, such as endorphins, but with much stronger and longer-lasting effects.
Once injected, these opiates quickly enter the bloodstream and cross the blood-brain barrier, reaching the central nervous system. The primary opioid receptors involved in the effects of these drugs are the mu-opioid receptors. When these receptors are activated by opiates, they reduce the transmission of pain signals by inhibiting the release of neurotransmitters like substance P and glutamate, which are involved in the sensation of pain. This results in a profound analgesic (pain-relieving) effect, making opiates effective for managing severe pain.
In addition to pain relief, opiates produce a range of other effects. One of the most notable is a strong sense of euphoria or a “rush,” particularly with drugs like heroin when injected intravenously. This euphoric sensation is caused by the rapid release of dopamine in the brain’s reward pathways, particularly in areas such as the nucleus accumbens. Dopamine is a neurotransmitter that plays a central role in feelings of pleasure and reward, and the surge of dopamine following opiate injection reinforces drug-seeking behavior, contributing to the high potential for addiction.
Opiates affect not only pain perception but also emotional and psychological states. They reduce anxiety and induce a sense of calm and detachment from stress. However, with repeated use, the brain adapts to the presence of the drug, leading to tolerance, where increasingly larger doses are needed to achieve the same effects. This tolerance contributes to the cycle of addiction, as users escalate their doses to maintain the desired level of euphoria or pain relief. Over time, physical dependence develops, meaning that the body requires the drug to function normally, and withdrawal symptoms occur when the drug is not present.
The combination of psilocybin and injectable opiates can lead to a complex interplay of effects due to their distinct pharmacological actions. Psilocybin’s ability to induce profound emotional and perceptual shifts may intensify the subjective experience of euphoria from opiates, potentially leading to deeper dissociation or confusion. However, psilocybin might also provoke anxiety or paranoia, particularly when combined with the sedation caused by opiates, making the emotional experience difficult to control.
The central nervous system effects of injectable opiates pose a significant danger, particularly their depressive action on breathing. Psilocybin’s psychoactive effects do not mitigate this, and users may become less aware of or less responsive to the life-threatening respiratory depression that can occur with high doses of opiates, increasing the risk of overdose.
Research is also exploring psilocybin’s potential in treating opioid addiction, as it may help reduce cravings and support psychological healing in a controlled therapeutic setting. However, there is limited data on combining these drugs.
We have not come across confirmed data on acute and fatal conditions associated with this combination. At the same time, there are no signs of worthwhile positive recreational effects that could cover the risks of this combination.
Ultimately, this combination poses considerable risks, particularly due to opiates' potent and potentially fatal respiratory effects.
Considering the above, we recommend treating this combination with great caution.
Last edited by a moderator: