|Summary sheet: Flunitrazolam|
Flunitrazolam is a novel synthetic depressant substance of the benzodiazepine class which produces anxiolytic, disinhibiting, sedative, muscle relaxant, and memory suppressing effects when administered. It has been noted for its unusual potency for a benzodiazepine compound, being active in the microgram range. This trait is also shared by compounds such as flubromazolam and clonazolam.
Flunitrazolam first appeared on the research chemicals market in 2016. It typically appeared in the form of pressed pellets along with other novel benzodiazepines such as flunitrazepam and flubromazolam. Of these, this compound is entirely novel and has no precedent in the scientific literature before being made available on online. As a result, information regarding dosage, effects, and toxicity should be regarded with caution. Any comments regarding its pharmacology are purely speculation based upon the subjective effects it induces and its structural similarity to triazolam, pyrazolam and other benzodiazepines.
It is worth noting that the sudden discontinuation of benzodiazepines can be potentially dangerous or life-threatening for individuals using regularly for extended periods of time, sometimes resulting in seizures or death. It is highly recommended to taper one's dose by gradually lowering the amount taken each day for a prolonged period of time instead of stopping usage abruptly.
Very little data exists about the pharmacological properties, metabolism, and toxicity of flunitrazolam in humans. It has no history of human usage until 2016 when it began being sold as a gray-area research chemical by online vendors. Due to the high dependence-forming and addiction potential that this substance shares with other members of the benzodiazepine class, as well as its alcohol-like ability to induce dangerous disinhibitory black-out states, it is highly advised to use proper harm reduction practices if choosing to use this substance, especially concurrently with other depressants.
- 1 Chemistry
- 2 Pharmacology
- 3 Subjective effects
- 4 Preparation methods
- 5 Toxicity and harm potential
- 6 Legal status
- 7 See also
- 8 External links
- 9 References
Flunitrazolam is a chemical of the benzodiazepine class. Flunitrazolam is named for the fluorine, bromine, and triazole substitutions on its core benzodiazepine skeleton (FLUorine-NITro-AZOLe-AM). Flunitrazolam is a member of the benzodiazepine class as it contains a 1,4 diazepine ring fused to a substituted benzene ring. Bromine is bound to this bicyclic structure at R7. Additionally, a fluorine substituted phenyl ring is bound to this structure at R5.
Flunitrazolam also contains a methylated triazole ring fused to and incorporating R1 and R2 of its diazepine ring. Flunitrazolam belongs to a class of benzodiazepines containing this fused triazole ring, called triazolobenzodiazepines, distinguished by the suffix "-zolam".
Benzodiazepines produce a variety of effects by binding to the benzodiazepine receptor site and magnifying the efficiency and effects of the neurotransmitter gamma aminobutyric acid (GABA) by acting on its receptors. As this site is the most prolific inhibitory receptor set within the brain, its modulation results in the sedating (or calming effects) of flunitrazolam on the nervous system.
The effects listed below are based upon the subjective effects index and personal experiences of PsychonautWiki contributors. These effects should be taken with a grain of salt and will rarely (if ever) occur all at once, but heavier doses will increase the chances of inducing a full range of effects. Likewise, adverse effects become much more likely on higher doses and may include serious injury or death.
- Sedation - In terms of energy level alterations, this drug has the potential to be extremely sedating and often results in an overwhelmingly lethargic state. At higher levels, this causes users to suddenly feel as if they are extremely sleep deprived and have not slept for days, forcing them to sit down and generally feel as if they are constantly on the verge of passing out instead of engaging in physical activities. This sense of sleep deprivation increases proportional to dosage and eventually becomes powerful enough to force a person into complete unconsciousness.
- Motor control loss
- Respiratory depression
- Muscle relaxation
- Paradoxical reactions to benzodiazepines such as increased seizures (in epileptics), aggression, increased anxiety, violent behavior, loss of impulse control, irritability and suicidal behavior sometimes occur (although they are rare in the general population, with an incidence rate below 1%).
The cognitive effects of flunitrazolam can be broken down into several components which progressively intensify proportional to dosage. The general head space of flunitrazolam is described by many as one of intense sedation and decreased inhibition.
- Anxiety suppression
- Thought deceleration
- Analysis suppression
- Dream potentiation
- Information processing suppression
- Compulsive redosing
- Emotionality suppression - Although this compound primarily suppresses anxiety, it also dulls other emotions in a manner which is distinct but less intensive than that of antipsychotics.
- Delusions of sobriety - This is the false belief that one is perfectly sober despite obvious evidence to the contrary such as severe cognitive impairment and an inability to fully communicate with others. It most commonly occurs at heavy dosages.
- Rebound anxiety - Rebound anxiety is a commonly observed effect with anxiety relieving substances like benzodiazepines. It typically corresponds to the total duration spent under the substance's influence along with the total amount consumed in a given period, an effect which can easily lend itself to cycles of dependence and addiction.
- Dream potentiation or Dream suppression
- Residual sleepiness - While flunitrazolam can be used as an effective sleep-inducing aid, its effects may persist into the morning afterwards, which may lead users to feeling "groggy" or "dull" for a few hours if not significantly longer.
- Thought deceleration
- Thought disorganization
There are currently no anecdotal reports which describe the effects of this compound within our experience index. Additional experience reports can be found here:
- Volumetric liquid dosing - If one's benzodiazepines are in powder form, they are unlikely to weigh out accurately without the most expensive of scales due to their extreme potency. To avoid this, one can dissolve the benzodiazepine volumetrically into a solution and dose it accurately based upon the instructions linked within this tutorial.
Toxicity and harm potential
It is strongly recommended that one use harm reduction practices when using this substance.
Tolerance and addiction potential
Flunitrazolam is extremely physically and psychologically addictive.
Tolerance will develop to the sedative-hypnotic effects within a couple of days of continuous use. After cessation, the tolerance returns to baseline in 7 - 14 days. However, in certain cases this may take significantly longer in a manner which is proportional to the duration and intensity of one's long-term usage.
Withdrawal symptoms or rebound symptoms may occur after ceasing usage abruptly following a few weeks or longer of steady dosing, and may necessitate a gradual dose reduction. For more information on tapering from benzodiazepines in a controlled manner, please see this guide.
Benzodiazepine discontinuation is notoriously difficult; it is potentially life-threatening for individuals using regularly to discontinue use without tapering their dose over a period of weeks. There is an increased risk of hypertension, seizures, and death. Drugs which lower the seizure threshold such as tramadol should be avoided during withdrawal.
Flunitrazolam presents cross-tolerance with all benzodiazepines, meaning that after its consumption all benzodiazepines will have a reduced effect.
Benzodiazepine overdose may occur when a benzodiazepine is taken in extremely heavy quantities or concurrently with other depressants. This is particularly dangerous with other GABAergic depressants such as barbiturates and alcohol since they work in a similar fashion, but bind to distinct allosteric sites on the GABAA receptor. Thus, their effects potentiate one another. Benzodiazepines increase the frequency in which the chlorine ion pore opens on the GABAA receptor while barbiturates increase the duration in which they are open, meaning when both are consumed, the ion pore will open more frequently and stay open longer. Benzodiazepine overdose is a medical emergency that may lead to a coma, permanent brain injury or death if not treated promptly and properly. Symptoms of a benzodiazepine overdose may include severe thought deceleration, slurred speech, confusion, delusions, respiratory depression, coma or death. Benzodiazepine overdoses may be treated effectively in a hospital environment, with generally favorable outcomes. Benzodiazepine overdoses are sometimes treated with flumazenil, a GABAA antagonist, however care is primarily supportive in nature.
Although many drugs are safe on their own, they can become dangerous and even life-threatening when combined with other substances. The list below contains some common potentially dangerous combinations, but may not include all of them. Certain combinations may be safe in low doses of each but still increase the potential risk of death. Independent research should always be done to ensure that a combination of two or more substances is safe before consumption.
- Depressants (1,4-Butanediol, 2-methyl-2-butanol, alcohol, barbiturates, GHB/GBL, methaqualone, opioids) - This combination can result in dangerous or even fatal levels of respiratory depression. These substances potentiate the muscle relaxation, sedation and amnesia caused by one another and can lead to unexpected loss of consciousness at high doses. There is also an increased risk of vomiting during unconsciousness and death from the resulting suffocation ("pulmonary aspiration"). If extreme sleepiness or loss of consciousness occur, users should attempt to fall asleep in the recovery position or have a friend move them into it.
- Dissociatives - This combination can result in an increased risk of vomiting during unconsciousness and death from the resulting suffocation. If this occurs, users should attempt to fall asleep in the recovery position or have a friend move them into it.
- Stimulants - It is dangerous to combine benzodiazepines with stimulants due to the risk of excessive intoxication. Stimulants mask the sedative effect of benzodiazepines, which is the main factor most people consider when determining their level of intoxication. Once the stimulant wears off, the effects of benzodiazepines will be significantly increased, leading to intensified disinhibition as well as other effects. If combined, one should strictly limit themselves to only dosing a certain amount of benzodiazepines per hour. This combination can also potentially result in severe dehydration if hydration is not monitored.
This legality section is a stub.
As such, it may contain incomplete or wrong information. You can help by expanding it.
Flunitrazolam is currently a gray area compound within most (if not all) parts of the world. This means that it is not known to be specifically illegal within any country, but people may still be charged for its possession under certain circumstances such as under analogue laws and with intent to sell or consume.
- Risks of Combining Depressants (Tripsit) | https://tripsit.me/combining-depressants/
- A fatal case of benzodiazepine withdrawal. (PubMed.gov / NCBI) | http://www.ncbi.nlm.nih.gov/pubmed/19465812
- Canadian Guideline for Safe and Effective Use of Opioids for Chronic Non-Cancer Pain - Appendix B-6: Benzodiazepine Tapering | http://nationalpaincentre.mcmaster.ca/opioid/cgop_b_app_b06.html
- Benzodiazepine interactions with GABA receptors (PubMed.gov / NCBI) | http://www.ncbi.nlm.nih.gov/pubmed/6147796
- Benzodiazepines, but not beta carbolines, limit high-frequency repetitive firing of action potentials of spinal cord neurons in cell culture. (PubMed.gov / NCBI) | http://www.ncbi.nlm.nih.gov/pubmed/2450203
- http://www.ncbi.nlm.nih.gov/pubmed/18922233 | Saïas T, Gallarda T | Paradoxical aggressive reactions to benzodiazepine use: a review
- Paton C | Benzodiazepines and disinhibition: a review | Psychiatr Bull R Coll Psychiatr | http://pb.rcpsych.org/cgi/reprint/26/12/460.pdf
- Bond AJ | Drug-induced behavioural disinhibition: incidence, mechanisms, and therapeutic implications | CNS Drugs
- Drummer OH | Benzodiazepines—effects on human performance and behavior | Forensic Sci Rev
- Development of a rational scale to assess the harm of drugs of potential misuse (ScienceDirect) | http://www.sciencedirect.com/science/article/pii/S0140673607604644
- Benzodiazepine metabolism: an analytical perspective (PubMed.gov / NCBI) | http://www.ncbi.nlm.nih.gov/pubmed/18855614
- A fatal case of benzodiazepine withdrawal. (PubMed.gov / NCBI) | http://www.ncbi.nlm.nih.gov/pubmed/19465812
- Twyman, R. E., Rogers, C. J., & Macdonald, R. L. (1989). Differential regulation of γ‐aminobutyric acid receptor channels by diazepam and phenobarbital. Annals of Neurology, 25(3), 213-220. https://doi.org/10.1002/ana.410250302
- Amrein, R., Leishman, B., Bentzinger, C., & Roncari, G. (1987). Flumazenil in benzodiazepine antagonism. Medical Toxicology and Adverse Drug Experience, 2(6), 411-429. PMID: 8306565