Difference between revisions of "5F-ADB Wikipedia"

Latest revision as of 21:25, 28 May 2026

These synthetic cannabinoids act directly at cannabinoid CB1 and CB2 receptors as does Δ9-tetrahydrocannabinol (Δ9-THC) found in marijuana, but have different chemical structures unrelated to Δ9-THC, different metabolism, and often greater toxicity (Fantegrossi et al., 2014). Discriminative stimulus effects were tested in rats trained to discriminate Δ9-tetrahydrocannabinol (3 mg/kg, 30-min pretreatment). 5F-MDMB-PINACA (also known as 5F-ADB, 5F-ADB-PINACA), MDMB-CHIMICA, MDMB-FUBINACA, ADB-FUBINACA, and AMB-FUBINACA (also known as FUB-AMB, MMB-FUBINACA) were tested for in vivo cannabinoid-like effects to assess their abuse liabilit

These synthetic cannabinoids act 5CLADBA directly at cannabinoid CB1 and CB2 receptors as does Δ9-tetrahydrocannabinol (Δ9-THC) found in marijuana, but have different chemical structures unrelated to Δ9-THC, different metabolism, and often greater toxicity (Fantegrossi et al., 2014). Discriminative stimulus effects were tested in rats trained to discriminate Δ9-tetrahydrocannabinol (3 mg/kg, 30-min pretreatment). 5F-MDMB-PINACA (also known as 5F-ADB, 5F-ADB-PINACA), MDMB-CHIMICA, MDMB-FUBINACA, ADB-FUBINACA, and AMB-FUBINACA (also known as FUB-AMB, MMB-FUBINACA) were tested for in vivo cannabinoid-like effects to assess their abuse liabilit

4. Drugs
The purpose of the present study was to assess the abuse liability of 5F-MDMB-PINACA, MDMB-CHIMICA, MDMB-FUBINACA, ADB-FUBINACA, and AMB-FUBINACA. The findings produce an apparent paradox, since CPP and self-administration predict with high reliability the likelihood that a compound will be abused by humans, and cannabinoids are well-known to produce active drug-seeking in humans. Drug discrimination is a well-known animal model of the subjective effects of drugs and correlates well with abuse liability (Young 2009; Horton et al. 2013). Assessment of abuse liability is based on several factors, including chemical structure, pharmacological mechanism of action, and finally, subjective and reinforcing behavioral effects (FDA, 2010; Swedberg, 2013).
Michael B Gat

Some mice showed abnormal behaviors (catalepsy, loss of traction, convulsion) right after the administration of the tested substances. The locomotor activity of the mice was measured 30 min and 2 hrs after the last substance administration. We also examined their neurotoxicity using brain samples through histopathological diagnose, especially in the nucleus accumbens core region. In histopathological analysis, neural cells of the animals treated with the high dose (5 mg/kg) of JWH-081 or JWH-210 showed distorted nuclei and nucleus membranes in the core shell of nucleus accumbens, suggesting neurotoxicity.
Table of Conten

Fig. 2.
Our findings revealed that both victims consumed large amounts of alcohol preceding their deaths (blood alcohol concentrations (BAC) were 2.11 and 2.49 g/L, respectively). Forensic autopsy of both victims was performed four days after the time of death following the Recommendation No.R (99)3 of the Council of Europe on medico-legal autopsies. Elegans demonstrated the ability to form all of the in-vivo metabolites and has the potential to be used as a complementary model to predict and characterize human metabolites, as well as identifying possible drug toxicities for emerging SCBs. Thus, identification of the relevant urinary markers was based primarily upon the prevalence of the in-vivo metabolites instead of the metabolites ranking that was based upon % peak area abundance ratio. Moreover, genetic makeup, physiological conditions (age, gender 5CLADBA and ethnicity), environmental influences (diet) and pathological factors (liver diseases, diabetes, and obesity) would further complicate the metabolism of drugs. It should be noted that % peak area abundance ratios do not necessarily reflect absolute concentrations due to differences in ionization capacity and matrix effects bias for each metabolite.
Victim B also brought "something resembling a drug" (unrecognizable by Witness A) from his cousin (Witness B) in a cigarette box and mixed this substance with their tobacco. The half-maximal effective concentration (EC50) of 4F-MDMB-BINACA is 5.69 nM (2.76–11.0 nM) on CB1, and 0.69 nM (0.30–1.56 nM) on CB2, in vitro half-life (t1/2) is 10.27 min . It is usually available as a powder, liquid (vapor fluid), or herbal plant mixtur

Acute kidney damage and even kidney failure have been reported following use of synthetic cannabinoids (Davidson, et al., 2017). One recent study has looked at other mechanisms of action in some of the older synthetic cannabinoids and reported that some produced varying amounts of activity at sites which are related to cardiotoxicity and heart disease (Wiley et al., 2016). It is not known whether the increased toxicity is due only to activation of CB1 cannabinoid receptors more strongly than Δ9-THC or whether these "super-strength" cannabinoids produce effects at other receptors. A major cause of concern is that some of the more recently seen synthetic cannabinoids are more likely to produce extremely toxic effects than the older synthetics (Tai and Fantegrossi, 2017

Revision as of 21:09, 28 May 2026 (view source) ISZCindy643869 (talk \| contribs) m ← Older edit		Latest revision as of 21:25, 28 May 2026 (view source) RoslynGibson2 (talk \| contribs) m
(3 intermediate revisions by 2 users not shown)
Line 1:		Line 1:
−	~~All of the compounds tested in the present study depressed locomotor activity as is typical for other~~ synthetic cannabinoids (~~see review by Wiley~~ et al., ~~2017~~). ~~Average horizontal activity counts/10 min as a function of time (10 min bins) and dose. Depressant~~ effects ~~of 1.33 mg/kg~~ were ~~observed within 10 min following administration and peak depressant effects were JWH~~-~~210 powder observed between 0–30 min. Duration of the locomotor depression increased over dose from 30 min following 0.1~~ mg/kg ~~to 2.5 h following 1 mg/k<br><br>In histopathological analysis~~, ~~neural cells of the animals treated with the high dose (5 mg/kg~~) ~~of JWH~~-~~081 or JWH~~-~~210 showed distorted nuclei and nucleus membranes in the core shell of nucleus accumbens~~, ~~suggesting neurotoxicit<br><br><br>Taken together these data further confirmed the structure elucidation of B16. The precursor ion m/z 276 (B1~~) ~~detected~~, ~~which was 74 Da lower than that for the 4F~~-MDMB-~~BINACA ester hydrolysis metabolite (B22)~~, ~~indicated N~~-~~dealkylation of B22. The precursor ion m/z 348~~ and ~~product ion detected at m/z 217~~ (~~B2) identified was 2 Da less than the 4F~~-~~MDMB~~-~~BINACA ester hydrolysis metabolite (B22~~)~~, indicating oxidative defluorination (loss of fluorine with addition of hydroxy JWH~~-~~210 powder group~~<br><br>~~One recent study has looked at other mechanisms of action in some of the older~~ synthetic cannabinoids ~~and reported that some produced varying amounts of activity~~ at ~~sites which are related to cardiotoxicity~~ and ~~heart disease~~ (~~Wiley et al.~~, ~~2016<br><br>The~~ chemical structures ~~of the recent synthetic cannabinoids are unlike that of~~ Δ9-THC, ~~but are largely based on the structure of older synthetic cannabinoids that are known to have substantial abuse liability~~ (~~Fig~~. ~~1<br><br><br>Inclusion in an NLM database does not imply endorsement of~~, ~~or agreement with, the contents by NLM or the National Institutes of Health~~. ~~It is illegal~~ to ~~sell~~, ~~distribute, supply, transport or trade the pharmaceutical drug under the Psychoactive Substances Act 2016~~. ~~The corresponding indole core analogue, 4F~~-MDMB-~~BICA~~ (4F-MDMB-~~BUTICA)~~, ~~has also been widely sold as a designer drug by chemical providers on the internet~~, ~~first being identified in May 2020. It has been used as an active ingredient in synthetic cannabis products~~ and ~~sold as a designer drug since late 2018. 4F~~-~~MDMB-BINACA~~ (also known as ~~MDMB~~-~~4F-BINACA using systematic EMCDDA nomenclature or 4F~~-~~MDMB-BUTINACA~~) ~~is an indazole-based synthetic~~ cannabinoid ~~from the indazole~~-~~3-carboxamide famil~~<br><br>~~In general~~, ~~the locomotor depressant~~ and ~~discriminative stimulus effects have been observed at doses that do not~~ produce ~~adverse effects~~, ~~although tremors were observed upon handling in mice~~ that ~~received JWH~~-~~210 (Gatch et al~~.~~, 2016), and 5F~~-~~AMB produced sustained vocalization~~ and ~~convulsions in rats~~ (~~Gatch~~ et al., ~~2018<br><br>Thirty minutes prior to the training sessions~~, ~~rats received an injection~~ of ~~either vehicle or Δ9-THC~~ and ~~were subsequently placed in the behavior-testing chambers~~, ~~where food~~ (~~45-mg food pellets~~; ~~Bio-Serve~~, ~~Frenchtown, NJ~~) ~~was available as a reinforcer for every ten responses (FR10) on a designated injection appropriate leve~~<br><br><br>~~LC-QTOF-MS represents a significant advancement in the field~~ of ~~drug detection~~, ~~offering higher sensitivity, specificity, and a broader spectrum~~ of ~~detectable~~ substances. ~~Despite all negative results in~~ the ~~point-of-care test for recreational drugs~~, the ~~liquid chromatography-quadrupole time-of-flight mass spectrometry (LC-QTOF-MS)~~ analysis ~~showed that the liquid~~ of the ~~e-cigarette contained ADB-BUTINACA, a synthetic cannabinoid. We report a 27-year-old man who was admitted to~~ the ~~emergency room because~~ of ~~sudden [https://cannabinoidsrc4f~~-~~adb.com/~~ JWH-210 ~~powder] headache~~, ~~nausea, vertigo, red eyes and palpitations. Synthetic cannabinoids are gaining popularity globally and detection is not commonly available~~.<br>~~Data availability~~ <br>~~When clinical presentation~~ and/~~or initial DOA testing results are inconclusive~~, ~~additional testing with LC-QTOF-MS can be valuable and is recommended~~. ~~SCRAs and other NPS may not be detected by point-~~of~~-care DOA tests~~. ~~In this case,~~ the ~~point-~~of-~~care DOA urine screening was not able~~ to ~~detect~~ the ~~synthetic cannabinoid ADB~~-~~BUTINAC<br><br><br>Briefly~~, the ~~FOB test~~ was ~~comprised~~ of ~~several behavioral changes including catalepsy~~, ~~traction~~, ~~tremor~~, ~~convulsion~~, ~~exopthalmos~~, ~~piloerection, salivation, lacrimation, diarrhea, skin coloration, pinna reflex, righting reflex~~, and ~~death~~. ~~The FOB test was performed using published procedures~~ (~~Moser et al., 1989~~) with ~~some modifications~~. ~~However, because~~ of ~~their subjective properties, it~~ is ~~necessary to set up a more objective automated measurement to determine their neurotoxicity~~. ~~However, there are only a couple of anecdotal reports suspecting the possibility of their neurotoxicity with no scientific evidence~~ (~~Cohen et al~~., ~~2012; McGuinness~~ and ~~Newell~~, ~~2012; Harris and Brown~~, ~~2013; Hermanns et al.~~, ~~2013~~<br><br><br>~~Test 2 was performed everyday for 5 days after consecutive administration~~ of ~~the substances~~, ~~including negative (vehicle) and positive (methamphetamine) controls~~. ~~After the last administration~~, ~~the first trial was performed~~. ~~Morris water maze test was performed to evaluate the changes~~ of ~~learning and memory function through administration~~ of the ~~test substances. Generally, neurotoxicity~~ of ~~a substance is evaluated by animal behavioral aspects, i.e. functional observation battery~~ (~~FOB) tests (O’Callaghan~~ et al., ~~2014~~). ~~Our results suggest~~ that ~~JWH-081~~ and ~~JWH-210 may JWH-210 powder be neurotoxic substances through changing neuronal cell damages~~, ~~especially in the core shell part of nucleus accumbens.<br>About Powder JWH-2~~	+	These synthetic cannabinoids act directly at cannabinoid CB1 and CB2 receptors as does Δ9-tetrahydrocannabinol (Δ9-THC) found in marijuana, but have different chemical structures unrelated to Δ9-THC, different metabolism, and often greater toxicity (Fantegrossi et al., 2014). Discriminative stimulus effects were tested in rats trained to discriminate Δ9-tetrahydrocannabinol (3 mg/kg, 30-min pretreatment). 5F-MDMB-PINACA (also known as 5F-ADB, 5F-ADB-PINACA), MDMB-CHIMICA, MDMB-FUBINACA, ADB-FUBINACA, and AMB-FUBINACA (also known as FUB-AMB, MMB-FUBINACA) were tested for in vivo cannabinoid-like effects to assess their abuse liabilit<br><br><br>These synthetic cannabinoids act [https://cannabinoidsrc4f-adb.com/ 5CLADBA] directly at cannabinoid CB1 and CB2 receptors as does Δ9-tetrahydrocannabinol (Δ9-THC) found in marijuana, but have different chemical structures unrelated to Δ9-THC, different metabolism, and often greater toxicity (Fantegrossi et al., 2014). Discriminative stimulus effects were tested in rats trained to discriminate Δ9-tetrahydrocannabinol (3 mg/kg, 30-min pretreatment). 5F-MDMB-PINACA (also known as 5F-ADB, 5F-ADB-PINACA), MDMB-CHIMICA, MDMB-FUBINACA, ADB-FUBINACA, and AMB-FUBINACA (also known as FUB-AMB, MMB-FUBINACA) were tested for in vivo cannabinoid-like effects to assess their abuse liabilit<br><br>4. Drugs <br>The purpose of the present study was to assess the abuse liability of 5F-MDMB-PINACA, MDMB-CHIMICA, MDMB-FUBINACA, ADB-FUBINACA, and AMB-FUBINACA. The findings produce an apparent paradox, since CPP and self-administration predict with high reliability the likelihood that a compound will be abused by humans, and cannabinoids are well-known to produce active drug-seeking in humans. Drug discrimination is a well-known animal model of the subjective effects of drugs and correlates well with abuse liability (Young 2009; Horton et al. 2013). Assessment of abuse liability is based on several factors, including chemical structure, pharmacological mechanism of action, and finally, subjective and reinforcing behavioral effects (FDA, 2010; Swedberg, 2013).<br>Michael B Gat<br><br><br>Some mice showed abnormal behaviors (catalepsy, loss of traction, convulsion) right after the administration of the tested substances. The locomotor activity of the mice was measured 30 min and 2 hrs after the last substance administration. We also examined their neurotoxicity using brain samples through histopathological diagnose, especially in the nucleus accumbens core region. In histopathological analysis, neural cells of the animals treated with the high dose (5 mg/kg) of JWH-081 or JWH-210 showed distorted nuclei and nucleus membranes in the core shell of nucleus accumbens, suggesting neurotoxicity.<br>Table of Conten<br><br>Fig. 2. <br>Our findings revealed that both victims consumed large amounts of alcohol preceding their deaths (blood alcohol concentrations (BAC) were 2.11 and 2.49 g/L, respectively). Forensic autopsy of both victims was performed four days after the time of death following the Recommendation No.R (99)3 of the Council of Europe on medico-legal autopsies. Elegans demonstrated the ability to form all of the in-vivo metabolites and has the potential to be used as a complementary model to predict and characterize human metabolites, as well as identifying possible drug toxicities for emerging SCBs. Thus, identification of the relevant urinary markers was based primarily upon the prevalence of the in-vivo metabolites instead of the metabolites ranking that was based upon % peak area abundance ratio. Moreover, genetic makeup, physiological conditions (age, gender 5CLADBA and ethnicity), environmental influences (diet) and pathological factors (liver diseases, diabetes, and obesity) would further complicate the metabolism of drugs. It should be noted that % peak area abundance ratios do not necessarily reflect absolute concentrations due to differences in ionization capacity and matrix effects bias for each metabolite.<br>Victim B also brought "something resembling a drug" (unrecognizable by Witness A) from his cousin (Witness B) in a cigarette box and mixed this substance with their tobacco. The half-maximal effective concentration (EC50) of 4F-MDMB-BINACA is 5.69 nM (2.76–11.0 nM) on CB1, and 0.69 nM (0.30–1.56 nM) on CB2, in vitro half-life (t1/2) is 10.27 min . It is usually available as a powder, liquid (vapor fluid), or herbal plant mixtur<br><br><br>Acute kidney damage and even kidney failure have been reported following use of synthetic cannabinoids (Davidson, et al., 2017). One recent study has looked at other mechanisms of action in some of the older synthetic cannabinoids and reported that some produced varying amounts of activity at sites which are related to cardiotoxicity and heart disease (Wiley et al., 2016). It is not known whether the increased toxicity is due only to activation of CB1 cannabinoid receptors more strongly than Δ9-THC or whether these "super-strength" cannabinoids produce effects at other receptors. A major cause of concern is that some of the more recently seen synthetic cannabinoids are more likely to produce extremely toxic effects than the older synthetics (Tai and Fantegrossi, 2017