m (History)
(Dosage)
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| Hypnotic
 
| Hypnotic
 
|}
 
|}
 
=== Oral ===
 
 
'''Onset''':
 
 
Alprazolam IR : 8-25 minutes
 
 
Alprazolam XR : 25-75 minutes
 
 
Diazepam : Rapid
 
 
Clonazapam : 1 hour
 
 
Lorazepam : 1-2 hours
 
 
'''Peak Benefit:'''
 
 
Diazepam : 1.6 hours
 
 
Alprazolam IR : 90 minutes
 
 
Alprazolam XR : 25-75 minutes
 
 
Diazepam : 2-4 hours
 
 
Clonazapam : 1-4 hours
 
 
'''Half/Life and Duration'''
 
 
Triazolam : 2.5 Hours
 
 
Lorazepam : 10-20 hours - 6-12 hour duration
 
 
Alprazolam IR : 11 hour half life - 5 hour duration
 
 
Alprazolam XR :11-16 hour hour half life, 11 hour duration
 
 
Diazepam : 20-100 hour half life - 6-8 hour duration
 
 
Clonazepam : 18-50 hour half life - 12+ hours
 
 
Dosages Depend on tolerance.
 
 
'''Potentiators''':
 
 
Grapefruit juice
 
 
'''Avoid''':
 
 
Excessive drinking (you will die)
 
 
Do not smoke, inject, or snort benzos.
 
 
  
 
=== Positive ===
 
=== Positive ===
  
* Stress Relief
+
* Anti-Anxiety
* Anxiety Relief
+
* Sedative  
* Social Anxiety
+
* Muscle relaxant
* PTSD
+
* Sedative
+
* Worries drift away
+
* That "sink into the couch" feeling
+
 
+
=== Neutral ===
+
 
+
 
=== Negative ===
 
=== Negative ===
  
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=== After effects ===
 
=== After effects ===
  
* "Hangover"?
+
* "Hangover"
  
 
* Afterglow
 
* Afterglow

Revision as of 12:06, 12 February 2014


General Information

Classification: Downer/Sedative/Anxiolytic

History

The first benzodiazepine, Chlordiazepoxide (Librium), was discovered accidentally by Leo Sternbach in 1955, and made available in 1960 by Hoffmann–La Roche, which has also marketed diazepam (Valium) since 1963.


Source: Shorter E (2005). "Benzodiazepines". A Historical Dictionary of Psychiatry. Oxford University Press. pp. 41–2. ISBN 0-19-517668-5.

Dosage

Comparison of benzodiazepines
Chemical name (brand name) Half-Life [Active Metabolites] Dose Equiv. of 10mg Diazepam (Oral) Class
Alprazolam (Xanax) 6 - 12 hours 0.5 mg Anxiolytic
Bromazepam (Lexotan, Lexomil) 10 - 20 hours 5 - 6 mg Anxiolytic
Chlordazepoxide (Librium) 5 - 30 hours [36 - 200 hours] 25 mg Anxiolytic
Clobazam (Frisium) 12 - 60 hours 20 mg Anxiolytic
Clonazepam (Klonopin) 18 - 50 hours 0.5 mg Anxiolytic
Clorazepate (Tranxene) [36 - 200 hours] 15 mg Anxiolytic
Diazepam (Valium) 20 - 100 hours [36 - 200 hours] 10 mg Anxiolytic
Estazolam (ProSom, Nuctalon) 10 - 24 hours 1 - 2 mg Hypnotic
Flunitrazepam (Rohypnol) 18 - 26 hours [36 - 200 hours] 1 mg Hypnotic
Flurazepam (Dalmane) [40 - 250 hours] 15 - 30 mg Hypnotic
Halazepam (Paxipam) [30 - 100 hours] 20 mg Anxiolytic
Ketazolam (Paxipam) 30 - 100 hours [36 - 200 hours] 15 - 30 mg Anxiolytic
Loprazolam (Dormonoct) 6 - 12 hours 1 - 2 mg Hypnotic
Lorazepam (Ativan) 10 - 20 hours 1 mg Anxiolytic
Lormetazepam (Noctamid) 10 - 12 hours 1 - 2 mg Hypnotic
Medazepam (Nobrium) 36 - 200 hours 10 mg Anxiolytic
Nitrazepam (Mogadon) 15 - 38 hours 10 mg Hypnotic
Nordazepam (Nordaz) 36 - 200 hours 10 mg Anxiolytic
Oxazepam (Serax) 4 - 15 hours 20 mg Anxiolytic
Prazepam (Centrax) [36 - 200 hours] 10 - 20 mg Anxiolytic
Quazepam (Doral) 25 - 100 hours 20 mg Hypnotic
Temazepam (Restoril) 8 - 22 hours 20 mg Hypnotic
Triazolam (Halcion) 2 hours 0.5 mg Hypnotic
Non-benzodiazepines commonly referred to as Z-drugs
Chemical name (brand name) Half-Life [Active Metabolites] Dose Equiv. of 10mg Diazepam (Oral) Class
Zaleplon (Sonata) 2 hours 20 mg Hypnotic
Zolpidem (Ambien) 2 hours 20 mg Hypnotic
Zopiclone (Imovane) 5 - 6 hours 15 mg Hypnotic
Eszopiclone (Lunesta) 6 hours 3 mg Hypnotic

Positive

  • Anti-Anxiety
  • Sedative
  • Muscle relaxant

Negative

  • High addiction potential
  • Killer withdrawals
  • Risk of blackout
  • Inability to drink
  • Inability to dirve
  • Loss of balance
  • Memory Loss
  • Procrastination

After effects

  • "Hangover"
  • Afterglow
  • Long term effects
  • High addiction potential

Harm Reduction

  • Avoid driving and operating machinery
  • Recommended time (pauses) between using the substance
  • Addiction potential - High
  • Risk of blackouts
  • Risk of death when mixed with alcohol or other drugs. An extremely high percentage of drug-related deaths are due to mixing benzos with other drugs, especially opiates and alcohol.
  • Mental illness
  • Heart issues
  • CNSCentral Nervous System depressant when mixed with other drugs

Chemistry and Pharmacology

The term benzodiazepine is the chemical name for the heterocyclic ring system, which is a fusion between the benzene and diazepine ring systems. Under Hantzsch–Widman nomenclature, a diazepine is a heterocycle with two nitrogen atoms, five carbon atom and the maximum possible number of cumulative double bonds. The "benzo" prefix indicates the benzene ring fused onto the diazepine ring. Benzodiazepine drugs are substituted 1,4-benzodiazepines, although the chemical term can refer to many other compounds that do not have useful pharmacological properties. Different benzodiazepine drugs have different side groups attached to this central structure. The different side groups affect the binding of the molecule to the GABAA receptor and so modulate the pharmacological properties. Many of the pharmacologically active "classical" benzodiazepine drugs contain the 5-phenyl-1H-benzo[e][1,4]diazepin-2(3H)-one substructure. Nonbenzodiazepines also bind to the benzodiazepine binding site on the GABAA receptor and possess similar pharmacological properties. While the nonbenzodiazepines are by definition structurally unrelated to the benzodiazepines, both classes of drugs possess a common pharmacophore , which explains their binding to a common receptor site


Benzo.png


  • 2-keto compounds:
chlordiazepoxide, clorazepate, diazepam, flurazepam, halazepam, prazepam, and others.
  • 3-hydroxy compounds:
lorazepam, lormetazepa,oxazepam, temazepam
  • 7-nitro compounds:
clonazepam, flunitrazepam, nimetazepam, nitrazepam
  • Triazolo compounds:
adinazolam, alprazolam, estazolam, triazolam
  • Imidazo compounds
climazolam, loprazolam, midazolam



Sources


Madsen U, Bräuner-Osborne H, Greenwood JR, Johansen TN, Krogsgaard-Larsen P, Liljefors T, Nielsen M, Frølund B (2005). "GABAGamma aminobutyric acid an amino acid that is found in the central nervous system; acts as an inhibitory neurotransmitter. and Glutamate receptor ligands and their therapeutic potential in CNSCentral Nervous System disorders". In Gad SC. Drug Discovery Handbook. Hoboken, N.J: Wiley-Interscience/J. Wiley. pp. 797–907. ISBN 0-471-21384-5. ^ a b Panico, R.; Powell, W. H.; Richer, J. C., eds. (1993). A Guide to IUPAC Nomenclature of Organic Compounds. IUPAC/Blackwell Science. pp. 40–3. ISBN 0-632-03488-2.; Moss GP (1998). "Nomenclature of fused and bridged fused ring systems (IUPAC Recommendations 1998)". Pure Appl Chem 70 (1): 143–216. doi:10.1351/pac199870010143. Olsen RW, Betz H (2006). "GABAGamma aminobutyric acid an amino acid that is found in the central nervous system; acts as an inhibitory neurotransmitter. and glycine". In Siegel GJ, Albers RW, Brady S, Price DD (eds.). Basic Neurochemistry: Molecular, Cellular and Medical Aspects (7th ed.). Elsevier. pp. 291–302. ISBN 0-12-088397-X. Zavala F (1997). "Benzodiazepines, anxiety and immunity". Pharmacol Ther 75 (3): 199–216. doi:10.1016/S0163-7258(97)00055-7. PMID 9504140. Narimatsu E, Niiya T, Kawamata M, Namiki A (2006). "[The mechanisms of depression by benzodiazepines, barbiturates and propofol of excitatory synaptic transmissions mediated by adenosine neuromodulation]". Masui (in Japanese) 55 (6): 684–91. PMID 16780077. Juergens, MD, Steven M. "Understanding Benzodiazepines". California Society of Addiction Medicine. Retrieved 25 April 2012. Carlo, Pia; Renata Finollo, Anna Ledda, Giovanni Brambilla (January 1989). "Absence of liver DNA fragmentation in rats treated with high oral doses of 32 benzodiazepine drugs". Fundamental and Applied Toxicology 12 (1): 34–41. doi:10.1016/0272-0590(89)90059-6. PMID 2925017.

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