Chlosepide, nitrazepam, phenazepam
Structure: a bicyclic system.
| aromatic benzene ring |
&hide_Cookie=yes) 1,4-benzodiazepine (3H-1,4-benzodiazepine) |
&hide_Cookie=yes) 5-phenyl-1,4-benzodiazepine |
&hide_Cookie=yes) 1,2-dihydro-3H-1,4-benzodiazepin-2-one |
Chlosepide (Chlordiazepoxide, Elenium) Chlozepidum 7-chloro-2-methylamino-5-phenyl-3H-1,4-benzodiazepine-4 oxide &hide_Cookie=yes) |
Derivatives of 1,2-dihydro-5-phenyl-3H-1,4-benzodiazepin-2-one.
Nitrazepam Nitrazepamum (Eunoctin) &hide_Cookie=yes) 7-nitro-5-phenyl-3H-1,4-benzodiazepin-2-one The yellow compound is due to the nitro group |
Phenazepam Phenazepamum (Russian-made drug) &hide_Cookie=yes) 7-bromo-5-(o-chlorophenyl)-3H-1,2-dihydro-1,4-benzodiazepin-2-one |
General chemical structure
- In most substances there is an amide bond ⇒ acidic properties.
- An azomethine bond is present in position 4-5.
- A phenyl radical.
- A covalently bonded halogen or a nitro group in position 7.
| &hide_Cookie=yes) |
Description
All substances are white crystalline powders; Nitrazepam is yellow. Insoluble in water. Melting point, IR spectrum, UV spectrum.
Identification
- Acid-base properties.
- Oxidation reactions.
- Formation of colored melts.
- Hydrolysis and determination of hydrolysis products.
- Covalently-bonded halogen.
- Other reactions.
1. Acid-base properties:
All substances are mainly ampholytes with predominantly basic properties. They are most pronounced in Chlosepide. Predominance of acidic properties is also possible.
- Amide bond, acidic properties ⇒ solubility in NaOH solutions; salt-forming and complexation reactions with heavy metal salts. Co2+ salts have the characteristic shape of crystals.
- Basic properties are due to the azomethine bond ⇒ solubility in mineral acids, complexation reactions with general alkaloid precipitation reagents: Dragendorff’s, Mayer’s.
2. Oxidation reactions
Phenazepam: drug + HClO4 ⇒ when heated ⇒ yellow-green coloration with intense fluorescence in UV light.
3. Formation of colored melts
Occurs during severe oxidation. Phenazepam is a violet or red-violet melt, with its color depending on pH: NaOH gives it a blue-violet tint and diluted H2SO4 (16%) results in a yellow-green one.
4. Hydrolysis and determination of hydrolysis products
Acid hydrolysis (!):
&hide_Cookie=yes)
- Products of hydrolysis are colored yellow.
- Possible formation of an azo dye:
&hide_Cookie=yes)
For assay, the nitritometric method is used (the final product is a diazonium salt)
Nitrazepam-specific features: the formation of azo dye in two positions (if heated with zinc dust + HCl).
5. Covalently-bonded halogen
1) Beilstein’s preliminary test. Copper wire + drug ⇒ light green coloration of the flame.
а) Conversion to an ion by oxidation (combustion in a flask with oxygen; fusion with Na2СО3 + КNO3; concentrated H2SO4) or reduction (zinc + NaOH; zinc + H+).
b) Validation of the ion at optimal рН:
1) + diluted HNO3 + AgNO3 ⇒ AgCl ↓ AgBr ↓;
+ (NH4)2CО3 ⇒ Ag(NH3)2Cl - clear solution or yellow AgBr ↓;
2) Сl-; Br- + Ar-SO2-NClNa (chloramine) + HCl + СНCl3 ⇒ orange coloration of the chloroform layer (Br2).
Assay
1) All substances are quantitatively determined by acid-base titration in a non-aqueous medium as one-acid bases according to the general principle:
&hide_Cookie=yes)
2) Nitritometry.
3) Kjeldahl method.
4) HPLC ― with a reference standard.