Substituted phenidates: Difference between revisions
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Revision as of 16:48, 5 September 2017
Substituted phenidates (also known as phenidates) are a class of chemicals that include compounds that predominantly produce traditional stimulant effects when administered. They may be defined as esters of ritalinic acid and its analogs.
Chemistry
Substituted phenidates are a chemical class based upon the molecule methylphenidate. The molecular structure of methylphenidate is comprised of a phenethylamine core with a carbon chain substitution at the Rα position that links to the RN position, forming a piperidine ring. It also includes a substitution at the Rβ position of methyl acetate.
Pharmacology
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Substituted phenidates primarily act as reuptake inhibitors of the monoamine neurotransmitters dopamine, norepinephrine, and to a minor degree, serotonin.[citation needed]
List of substituted phenidates
| Compound | R3 | R4 | RO | Structure |
|---|---|---|---|---|
| Methylphenidate | H | H | CH3 | 
|
| Ethylphenidate | H | H | CH2CH3 | 
|
| Isopropylphenidate | H | H | CH(CH3)2 | 
|
| Propylphenidate | H | H | CH2CH2CH3 | 
|
| 4-Methylmethylphenidate | H | CH3 | CH3 | 
|
| 3,4-CTMP | Cl | Cl | CH3 | 
|
| 4F-MPH | H | F | CH3 | 
|
| 4F-EPH | H | F | CH2CH3 | 
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| Methylnaphthidate (HDMP-28) | CH=CH- | CH=CH- | CH3 | 
|
| Ethylnaphthidate (HDEP-28) | CH=CH- | CH=CH- | CH2CH3 | 
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