Naphthylaminopropane: Difference between revisions

Latest revision as of 05:26, 16 February 2025

Naphthylaminopropane[edit]

Chemical structure of Naphthylaminopropane

Naphthylaminopropane, also known as Naphthylisopropylamine, is a chemical compound that belongs to the class of phenethylamines. It is structurally related to amphetamines and is known for its psychoactive properties. This compound is of interest in the field of neuropharmacology due to its potential effects on the central nervous system.

Chemical Structure[edit]

Naphthylaminopropane is characterized by the presence of a naphthyl group attached to an aminopropane chain. The chemical structure can be represented as C10H13N, where the naphthyl group is a bicyclic aromatic hydrocarbon consisting of two fused benzene rings. This structure is similar to that of other psychoactive compounds, which contributes to its potential activity in the brain.

Pharmacology[edit]

Naphthylaminopropane acts primarily as a monoamine releasing agent, which means it can increase the levels of neurotransmitters such as dopamine, norepinephrine, and serotonin in the brain. These neurotransmitters are involved in regulating mood, arousal, and cognition. The compound's ability to modulate these neurotransmitter systems makes it a subject of research in the context of psychiatric disorders and neurodegenerative diseases.

Potential Uses[edit]

Research into naphthylaminopropane has explored its potential use as a therapeutic agent. Its effects on neurotransmitter systems suggest it could be useful in treating conditions such as depression, attention deficit hyperactivity disorder (ADHD), and Parkinson's disease. However, more research is needed to fully understand its efficacy and safety profile.

Safety and Toxicity[edit]

As with many psychoactive compounds, the safety and toxicity of naphthylaminopropane are important considerations. Potential side effects may include cardiovascular issues, neurotoxicity, and addiction. Studies are ongoing to determine the risk factors associated with its use and to establish safe dosage guidelines.

Related Compounds[edit]

Naphthylaminopropane is related to other compounds in the phenethylamine class, such as methamphetamine and MDMA. These compounds share similar mechanisms of action but differ in their potency and effects. Understanding these relationships helps in the development of new therapeutic agents and in the study of drug abuse and addiction.

Related Pages[edit]

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-'''Naphthylaminopropane''' ('''NAP''') is a [[psychoactive drug]] and [[research chemical]] that belongs to the [[phenethylamine]] class of compounds. It is known for its [[stimulant]] and [[entactogen]] properties, which are similar to those of [[MDMA]], but with a significantly longer duration of action.
+{{DISPLAYTITLE:Naphthylaminopropane}}
-==Chemistry==
+== Naphthylaminopropane ==
-Naphthylaminopropane is a [[substituted phenethylamine]], meaning it is a phenethylamine molecule that has been modified by the addition of other functional groups. In the case of NAP, these modifications include the addition of a [[naphthyl]] group and an [[amino]] group, which give the compound its unique properties.
-==Pharmacology==
+[[File:Naphthylisopropylamine.svg|thumb|right|Chemical structure of Naphthylaminopropane]]
-The exact mechanism of action of NAP is not fully understood, but it is believed to work primarily by increasing the levels of certain [[neurotransmitter]]s in the brain, including [[serotonin]], [[dopamine]], and [[norepinephrine]]. This results in a range of psychoactive effects, including increased energy, euphoria, and enhanced sensory perception.
-==Effects==
+'''Naphthylaminopropane''', also known as '''Naphthylisopropylamine''', is a chemical compound that belongs to the class of [[phenethylamines]]. It is structurally related to [[amphetamine]]s and is known for its psychoactive properties. This compound is of interest in the field of [[neuropharmacology]] due to its potential effects on the [[central nervous system]].
-The effects of NAP can vary greatly depending on the dose, the individual's physiology, and the context in which it is used. However, common effects reported by users include feelings of euphoria, increased energy, enhanced sensory perception, and increased sociability. Some users also report experiencing visual and auditory hallucinations, although these effects are less common.
-==Risks and Safety==
+== Chemical Structure ==
-Like all psychoactive substances, NAP carries a risk of adverse effects. These can include [[nausea]], [[vomiting]], [[tachycardia]], and [[hypertension]]. In rare cases, use of NAP has been associated with more serious health problems, such as [[serotonin syndrome]] and [[neurotoxicity]]. As a result, it is strongly recommended that individuals use NAP responsibly and under the supervision of a healthcare professional.
-==Legal Status==
+Naphthylaminopropane is characterized by the presence of a naphthyl group attached to an aminopropane chain. The chemical structure can be represented as C10H13N, where the naphthyl group is a bicyclic aromatic hydrocarbon consisting of two fused benzene rings. This structure is similar to that of other psychoactive compounds, which contributes to its potential activity in the brain.
-The legal status of NAP varies by country. In some jurisdictions, it is classified as a controlled substance and its possession, sale, and use are subject to legal penalties. In others, it is legal to possess and use NAP for personal use, but not to sell or distribute it.
+== Pharmacology ==
+Naphthylaminopropane acts primarily as a [[monoamine]] releasing agent, which means it can increase the levels of neurotransmitters such as [[dopamine]], [[norepinephrine]], and [[serotonin]] in the brain. These neurotransmitters are involved in regulating mood, arousal, and cognition. The compound's ability to modulate these neurotransmitter systems makes it a subject of research in the context of [[psychiatric disorders]] and [[neurodegenerative diseases]].
+== Potential Uses ==
+Research into naphthylaminopropane has explored its potential use as a therapeutic agent. Its effects on neurotransmitter systems suggest it could be useful in treating conditions such as [[depression]], [[attention deficit hyperactivity disorder]] (ADHD), and [[Parkinson's disease]]. However, more research is needed to fully understand its efficacy and safety profile.
+== Safety and Toxicity ==
+As with many psychoactive compounds, the safety and toxicity of naphthylaminopropane are important considerations. Potential side effects may include [[cardiovascular]] issues, [[neurotoxicity]], and [[addiction]]. Studies are ongoing to determine the risk factors associated with its use and to establish safe dosage guidelines.
+== Related Compounds ==
+Naphthylaminopropane is related to other compounds in the phenethylamine class, such as [[methamphetamine]] and [[MDMA]]. These compounds share similar mechanisms of action but differ in their potency and effects. Understanding these relationships helps in the development of new therapeutic agents and in the study of [[drug abuse]] and [[addiction]].
+== Related Pages ==
-==See Also==
 * [[Phenethylamine]]
+* [[Amphetamine]]
+* [[Neurotransmitter]]
 * [[Psychoactive drug]]
-* [[Research chemical]]
-* [[MDMA]]
-* [[Serotonin syndrome]]
+[[Category:Phenethylamines]]
 [[Category:Psychoactive drugs]]
-[[Category:Research chemicals]]
+[[Category:Neuropharmacology]]
-[[Category:Phenethylamines]]
-{{Psychoactive drug-stub}}
-{{Chemistry-stub}}