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Buy A-Pihp Online

A-pihp is a stimulant substance that belongs to the cathinone analog class. Its history is closely intertwined with the rise of online research chemical vendors. Since its emergence in the early 2010s, a-pihp has gained popularity among individuals seeking recreational highs and has been associated with addictive behaviors.

In recent years, online research chemical vendors have made substances like a-pihp easily accessible to the public. This increased availability has contributed to the growing use of a-pihp for its stimulant effects. Many individuals turn to a-pihp as a cheaper alternative to illicit drugs like cocaine or methamphetamine.

However, the use of a-pihp has been linked to addictive behaviors. Due to its potent stimulant properties, users may develop a dependence on a-pihp to sustain the desired effects. Additionally, the lack of regulation and oversight in the research chemical market exacerbates the risks associated with a-pihp use, as the purity and potency of the substance can vary significantly.

Overall, the history of a-pihp use is characterized by its appeal as a stimulant substance, particularly among those seeking recreational highs. However, this popularity has come with concerns regarding addictive behaviors and the risks associated with purchasing and using unregulated substances from online research chemical vendors.

Legal status of a-pihp

However, its legal status varies across different countries. According to the UN Convention on Psychotropic Substances, a-PiHP is classified as a controlled substance due to its potential for abuse and dependence.

In Canada, a-PiHP is categorized as a Schedule 1 drug under the Controlled Drugs and Substances Act. This classification implies that it is illegal to produce, possess, or distribute a-PiHP, as it is considered to have a high risk of abuse and poses significant health risks.

Italy classifies a-PiHP as a narcotic, which further reinforces its controlled status. Possessing, selling, or producing this substance without proper authorization is strictly prohibited. The classification as a narcotic indicates that a-PiHP is subject to severe legal penalties due to its potential for misuse and harm.

It is crucial to note that the legal status of a-PiHP may differ in other countries or regions. Researchers, scientists, and individuals interested in this substance should carefully review their respective national and regional laws to ensure compliance with local regulations.

In conclusion, a-PiHP’s legal status as a controlled substance, a Schedule 1 drug in Canada, and a narcotic in Italy highlights the stringent measures imposed by various countries to control its distribution and use.

Chemical properties of a-pihp

The chemical properties of a-pihp, or α-pyrrolidinohexiophenone, play a crucial role in understanding its behavior and potential applications. This synthetic cathinone compound is a member of the pyrrolidinophenone family and possesses stimulant properties similar to other substances in this class. By analyzing its chemical properties, we can gain insight into factors such as solubility, stability, reactivity, and potential interactions with other substances. Understanding these properties allows us to better comprehend a-pihp’s effects on the human body, its potential use in research, and its potential risks or benefits when used recreationally. In this article, we will delve into the chemical properties of a-pihp, providing a comprehensive overview of its composition and behavior.

Molecular structure of a-pihp

Its molecular structure consists of a pyrrolidine ring attached to a hexiophenone moiety. The pyrrolidine ring contains a nitrogen atom and four carbon atoms, while the hexiophenone moiety consists of six carbon atoms with a phenyl group attached to each. This molecular structure is responsible for the psychoactive properties exhibited by α-PiHP.

α-PiHP is closely related to other compounds like MDPV (methylenedioxypyrovalerone) and A-PHP (α-Pyrrolidinohexanophenone). These substances share similar molecular structures and share some pharmacological properties as well.

Due to its structural similarity to α-PVP (alpha-pyrrolidinopentiophenone), α-PiHP has been regarded as its successor. α-PVP is a powerful stimulant and was widely used as a recreational drug, but its production and distribution have been restricted in many countries due to its high abuse potential and associated health risks. As a result, α-PiHP emerged as an alternative for those seeking similar effects.

In summary, α-PiHP is a cathinone and pyrrolidinophenone compound with a molecular structure consisting of a pyrrolidine ring attached to a hexiophenone moiety. It shares similarity in structure and pharmacological properties with MDPV and A-PHP and is regarded as a successor to the restricted substance α-PVP.

Similarities and differences with other cathinones

Cathinone is a type of chemical compound commonly found in recreational drugs, particularly stimulants. When comparing cathinone to other cathinones commonly found in recreational drugs, several similarities and differences can be identified.


1. Chemical structures: Cathinone, along with other cathinones, possesses a phenethylamine backbone with a keto group on the β-carbon. This structural similarity contributes to their stimulant properties.

2. Effects on the central nervous system (CNS): Both the target cathinone and other cathinones commonly found in recreational drugs exert stimulating effects on the CNS. They increase the release and inhibit the reuptake of norepinephrine, dopamine, and serotonin, leading to increased alertness, euphoria, and heightened energy levels.


1. Substituent groups: Different cathinones have varying substituent groups attached to their phenethylamine core structure. These diversities can significantly influence their pharmacological properties, potency, and duration of action.

2. Physical properties: The physical properties of cathinones can also differ, including differences in melting points, solubilities, and appearance (such as crystal forms or powders). These variations may affect their route of administration and formulation into recreational drugs.

In conclusion, while cathinone and other cathinones commonly found in recreational drugs share similarities in their chemical structures and CNS effects, they display differences in substituent groups and physical properties. These dissimilarities contribute to the varying pharmacological properties and recreational use of cathinones.

Pharmacological properties of a-pihp

Its structure is similar to other cathinones, such as α-PVP, with a pyrrolidine ring and a phenyl ring attached to it.

In terms of related compounds, α-PiHP is part of the same chemical family as α-PVP, α-PHP, and α-PBP. These compounds share similar pharmacological properties due to their structural similarities.

α-PiHP can be administered through various routes, including oral ingestion, intranasal inhalation, and intravenous injection, although the preferred method of use may vary among individuals.

The effects of α-PiHP can range from stimulant and euphoric to entactogenic and hallucinogenic. Users have reported increased energy, enhanced focus, and euphoria, similar to other stimulants. The duration of these effects can last anywhere from 4 to 8 hours, depending on the dosage and individual tolerance.

The reported dosage range for α-PiHP is quite varied, with users reporting doses as low as 10 mg and as high as 100 mg. However, it is important to note that due to the limited research on this substance, these reported doses may not be accurate or safe.

In summary, α-PiHP is a synthetic cathinone with similar pharmacological properties to other substances in its chemical family. Its effects can range from stimulant to entactogenic, with a reported duration of 4 to 8 hours. However, due to limited research, it is crucial to approach its use cautiously and be mindful of potential risks and unknowns.

Effects of a-pihp on the body

The synthetic designer drug known as a-pihp has gained popularity and notoriety in recent years. As a stimulant, a-pihp affects the central nervous system, making it a substance of interest for both recreational users and researchers. However, the effects of a-pihp on the body are not yet fully understood. In this article, we will explore the potential impacts of a-pihp on various aspects of the human body, including its effects on the cardiovascular system, psychological well-being, and potential long-term consequences. It is necessary to delve deeper into this subject to gain a better understanding of the risks and dangers associated with a-pihp use and to inform individuals about the potential adverse effects that may arise from its consumption.

Physiological effects of a-pihp

As a stimulant, it increases the activity of the central nervous system, resulting in increased wakefulness, alertness, and energy levels. This is primarily achieved by enhancing the release and inhibiting the reuptake of neurotransmitters such as dopamine, norepinephrine, and serotonin in the brain.

The stimulant properties of α-PiHP make it highly addictive and prone to compulsive redosing. Users may experience an intense euphoria, increased motivation, and enhanced focus. However, this can lead to a cycle of repeated doses as individuals seek to maintain the desired effects. The addictive behaviors associated with α-PiHP can result in increased tolerance, dependence, and withdrawal symptoms upon discontinuation.

When abused, α-PiHP has the potential to induce delusional states and psychosis. This is characterized by hallucinations, paranoia, agitation, and disordered thinking. The excessive dopamine release caused by α-PiHP can overload the brain’s reward system, leading to a dysregulated psychological state. Continued use of the drug in high doses and for prolonged periods can further exacerbate these psychotic symptoms.

In summary, the physiological effects of α-PiHP include its stimulant properties, potential for compulsive redosing and addictive behaviors, as well as the ability to induce delusional states and psychosis when abused. Understanding these effects is crucial for identifying the risks associated with α-PiHP use and promoting intervention measures to ensure the well-being of individuals involved.

Psychological effects of a-pihp

In terms of cognition, α-PiHP can lead to impaired concentration, decreased attention, and difficulties with decision-making. It can also cause cognitive distortions, leading to a distorted perception of reality and a lack of critical thinking skills.

When it comes to emotions, α-PiHP has a notable tendency to induce euphoria. Users may experience intense feelings of happiness, pleasure, and well-being. However, this euphoria is often short-lived and followed by a crash, which can result in negative emotional states such as irritability, sadness, and dysphoria.

In terms of behavior, α-PiHP tends to induce disinhibition, leading individuals to engage in impulsive and risky activities. Users may exhibit increased sociability and talkativeness, but this can also lead to reckless behavior and poor judgment. Furthermore, α-PiHP has a tendency to induce anxiety and paranoia, causing individuals to become excessively suspicious, fearful, and on edge.

One of the most concerning effects of α-PiHP is compulsive redosing. Due to its highly addictive nature, individuals may find it difficult to stop using the substance and feel a strong urge to repeatedly redose. This can lead to a cycle of excessive drug use, as users attempt to regain the initial euphoric effects.

In summary, α-PiHP has significant psychological effects on cognition, emotions, and behavior. It induces euphoria initially but may result in subsequent dysphoria. It also leads to disinhibition, anxiety, paranoia, and compulsive redosing. These effects can have a profound impact on an individual’s overall well-being and can contribute to the development of addiction.

Short-term effects of a-pihp use

One of the most prominent subjective effects of a-pihp use is euphoria. Users often report feelings of intense pleasure, happiness, and increased sociability. This euphoria can be highly rewarding and can reinforce the desire to continue using a-pihp.

Another effect of a-pihp use is thought acceleration. Users may experience a significant increase in mental alertness, enhanced focus, and heightened creativity. This can lead to improved productivity and performance in certain tasks.

However, a-pihp use also carries potential negative effects. One such effect is disinhibition, which refers to a decreased ability to control impulses and inhibit certain behaviors. This can lead to risky behavior, poor decision-making, and an increased likelihood of engaging in dangerous activities.

Additionally, a-pihp use has been associated with psychosis, particularly with prolonged or excessive use. Psychosis includes symptoms such as hallucinations, delusions, and a loss of touch with reality. This condition can be distressing and may require medical intervention.

In conclusion, the short-term effects of a-pihp use include euphoria, thought acceleration, disinhibition, and potential psychosis. While the euphoria and increased mental alertness may be pleasurable for users, the negative effects like disinhibition and psychosis can be harmful to both their wellbeing and others around them. As with any substance use, understanding the potential risks and objectively weighing the short-term effects against the long-term consequences is essential.

Long-term effects of a-pihp use

Research on the long-term effects of α-PiHP use is limited, and available information mostly comes from anecdotal reports and user experiences. Therefore, the potential health risks and adverse reactions associated with prolonged use of α-PiHP remain uncertain. However, it is important to understand the potential dangers of engaging in substance abuse.

Some reports suggest that chronic use of α-PiHP may lead to various physical and psychological issues. Physically, long-term users could experience weight loss, dehydration, and malnutrition due to suppressed appetite. Additionally, individuals may develop cardiovascular problems, such as increased blood pressure and heart rate. Psychologically, users might exhibit symptoms such as anxiety, depression, psychosis, and cognitive impairment.

Substance abuse often leads to neglect of personal relationships, financial difficulties, and legal problems. Building a dependency on α-PiHP can also cause withdrawal symptoms upon discontinuation, including fatigue, depression, and intense cravings.

Though there is limited scientific research specifically on α-PiHP, studying the long-term effects of structurally similar substances like α-PVP (flakka) might provide insights. Molecular similarities could imply comparable risks and reactions, although each substance may have its own unique effects.

Given the lack of comprehensive research, it is crucial to prioritize one’s safety and well-being by avoiding substance abuse and seeking help from medical professionals if necessary.

Intoxication with a-pihp

Intoxication with a-pihp, also known as α-Pyrrolidinohexiophenone, is a growing concern in recreational drug use. This powerful stimulant belongs to the cathinone class and is frequently used as a substitute for illegal substances like methamphetamine or cocaine. With its potent effects on the central nervous system, a-pihp can lead to a range of intoxication symptoms, including increased energy, heightened alertness, euphoria, and even psychosis. However, its unpredictable nature and lack of extensive research make it a highly risky substance to experiment with. As a result, understanding the potential dangers of intoxication with a-pihp is crucial in order to address the associated health risks and promote informed decision-making regarding substance use.

Symptoms of intoxication with a-pihp

Physically, individuals experiencing α-PiHP intoxication may exhibit symptoms such as increased heart rate, elevated blood pressure, dilated pupils, excessive sweating, and increased body temperature. They may also experience muscle tension or tremors, headaches, chest pain, and difficulty breathing. Additionally, α-PiHP intoxication can cause gastrointestinal distress, including diarrhea, nausea, and vomiting.

Psychologically, α-PiHP intoxication can lead to agitation, restlessness, irritability, and anxiety. Users may also experience hallucinations, paranoia, and delusions. Sleep disturbances, such as insomnia or excessive sleepiness, can occur as well. It is important to note that the severity of these symptoms can vary depending on factors such as dose, individual sensitivity, and polydrug use.

The effects of α-PiHP can pose substantial risks to the user. The stimulant properties of α-PiHP can put strain on the cardiovascular system, increasing the risk of heart palpitations, arrhythmias, and even heart attacks. Elevated body temperature can lead to dehydration and potentially fatal heatstroke. α-PiHP use also carries a significant risk of psychological harm, including panic attacks, psychosis, and self-harm or suicidal tendencies.

In conclusion, α-PiHP intoxication can manifest through various symptoms, affecting both the physical and psychological well-being of the user. The potential risks associated with its use are significant, including cardiovascular strain, hyperthermia, and mental health complications. It is crucial to educate individuals about these risks to minimize the harm caused by α-PiHP and similar synthetic cathinone derivatives.