Bromantane (N-(4-Bromophenyl) adamantane-2-amine, Ladasten) is a research compound with its origins in Russia during the late 1980s. Belonging to the Adamantane family (a family of drugs developed for Parkinson’s patients), this chemical exhibits dual properties, acting as both an anxiolytic and stimulant.
As a synthetic adaptogen, Bromantane holds considerable promise across various applications. Its specific mechanism of action, while not fully understood, appears to influence dopamine and potentially serotonin levels. Ongoing studies are diligently exploring the wide array of benefits associated with Bromantane, as well as establishing the optimal dosage for different purposes.
A prevailing theory posits that Bromantane may act as an actoprotective or adaptogenic agent, stimulating increased dopamine production and explaining bromantane’s dopaminergic effect. Additionally, researchers have observed that bromantane improves testosterone since it could belong to a class of compounds called “actoprotectors.” From here, bromantane may be likened to Bemethyl, albeit Bromantane is more potent.
The multifaceted effects and potential applications of Bromantane still require more research studies. Buy Bromantane for research usage only.
Bromantane Product Details
Bromantane is derived from adamantane and it falls into the category of actoprotectors.
Recent research has suggested a number of Bromantane’s alleged positive effects. One suggested Bromantane’s benefit is to heighten energy levels and improve dopamine production. Some even suggested high dopamine biasedly enforces synaptogenesis.
As the research on Bromantane continues to unfold, its role as a potent cognitive enhancer and anxiolytic agent appears increasingly promising. However, Bromantane is still considered an experimental chemical, meaning it is not advisable for human consumption.
- CAS Number 87913-26-6
- Molar Mass 306.304 g/mol
- Chemical Formula C16H20BrN
- IUPAC Name 1-(4-bromophenyl)-2-adamantanamine
- Solubility: Ethyl acetate and chloroform
- Also known by Synonyms Ladasten, Bromantan, 2-adamantanamine, 1-(4-bromophenyl)-, Bromantano
Key Features of Bromantane
- 98% Purity
Potential Benefits of Bromantane
Bromantane and Neurasthenia
Neurasthenia, characterized by fatigue, headaches, mental fatigue, and insomnia, can be debilitating. Fortunately, bromantane shows promise in alleviating these symptoms and improving the quality of life for affected individuals. [R]
A significant study involving over 700 people with neurasthenia found that bromantane doses of 50 mg and 100 mg reduced symptoms and improved sleep. With only 3% experiencing minor side effects, bromantane emerges as an effective therapeutic option for managing neurasthenia. [R]
Another separate month-long study on neurasthenia patients confirmed bromantane’s efficacy in alleviating symptoms, offering hope to those suffering from this condition. [R]
Bromantane appears to influence brain activity levels in individuals with neurasthenia, affecting alpha and beta wave patterns, providing new avenues for research on its neural modulation effects. [R]
Bromantane and Brain Function
Bromantane holds promise not only as a treatment for neurasthenia but also for enhancing brain function and reducing anxiety. [R]
Clinical trials and rat studies consistently demonstrate bromantane’s anxiolytic effects. It positively influences brain chemistry by increasing dopamine and serotonin levels, contributing to stress reduction and mood enhancement. [R]
In a study with ten healthy subjects, bromantane showcased its ability to improve productivity, vigilance, and motor performance, highlighting its potential as a cognitive and physical enhancer. [R]
Moreover, rat studies revealed that bromantane can boost short-term memory, motivation, planning abilities, and attention, expanding its potential applications beyond neurasthenia. [R]
Bromantane and Immune System
Bromantane’s impact on the immune system is noteworthy, especially in challenging conditions.
Rat studies demonstrate that bromantane stimulates the immune system, enhancing toxin resistance, and increasing B-cell levels. These properties have potential implications for fatigue recovery, combating stressors like high temperatures, and adapting to low oxygen levels. [R][R]
Bromantane purportedly exhibits anti-inflammatory effects as suggested by a research study involving mice. [R]
Bromantane and Reproduction
Animal studies, particularly focusing on mice, explore bromantane’s effects on reproduction. It led to increased sperm count and motility in male mice and showed the potential to reduce embryo loss in female mice. These findings suggest potential applications in reproductive health, warranting further research. [R]
How It Works
Upon administration, Bromantane undergoes rapid absorption from the gastrointestinal tract, boasting a bioavailability of approximately 42%. This swift absorption paves the way for extensive distribution throughout various tissues and organs in the body, with subsequent slow elimination over time.
Owing to its high lipophilicity, Bromantane has a propensity to accumulate in brain lipids and fat tissues before being deposited in adipose tissue. Notably, gender-related differences in absorption rates lead to a shorter half-life in women compared to men.
Pharmacologically, Bromantane exhibits an antiasthenic effect, bolstering resistance to overheating and aiding in the restoration of physical performance after intense physical activities. It is believed to enhance spontaneous motor activity, inhibit fatigue development, and expedite recovery under both standard conditions and challenging situations, such as those complicated by hypoxia (low oxygen levels) and hyperthermia (high body temperature).
Certain research groups believe that Bromantane’s effect on athletic ability is multi-faceted and it may draw influence from a mammalian central nervous system.
When researching the use of Bromantane, it is essential to take certain precautions. Here are some precautions to keep in mind:
Observe best practices for studying research chemicals: Studying research chemicals requires a responsible and informed approach to ensure safety and meaningful scientific exploration. Research chemicals, also known as designer drugs or experimental compounds, are substances synthesized for scientific investigation or exploration of their properties.
Follow recommended dosage: Adhere to the recommended dosage instructions outlined on the product label. Avoid exceeding the suggested dose to minimize the risk of potential adverse effects among test subjects.
Potential Side Effects
Bromantane is widely regarded as a non-addictive substance, and early research indicates that it is generally well-tolerated with no significant side effects. However, it is crucial to acknowledge that in some laboratory settings, test subjects have reported experiencing symptoms such as brain fog, depression, and fatigue associated with its use.
While the majority of studies point to a favorable safety profile, it is important not to overlook the potential for variability in response to Bromantane. Like any pharmacological agent, individual effects may differ among test subjects.
As our understanding of Bromantane’s mechanisms and effects continues to advance, further research will provide more insights into its safety and potential adverse reactions.
In conclusion, Bromantane, with its unique chemical structure (N-(4-Bromophenyl) adamantan-2-amine), could offer a myriad of benefits that make it an intriguing compound for various applications. One of its alleged advantages lies in its dopaminergic effect, which can lead to improved dopamine levels and positively impact the central nervous system. This dual protective measure not only enhances brain function but also exhibits an anxiolytic effect, reducing anxiety and stress.
Additionally, Bromantane has shown promise in improving testosterone levels, contributing to better tissue oxygenation and bolstering physical performance. Its role as a stronger antioxidant and anti-inflammatory agent draws influence from its ability to increase neurotrophins while reducing neuroinflammation. Moreover, Bromantane has demonstrated antihypoxic effects, making it beneficial for conditions involving low oxygen levels.
The absolute bioavailability of Bromantane, when administered orally among laboratory models, is approximately 42%, and its benefits can last for a considerable duration, offering potential therapeutic applications for various disorders. Furthermore, studies have highlighted the compound’s potential to protect dopamine neurons from abnormally high dopamine levels, a valuable trait that could help mitigate detriments caused by other substances.
Although Bromantane powder has been associated with mild side effects in some cases, the majority of research suggests it is generally well-tolerated with no significant adverse reactions. As our understanding of this compound advances, it opens up new avenues for exploring its potential in medicine and human performance optimization.
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