Description
🌟 Sunifiram – The Cognitive Catalyst 🌟
CAS Number | 314728-85-3 |
---|---|
Purity | ≥ 99.12% |
Form | Crystalline or White Powder |
Chemical Formula | C14H18N2O2 |
Molar Mass | 246.310 g·mol⁻¹ |
Net Weight | 1000 mg |
Packaging | Aluminum Foil Bag |
Use | For laboratory research use only. Not intended for ingestion. |
🔍 Overview of Sunifiram
Sunifiram, also known by its chemical designation DM-235, is a synthetic nootropic compound that has rapidly gained popularity due to its remarkable ability to enhance cognitive functions. As a member of the ampakine family, Sunifiram works by influencing AMPA receptors in the brain, leading to improvements in memory, learning, and focus. This action makes it an exciting subject for researchers aiming to explore cognitive enhancement. Despite its popularity, researchers still seek a deeper understanding of its long-term effects and applications in cognitive disorders.
✨ Key Features and Properties
- PURITY AND FORM: Sunifiram appears as a crystalline or white powder, with ≥ 99.12% purity, ensuring the accuracy and reliability of experimental results.
- CHEMICAL PROFILE: Its molecular formula is C14H18N2O2, with a molar mass of 246.310 g/mol, providing essential data to support scientific research and experiments.
- SECURE PACKAGING: The compound is carefully packaged in an aluminum foil bag to maintain its integrity and protect it from external contaminants.
- LABORATORY USE: Sunifiram is intended exclusively for research purposes and is not approved for medical or dietary use. Its safety and efficacy must be studied in controlled environments.
🧠 Mechanism of Action
Sunifiram acts as a positive allosteric modulator of AMPA receptors, a subtype of glutamate receptors that play a crucial role in synaptic plasticity and memory formation. By enhancing the activity of these receptors, Sunifiram promotes neuronal communication, leading to improvements in cognitive functions such as memory, learning, and mental clarity. Its action on AMPA receptors enhances synaptic plasticity, a process vital for long-term memory and learning. As such, Sunifiram has gained attention for its potential to support cognitive enhancement and its ability to facilitate more efficient neural communication.
📚 Applications in Research
🔎 Enhanced Concentration
Sunifiram has shown significant potential in improving focus and mental alertness. Researchers have observed that it may enhance cognitive performance, especially in tasks that require sustained attention. By stimulating the AMPA receptors, it could promote better concentration over extended periods, making it an ideal candidate for studies on attention and focus. These improvements could translate into more efficient work and better performance in environments that demand heightened focus.
🧠 Memory Improvement
Studies in animal models consistently demonstrate that Sunifiram improves memory retention, particularly working memory. Working memory is essential for tasks that involve holding and manipulating information, and research suggests that Sunifiram enhances this cognitive function. These findings open up new possibilities for exploring how Sunifiram could be used to combat memory-related disorders, such as Alzheimer’s disease and other forms of cognitive decline. Researchers have started to investigate whether Sunifiram can offer neuroprotective benefits that help to preserve memory function over time.
📖 Facilitated Learning
Sunifiram accelerates the learning process by improving concentration and memory. This makes it a valuable subject in educational research, where it may help optimize learning strategies. Researchers are particularly interested in its potential to enhance cognitive performance in educational settings. Sunifiram’s effect on learning could be explored further to determine if it can be used to support students in environments such as schools, universities, or professional training programs, particularly in subjects that require quick comprehension and retention of information.
😌 Mood Enhancement
There is growing interest in Sunifiram’s potential to influence mood. Early studies suggest it may have mood-lifting effects, which could be beneficial for individuals suffering from mood disorders such as depression or anxiety. Researchers are exploring how Sunifiram’s ability to modulate AMPA receptors may play a role in the brain’s emotional regulation pathways. If future studies confirm its positive impact on mood, Sunifiram could become an important compound in the field of mood disorder research, offering new treatment possibilities.
🛡️ Neuroprotective Potential
Sunifiram’s effects on synaptic plasticity and neuronal communication may contribute to its neuroprotective properties. Preliminary studies suggest that it could help protect the brain from cognitive decline and neurodegenerative diseases.
📜 History and Development
⚖️ Legal and Safety Considerations
Although Sunifiram has gained attention for its cognitive-enhancing properties, it is not approved for medical use in many regions. As such, it is critical for researchers to comply with local regulations and handle Sunifiram responsibly in laboratory settings. Researchers should also ensure that they follow proper safety protocols to minimize any potential risks associated with working with nootropic compounds. Sunifiram is strictly for research purposes and should never be used outside of a controlled environment. Researchers should always prioritize safety and use the appropriate protective equipment when handling the compound.
- FOR RESEARCH ONLY: This product is not intended for human or animal consumption.
- STORAGE: Store in a cool, dry place, away from sunlight and moisture to preserve its integrity.
- SAFETY GEAR: Researchers should always wear gloves, goggles, and lab coats to protect themselves while handling Sunifiram.
- SIDE EFFECTS: Although rare, improper handling of Sunifiram may lead to overstimulation, headaches, or other side effects. Researchers should carefully monitor participants for any adverse reactions.
📊 Research Studies and Findings
Several studies have highlighted Sunifiram’s potential to improve memory and cognitive performance.
However, as with many new compounds, further research is necessary to confirm Sunifiram’s effects in humans. While preliminary animal studies are promising, they are not always directly translatable to human conditions. Therefore, clinical trials and human studies are essential to determine if researchers can replicate the cognitive benefits observed in animal models in humans. As the body of evidence grows, researchers will gain a better understanding of its potential applications and limitations.
⚠️ Disclaimer
Our company provides Sunifiram strictly for research purposes only. It is not a drug, dietary supplement, or medical treatment. Researchers are responsible for adhering to local regulations and safety guidelines when working with this compound. Proper handling and storage are crucial to ensure a safe research experience. Always use Sunifiram in a laboratory setting and avoid any form of ingestion or non-research use. By following these precautions, researchers can explore its cognitive-enhancing properties responsibly and safely.
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