3-Amino-5,7-dimethyladamantan-1-ol Hydrochloride: A Key Intermediate for Neurological Therapies
Discover a critical pharmaceutical intermediate vital for advancing research in neurological disorders and drug development.
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3-Amino-5,7-dimethyladamantan-1-ol Hydrochloride
This compound, known by CAS No. 356572-08-2, is a significant pharmaceutical intermediate and a key metabolite of Memantine. It plays a crucial role in the research and development of treatments for various neurological conditions. Its synthesis and availability are paramount for advancing scientific understanding and therapeutic innovation in this field.
- Leveraging advanced chemical synthesis, we provide 3-amino-5,7-dimethyladamantan-1-ol hydrochloride for pharmaceutical research and development.
- As a metabolite of Memantine, this compound is essential for understanding drug efficacy and metabolism in neurological disorder treatment.
- Explore our custom synthesis capabilities for this vital intermediate, supporting your specific project needs in drug discovery.
- We offer high-quality 3-amino-5,7-dimethyladamantan-1-ol hydrochloride, ensuring reliability for critical research applications in neurological therapies.
Key Advantages
High Purity & Quality
Ensuring purity above 95%, this compound is a reliable building block for complex pharmaceutical syntheses, crucial for developing effective treatments for neurological disorders.
Metabolite of Memantine
Its status as a Memantine metabolite makes it invaluable for pharmacokinetic studies and understanding the therapeutic mechanisms in managing conditions like Alzheimer's disease.
Expert Synthesis Capabilities
Benefit from our expertise in custom synthesis and contract synthesis, providing tailored solutions for adamantane derivatives and neurological drug components.
Key Applications
Neurological Disorder Treatment
Investigate its potential in developing new therapeutic agents for conditions affecting the brain and nervous system, a key focus in pharmaceutical research.
Pharmaceutical Research
Utilize this compound in drug design and development, leveraging its unique structure and biological activities for novel medication creation.
Metabolite Studies
Critical for understanding drug metabolism and pharmacokinetics, aiding in the optimization of drug therapies for neurological conditions.
Chemical Synthesis Intermediate
Serve as a versatile building block in complex organic synthesis, particularly for creating advanced adamantane derivatives for medicinal chemistry.