Synthesis and Applications of a Key Calcitriol Intermediate
Discover the essential role of octahydro-1H-inden-4-ol derivatives in the synthesis of calcitriol.
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(1R,3AR,7AR)-1-((S)-1-Hydroxypropyl-2-yl)-7A-methyl Octahydro-1H-inden-4-ol
This compound serves as a critical intermediate in the synthesis of calcitriol, the biologically active form of Vitamin D. Its precise chemical structure and properties make it indispensable for researchers and manufacturers in the pharmaceutical sector, contributing to the development of Vitamin D-related therapeutics.
- Explore the synthesis of calcitriol using this vital intermediate and understand its importance in vitamin D synthesis pathways.
- Delve into the chemical properties of C13H24O2, including its molecular weight and density, crucial for pharmaceutical applications.
- Learn about the specific octahydro-1H-inden-4-ol structure that facilitates the production of calcitriol.
- Investigate its application as a key pharmaceutical intermediate for advanced Vitamin D therapies.
Key Advantages
Purity and Precision
Ensuring high purity is essential when working with pharmaceutical intermediates like this octahydro-1H-inden-4-ol derivative, critical for the successful synthesis of calcitriol.
Role in Vitamin D Synthesis
As an intermediate of calcitriol synthesis, this compound plays a fundamental role in the broader vitamin D metabolic pathway, vital for bone health and other physiological processes.
Research and Development
This chemical structure is a valuable asset for R&D, enabling scientists to explore new vitamin D analogs and improve existing calcitriol production methods.
Key Applications
Calcitriol Production
This compound is a direct precursor, making it essential for the commercial and research-scale production of calcitriol.
Pharmaceutical Intermediate
Its well-defined chemical properties position it as a highly sought-after pharmaceutical intermediate for drug development.
Vitamin D Analogs Research
Researchers utilize this structure to synthesize novel vitamin D analogs with potentially improved therapeutic profiles.
Chemical Synthesis
It serves as a building block in complex organic synthesis, contributing to the creation of advanced chemical compounds.
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