Research and development types of common pharmaceutical intermediates
01. Vitamin intermediates
For example, sorbitol for the production of vitamin C, isophytol for vitamin E and important intermediates for the synthesis of vitamin E and vitamin A β- Ionone has great market demand and broad prospects.
02. Heterocyclic compounds
It is widely used in medicine, pesticide and veterinary medicine, most of which are parent (nuclear). For example, kosoya (Losartan Potassium Tablets) and loxoxil (amlodipine) for the treatment of hypertension are heterocyclic compounds; The main heterocyclic compounds are imidazole, thiazole, triazole, pyridine, pyrimidine, piperazine and triazine and some of their derivatives.
03. Fluorinated compounds
Introduce new elements into pharmaceutical intermediates to improve. The most successful application is fluorine. At present, there are hundreds of fluorinated drugs at home and abroad, and many drugs have become the main varieties for the treatment of some diseases. Fluorinated drugs have the characteristics of low dosage, low toxicity, high efficacy and strong metabolic capacity, and play an important role in the pharmaceutical industry.
04. Chiral compounds
Compounds obtained by asymmetric synthesis or resolution on the basis of stereochemistry. Chiral compounds are very important organic compounds with a wide range of applications.
With the development of biotechnology, people will use the microbial approach to develop new chiral product separation enzymes and microbial strains, which can be used to produce various chiral amines, chiral amino acids and other chiral intermediates.
In order to shorten the R & D cycle of new drugs, reduce the R & D costs of new drugs and improve the capital turnover rate, intermediates are generally outsourced and customized.
It has rich experience in optimizing intermediate and API processes and developing new, safe and environment-friendly process routes. It is committed to developing stable, low-cost processes suitable for mass production for customers.
05. Biological compounds
DNA recombination technology, cell engineering technology and enzyme engineering technology are applied to research and treat cardiovascular diseases, diabetes, hepatitis, tumor, anti-aging and other medicines, and modern biotechnology is applied to transform the traditional pharmaceutical industry.