What are the pharmacological effects of the compound with CAS: 67 - 63 - 0?
The compound with CAS: 67 - 63 - 0 is isopropanol, which is also known as isopropyl alcohol. It is a common organic compound with a wide range of applications, including in the pharmacological field. As a trusted supplier of CAS: 67 - 63 - 0, we are here to delve into its pharmacological effects and potential applications.
Antiseptic and Disinfectant Properties
One of the most well - known pharmacological effects of isopropanol is its antiseptic and disinfectant capabilities. Isopropanol works by denaturing proteins in bacteria, viruses, and fungi, leading to their destruction. It can effectively kill a variety of microorganisms, including Staphylococcus aureus, Escherichia coli, and many common viruses.
In the medical and healthcare settings, isopropanol is commonly used as a skin disinfectant before injections, surgeries, or other invasive procedures. It can quickly reduce the microbial load on the skin surface, thereby reducing the risk of infection. For example, a 70% isopropanol solution is often recommended for skin disinfection because it has the optimal balance between evaporation rate and antibacterial efficacy. The water in the 70% solution helps the isopropanol penetrate the cell walls of microorganisms more effectively, enhancing its antibacterial activity compared to higher - concentration solutions that may evaporate too quickly to fully exert their effects.
In addition to skin disinfection, isopropanol is also used for disinfecting medical equipment, such as thermometers, stethoscopes, and small surgical instruments. It can be used in wipes or sprays for easy application on these devices, ensuring that they are safe for repeated use and preventing the spread of infectious diseases.
Solvent for Medications
Isopropanol is also an important solvent in the pharmaceutical industry. Many drugs are not soluble in water but can dissolve in isopropanol. By using isopropanol as a solvent, pharmaceutical companies can formulate drugs in various dosage forms, such as solutions, suspensions, and ointments.
For instance, some topical medications, like certain antifungal creams and antibacterial lotions, use isopropanol as a solvent to dissolve the active ingredients and ensure their even distribution in the formulation. This allows for better absorption of the drug through the skin and improves its therapeutic effect. Isopropanol can also be used in the extraction of active compounds from natural sources during the drug development process. It can help dissolve and separate the target compounds from plant materials or other sources, making it an essential tool in the production of herbal medicines and some advanced pharmaceuticals.
Anti - inflammatory Effects
Although not as widely recognized as its antiseptic and solvent properties, isopropanol may have some potential anti - inflammatory effects. In some animal studies, it has been shown that isopropanol can reduce the production of certain inflammatory mediators, such as cytokines. These cytokines are substances that play a key role in the immune response and inflammation. By modulating their production, isopropanol may be able to alleviate some inflammatory symptoms.
However, more research is needed to fully understand the mechanisms and potential clinical applications of isopropanol's anti - inflammatory effects. At present, it is mainly used topically in some formulations for skin conditions that may have an inflammatory component, such as minor burns or insect bites, to provide relief and prevent secondary infections.
Comparison with Other Alcohols
It is interesting to compare isopropanol with other common alcohols in the pharmacological context. Methanol, for example, is a toxic alcohol and is not used for pharmacological purposes due to its high toxicity. However, it has industrial applications, such as in Methanol – Lubricant Additive Grade For Industrial Oils.
Ethanol is another widely used alcohol in the pharmaceutical field. Like isopropanol, ethanol is also an effective antiseptic and disinfectant. However, isopropanol generally has a stronger antibacterial effect than ethanol at the same concentration. Ethanol is commonly used in the production of Absolute Ethanol – Laboratory & Industrial Grade Solvent and Pharmaceutical Preparation - Grade 95% Ethanol For Tablet Coating. Each alcohol has its unique properties and applications, and the choice between them depends on the specific requirements of the pharmacological or industrial process.
Our Role as a Supplier
As a supplier of CAS: 67 - 63 - 0 (isopropanol), we are committed to providing high - quality products. Our isopropanol is produced under strict quality control measures to ensure its purity and consistency. We understand the importance of this compound in the pharmacological and other industries, and we strive to meet the diverse needs of our customers.
Whether you are a pharmaceutical manufacturer, a healthcare provider, or an industrial user, we can offer you isopropanol in various grades and quantities. Our products are suitable for a wide range of applications, from medical disinfection to drug formulation.


If you are interested in purchasing our CAS: 67 - 63 - 0 products, please feel free to contact us for further information and to start a procurement negotiation. We are looking forward to establishing a long - term and mutually beneficial partnership with you.
References
- Block, S. S. (Ed.). (2001). Disinfection, sterilization, and preservation. Lippincott Williams & Wilkins.
- Rowe, R. C., Sheskey, P. J., & Quinn, M. E. (Eds.). (2009). Handbook of pharmaceutical excipients. Pharmaceutical Press.
- Koda - Kimble, M. A., Young, L. Y., Kradjan, W. A., & Alldredge, B. K. (2013). Applied therapeutics: the clinical use of drugs. Lippincott Williams & Wilkins.
