NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to showcasing the multifaceted utility of Microcrystalline Cellulose (MCC) PH 102 within the pharmaceutical industry. This versatile excipient finds application in a wide array of solid dosage forms, demonstrating its adaptability and essential nature in formulation development.

The most prominent application of MCC PH 102 is in the manufacturing of tablets. Its exceptional binding properties facilitate direct compression, allowing for the creation of robust tablets with high hardness and low friability. As a filler or diluent, it provides the necessary bulk for low-dose APIs, ensuring tablets are of a manageable size. Furthermore, its disintegrant properties contribute to prompt drug release, a critical factor for bioavailability.

MCC PH 102 is also highly effective in wet granulation processes. Its ability to absorb water rapidly aids in the formation of granules, and it helps control the moisture content of the wet mass, preventing issues like screen clogging during milling and ensuring more uniform drying. This makes it a valuable excipient for products requiring granulation for improved flow or compressibility.

Beyond traditional tablets, MCC PH 102's properties lend themselves to other solid dosage forms. Its use as a filler in capsules ensures uniform filling and good flow of the powder mixture. It can also be incorporated into powder blends for sachets or oral thin films, contributing to the overall stability and manufacturability of these diverse delivery systems.

The broad compatibility of MCC PH 102 with various APIs and other excipients further expands its application potential. Formulators can confidently integrate it into complex formulations, knowing it will contribute positively to the physical properties and performance of the final product.

NINGBO INNO PHARMCHEM CO.,LTD. provides premium-grade MCC PH 102, empowering pharmaceutical companies to develop innovative and effective solid dosage forms. Its wide range of applications underscores its status as a foundational excipient in pharmaceutical science.