Nowadays, increasing demand for natural plant bioactive elements can be seen. These elements play an important role in treating chronic diseases, such as cancer, diabetics, neurological diseases, and other chronic diseases. This demand has paved a path to inter-collaboration across various research works including medicinal, nutraceuticals, functional food, and pharmaceuticals. This is the reason behind the increasing importance of microfluidizer technology for nanoencapsulation. Go through this article to learn more about this.
What is Nanoencapsulation?
Nanoencapsulation is a process of encapsulating substances with multiple coating materials at the nanoscale range. This process is used in the pharmaceutical, food, and cosmetic industry.
It is attributed to its ability to preserve active pharmaceutical ingredients (API) from degradation. Moreover, the use of microfluidizer technology for nanoencapsulation helps enhance the precision of drug delivery targets by using surface coating/conjugating that makes sure that ample cell entry is happening.
Microfluidization-based nanodelivery system used with bioactive compounds is a technology, which can make tremendous progress in generating multiple nanodelivery systems, such as SLNs, nanoemulsions, nanoliposomes, etc. This technique can create stable and reproducible nanosystems of specific drugs. Microfluidizer for nanoencapsulation technology also encourages higher bioavailability and bioaccessibility of the encapsulated plant-based bioactive compounds. Many microfluidization drugs are available in the commercial market, which drugs can be used in the treatment of various severe diseases.
No doubt that the use of microfuildization has been proved to be very beneficial in the area of nanoencapsulation. In the future, it will further open many doors to the pharmaceutical industry and medical practitioners.