Nanotechnology
Providing the small details for big returns
Into the nano range
Welcome to the intricate and impactful World of Nanotechnology in Formulation Science. Nanotechnology operates on an incredibly small scale, dealing with the manipulation of atoms and molecules. This precision has profound implications in the pharmaceutical industry, significantly transforming the landscape of medical treatment. Through nanotechnology, we are able to enhance the efficacy of medications and refine drug delivery systems, achieving levels of effectiveness and precision previously unattainable. Nanotechnology is not merely contributing to current healthcare practices. It is pioneering a new realm of therapeutic possibilities and advancements.
Bringing Nanotech to Life in Pharma
At Innoeco, we are redefining the pharmaceutical industry with our advanced expertise in nanotechnology. Our team is headed by two distinguished pharmaceutical scientists, each with a comprehensive academic background in pharmacy and extensive practical laboratory experience. Their expertise extends to the sophisticated manipulation of both inorganic and organic nanoparticles, coupled with proficiency in low-energy manufacturing processes. This expertise is particularly crucial for the stabilization of volatile compounds. Innoeco excels at transforming innovative concepts into scalable, practical applications, leading the way in applying nanotechnology in pharmaceuticals.
Nanoparticles are on the market
Nanoparticles have brought about groundbreaking advancements in healthcare, addressing complex medical challenges with innovative solutions. In cancer treatment, for instance, the development of Abraxane, a nanoparticle-bound form of the chemotherapeutic agent paclitaxel, has improved the efficacy and reduced the side effects in treating cancers like breast cancer. Similarly, in targeted drug delivery, the FDA-approved nano-drug, Ferumoxytol, is used for treating iron deficiency anaemia in patients with chronic kidney disease, showcasing nanoparticles' ability to improve the precision of treatment. Another significant application is in diagnostic imaging; nanoparticles like superparamagnetic iron oxide are used as contrast agents in MRI scans, enhancing the clarity and accuracy of imaging. Additionally, nanoparticles have been employed in the realm of vaccines to create more effective vaccine delivery systems, as seen in the development of Novavax's COVID-19 vaccine, which uses nanoparticle technology to enhance immune response. These instances highlight the transformative role of nanoparticles in enhancing treatment efficacy, precision, and diagnostic capabilities in the healthcare sector.
