A new drug delivery method has been developed that can prove useful to patients suffering from asthma, cystic fibrosis, human immunodeficiency virus (HIV), cancer, or those exposed to corticosteroid medications for an extended duration.Scientists have used a chitin synthesis fungicide, Nikkomycin, to develop Nikkomycin-loaded polymeric nanoparticles. Nikkomycin is produced by the bacterial Streptomyces spp.
Chitin
- Chitin is a strong, natural material found in the outer shells of insects, crabs, lobsters, and other arthropods, as well as in the cell walls of fungi but not found in the human body.
- It’s made up of long chains of glucose molecules, similar to cellulose in plants.
- Chitin provides structural support and protection, acting like a tough armour for these organisms.
- In insects and crustaceans, it forms a hard exoskeleton that helps them keep their shape and defend against predators.
- In fungi, chitin strengthens the cell walls, helping the organism maintain its form and protect itself from environmental stress.
Key Facts about Nano Drug Delivery
- About Nanotechnology: Nanotechnology is the science of designing, producing, and using systems by manipulating atoms and molecules at the nanoscale i.e. having one or more dimensions of the particle of 100 nanometres or less.
- Nano Drug Delivery: It involves delivering drugs to a specific target site.
- Nanoparticles can entrap drugs or biomolecules into their interior structures and/or absorb drugs onto their exterior surfaces to deliver drugs at a designated site in the body.
- Recent Development in Nano Drug Delivery: Nikkomycin-loaded polymeric nanoparticles were found to disrupt the growth of Aspergillus spp and were found effective against fungal infection known as Aspergillosis.
- Significance: The use of polymeric nanoparticles is the most advanced method of drug delivery. The resistance to the existing Azole drugs (antifungal drugs) is a matter of concern and hence we need better methods of drug delivery for effective medication.
- Future Prospects: It can help in the development of inhalation nanoformulations against pulmonary aspergillosis.Scientists are optimistic about expanding antifungal nanoformulations and exploring public-private partnerships for future commercialization.
Role of Nanotechnology in the Healthcare Sector
- Precision Medicine: Nanoparticles are engineered to deliver drugs directly to disease sites like cancer cells, reducing the damage to healthy tissues. e.g., liposomes, a type of nanoparticle, are used to deliver chemotherapy drugs more precisely, minimising side effects.Nanoparticles are being investigated for their ability to improve vaccine efficacy by delivering antigens directly to immune cells
- Improved Diagnostics and Imaging: Gold nanoparticles are used as probes for detecting specific DNA or RNA sequences, enhancing the sensitivity and accuracy of diagnostic tests.
- Regenerative Medicine: Nanomaterials are used to create scaffolds that mimic the structure of bone, promoting the growth of new bone tissue in patients with fractures or bone loss.
- Gene Therapy: Advanced nanopore technologies are being developed for gene sequencing, allowing for rapid, low-cost, and accurate DNA analysis.
- Antimicrobial Treatments: Silver nanoparticles are incorporated into wound dressings and coatings for medical devices to prevent infections due to their strong antimicrobial properties.