Technology is revolutionizing drug delivery by offering advanced solutions and methods.
FREMONT, CA: Today, medical professionals are experiencing massive transformation in the ways of drug delivery. Innovation offers numerous options for drug delivery technologies with improved production efficiency and safety, as well as patient convenience and compliance. In the present days, smart drug delivery technologies involve needle-free drug delivery, targeted penetration drug matrix technology, location specifics nano-devices, transdermal drug delivery, filter-based delivery, and more.
Needle-free drug delivery
The needle-free drug delivery technology proves to be a safe and ergonomic solution that can target a specific range of delivery volumes. The technology uses mathematical modeling and fluid dynamics to demonstrate precise drug delivery performance. The needle-free drug delivery solution releases a fine liquid jet with initial peak pressure to penetrate the skin before delivering the low-level influence of drug doses, with user safety, tolerability, and sensation. The novel mechanism is available in different ranges, allowing medical professionals to explore solutions for different drug delivery challenges. The increasing demand for needle-free drug delivery technology displays its performance efficiencies. The innovative solution allows the doctors to maintain consistent vaccine delivery, eliminating the threat of broken needles, and enabling higher antigen dispersion.
Microsphere drug delivery
Microsphere drug delivery technology carries the drug and maximizes drug concentration at the target sites. The technology offers controlled release of drug through drug-encapsulating devices for an extended period. The system allows medical professionals to effectively tailor drug release rates, provide protection from fragile medicines, and increase patient comfort and compliance. The ideal delivery vehicle carries abilities such as encapsulating a variety of drugs and releasing drugs sustainably. There are different types of microspheres available on the market; some of them are bio-adhesive, radioactive, polymeric, and biodegradable. The innovative drug delivery system can follow the desired drug delivery route and offer options of drug modification as well. Microsphere enables individual therapy and improves the stability of the medicinal preparations.
In recent years, medical professionals are using Extracellular Vesicles (EVs) to deliver medicines to specific areas. EVs potentially offer several advantages in the field of nano-medicine, cosmetics, and nutraceuticals by drug delivery abilities. The solution can allow the development of natural nano-carriers for drug delivery in specific tissues such as brain, lungs, skin, dendritic, or tumor cells. The integrated technology implementation starts by selecting a source of EVs by measuring its purity and quality level to act as an effective natural nano-carriers. Technology contributes to modifying EVs to contain specific proteins, genetic lipids, and genetic materials, including micro-RNA and other non-coding RNAs. The advancement of natural carriers for a drug can open doors to numerous medicinal possibilities.
Oral transmucosal delivery
Oral transmucosal drug delivery is a novel approach for extending the drug dosages from its retention time and deliver complex molecules such as proteins and peptides. The technique utilizes the oral mucosa as a mean of introducing systemic agents and aims to provide a drug locally. The transmucosal drug delivery uses patch forms of transportation, which provides the advantages of rapid onset, sustained release, and instant decrease in the drug after the patch release. The transmucosal drug delivery avoids harsh acids and enzyme encounter during the digestion, offering a promising treatment method for specialists, including pediatric and periodontal practice.
Today, advanced drug delivery systems are driving medical care to the edge of next-generation treatment methods. With the technological advantages of controlled release of drugs, including its quantity and its location, drug delivery systems have become more stable and soluble. The advanced technology plays an integral role in the development of biomedical applications and makes way for future possibilities.