Magnetic Driven Drug Delivery Technology (MDDDT) Market
Due to the substantial advantages they provide in terms of drug stability, bioavailability, dose, and shelf-life, nanotechnology-based platforms are becoming increasingly important in research and commercial development. Different sectors utilize different kinds of nano-carriers or nanoparticles to meet their unique needs, including liposomes, dendrimers, magnetic particles, silica nanoparticles, silver nanoparticles, carbon nanoparticles,ย polymeric micelles,ย and drug-conjugate nanoparticles.
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The non-targeted nature of the existing chemotherapeutic medications is a significant problem. Both healthy and malignant cells can be harmed by free-flowing drug particles. Anti-cancer medications must enter the cytoplasm of the tumor cells in order to be more effective. This can be done using the techniques that are currently accessible by injecting directly into the tumor or by giving a large dose of the medicine, which can have unpleasant side effects and be costly and uncomfortable. As a result, scientists began investigating the use of magnetic particles to direct medications towards their intended targets.
Super-paramagnetic Crystals
Diagnostics was the first area in which magnetic nanoparticles were used in medical applications. The body’s nano-crystals are directed to the target tumor site using magnetic driven drug delivery technology using an external magnetic field. The aim of delivering the medication to the target site has advanced in several investigations on this technology. One study also showed the usage of magnetic nano-composite membranes in a remotely controlled drug delivery system that can help control the release of the medicine. Super-paramagnetic crystals that can be steered through the human body to deliver drugs to the target spot have just been created by Chinese researchers from Quingdou University of Science and Technology. Although super-paramagnetic crystals have been known for a long time, their tiny size has hindered their widespread use. The removal of a magnetic field would cause small crystals to clump together, which is difficult to regulate. As a result, the scientists created crystals that are somewhat larger and more responsive to an external magnetic field.
Magnetic Microbubbles
Small drug-coated bubbles have been developed by Singaporean scientists as a unique means of delivering cancer medications to tumour cells. Iron oxide nanoparticles and medicinal particles are coated on the microscopic bubbles. The bubbles gather around the selected tumour cell using a magnet. The drug particles are then guided towards the target cell by vibrating the bubbles using an ultrasonic device. Clinicians would really be able to introduce anticancer treatments deeply within tumor problems and localizeย the drugs around tumors. It is anticipated that the study will begin clinical trials in the next eight to ten years.
Conclusion
The pharmaceutical and biotechnology industries have a significant problem in delivering medications safely and effectively. The use of nanoparticle drug delivery technology to combat the problem of multi-drug resistance in antibiotic and cancer therapy has shown encouraging outcomes. Additionally, research advancements have made it possible for medications to be released gradually, allowing for a lower dosage and longer-lasting effects. In the field of life sciences, there is currently a second trend of innovation that delivers medications in the proper dose to the desired location.
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International research on magnetically powered drug delivery technologies is ongoing. However, in order to commercialize this technique in the near future, compelling results for FDA approval and significant investments are needed.
Key Developments
Major research and development projects to create new magnetic-driven drug delivery technologies are anticipated to provide profitable prospects for market participants. For example, in August 2019, Massachusetts Institute of Technology researchers created the remotely controlled chemo magnetic modulation technology, which uses nanomaterial and enables the pharmacological interrogation of specific neuronal populations in freely moving people. Drugs can be delivered using this method at preset times and locations.
Similar to this, Purdue University researchers claimed the creation of a minimally invasive automatic antidote delivery device in May 2019 that automatically distributes medication to reverse opioid. When the sensor notices a low respiration rate, the wearable device’s magnetic field generator starts to work. In the body, a medicine capsule is heated by the magnetic field generator for 10 seconds, causing naloxone to be released.
Additionally, in September 2018, Sun Yat-Sen University researchers in China created a unique method for multimodal visualization of eccentric magnetic microcapsules (EMMs) for a prospective hepatocellular carcinoma treatment.
Table of Content
Global Magnetic Driven Drug Delivery Technology Market Research Report
Section 1: Global Magnetic Driven Drug Delivery Technology Industry Overview
Section 2: Global Economic Impact on Magnetic Driven Drug Delivery Technology Industry
Section 3: Global Market Competition by Industry Producers
Section 4: Global Productions, Revenue (Value), according to Regions
Section 5: Global Supplies (Production), Consumption, Export, Import, geographically
Section 6: Global Productions, Revenue (Value), Price Trend, Product Type
Section 7: Global Market Analysis, on the basis of Application
Section 8: Magnetic Driven Drug Delivery Technology Market Pricing Analysis
Section 9: Market Chain, Sourcing Strategy, and Downstream Buyers
Section 10: Strategies and key policies by Distributors/Suppliers/Traders
Section 11: Key Marketing Strategy Analysis, by Market Vendors
Section 12: Market Effect Factors Analysis
Section 13: Global Magnetic Driven Drug Delivery Technology Market Forecast
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