When a ferromagnetic element (e.g., an implant) is placed in a magnetic field, it becomes magnetically energized creating a very strong but localized magnetic field that is far more capable of concentrating magnetic particles at the site of the implant compared to the magnetic field alone. Invasive magnetic implants can be made of needles, wires, stents, catheter tips, and even very magnetic (non-drug carrying) particles. Wires can also be placed just outside the body near the target zone to improve the collection efficiency of the MDCPs. Finally, magnetic implants can be placed in the body at the target site by transdermal injection through the skin using a specially designed syringe, or through the use of catheters.
With this in mind, a series of theoretical, in vitro and in vivo studies are being carried out to evaluate the magnetic capture of polymeric magnetic particles by the use of a ferromagnetic wire as a possible implant. The in vitro studies are being done to guide the in vivo studies with rat models, and the theoretical studies are being done to guide both the in vitro and in vivo studies to gain a fundamental understanding of the underlying and controlling principles. Key parameters that are being studied, as they are considered to be fundamental to the IA-MDT approach, include the velocity of the suspension flow, the external magnetic field strength, the radius and location of the wire, and the properties of the magnetic particles.
This presentation will provide an overview of the different approaches where IA-MDT can be used to enhance the collection of MDCPs at targeted sites. It will also provide a summary of the most recent findings from the theoretical, in vitro and/or in vivo studies. The interesting notion is that the collection may have to take place in blood vessels ranging from large arteries where exceedingly high velocities exist to capillary networks where exceedingly low velocities exist. In this light, this presentation will also discuss the current challenges being faced by IA-MDT, especially with respect to the in vivo studies, which are slowly being overcome based on recent experimental and theoretical research.