The magnetofection method: using magnetic force to enhance gene delivery.

In order to enhance and target gene delivery we have previously established a novel method, termed magnetofection, which uses magnetic force acting on gene vectors that are associated with magnetic particles. Here we review the benefits, the mechanism and the potential of the method with regard to overcoming physical limitations to gene delivery. Magnetic particle chemistry and physics are discussed, followed by a detailed presentation of vector formulation and optimization work.

Nonviral vector loaded collagen sponges for sustained gene delivery in vitro and in vivo.

Background: Naked DNA and standard vectors have previously been used for gene delivery from implantable carrier matrices with great potential for gene therapeutic assistance of wound healing or tissue engineering. We have previously developed copolymer-protected gene vectors which are inert towards opsonization. Here we examine their potency in carrier-mediated gene delivery in comparison to standard vectors using a vector-loaded collagen sponge model.