Horst A. von Recum scite author profile

Although the systemic administration of a number of different gene products has been shown to result in the inhibition of angiogenesis and tumor growth in different animal tumor models, the relative potency of those gene products has not been studied rigorously. To address this issue, recombinant adenoviruses encoding angiostatin, endostatin, and the ligand-binding ectodomains of the vascular endothelial growth factor receptors Flk1, Flt1, and neuropilin were generated and used to systemically deliver the different gene products in several different preexisting murine tumor models. Single i.v. injections of viruses encoding soluble forms of Flk1 or Flt1 resulted in Ϸ80% inhibition of preexisting tumor growth in murine models involving both murine (Lewis lung carcinoma, T241 fibrosarcoma) and human (BxPC3 pancreatic carcinoma) tumors. In contrast, adenoviruses encoding angiostatin, endostatin, or neuropilin were significantly less effective. A strong correlation was observed between the effects of the different viruses on tumor growth and the activity of the viruses in the inhibition of corneal micropocket angiogenesis. These data underscore the need for comparative analyses of different therapeutic approaches that target tumor angiogenesis and provide a rationale for the selection of specific antiangiogenic gene products as lead candidates for use in gene therapy approaches aimed at the treatment of malignant and ocular disorders.

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Affinity‐Based Drug Delivery

Wang

Recum

2010

Macromolecular Bioscience

179

146

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Affinity-based drug delivery systems utilize interactions between the therapeutic drug and the delivery system to manipulate drug loading and to control drug release. In this paper, affinity-based drug delivery system syntheses, types of therapeutic factors delivered, and delivery system loading and release are discussed in detail. The paper is divided into three subsections, based on the type of delivery system: molecular imprinting systems, growth-factor delivery, and cyclodextrin-based delivery. The objective of this paper is to examine the current state of research, highlight the breakthroughs and challenges, point out potential impacts of this relatively new technology, and explore future developmental areas.

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Horst A. von Recum

Electrospinning: Applications in drug delivery and tissue engineering

Biocompatibility and biofouling of MEMS drug delivery devices

Comparative evaluation of the antitumor activity of antiangiogenic proteins delivered by gene transfer

Affinity‐Based Drug Delivery

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