Gene transfer in the cardiovascular system : experimental approaches and therapeutic implications /

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Bibliographic Details
Imprint:Boston : Kluwer Academic, c1997.
Description:xvii, 516 p. : ill. (some col.) ; 25 cm.
Language:English
Series:Developments in cardiovascular medicine
Subject:
Format: Print Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/2712801
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Other authors / contributors:March, Keith Leonard, 1963-
Roudebush, R. L.
ISBN:0792398599 (alk. paper)
Notes:Includes bibliographical references (p. 496-498) and index.
Description
Summary:The goal of gene transfer is protein expression. a process brought about by the insertion of a gene coding for a foreign protein into target cells resulting in the synthesis of the foreign protein For gene therapy, a tmnsferred therapeutic gene must be expressed at a level beneficial for the patient. This chapter provides an introductory overview of the rapidly evolving field of non-viral approaches for gene delivery to rnarnrnalian cells. Although currently there are fewer ongoing clinical trials using non-viral approaches than those using viral based systems, the number of non-viral trials is increasing. The long range goal of some research groups is the development of a genetically engineered artificial virus targeted to specific cells in the human body. An arurual conference, organized by Cambridge Healthtech Institute entitled "Artificial Self-Assembling Systems for Gene Transfer", brings together researchers interested in this field [1]. Assembly of an artificial virus is very complex; other research groups aim to develop simpler delivery systems consisting of a plasmid combined with delivery agents. Viral-based systems are very successful for gene delivery, but despite their successes, viral-based systems have some geneml limitations and system-specific limitations. When employing a viml-based system, the following limitations should be considered: * size limitation of the inserted gene due to packaging constraints (e. g. adenovirus, retrovirus) . * potential tumorigenesis (e. g. retrovirus) * potential for insertional mutagenesis (greater than plasmid based systems) * potential imrnunogenicity (e. g.
Physical Description:xvii, 516 p. : ill. (some col.) ; 25 cm.
Bibliography:Includes bibliographical references (p. 496-498) and index.
ISBN:0792398599