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Computer-Assisted Hydrodynamic Gene Delivery for Hemophilia Gene Therapy

血友病基因治疗的计算机辅助水动力基因传递

基本信息

批准号：
8197392
负责人：
DEXI LIU
金额：
$ 51.54万
依托单位：
UNIVERSITY OF GEORGIA
依托单位国家：
美国
项目类别：
财政年份：
2009
资助国家：
美国
起止时间：
2009-12-20 至 2013-11-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8197392
关键词：
Animal Model Animals Area Biochemistry Birth Blood Blood capillaries Canis familiaris Catheters Cell membrane Cells Clinical Trials Computer Assisted Computers Data Development Devices Disease Drug or chemical Tissue Distribution Effectiveness Endothelium Factor IX Family suidae Gene Delivery Genes Hemophilia A Hemophilia B Hemorrhage Human Image Imaging Techniques Immune response Inherited Injection of therapeutic agent Link Liver Lobe Lobular Long-Term Effects Luciferases Methods Organ Outcome Plasma Plasmids Preparation Procedures Process Proteins Publications Reporter Reporter Genes Rodent Safety Serum Site Structure System Techniques Therapeutic Therapeutic Effect Therapeutic Studies Time Tissues Toxic effect Transgenes Translational Research Work base capillary cell type design gene delivery system gene therapy improved in vivo male minimally invasive new technology pre-clinical pressure public health relevance research clinical testing research study transgene expression

项目摘要

DESCRIPTION (provided by applicant): Development of new and improved methods for a safe, site specific and efficient gene delivery has become a major focus in gene therapy research. To accelerate the process, we have developed a computer-controlled injection device for hydrodynamic gene delivery to different organs in vivo, particularly to liver. Employing an image-guided catheter insertion technique, we have demonstrated in pigs that the computer-assisted hydrodynamic gene delivery to pig liver is effective and safe. In the study outlined in this proposal, we will evaluate the effectiveness and safety of our newly developed gene delivery system for treatment of hemophilia B using hemophilia B dogs as an animal model. The overall objective of the proposed study is to establish a minimally invasive, reliable and safe procedure for human gene therapy. In specific aim 1, we will employ the procedure of image-guided, liver specific hydrodynamic gene delivery to optimize the hydrodynamic parameters for gene delivery to dog liver. In specific aim 2, we will characterize the long-term impact of the hydrodynamic gene delivery with respect to persistence of transgene expression, effect on tissue toxicity, potential immune response against transgene product, and tissue distribution of the transgene. Specific aim 3 was designed to assess the effectiveness of repeated hydrodynamic gene delivery to the same animals. In specific aim 4, we will perform pre-clinical evaluation of the optimized procedure for treatment of hemophilia in hemophilia B dogs and characterize the long-term effects of the treatment. This translational research is designed to validate a newly developed computer-controlled device for gene delivery and to establish a clinically applicable procedure. Data collected from the study will be critical for preparation of clinical trials. If successfully accomplished, the proposed study will provide a new technology for gene delivery and will significantly advance the field of gene therapy. PUBLIC HEALTH RELEVANCE: Hemophilia B is an x-linked inherited bleeding disorder occurring in about one in ~25,000 male birth. It is the second most common type of hemophilia. The study aims at developing a computer-controlled gene delivery system for treatment of hemophilia B using gene therapy approach.

描述(由申请人提供)：开发新的和改进的方法，以实现安全、定点和高效的基因传递，已成为基因治疗研究的主要焦点。为了加快这一过程，我们开发了一种计算机控制的注射装置，用于将流体动力基因输送到体内不同的器官，特别是肝脏。利用图像引导的导管插入技术，我们已经在猪身上证明了计算机辅助的流体动力学基因传递到猪肝脏是有效和安全的。在这项建议中概述的研究中，我们将以血友病B犬为动物模型来评估我们新开发的用于治疗血友病B的基因传递系统的有效性和安全性。这项拟议研究的总体目标是建立一种微创、可靠和安全的人类基因治疗程序。在具体目标1中，我们将采用图像引导的肝脏特异性流体动力学基因传递程序来优化狗肝脏基因传递的流体动力学参数。在特定的目标2中，我们将从转基因表达的持续性、对组织毒性的影响、针对转基因产物的潜在免疫反应以及转基因的组织分布等方面表征流体动力基因传递的长期影响。具体目标3旨在评估对相同动物重复流体动力基因传递的有效性。在具体目标4中，我们将对血友病B犬血友病的优化治疗程序进行临床前评估，并对治疗的长期效果进行表征。这项转化研究旨在验证一种新开发的计算机控制的基因输送设备，并建立一种临床适用的程序。从这项研究中收集的数据将对临床试验的准备至关重要。如果成功完成，这项拟议的研究将为基因传递提供一种新的技术，并将显著推动基因治疗领域的发展。公共卫生相关性：血友病B是一种x连锁遗传性出血性疾病，大约每25,000名男性新生儿中就有一人发生。它是第二种最常见的血友病。本研究旨在开发一种利用基因治疗方法治疗血友病B的计算机控制的基因输送系统。