Intraganglionic AAV6 Results in Efficient and Long-Term Gene Transfer to Peripheral Sensory Nervous System in Adult Rats
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Title
Intraganglionic AAV6 Results in Efficient and Long-Term Gene Transfer to Peripheral Sensory Nervous System in Adult Rats
Authors
Keywords
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Journal
PLoS One
Volume 8, Issue 4, Pages e61266
Publisher
Public Library of Science (PLoS)
Online
2013-04-17
DOI
10.1371/journal.pone.0061266
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- (2011) A. T. Martino et al. BLOOD
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- (2011) T Federici et al. GENE THERAPY
- Schwann cell targeting via intrasciatic injection of AAV8 as gene therapy strategy for peripheral nerve regeneration
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- (2011) Brooke R. Snyder et al. HUMAN GENE THERAPY
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- (2011) Gregory Fischer et al. JOURNAL OF NEUROSCIENCE METHODS
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- (2010) N Zeltner et al. GENE THERAPY
- Optimized Transduction of Human Monocyte-Derived Dendritic Cells by Recombinant Adeno-Associated Virus Serotype 6
- (2010) James E. Ussher et al. HUMAN GENE THERAPY
- Rapid, Simple, and Versatile Manufacturing of Recombinant Adeno-Associated Viral Vectors at Scale
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- AAV Provides an Alternative for Gene Therapy of the Peripheral Sensory Nervous System
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- Effective neuropathic pain relief through sciatic nerve administration of GAD65-expressing rAAV2
- (2009) Jaehyung Kim et al. BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
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- Posttranscriptional Regulatory Elements Enhance Antigen Expression and DNA Vaccine Efficacy
- (2009) Jing Sun et al. DNA AND CELL BIOLOGY
- AAV for pain: steps towards clinical translation
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- High AAV vector purity results in serotype- and tissue-independent enhancement of transduction efficiency
- (2009) E Ayuso et al. GENE THERAPY
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- Learned Avoidance From Noxious Mechanical Simulation But Not Threshold Semmes Weinstein Filament Stimulation After Nerve Injury in Rats
- (2009) Hsiang-En Wu et al. JOURNAL OF PAIN
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- (2009) Chris Towne et al. Molecular Pain
- Molecular Engineering of Viral Gene Delivery Vehicles
- (2008) David V. Schaffer et al. Annual Review of Biomedical Engineering
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- Molecular and Cellular Limits to Somatosensory Specificity
- (2008) Carlos Belmonte et al. Molecular Pain
- Sensory neuron targeting by self-complementary AAV8 via lumbar puncture for chronic pain
- (2008) B. Storek et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- AAV8, 9, Rh10, Rh43 Vector Gene Transfer in the Rat Brain: Effects of Serotype, Promoter and Purification Method
- (2007) Ronald L Klein et al. MOLECULAR THERAPY
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