Gene Therapy Net is the web resource for patients and professionals interested in gene therapy. The objectives of Gene Therapy Net are to be the information resource for basic and clinical research in gene therapy, cell therapy, and genetic vaccines, and to serve as a network in the exchange of information and news related to above areas. In addition, Gene Therapy Net provides an overview for sponsors and researchers of the different international regulations and guidelines associated with clinical gene therapy trials. For resources pertaining to regenerative cell therapy and clinical treatment, check out R3 Stem Cell.

 

Posted on: 13 September 2021, source: Broad Institute of MIT and Harvard
Genetic muscle diseases lead to progressive muscle wasting and often early death, with few treatment options and no cure. Some gene therapies that use a harmless virus to deliver a functioning copy of a disease-causing gene to cells have shown promise in clinical trials for a subset of muscular dystrophies, but have faced challenges. High doses of the gene-carrying virus are needed to reach the muscles throughout the body and the viruses used in these trials often end up in the liver more than in the muscle. This has led to high levels of the virus in the liver, severe adverse side effects, and even death in some trial participants. Researchers at the Broad Institute of MIT and Harvard and Harvard University have developed a new family of adeno-associated viruses (AAVs) - the gene-delivering workhorse of gene therapy - that improve targeting of the muscle tissue, which could be safer and more effective for patients with muscle disease.

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Posted on: 30 August 2021, source: BioPharma Dive
Lysogene (FR0013233475 – LYS) (Paris:LYS), a phase 3 gene therapy platform company targeting central nervous system (CNS) diseases, today announced dosing of the first patient in the United States with LYS-GM101 investigational gene therapy at CHOC Hospital (CHOC) in a global adaptative-design clinical trial (NCT04273269) for the treatment of GM1 gangliosidosis. This trial is an interventional, multi-center, single-arm, two-stage adaptive-design study evaluating the intracisternal delivery of a recombinant adeno-associated virus vector serotype rh.10 (AAVrh.10) carrying the human β-galactosidase gene (GBL1). The clinical trial includes a safety phase and a confirmatory efficacy phase. The trial will enroll 16 patients with a diagnosis of early or late infantile GM1 gangliosidosis at sites in the US and Europe.

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Posted on: 10 August 2021, source: BioPharma Dive
Novartis on Tuesday said it will begin a new study of its gene therapy Zolgensma in older patients with spinal muscular atrophy following the Food and Drug Administration's clearance of administration via a spinal infusion. The regulator had suspended testing of that dosing in October 2019 due to safety concerns.

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Posted on: 16 July 2021, source: FierceBiotech
Scientists from Ohio State University have developed a novel method for delivering gene therapy to specific regions of the brain. Now, they have evidence from a small clinical trial in children that the treatment could address a rare, inherited neurodegenerative disease. And they believe their technique could eventually be used to treat more common brain diseases, like Alzheimer’s and Parkinson’s. The Ohio State team developed the gene therapy to treat aromatic L-amino acid decarboxylase (AADC) deficiency, which hampers the body’s ability to make dopamine and serotonin and results in developmental delays and a range of motor and behavioral symptoms. The gene therapy uses a viral vector to carry DNA-expressing AADC to the brain.

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Posted on: 23 June 2021, source: BioPharma Dive
One year after receiving an experimental gene therapy developed by the Dutch drugmaker UniQure, patients with hemophilia B aren't having nearly as many bleeding issues as they used to have. In hemophilia, genetic mutations prevent the body from making proteins needed to clot blood. People with the less common, "B" form of the disorder are missing a protein known as Factor IX. UniQure's medicine is meant to provide a working version of the gene so patients can generate their own clotting protein, and rely less — or ideally, not at all — on so-called replacement factor treatments.

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Posted on: 19 May 2021, source: Science
Twenty-two years ago, one of scientists’ first attempts at gene therapy ended in tragedy when a young man died. The story of Jesse Gelsinger, who had a rare liver disorder, became a textbook example of irresponsible medical research. For years, the case hobbled efforts to treat diseases by adding new DNA to a sick person’s cells. Now, a fresh effort to cure Gelsinger’s disease is bearing fruit, in the latest sign of the field’s resurgence.

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Posted on: 4 May 2021, source: News-Medical.net
UT Southwestern scientists successfully employed a new type of gene therapy to treat mice with Duchenne muscular dystrophy (DMD), uniquely utilizing CRISPR-Cas9-based tools to restore a large section of the dystrophin protein that is missing in many DMD patients. The approach, described online today in the journal Science Advances, could lead to a treatment for DMD and inform the treatment of other inherited diseases.

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