Nicola Longo MD, PhDProfessor and Vice Chair of Human Genetics,Allen and Charlotte Ginsburg Chair in Precision Genomic Medicine,Division of Clinical Genetics, Department of Human Genetics,University of California at Los Angeles (UCLA), Los Angeles, CA, USAMark Roberts, MDProfessor and Consultant Neurologist,University of Manchester, Manchester, UKResearch Lead for Adult Metabolic Medicine at Salford Care Organisation, Manchester, UKDrs. Longo and Roberts discussed the current status of gene therapies in rare neuromuscular disorders in this eight part podcast series. This is derived from the symposium that was presented at World Symposium 2025, in San Diego, California, on February 4th through 7th, 2025, and is intended for healthcare professionals only. This podcast includes information about investigational compounds that do not yet have a regulatory approval or authorization for a specific indication. The safety and efficacy of the agents under investigation have not been established, and contents of this podcast shall not be used in any manner to directly or indirectly promote or sell the product for unapproved uses. The views, thoughts and opinions expressed in this presentation belong solely to the author and are subject to change without notice. The contents of this presentation do not constitute an endorsement of any product or indication by Astellas. In this part, Dr. Longo will discuss gene replacement therapy in lysosomal disorders.Nicola Longo MD, PhDLet's go back a second to gene therapy. Gene therapy obviously has the potential of answering many of the questions that we still have open in lysosomal disorder because they could restore the activity of the lysosome pretty much in the whole body, or at least in multiple tissues. As you have seen, gene therapy can be done ex vivo where we take cells from the affected patient, we correct the gene, or we put an extra gene that it is functional. Then we put them back by doing a bone marrow transplant, basically creating space for the cells that have been genetically modified to correct the lysosomal defect. The biggest approach this is done usually by lentiviruses that they integrate inside the genome.