dc.description.abstract |
There has been substantial progress in the development of regenerative medicine strategies for CNS disorders over the last decade, with progression to early clinical studies for some conditions. However, there are multiple challenges along the
translational pipeline, many of which are common across diseases and pertinent to multiple donor cell types. These include
defining the point at which the preclinical data are sufficiently compelling to permit progression to the first clinical studies; scaling-up, characterization, quality control and validation of the cell product; design, val- idation and approval of the surgical
device; and operative procedures for safe and effective delivery of cell product to the brain. Furthermore, clinical trials that incorporate principles of efficient design and disease-specific outcomes are urgently needed (particularly for those undertaken
in rare diseases, where relatively small cohorts are an additional limiting factor), and all processes must be adaptable in a
dynamic regulatory environment. Here we set out the challenges associated with the clinical translation of cell therapy, using Huntington’s disease as a specific example, and suggest potential strategies to address these challenges. Huntington’s disease
presents a clear unmet need, but, importantly, it is an autosomal dominant condition with a readily available gene test, full
genetic penetrance and a wide range of associated animal models, which together mean that it is a powerful condition in which to develop principles and test experimental therapeutics. We propose that solving these challenges in Huntington’s disease
would provide a road map for many other neurological conditions. This white paper represents a consensus opinion emerging from a series of meetings of the international translational platforms Stem Cells for Huntington’s Disease and the European
Huntington’s Disease Network Advanced Therapies Working Group, estab- lished to identify the challenges of cell therapy, share experience, develop guidance and highlight future directions, with the aim to expedite progress towards therapies for clinical
benefit in Huntington’s disease. |
en_US |
dc.subject |
COVID-19, ischemic stroke, BDNF, cortisol, Rankin, Rivermead, MoCA, NIHSS, ethylmethylhydroxypyridine succinate, rivaroxaban |
en_US |