We describe an intracisternal injection that employs a needle bent at the tip that can be stabilized to the skull, thus eliminating the risk of damage to the underlying parenchyma. The approach can be used for genetic fate mapping and manipulations of leptomeningeal cells and for tracking cerebrospinal fluid movement.
In this article, we describe a detailed protocol for efficient modelling of Duchenne muscular dystrophy muscle using MYOD1-converted urine-derived cells to evaluate the restoration of dystrophin mRNA and protein levels after exon skipping.
The current protocol establishes a rigorous and reproducible method for quantification of morphological joint changes that accompany osteoarthritis. Application of this protocol can be valuable in monitoring disease progression and evaluating therapeutic interventions in osteoarthritis.
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