For many metabolic diseases, early treatment is necessary to prevent irreversible developmental damage. This is particularly true for childhood diseases that affect the central nervous system (CNS). The development of effective techniques for gene transfer to the neonatal brain would provide a new set of therapeutic options for many of these disorders. Vectors based on adeno-associated virus (AAV) have shown promise as agents for neonatal CNS transduction. In preclinical animal models, a single treatment with AAV vectors at birth has been shown to produce persistent CNS expression of transduced genes into adulthood. Transduction of the neonatal brain has been accomplished by a variety of methods, including direct intraparenchymal injection, intraventricular infusion, and intravenous administration. Of these methods, intraparenchymal injection provides the highest levels of localized activity, while intraventricular infusion results in a more widespread distribution of activity when performed in the neonate. Here we describe a method for direct, intraparenchymal injection of AAV into the neonatal brain. This technique provides a method for investigators to evaluate the effects of in vivo expression of exogenous genes on the process of early brain development.
Copyright 2002 Elsevier Science (USA)