TY - JOUR
T1 - Surgical technique for spinal cord delivery of therapies
T2 - demonstration of procedure in gottingen minipigs.
AU - Federici, Thais
AU - Hurtig, Carl V.
AU - Burks, Kentrell L.
AU - Riley, Jonathan P.
AU - Krishna, Vibhor
AU - Miller, Brandon A.
AU - Sribnick, Eric A.
AU - Miller, Joseph H.
AU - Grin, Natalia
AU - Lamanna, Jason J.
AU - Boulis, Nicholas M.
PY - 2012
Y1 - 2012
N2 - This is a compact visual description of a combination of surgical technique and device for the delivery of (gene and cell) therapies into the spinal cord. While the technique is demonstrated in the animal, the procedure is FDA-approved and currently being used for stem cell transplantation into the spinal cords of patients with ALS. While the FDA has recognized proof-of-principle data on therapeutic efficacy in highly characterized rodent models, the use of large animals is considered critical for validating the combination of a surgical procedure, a device, and the safety of a final therapy for human use. The size, anatomy, and general vulnerability of the spine and spinal cord of the swine are recognized to better model the human. Moreover, the surgical process of exposing and manipulating the spinal cord as well as closing the wound in the pig is virtually indistinguishable from the human. We believe that the healthy pig model represents a critical first step in the study of procedural safety.
AB - This is a compact visual description of a combination of surgical technique and device for the delivery of (gene and cell) therapies into the spinal cord. While the technique is demonstrated in the animal, the procedure is FDA-approved and currently being used for stem cell transplantation into the spinal cords of patients with ALS. While the FDA has recognized proof-of-principle data on therapeutic efficacy in highly characterized rodent models, the use of large animals is considered critical for validating the combination of a surgical procedure, a device, and the safety of a final therapy for human use. The size, anatomy, and general vulnerability of the spine and spinal cord of the swine are recognized to better model the human. Moreover, the surgical process of exposing and manipulating the spinal cord as well as closing the wound in the pig is virtually indistinguishable from the human. We believe that the healthy pig model represents a critical first step in the study of procedural safety.
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U2 - 10.3791/4371
DO - 10.3791/4371
M3 - Article
C2 - 23242422
AN - SCOPUS:84874167792
SN - 1940-087X
SP - e4371
JO - Journal of Visualized Experiments
JF - Journal of Visualized Experiments
IS - 70
ER -