Composite Fibrin/Carbon Microfiber Implants for Bridging Spinal Cord Injury: A Translational Approach in Pigs

Abstract: Biomaterials may enhance neural repair after spinal cord injury (SCI) and testing their functionality in large animals is essential to achieve successful clinical translation. This work developed a porcine contusion/compression SCI model to investigate the consequences of myelotomy and implantation of fibrin gel containing biofunctionalized carbon microfibers (MFs). Fourteen pigs were distributed in SCI, SCI/myelotomy, and SCI/myelotomy/implant groups. An automated device was used for SCI. A dorsal myelotomy w… Show more

“…Wear-resistant and high-adhesive DLC systems were used for heart valves and stents, dental implants, and other orthopaedic supplies [ 8 ]. Bulk carbon composites were applied as units for artificial body parts including reconstructive surgery in oncology after tumor harvesting or chemotherapy and metastasis treatment [ 4 ] or other applications such as spinal surgery [ 9 ] or a drug delivery system [ 10 ].…”

Electrophoretic Deposition of Calcium Phosphates on Carbon–Carbon Composite Implants: Morphology, Phase/Chemical Composition and Biological Reactions

“…Wear-resistant and high-adhesive DLC systems were used for heart valves and stents, dental implants, and other orthopaedic supplies [ 8 ]. Bulk carbon composites were applied as units for artificial body parts including reconstructive surgery in oncology after tumor harvesting or chemotherapy and metastasis treatment [ 4 ] or other applications such as spinal surgery [ 9 ] or a drug delivery system [ 10 ].…”

Electrophoretic Deposition of Calcium Phosphates on Carbon–Carbon Composite Implants: Morphology, Phase/Chemical Composition and Biological Reactions

Functional biomaterials for modulating the dysfunctional pathological microenvironment of spinal cord injury

Efecto de la reparación de la duramadre con pericardio bovino sobre la fibrosis y la extensión de la lesión medular: estudio experimental en cerdos