Over the past few decades, tremendous advances have been made in our understanding of the biological changes underpinning the devastating impairment of traumatic spinal cord injury (SCI). Much of this scientific research has focused on animal models of SCI, and comparatively little has been done in human SCI, largely because biospecimens from human SCI patients are not readily available. This paucity of scientific enquiry in human SCI represents an important void in the spectrum of translational research, as biological differences between animal models and the human condition need to be considered in the pre-clinical development of therapeutic approaches. The International Spinal Cord Injury Biobank (ISCIB) is a multi-user biorepository with the mission of accelerating therapeutic development in traumatic SCI through improved biological understanding of human injury, and the vision of serving as a global research resource where human SCI biospecimens are shared with researchers around the world. Aligned with internationally recognized best practices, ISCIB's formal governance structure and standard operating procedures have earned it official biobank certification through the Canadian Tissue Repository Network. Herein, we describe the translational research gap that ISCIB is helping to fill; its structure, governance and certification; how data and samples are accrued, processed and stored; and finally, the process through which samples and data are shared with global researchers. The purpose of this paper describing ISCIB is to serve as an introductory guidance document for the wider community of SCI researchers. By helping researchers understand the contents of ISCIB and the process of accessing biospecimens, we seek to further ISCIB's vision as being a resource for human and translational research in SCI, with the ultimate goal of finding disease-modifying therapies for this disabling condition.
Keywords: biobank; biorepository; histology; magnetic resonance imaging; pathology; traumatic spinal cord injury.