Bioactive scaffolds with enhanced supramolecular motion promote recovery from spinal cord injury.
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What This Study Found
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Trust & Context
- Original Title:
- Bioactive scaffolds with enhanced supramolecular motion promote recovery from spinal cord injury.
- Published In:
- Science (New York, N.Y.), 374(6569), 848-856 (2021)
- Authors:
- Álvarez, Z, Kolberg-Edelbrock, A N, Sasselli, I R, Ortega, J A, Qiu, R, Syrgiannis, Z, Mirau, P A, Chen, F, Chin, S M, Weigand, S, Kiskinis, E, Stupp, S I
- Database ID:
- RPEP-05946
Evidence Hierarchy
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Cite This Study
https://rethinkpeptides.com/research/RPEP-05946APA
Álvarez, Z; Kolberg-Edelbrock, A N; Sasselli, I R; Ortega, J A; Qiu, R; Syrgiannis, Z; Mirau, P A; Chen, F; Chin, S M; Weigand, S; Kiskinis, E; Stupp, S I. (2021). Bioactive scaffolds with enhanced supramolecular motion promote recovery from spinal cord injury.. Science (New York, N.Y.), 374(6569), 848-856. https://doi.org/10.1126/science.abh3602
MLA
Álvarez, Z, et al. "Bioactive scaffolds with enhanced supramolecular motion promote recovery from spinal cord injury.." Science (New York, 2021. https://doi.org/10.1126/science.abh3602
RethinkPeptides
RethinkPeptides Research Database. "Bioactive scaffolds with enhanced supramolecular motion prom..." RPEP-05946. Retrieved from https://rethinkpeptides.com/research/alvarez-2021-bioactive-scaffolds-with-enhanced
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Study data sourced from PubMed, a service of the U.S. National Library of Medicine, National Institutes of Health.
This study breakdown was produced by the RethinkPeptides research team. We analyze and report published research findings without making health recommendations. All interpretations are based solely on the published abstract and study data.