Scaffolds in Tissue Engineering - Materials, Technologies and Clinical Applications 2017
DOI: 10.5772/intechopen.69540
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Scaffolds for Peripheral Nerve Regeneration, the Importance of In Vitro and In Vivo Studies for the Development of Cell-Based Therapies and Biomaterials: State of the Art

Abstract: Human adult peripheral nerve injuries are a high incidence clinical problem that greatly affects patients' quality of life. Although peripheral nervous system has intrinsic regenerative capacity, this occurs in an incomplete or poorly functional manner. When a nerve fiber loses its continuity with consequent damage of the basal lamina tubes, axon spontaneous regeneration is disorganized and mismatched. These phenomena translate in an inadequate nerve functional recovery and consequent musculoskeletal incapacit… Show more

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Cited by 9 publications
(19 citation statements)
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References 309 publications
(403 reference statements)
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“…These findings were later confirmed by the muscle histochemical analyses which clearly revealed slight, moderate and severe rhabdomyocytes atrophy in autograft, NFABNS and filled conduits groups, respectively. Finally, our results suggest that the use of NFABNS in PN repair promote an acceptable, and in some aspect equivalent clinical and functional recovery profile than the use autograft technique in the repair of 10-mm nerve gap in rats, being these results supported by comparable studies and engineered models (Georgiou et al, 2013, 2015; Jesuraj et al, 2014; Kappos et al, 2015; Pedrosa et al, 2017; Schuh et al, 2018; Wang and Sakiyama-Elbert, 2018).…”
Section: Discussionsupporting
confidence: 63%
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“…These findings were later confirmed by the muscle histochemical analyses which clearly revealed slight, moderate and severe rhabdomyocytes atrophy in autograft, NFABNS and filled conduits groups, respectively. Finally, our results suggest that the use of NFABNS in PN repair promote an acceptable, and in some aspect equivalent clinical and functional recovery profile than the use autograft technique in the repair of 10-mm nerve gap in rats, being these results supported by comparable studies and engineered models (Georgiou et al, 2013, 2015; Jesuraj et al, 2014; Kappos et al, 2015; Pedrosa et al, 2017; Schuh et al, 2018; Wang and Sakiyama-Elbert, 2018).…”
Section: Discussionsupporting
confidence: 63%
“…In PNTE, bioartificial substitutes must have adequate structural, physical and biological properties to successfully repair nerve defects supporting, and ideally increasing, the regeneration process and functional recovery (Daly W. et al, 2012; Carriel et al, 2014a; Wieringa et al, 2018). From the surgical perspective, it is important that nerve substitutes may respond to specific anatomical requirements (e.g., length, diameter, number of fascicles), should be easy to handle and to suture to ensure an adequate tension-free PN repair, and should be available for use in a reasonable period of time (Carriel et al, 2014a; Gu et al, 2014; Pedrosa et al, 2017). In this regard, the current gold standard technique, the nerve autografts, effectively provides adequate biological and physical properties with an acceptable functional recovery.…”
Section: Discussionmentioning
confidence: 99%
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