PURPOSE: This study investigated nerve regeneration following nerve repair with longitudinally oriented sutures, with emphasis on timing. Prior work in rodents has shown that suture scaffolds are comparable to nerve grafting when assessments are made at late time points. However, rodents have exceptional regenerative capacity, making it difficult to detect key differences at late time points. This study therefore investigated regeneration across suture scaffolds both at early (4 week) and late (12 week) endpoints. METHODS:Rodents were randomized to nerve gap, transection and repair, nerve grafting, and suture scaffold groups. Nerve regeneration was evaluated at 4 and 12 weeks. Histomorphometry parameters were evaluated using binary image analysis of toluidine blue-stained nerve cross sections. RESULTS: Compared to nerve grafts, suture scaffolds were associated with significantly decreased neural density (4208 +/- 3546 vs. 193 +/- 416, fibers/mm;2, p<0.05) and fiber width (1.92 +/- 1.21 vs. 0.75+/- 1.16, microm, p<0.05). At 12 weeks, differences between groups were no longer detectable. CONCLUSION: When evaluated at optimal time points for rodents, suture scaffolds fail to support regeneration comparable to the existing gold standard of nerve grafting. This finding raises significant concerns regarding the clinical application of suture scaffolds.
RCT Entities:
PURPOSE: This study investigated nerve regeneration following nerve repair with longitudinally oriented sutures, with emphasis on timing. Prior work in rodents has shown that suture scaffolds are comparable to nerve grafting when assessments are made at late time points. However, rodents have exceptional regenerative capacity, making it difficult to detect key differences at late time points. This study therefore investigated regeneration across suture scaffolds both at early (4 week) and late (12 week) endpoints. METHODS: Rodents were randomized to nerve gap, transection and repair, nerve grafting, and suture scaffold groups. Nerve regeneration was evaluated at 4 and 12 weeks. Histomorphometry parameters were evaluated using binary image analysis of toluidine blue-stained nerve cross sections. RESULTS: Compared to nerve grafts, suture scaffolds were associated with significantly decreased neural density (4208 +/- 3546 vs. 193 +/- 416, fibers/mm;2, p<0.05) and fiber width (1.92 +/- 1.21 vs. 0.75+/- 1.16, microm, p<0.05). At 12 weeks, differences between groups were no longer detectable. CONCLUSION: When evaluated at optimal time points for rodents, suture scaffolds fail to support regeneration comparable to the existing gold standard of nerve grafting. This finding raises significant concerns regarding the clinical application of suture scaffolds.
Authors: Michael J Brenner; Arash Moradzadeh; Terence M Myckatyn; Thomas H H Tung; Allen B Mendez; Daniel A Hunter; Susan E Mackinnon Journal: Microsurgery Date: 2008 Impact factor: 2.425
Authors: Gwendolyn M Hoben; Xueping Ee; Lauren Schellhardt; Ying Yan; Daniel A Hunter; Amy M Moore; Alison K Snyder-Warwick; Sheila Stewart; Susan E Mackinnon; Matthew D Wood Journal: Plast Reconstr Surg Date: 2018-10 Impact factor: 4.730