Download PDF
J Reconstr Microsurg 2008; 24(2): 137-145
DOI: 10.1055/s-2008-1076087
© Thieme Medical Publishers

Nerve Graft Prefabrication: Preliminary Study

Ersin Ulkur1 , Huseyin Karagoz2 , Bahattin Celikoz1 , Pinar Turan3 , Serap Arbak3 , Mehmet Yapar4
  • 1Gulhane Military Medical Academy, Haydarpasa Training Hospital Department of Plastic and Reconstructive Surgery, Istanbul, Turkey
  • 2Maresal Cakmak Military Hospital, Department of Plastic and Reconstructive Surgery, Erzurum, Turkey
  • 3Marmara University, Medical School, Department of Histology and Embriology, Istanbul, Turkey
  • 4Gulhane Military Medical Academy, School of Medicine, Department of Virology, Ankara, Turkey
Further Information

Publication History

Publication Date:
30 April 2008 (online)

Also available at
    Permissions and Reprints

ABSTRACT

This study aimed to produce prefabricated nerve graft as effective as autologous nerve graft without donor site morbidity for repairing segmental nerve defects. Thirty rats were used and were separated into three groups. In the first group, vein graft excised from jugular vein was sutured to make a bridge between epineural gaps of tibial and peroneal nerve. In the second group, one-quarter of the nerve diameter was incised after excision of the epineurial sheath, and the vein graft was sutured between epineurial gaps. In the third group, the vein graft was sutured between epineurial gaps, and plasmid including vascular endothelial growth factor (VEGF) gene were injected into muscle next to the nerve. Functional and morphological assessments were performed at the end of the 8 weeks. We prefabricated nerve graft by using autologous vein as a conduit material between two intact nerves and by gene therapy, which increases the VEGF level in the medium.

KEYWORDS

Nerve graft - prefabrication

REFERENCES

  • 1 Yuksel F, Ulkur E, Baloglu H, Celikoz B. Nerve regeneration through a healthy peripheral nerve trunk as a nerve conduit: a preliminary study of a new concept in peripheral nerve surgery.  Microsurgery. 2002;  22 138-143
    CrossrefPubMedSearch in Google Scholar
  • 2 Trumble T E, McCallister W V. Repair of peripheral nerve defects in the upper extremity.  Hand Clin. 2000;  16 37-52
    PubMedSearch in Google Scholar
  • 3 Eren F, Yuksel F, Ulkur E, Cavdar S, Ercan F, Celikoz B. Nerve regeneration through a healthy nerve trunk: a new and hopeful conduit for bridging nerve defects.  Plast Reconstr Surg. 2005;  116 1697-1705
    CrossrefPubMedSearch in Google Scholar
  • 4 Weber R A, Breidenbach W C, Brown R E, Jabaley M E, Mass D P. A randomized prospective study of polyglycolic acid conduits for digital nerve reconstruction in humans.  Plast Reconstr Surg. 2000;  106 1036-1045
    CrossrefPubMedSearch in Google Scholar
  • 5 Bryan D J, Miller R A, Costas P D, Wang K K, Seckel B R. Immunocytochemistry of skeletal muscle basal lamina grafts in nerve regeneration.  Plast Reconstr Surg. 1993;  92 927-940
    CrossrefPubMedSearch in Google Scholar
  • 6 Dellon A L. Polyglycolic acid conduits for digital nerve reconstruction.  Plast Reconstr Surg. 2001;  107 1924-1925
    CrossrefPubMedSearch in Google Scholar
  • 7 Fansa H, Keilhoff G, Wolf G, Schneider W. Tissue engineering of peripheral nerves: a comparison of venous and acellular muscle grafts with cultured Schwann cells.  Plast Reconstr Surg. 2001;  107 485-494
    PubMedSearch in Google Scholar
  • 8 Tepper O M, Mehrara B J. Gene therapy in plastic surgery.  Plast Reconstr Surg. 2002;  109 716-734
    PubMedSearch in Google Scholar
  • 9 Taub P J, Silver L, Weinberg H. Plastic surgical perspectives on vascular endothelial growth factor as gene therapy for angiogenesis.  Plast Reconstr Surg. 2000;  105 1034-1042
    CrossrefPubMedSearch in Google Scholar
  • 10 Schratzberger P, Schratzberger G, Silver M et al.. Favorable effect of VEGF gene transfer on ischemic peripheral neuropathy.  Nat Med. 2000;  6 405-413
    PubMedSearch in Google Scholar
  • 11 Bain J R, Mackinnon S E, Hunter D A. Functional evaluation of complete sciatic, peroneal, and posterior tibial nerve lesions in the rat.  Plast Reconstr Surg. 1989;  83 129-138
    CrossrefPubMedSearch in Google Scholar
  • 12 Dellon E S, Dellon A L. Functional assessment on neurological impairment: track analysis in diabetic and compression neuropathies.  Plast Reconstr Surg. 1991;  88 686-694
    CrossrefPubMedSearch in Google Scholar
  • 13 Staniforth P, Fisher T R. The effects of sural nerve excision in autogenous nerve grafting.  Hand. 1978;  10 187-190
    PubMedSearch in Google Scholar
  • 14 Ortiguela M E, Wood M B, Cahill D R. Anatomy of the sural nerve complex.  J Hand Surg [Am]. 1987;  12 1119-1123
    PubMedSearch in Google Scholar
  • 15 Rappaport W D, Valente J, Hunter G C et al.. Clinical utilization and complications of sural nerve biopsy.  Am J Surg. 1993;  166 252-256
    CrossrefPubMedSearch in Google Scholar
  • 16 Wrede L. Bridging nerve defects by means of stitches and vein segments.  Dtsch Med Wochenschr. 1909;  35 1125
    PubMedSearch in Google Scholar
  • 17 Wang K K, Costas P D, Bryan D J, Eby P L, Seckel B R. Inside-out vein graft repair compared with nerve grafting for nerve regeneration in rats.  Microsurgery. 1995;  16 65-70
    CrossrefPubMedSearch in Google Scholar
  • 18 Sunderland S. Nerve and Nerve Injuries. Edinburg; Churchill-Livingstone 1978
    Search in Google Scholar
  • 19 Lundborg G, Dahlin L B, Danielsen N et al.. Nerve regeneration in silicone chambers: influence of gap length and of distal stump components.  Exp Neurol. 1982;  76 361-375
    CrossrefPubMedSearch in Google Scholar
  • 20 Rich K M, Alexander T D, Pryor J C, Hollowell J P. Nerve growth factor enhances regeneration through silicon chambers.  Exp Neurol. 1989;  105 162-170
    CrossrefPubMedSearch in Google Scholar
  • 21 Viterbo F, Trindade J C, Hoshino K, Mazzoni Neto A. Latero-terminal neurorraphy without removal of the epineural sheath. Experimental study in rats.  Rev Paul Med. 1992;  110 267-275
    PubMedSearch in Google Scholar
  • 22 Viterbo F, Trindade J C, Hoshino K, Mazzoni Neto A. End-to-side neurorraphy with removal of the epineural sheath: an experimental study in rats.  Plast Reconstr Surg. 1994;  94 1038-1047
    CrossrefPubMedSearch in Google Scholar
  • 23 Ülkür E, Yüksel F, Açıkel C, Okar I, Çeliköz B. Comparison of functional results of nerve graft, vein graft, and vein filled with muscle graft in end-to-side neurorraphy.  Microsurgery. 2003;  23 40-48
    CrossrefPubMedSearch in Google Scholar
  • 24 Raivich G, Kreutzberg G W. Peripheral nerve regeneration: role of growth factors and their receptors.  Int J Dev Neurosci. 1993;  11 311-324
    PubMedSearch in Google Scholar
  • 25 Boyd J G, Gordon T. A dose dependent facilitation and inhibition of peripheral nerve regeneration by brain-derived neurotrophic factor.  Eur J Neurosci. 2002;  15 613-626
    CrossrefPubMedSearch in Google Scholar
  • 26 Podhajsky R J, Myers R R. The vascular response to nerve crush: relationship to Wallerian degeneration and regeneration.  Brain Res. 1993;  623 117-123
    CrossrefPubMedSearch in Google Scholar
  • 27 Edström A, Ekström P A, Tonge D. Axonal outgrowth and neuronal apoptosis in cultured adult mouse dorsal root ganglion preparations: effects of neurotrophins, of inhibition of neurotrophin actions and of prior axotomy.  Neuroscience. 1996;  75 1165-1174
    CrossrefPubMedSearch in Google Scholar
  • 28 Sondell M, Lundborg G, Kanje M. Vascular endothelial growth factor has neurotrophic activity and stimulates axonal outgrowth, enhancing cell survival and Schwann cell proliferation in the peripheral nervous system.  J Neurosci. 1999;  19 5731-5740
    PubMedSearch in Google Scholar
  • 29 Tsurumi Y, Kearney M, Chen D et al.. Treatment of acute limb ischemia by intramuscular injection of vascular endothelial growth factor gene.  Circulation. 1997;  96(9 Suppl) 382-388
    PubMedSearch in Google Scholar

Dr. Ersin UlkurM.D. 

Gata Haydarpasa Egitim, Hastanesi Plastik Cerrahi Servisi

34668 Uskudar, Istanbul, Turkey