New Pure Motor Nerve Experimental Model for the Comparative Study between End-to-End and End-to-Side Neurorrhaphy in Free Muscle Flap Neurotization

Georgia-Alexandra Ch. Spyropoulou; Efstathios G. Lykoudis; Anna Batistatou; Apostolos E. Papalois; George Tagaris; Emmanouil Pikoulis; Elias Bastounis; Othon Papadopoulos

doi:10.1055/s-2007-992347

Journal of Reconstructive Microsurgery, Table of Contents

J Reconstr Microsurg 2007; 23(7): 391-398
DOI: 10.1055/s-2007-992347

New Pure Motor Nerve Experimental Model for the Comparative Study between End-to-End and End-to-Side Neurorrhaphy in Free Muscle Flap Neurotization

Georgia-Alexandra Ch Spyropoulou¹ , Efstathios G. Lykoudis² , Anna Batistatou³ , Apostolos E. Papalois⁴ , George Tagaris⁵ , Emmanouil Pikoulis⁶ , Elias Bastounis⁶ , Othon Papadopoulos¹

¹Department of Plastic Surgery, “A. Siggros” University Hospital, Athens, Greece
²Department of Plastic Surgery and Burns, “A. Siggros” University Hospital, Athens, Greece
³Department of Pathology, Ioannina University Hospital, Ioannina, Greece
⁴Experimental Research Center-ELPEN, Athens, Greece
⁵Department of Neurology, “G. Gennimatas” General Hospital, Athens, Greece
⁶First Surgical Clinic, University of Athens, “Laikon” General Hospital, Athens, Greece

Abstract

ABSTRACT

The present study demonstrates a new experimental model to compare the efficacy of end-to-end and end-to-end neurorrhaphy in free muscle flap neurotization. Forty animals were used, divided into four equal groups named A, B, C and D. The peripheral stump of the thoracodorsal nerve was stitched end-to-end in groups A and C and end-to-side in groups B and D to the long thoracic nerve. Free functional muscle transfer was simulated by putting vascular clamps to the thoracodorsal artery (FD SS8R, F: 15 to 20 g) and vein (FD SS6R, F: 10 to 15 g) for 60 minutes and transecting and then restitching the origin and insertion of the latissimus dorsi muscle. Electromyographic and histological studies were performed 150 days following completion of the experiment. The results could indicate the possibility that end-to-side neurorrhaphy might be used in free functional muscle transfer as an alternative to end-to-end neurorrhaphy. We believe that the proposed experimental model is useful for the comparative study between end-to-end and end-to-side neurorrhaphy in free muscle flap neurotization, as these are pure motor nerves and innervate synergistic muscles, are in close approximation, and have similar diameters.

KEYWORDS

End-to-side neurorrhaphy - functional muscle - free muscle transfer

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References

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0 Presented at the World Congress for Reconstructive Microsurgery, Athens, 24-26 June 2007

Dr. Georgia-Alexandra Ch SpyropoulouM.D. Ph.D.

63 Dimitrakopoulou str

Athens 16673, Greece