Journal of reconstructive microsurgery
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J Reconstr Microsurg · Apr 2008
A ten-year experience of multiple flaps in head and neck surgery: how successful are they?
Ablative surgery in the head and neck often results in defects that require free flap reconstruction. With improved ablation/reconstructive and adjuvant techniques, improved survival has led to an increase in the number of patients undergoing multiple free flap reconstruction. We retrospectively analyzed a single institution's 10-year experience (August 1993 to August 2003) in free flap reconstruction for malignant tumors of the head and neck. ⋯ For primary free flap surgery, success was 481/506 (95%), compared with 44/50 (88%) for a second free flap reconstruction and 9/12 (75%) for a third free flap reconstruction ( P < 0.05). Eight extensive defects were reconstructed with 16 flaps, all of which were successful. More than one free flap may be required for reconstruction of head and neck defects, although success decreases as the number of reconstructive procedures increases.
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J Reconstr Microsurg · Apr 2008
Bridging critical nerve defects through an acellular homograft seeded with autologous schwann cells obtained from a regeneration neuroma of the proximal stump.
Over the last decade, several models have investigated the usefulness of different biologic and/or synthetic matrices as alternatives to conventional nerve grafts. Still, axonal regeneration did not occur over longer (> 3 cm) distances. One problem may be that a growth-promoting environment not only includes physical cues but also a rich spectrum of different growth factors only provided by reactive Schwann cells. ⋯ The present experiment sought to create a hybrid graft where the proximal stump neuroma is used as a biological resource for autologous Schwann cells that are seeded unto an acellular matrix, thus providing both physical and chemical support to regenerating axons. The results are encouraging in that successful regeneration was observed over the entire distance; however, only sensory axons had enough regenerative potential to also make end-organ contact. For motor axons, further refinements in conduit preparation have to be done.