Matthew K-H Hong1, Michael K-Y Hong, G Ian Taylor. 1. Jack Brockhoff Reconstructive Plastic Surgery Research Unit, Department of Anatomy and Cell Biology, University of Melbourne, Parkville, Victoria 3010, Australia.
Abstract
BACKGROUND: The use of free vascularized nerve grafts requires intimate knowledge of the blood supply of peripheral nerves. The authors aimed to demonstrate radiographically the topography of the upper limb nerves with their blood supply, and to examine them as an application of the angiosome concept. An angiosome is a three-dimensional block of composite tissue supplied by a single source artery. METHODS: This anatomical study involved the meticulous dissection of four fresh upper limb specimens injected intraarterially with a gelatin-lead oxide mixture. The nerves were tagged circumferentially with copper wire and radiographs were taken of the nerves with their arterial blood supply. The median, ulnar, radial, musculocutaneous, and axillary nerves were examined. RESULTS: The authors showed that the nerves of the upper limb were supplied segmentally by source vessels, which reinforced the angiosome concept. The suitability of each nerve for harvest in free vascularized nerve transfer was assessed according to its pattern of blood supply. CONCLUSIONS: The authors' work has a wide range of clinical applications and provides an anatomical basis for neurovascular and neurocutaneous flaps and free vascularized nerve grafting.
BACKGROUND: The use of free vascularized nerve grafts requires intimate knowledge of the blood supply of peripheral nerves. The authors aimed to demonstrate radiographically the topography of the upper limb nerves with their blood supply, and to examine them as an application of the angiosome concept. An angiosome is a three-dimensional block of composite tissue supplied by a single source artery. METHODS: This anatomical study involved the meticulous dissection of four fresh upper limb specimens injected intraarterially with a gelatin-lead oxide mixture. The nerves were tagged circumferentially with copper wire and radiographs were taken of the nerves with their arterial blood supply. The median, ulnar, radial, musculocutaneous, and axillary nerves were examined. RESULTS: The authors showed that the nerves of the upper limb were supplied segmentally by source vessels, which reinforced the angiosome concept. The suitability of each nerve for harvest in free vascularized nerve transfer was assessed according to its pattern of blood supply. CONCLUSIONS: The authors' work has a wide range of clinical applications and provides an anatomical basis for neurovascular and neurocutaneous flaps and free vascularized nerve grafting.
Authors: Diogo Casal; Diogo Pais; Eduarda Mota-Silva; Giovanni Pelliccia; Inês Iria; Paula A Videira; Maria Manuel Mendes; João Goyri-O'Neill; Maria Manuel Mouzinho Journal: Microsurgery Date: 2017-11-02 Impact factor: 2.425
Authors: Diogo Casal; Eduarda Mota-Silva; Inês Iria; Sara Alves; Ana Farinho; Cláudia Pen; Nuno Lourenço-Silva; Luís Mascarenhas-Lemos; José Silva-Ferreira; Mário Ferraz-Oliveira; Valentina Vassilenko; Paula Alexandra Videira; João Goyri-O'Neill; Diogo Pais Journal: PLoS One Date: 2018-04-16 Impact factor: 3.240