Free Flap Neovascularization: Myth or Reality?

Krishna Kumar; Wayne Jaffe; N. J. M. London; Sanjay Kumar Varma

doi:10.1055/s-2004-818047

Journal of Reconstructive Microsurgery, Table of Contents

J Reconstr Microsurg 2004; 20(1): 31-34
DOI: 10.1055/s-2004-818047

Free Flap Neovascularization: Myth or Reality?

Krishna Kumar¹ , Wayne Jaffe² , N. J. M London³ , Sanjay Kumar Varma³

¹Christine M. Kleinert Institute, Louisville, KY
²Stoke on Trent, North Staffordshire Medical School, UK
³Leicester Royal Infirmary, Leicester, UK

Abstract

The blood supply of 17 free flaps was studied several months after surgery. The aim was to see whether or not the free flaps acquired blood flow through vessels across the flap inset independently of the main vascular anastomoses. A color Doppler flowmeter was used to identify the original arterial and venous anastomoses, the vessels in the margin of the flap, and also across the flap inset. The main vascular pedicle was then manually compressed for 2 min and blood flow was again examined in the vessels at the margin of the flap. The flap vessels (post-anastomotic), the anastomoses, and the recipient vessels (pre-anastomotic) could be identified in every case. There was no evidence of anastomotic stenosis. No vessels (neo-vascularization) greater than 0.5 mm could be identified across the flap inset. Small arteries could be identified in the flap near the inset. These vessels emptied completely on manual compression of the vascular pedicle for 2 min and did not refill until the compression was released. This evidence suggests that the free flaps do not receive significant blood flow through vessels across the flap inset, and are therefore significantly dependent for vascularity on the original anastomoses even 1 year after surgery.

KEYWORDS

Clinical free flap neovascularization - arterial and venous anastomoses

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References

REFERENCES

1 Schwabegger A H, Bodner G, Reiger M et al.. Internal mammary vessels as a model for power Doppler imaging of recipient vessels in microsurgery. Plast Reconstr Surg. 1999; 104 1656-1661
2 Serafin D, Shearin J C, Georgiade N G. The vascularisation of free flaps: a clinical and experimental correlation. Plast Reconstr Surg. 1977; 60 233-241
3 Nakajima T. How soon do venous drainage channels develop at the periphery of a free flap? A study in rats. Br J Plast Surg. 1978; 31 300-308
4 Tsur H, Daniller A, Strauch B. Neovascularisation of skin flaps: route and timing. Plast Reconstr Surg. 1980; 66 85-93
5 Young C. The revascularisation of pedicle skin flaps in pigs: a functional and morphologic study. Plast Reconstr Surg. 1982; 70 455-464
6 Black M JM, Chait L, O'Brien BMcC et al.. How soon may the axial vessels of a surviving free flap be safely ligated?: a study in pigs. 1978; 31 295-301
7 Millican P G, Poole M D. Peripheral neovascularisation of muscle and musculocutaneous flaps. Br J Plast Surg. 1985; 38 369-374
8 Rothaus K O, Acland R D. Free flap neo-vascularisation: case report. Br J Plast Surg. 1983; 36 348-349
9 Rath T, Piza H, Opitz A. Survival of a free musculocutaneous flap after early loss of arterial blood supply. Br J Plast Surg. 1986; 39 530-532
10 Cohen B E. Beneficial effect of staged division of pedicle in experimental axial-pattern flaps. Plast Reconstr Surg. 1979; 64 366-371
11 Khoo C TK, Bailey B N. The behaviour of free muscle and musculocutaneous flaps after early loss of axial blood supply. Br J Plast Surg. 1982; 35 43-46
12 Fried M P, Horowitz Z, Kelly J H, Strome M. The importance of the pedicle for the survival of a vascularised free flap. Head Neck Surg. 1982; 5 130-133
13 Sadove R, Kanter M. Absent neovascularisation in a lower extremity free flap: a case report. J Reconstr Microsurg. 1993; 9 5-9
14 Fisher J, Wood M B. Late necrosis of a latissimus dorsi free flap. Plast Reconstr Surg. 1984; 74 274-277

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