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DOI: 10.1055/s-2003-39833
Examining Microcirculation Improves the Angiosome Theory in Explaining the Delay Phenomenon in a Rabbit Model
Publication History
Publication Date:
13 June 2003 (online)
ABSTRACT
Topographic and temporal changes in circulation were studied with laser Doppler flowmetry in rabbit dorsal skin flaps comprised of three vascular territories. The reduced caliber vessels along the dorsal median line, rather than the vessels interconnecting the thoracodorsal and deep circumflex iliac vascular trees, behaved as true choke vessels. The authors found an increased proximal circulation lasting for 48 to 72 hr. This coincided with the reported rapid phase of choke vessel dilatation. The increase in distal circulation began after postoperative day 3, coinciding with the resolution of proximal hyperemia but not with the earlier prominent vasodilatation. Secondary elevation of the flaps at 3 weeks did not disturb the homogeneous distribution of circulation and did not cause a hyperemic response at postoperative 24 hr. Based on these findings, the authors postulate that the same mechanisms may underlie the rapid choke vessel dilatation and microvascular dilatation observed at 48 to 72 hr postoperatively. Surgical delay may work not only by diminishing the resistance to blood flow along the flap, but also by diminishing the steal effect of increased proximal microcirculation, which characterizes this period, over the distal circulation.
KEYWORDS
Angiosome - delay - laser Doppler flowmetry
REFERENCES
- 1 Morain W D, Ristic J, Manchot. Cutaneous Arteries of the Human Body. New York: Springer-Verlag; 1983
-
2 Salmon M. Arteries of the skin. In: Taylor GI, Tempest M, eds. New York: Churchill Livingstone; 1988
-
3 McGregor I A. Fundamental Techniques of Plastic Surgery, 5th ed. Edinburgh: Churchill Livingstone; 1972.
- 4 Smith P J. The vascular basis of axial pattern flaps. Br J Plast Surg . 1973; 26 150-157
- 5 Milton S. Pedicled skin flaps: the fallacy of the length: width ratio. Br J Plast Surg . 1970; 57 502-508
- 6 McGregor I A, Morgan G. Axial and random pattern flaps. Br J Plast Surg . 1973; 26 202-213
- 7 Cormack G C, Lamberty B GH. The Arterial Anatomy of Skin Flaps. Edinburgh: Churchill Livingstone 1994: 1-68
- 8 Taylor G I, Palmer J H. The vascular territories (angiosomes) of the body: experimental study and clinical applications. Br J Plast Surg . 1987; 40 113-141
- 9 Taylor G I, Palmer J H. Angiosome theory. Br J Plast Surg . 1992; 45 327-328
- 10 Taylor G I, Minabe T. The angiosomes of the mammals and other vertebrates. Plast Reconstr Surg . 1992; 89 181-215
- 11 Callegari P R, Taylor G I, Caddy C M, Minabe T. An anatomic review of the delay phenomenon. I. Experimental studies. Plast Reconstr Surg . 1992; 89 397-418
- 12 Taylor G I, Corlett R J, Caddy C M, Zelt R G. An anatomic review of the delay phenomenon. II. Clinical applications. Plast Reconstr Surg . 1992; 89 408-418
- 13 Morris S F, Taylor G I. Predicting the survival of experimental skin flaps with knowledge of the vascular architecture. Plast Reconstr Surg . 1993; 92 1352-1361
- 14 Morris S F, Taylor G I. The time sequence of the delay phenomenon: when is a surgical delay effective?. <~>An experimental study. Plast Reconstr Surg . 1995; 95 526-533
- 15 Dhar S C, Taylor G I. The delay phenomenon: the story unfolds. Plast Reconstr Surg . 1999; 104 2079-2091
- 16 Boustred A M. Rabbit dorsal flank flap. J Reconstr Microsurg . 1997; 13 331-335
- 17 Sasaki G H, Pang C Y. Hemodynamics and viability of acute neurovascular island skin flaps in rats. Plast Reconstr Surg . 1980; 65 152-158
- 18 Marks N J, Trachy R E, Cummings C W. Dynamic variations in blood flow as measured by laser Doppler velocimetry: a study in rat skin flaps. Plast Reconstr Surg . 1984; 73 804-810
- 19 Braithwaite H, Farmer F T, Herbert F I. Observation on the vascular channels of tubed pedicles using radioactive sodium III. Br J Plast Surg . 1951; 4 38-47
- 20 Barisoni D M, Veall N. Effect of thymoxamine on circulation in skin flaps and in denervated skin. Lancet . 1969; 1 400-401
- 21 Hendel P M, Lilien D L, Buncke H J. A study of the pharmacologic control of blood flow to acute skin flaps using xenon washout. Part I. Plast Reconstr Surg . 1983; 71 387-398
- 22 Hendel P M, Lilien D L, Buncke H J. A study of the pharmacologic control of blood flow to delayed skin flaps using xenon washout. Part II. Plast Reconstr Surg . 1983; 71 399-407
- 23 Pearl R M. A unifying theory of the delay phenomenon - recovery from the hyperadrenergic state. Ann Plast Surg . 1981; 7 102-112
- 24 Kerrigan C L, Daniel R K. Monitoring acute skin-flap failure. Plast Reconstr Surg . 1983; 71 519-524
- 25 Kerrigan C L, Daniel R K. Critical ischemia time and the failing skin flap. Plast Reconstr Surg . 1982; 69 986-989
- 26 Palmer B, Jurell G, Norberg K A. The blood flow in experimental skin flaps in rats studied by means of the 133 xenon clearance method. Scand J Plast Reconstr Surg . 1972; 6 6-12
- 27 Nathanson S E, Jackson R T. Blood flow measurements in skin flaps. Arch Otolaryngol . 1975; 101 354-357
- 28 Reinisch J F. The pathophysiology of skin flap circulation. The delay phenomenon. Plast Reconstr Surg . 1974; 54 585-598
- 29 Kerrigan C L. Skin flap failure: pathophysiology. Plast Reconstr Surg . 1983; 72 766-777
- 30 Pang C Y, Neligan P C, Forrest C R. Hemodynamics and vascular sensitivity to circulating norepinephrine in normal skin and delayed and acute random skin flaps in the pig. Plast Reconstr Surg . 1986; 78 75-84