ABSTRACT
In microsurgical training, the femoral vein is used frequently for a microvenous anastomosis
model. But the femoral vein in the rat does not completely simulate the human vein
because of its thin wall, fragility, and tendency to collapse. These anatomic characteristics
cause some difficulty in carrying out anastomoses in microsurgery training particularly
for beginners. The authors propose the external jugular vein of the rat for microsurgical
training in microvenous anastomoses. In 10 Wistar rats, the anatomy of the external
jugular vein was studied by dissection and histology. Anatomic dissections demonstrate
that the external jugular vein has an average diameter of 1.9 mm (range: 1.6 to 2.1
mm) without tendency to collapse. The vein is easily dissected without any accompanying
anatomic structure for an average segment of 45 mm, allowing effortless approximator
clamp placement.
Comparison of its cross section with that of the femoral vein and other previously
described models by light microscopy and scanning electron microscopy reveals a larger
diameter and much thicker vessel wall with a prominent tunica media and adventitia.
Based on the anatomic findings in 20 rats, the external jugular vein was anastomosed
with end-to-end standard microsurgical technique using 8-0 (n = 10) and 10-0 (n =
10) nylon sutures. Results indicate a 100 percent patency rate immediately after the
anastomosis for the two subgroups and 100 percent and 90 percent patency rates 1 week
after the procedure for the 10-0 and 8-0 nylon suture groups, respectively. This model
presents some advantages: the vein is easily dissected with the naked eye without
using the operating microscope because it is the largest vein among the superficially
located veins in the rat, and has a thick vessel wall without tendency to collapse.
The operative area allows for training inbilateral microsurgical anastomoses using
a single skin incision and is safe from autocannibalization. The model simulates clinical
microvenous anastomosis better because of its similarities to human large diameter
flap veins.
KEYWORDS
External jugular vein - microvenous anastomosis - microsurgery training
REFERENCES
- 1
Blain B, Zhang F, Jones M et al..
Vascular grafts in the rat model: an anatomic study.
Microsurgery.
2001;
21
80-83
- 2
Van Bemmelen S P, van Papendrecht A H, Nieuborg L.
Evaluation of the patency of microvenous anastomoses by phlebography after intramedullary
injection of contrast material.
Br J Plast Surg.
1983;
36
463-465
- 3
Zhang L, Kolker A R, Choe E I, Bakshandeh N, Josephson G, Wu F C, Siebert J W, Kasabian A K.
Venous microanastomosis with the Unilink system, sleeve, and suture techniques:a comparative
study in the rat.
J Reconstr Microsurg.
1997;
13
257-261
discussion 261-262
- 4
Hui K C, Zhang F, Shaw W W, Taylor A, Komorowska-Timek E, Lineaweaver W C.
Assessment of the patency of microvascular venous anastomosis.
J Reconstr Microsurg.
2002;
18
111-114
- 5
Akyurek M, Safak T, Oztekin C, Sargon M, Kecik A.
Dorsal penile vein as a new training model for microvenous anastomosis in rats.
Ann Plast Surg.
2002;
49
280-284
- 6
Akan M, Cakir B, Akoz T.
Increasing vessel diameter with the open Y technique for diameter discrepancy.
J Reconstr Microsurg.
2004;
20
651-657
- 7
Karamursel S, Kayikcioglu A, Safak T, Kecik A.
End-to-side microvascular anastomosis using an external metal ring.
Br J Plast Surg.
2000;
53
423-426
- 8
Iwasa H, Sato F, Shimabukuro H, Yamada N, Ikada Y, Hyon S H.
One-knot microvascular anastomosis. An experimental study in rats.
J Neurosurg.
1987;
66
764-767
Dr.
Serdar NasirM.D.
Belmaş evleri 7067 ada A blok daire: 3 Batikent
Isparta, Turkey
