So far, the venous side of vascular changes in expanded skin has been
neglected by plastic surgeons. In this experimental study, using a rab
bit saphenous flap model, the author attempts to document the changes
in the cutaneous venous tree that occur following expansion. Fifteen m
ale New Zealand White rabbits were divided into three groups, with 5 a
nimals in each: group I (expansion), with an inflated expander; group
II (sham), with a noninflated expander; and group III (control), with
no surgery prior to flap harvest. After an expansion period of 3 weeks
with an 80-ml round tissue expander, the flaps were harvested and und
erwent microangiographic and histological examination in all groups. U
sing both legs of each animal, 10 flaps were studied for each group. T
he results revealed that, in the expanded skin, the cutaneous venous t
ree shows an increased vascularity associated with neovessel formation
. In addition to the entire venous network being remarkably enlarged,
the collateral and communicating veins bypassing the venous valves in
the axial veins were extremely dilated. The periarterial microveins an
d the perivenous arterioles were also dilated and increased in number.
Moreover, the venous valves were found to be incompetent following ex
pansion. Possible mechanisms to explain these changes in the cutaneous
venous system following expansion are discussed.