001). In the single-pedicled flap group, there were no statistical differences between survival flap areas of the non-rotated subgroup and the 90- and 180-degree rotation subgroups (P > 0.05), but the non-rotated subgroup had a statistically larger survival area compared to the 270-degree rotation subgroup (P = 0.003). CP690550 In double-pedicled perforator flap group, the control subgroup had a statistically larger flap survival area compared to 90-degree, 180-degree, and 270-degree rotation subgroups (P = 0.004, P = 0.002, P = 0.001). Degenerative histological changes gradually increased in correlation with the rotation angle in both single-
and double-pedicled groups. When double- and single-pedicled
groups were compared; degenerative histology score displayed no statistical difference between control subgroups and rotated subgroups (P > 0.05). In this rat abdominal propeller perforator flap model, we found that double perforators without pedicle rotation could support larger flap survival when compared to the single pedicle. However, double perforators did not cause an increase of survival area when pedicles were rotated. In the single-pedicled perforator flap, the flap survival area did not significantly decrease until 180-degree pedicle rotation. In the double-pedicled perforator flap, the flap survival area decreased when the degree selleck chemical of rotation increased. The degenerative changes increased in correlation MYO10 with the rotation degree in both single- and double-pedicled perforator flaps. © 2014 Wiley Periodicals, Inc. Microsurgery 34:464–469, 2014. “
“Large osseous defects of the upper extremity can be a challenging problem for the reconstructive surgeon. There are numerous treatment options reported in the literature with variable results. We review our experience with the vascularized-fibular osteocutaneous graft for these complex defects with a focus on surgical techniques and outcomes. © 2009
Wiley-Liss, Inc. Microsurgery, 2011. “
“The reconstruction of complex soft tissue defects in hands remains a difficult challenge in reconstructive surgery. In this report, we introduce a combined medialis pedis and medial plantar fasciocutaneous flaps supplied by the lateral and medial branches of the medial plantar artery, which allows a one-stage reconstruction of multiple soft tissue defects in hand. Three combined medialis pedis and medial plantar fasciocutaneous flaps were transferred for repair of the soft tissue defects including palmar and dorsal areas of hand, thumb pulp, and the dorsum of index finger in three patients. All three flaps survived uneventfully with coverage matching the texture and color of the recipients. The donor sites healed without complication.