Objective To investigate the method and effectiveness of perforator flaps in repairing soft tissue defects of extremities. Methods Between June 2002 and December 2009, 81 patients with soft tissue defect of extremities were treated. There were 69 males and 12 females with an average age of 54 years (range, 13-75 years). Defect causes were injury in 35 cases (the disease duration ranged from 1 hour to 45 days), tumor resection in 19 cases, and scar resection in 27 cases. The defect located at limb and foot in 56 cases, forearm and hand in 25 cases. The defect size ranged from 3 cm × 3 cm to 23 cm × 18 cm. The perforator flaps included the peroneal artery perforator flap in 26 cases, the radial artery perforator flap in 18 cases, the medial plantar artery perforator flap in 18 cases, and the lateral circumflex femoral artery perforator flap in 19 cases. The flap size ranged from 4 cm × 3 cm to 25 cm × 18 cm. The donor site was sutured directly or repaired by free skin graft. Results Partial necrosis of the flaps occurred in 4 cases at 3-7 days after operation, then the flap survived after expectant treatment. The other flaps and free skin grafts survived successfully, and the incisions healed by first intention. All patients were followed up 1 to 16 months with an average of 9 months. The appearance, texture, and colour of the flaps were similar to those of the donor site. Conclusion It is an effective method to use the perforator flap for repairing soft tissue defect of the extremities.
Objective To provide a comprehensive review for development and existing problems of the perforator flaps. Methods The related home and abroad l iterature concerning perforator flaps was extensively reviewed. Results The perforator flaps are defined as the axial flaps nourished solely by small cutaneous perforating vessels (perforating arteriesand veins), which are exclusively composed of skin and subcutaneous fat. The perforator flaps have the advantages as follows: less injury at donor site, less damage to the contour of the donor site, good reconstruction and appearance of the reci pient site flexible design, and short time of postoperative recovery, which have been widely used in reconstructivesurgery. Conclusion The perforator flaps are the new development of the microsurgery, which usher an era of small axial flaps; However, the controversies of the definition, vascular classification, the nomenclature, and the cl inical appl ication of the perforator flaps still exist, which are therefore the hot spot for future study.
OBJECTIVE: To explore a new surgical approach to repair skin and soft tissue defect of hands. METHODS: Based on the anatomical study of the origin, course, branch, distribution, and anastomosis of the posterior interosseous artery and its recurrent branches in 40 upper limbs of cadavers, the posterior forearm serial flap, pedicled with the posterior interosseous artery and its recurrent branches, was designed and applied clinically in 17 cases to repair the skin and soft tissue defect of hands from August 1998 to July 2000. The size of flaps ranged from 7 cm x 5 cm to 15 cm x 10 cm. All of the cases were followed up for 3 weeks to 6 months. RESULTS: The anatomy study showed that the posterior forearm serial flap had long vascular pedicle, suitable thickness and large skin area. The clinical application indicated that the flaps survived in 16 cases. But flap necrosis at the distal end, sized 2 cm x 3 cm, was observed in one case, in which the defect was repaired by delayed skin grafting, CONCLUSION: The posterior forearm serial flap pedicled with the posterior interosseous artery and its recurrent branch have the character of avoidance of sacrificing the major arteries of the extremity, longer vascular pedicle, larger area and suitable thickness. The posterior forearm serial flap is a safe and easily manipulated surgical approach to repair the skin and soft tissue defect of the hands, especially of the thumb, palm, and proximal part of the fingers.
Objective To investigate the feasibility of establishing the visualization models of intraneural microvessels of sciatic nerves in Sprague Dawley (SD) rats by systemic infusion of Evan’s blue (EB) or lead oxide and to compare the advantages and disadvantages. Methods Fifteen healthy adult SD rats of either gender, weighing 200-250 g, were randomly divided into traditional group (group A, n=5), fluorescence group (group B, n=5), and radiography group (group C, n=5). Ink, EB, and lead oxide, all mixed with gelatin solution, were injected in groups A, B, and C, respectively. After 2 hours of cryopreservation under 4°C, all sciatic nerves were harvested and observed through stereomicroscope to make sure the filling condition. The two-dimentional (2D) images were then collected via reflexion fluorescent microscope in group B and via micro-CT scan in group C. All images were imported into computer to establish three-dimentional (3D) reconstruction models by Mimics 15.0. Results All groups could show the outline of intraneural microvessels of sciatic nerves under stereomicroscope. Diameters of them were measured under fluorescent microscope, ranging from 10 µm to 30 µm. Both groups B and C could establish 3D reconstruction models from 2D images. These models could clearly reproduce the structure of microvessels. Conclusion Both EB and lead oxide can be used to establish 3D reconstruction models to observe structure of the intraneural vessels. However, EB has some disadvantages, such as predisposition to infiltration, grainy 2D images and time-consuming procedure; it is not suitable for researches of large specimen. Though 2D pictures from lead oxide have lower resolution than EB, it is easier to be manipulated and appropriate for experiments of large specimen.