1/25. Clinical applications of the posterior rectus sheath-peritoneal free flap.Soft-tissue injuries involving the dorsum of the hand and foot continue to pose complex reconstructive challenges in terms of function and contour. Requirements for coverage include thin, vascularized tissue that supports skin grafts and at the same time provides a gliding surface for tendon excursion. This article reports the authors' clinical experience with the free posterior rectus sheath-peritoneal flap foil dorsal coverage in three patients. Two patients required dorsal hand coverage; one following acute trauma and another for delayed reconstruction 1 year after near hand replantation. A third patient required dorsal foot coverage for exposed tendons resulting from skin loss secondary to vasculitis. In all three patients, the flap was harvested through a paramedian incision at the lateral border of the anterior rectus sheath. After opening the anterior rectus sheath, the rectus muscle was elevated off of the posterior rectus sheath and peritoneum. When elevating the muscle, the attachments of the inferior epigastric vessels to the posterior rectus sheath and peritoneum were preserved while ligating any branches of these vessels to the muscle. Segmental intercostal innervation to the muscle was preserved. The deep inferior epigastric vessels were then dissected to their origin to maximize pedicle length and diameter. The maximum dimension of the flaps harvested for the selected cases was 16 X 8 cm. The anterior rectus sheath was closed primarily with non-absorbable suture. Mean follow-up was 1 year, and all flaps survived with excellent contour and good function in all three patients. Complications included a postoperative ileus in one patient, which resolved after 5 days with nasogastric tube decompression.- - - - - - - - - - ranking = 1keywords = vessel (Clic here for more details about this article) |
2/25. Medial plantar flap based distally on the lateral plantar artery to cover a forefoot skin defect.The authors report a simple, single-step procedure to promote the distal transfer of the instep island flap for coverage of the submetatarsal weight-bearing zone. First described in 1991 by Martin et aI, this procedure remained unknown. As opposed to the medial plantar flap, this technique proposes an instep island flap based on the lateral plantar artery. The inflow and outflow of blood is assured by the anastomosis between the dorsalis pedis and lateral plantar vessels. This approach allows for the transfer of similar tissue and provides adequate coverage of the weight-bearing zone of the distal forefoot.- - - - - - - - - - ranking = 0.33333333333333keywords = vessel (Clic here for more details about this article) |
3/25. Free medial plantar perforator flaps for the resurfacing of finger and foot defects.In this article, three cases in which free medial plantar perforator flaps were successfully transferred for coverage of soft-tissue defects in the fingers and foot are described. This perforator flap has no fascial component and is nourished only by perforators of the medial plantar vessel and a cutaneous vein or with a small segment of the medial plantar vessel. The advantages of this flap are minimal donor-site morbidity, minimal damage to both the posterior tibial and medial plantar systems, no need for deep dissection, the ability to thin the flap by primary removal of excess fatty tissue, the use of a large cutaneous vein as a venous drainage system, a good color and texture match for finger pulp repair, short time for flap elevation, possible application as a flow-through flap, and a concealed donor scar.- - - - - - - - - - ranking = 0.66666666666667keywords = vessel (Clic here for more details about this article) |
4/25. Distally-based neurofasciocutaneous flaps in electrical burns.Distally-based neurocutaneous flaps have been used successfully for reconstruction of the lower extremity for some decades. The reconstruction of deep wounds exposing tendons, bones and/or vessels in electrical burns requires flap coverage. It is known that there is often some sub-clinical vascular damage in electrical burn injury. Therefore, an important part of the procedure is modification to improve flap viability during the reconstruction of electrical burn wounds. In this paper, we report our experience with the use of distally-based sural and saphenous neurocutaneous flaps for coverage of defects in the lower leg and foot in 14 electrical burn patients. In 12 patients, the flaps survived completely, in two patients the flaps underwent partial necrosis. In these cases, the width of the pedicle of the neurocutaneous flap was increased from 3.5 to 5cm and the neurovenous pedicle was decreased to give a delay effect several days before the flap harvesting. We believe that these modifications positively effect the viability of the flap and should be used to improve neurocutaneous flap circulation in high risk patients.- - - - - - - - - - ranking = 0.33333333333333keywords = vessel (Clic here for more details about this article) |
5/25. Free flap coverage of upper and lower limb tissue defects in children: a series of 22 patients.Free tissue transfer has become the most important means of limb salvage treatment after severe trauma. This one-step procedure shortens healing and hospitalization time and minimizes the danger of infection. However, very few studies have considered the use of free tissue transfer for the reconstruction of traumatic limb injuries in children. This study reports 22 such cases treated in the authors' unit between 1993 and 2000 (17 boys and 5 girls; mean age, 8.9 years; age range, 18 months-15 years; 16 lower and 6 upper limbs). All flaps were indicated for repair of acute traumatic defects (20-500 cm2). Five different flaps were used: 12 scapular, 4 latissimus dorsi, 4 serratus anterior, 1 groin, and 1 temporalis fascia. All were successful, except for partial necrosis with the free groin flap. Three flaps requiring reexploration for venous insufficiency had a successful outcome. The microsurgical success rate in this pediatric population is very high, and the state and size of the donor site and recipient vessels have caused no problems. No long-term complications have been noted (mean follow-up, 3.8 years).- - - - - - - - - - ranking = 0.33333333333333keywords = vessel (Clic here for more details about this article) |
6/25. Distally based perforator medial plantar flap: a new flap for reconstruction of plantar forefoot defects.In this article the author describes 2 cases of a distally based perforator medial plantar flap that were transferred successfully from the nonweight-bearing instep region to the weight-bearing plantar forefoot (defects, 8 x 5 cm and 6 x 5 cm respectively). This flap is nourished solely by perforators of the medial plantar vessels. The advantages of this flap are the protection of the vascular supply of the foot (because both posterior tibial and medial plantar vascular systems are preserved), anterograde flow of the vascular supply (which gives an additional advantage of expecting less venous insufficiency compared with reverse-flow flaps), no dependence on retrograde vascular communications, minimal donor site morbidity, and transport of structurally similar tissues to the plantar forefoot.- - - - - - - - - - ranking = 0.33333333333333keywords = vessel (Clic here for more details about this article) |
7/25. Supercharged reverse-flow sural flap: a new modification increasing the reliability of the flap.The management of soft-tissue defects in the lower third of the leg and foot presents a considerable problem because of composite tissue defects, inadequate and tight local tissue for reconstruction, and poor circulation. Although the reverse sural flap is frequently preferred and is fairly reliable, some complications arising from the circulation may be encountered in large flaps or in diabetic patients. In the present study, we developed a new modification by supercharging the sural flap to reduce venous congestion and edema and to increase the reliability of the flap. We treated 3 patients (2 men and 1 woman) by utilizing a supercharged reverse sural flap. All flaps survived and healed uneventfully. We also suggest a new and more distinctive classification for supercharging and turbocharging, which defines the vessel type to be anastomosed and the relationship of the vessel to be anastomosed with the main vessel to the flap.- - - - - - - - - - ranking = 1keywords = vessel (Clic here for more details about this article) |
8/25. Clinical applications of free soleus and peroneal perforator flaps.Clinical applications of two free lateral leg perforator flaps are described: a free soleus perforator flap that is based on the musculocutaneous perforator vessels from one of the three main arteries in the proximal lateral lower leg, and a free peroneal perforator flap that is based on the septocutaneous or direct skin perforator vessels from the peroneal artery in the distal and middle thirds of the lateral lower leg. The authors applied free soleus perforator flaps to 18 patients and free peroneal perforator flaps to five patients with soft-tissue defects. The recipient site was the great toe in 14 patients, the hand and fingers in five patients, the leg in two patients, and the upper arm and the jaw in one patient each. The largest soleus perforator flap was 15 x 9 cm, and the largest peroneal perforator flap was 9 x 4 cm. Vascular pedicle lengths ranged from 6.5 to 10 cm in soleus perforator flaps and from 4 to 6 cm in peroneal perforator flaps. All flaps, except for the flap in one patient in the peroneal perforator flap series, survived completely. Advantages of these flaps are that there is no need to sacrifice any main artery in the lower leg, and there is minimal morbidity at the donor site. For patients with a small to medium soft-tissue defect, these free perforator flaps are useful.- - - - - - - - - - ranking = 0.66666666666667keywords = vessel (Clic here for more details about this article) |
9/25. Extended trapezius myocutaneous free flap for the reconstruction of a foot defect lacking adjacent recipient vessels.foot reconstruction requires tissue that is durable and can withstand the extremes of pressure and stress. The trapezius myocutaneous flap has not been used previously as a free flap for foot reconstruction. In this report, the trapezius was used as an extended myocutaneous free flap for the reconstruction of a foot wound lacking adjacent and adequate recipient vessels. The extended trapezius flap may be one of the longest free flaps that can be harvested. The indications for the use of this flap are limited. In an extremity that lacks adequate recipient vessels adjacent to the defect, this flap can be extended such that more proximal vessels in the leg can be used as the recipient vessels without the need for vein grafts to bridge the distance. The donor-site morbidity of this flap is minimal when the superior fibers of the trapezius muscle and its innervation are preserved.- - - - - - - - - - ranking = 2.6666666666667keywords = vessel (Clic here for more details about this article) |
10/25. The compound thoracodorsal perforator flap in the treatment of combined soft-tissue defects of sole and dorsum of the foot.Nine cases of massive soft-tissue loss of the foot were reconstructed by means of a compound (chimera) thoracodorsal artery perforator (TAP) flap, which reconstituted the different functional units (dorsum, heel, instep, weight-bearing surface). In each case, the flap consisted of a skin component isolated on its perforator in combination with a portion of latissimus dorsi muscle and/or serratus fascia, all pedicled on the thoracodorsal vessels. The pedicle length allows up to 4-6 cm of independent mobility of the skin island. The mobility of the various flap components allows the various functional units of the foot to be reconstructed without relying on multiple flaps or anastomoses. The pedicle length was sufficient to be able to perform the anastomosis out of the zone of injury. In some cases the skin island was harvested along with intercostal nerve branches, this gave us the potential to develop a sensate flap. The indications and advantages of this reconstructive method are discussed.- - - - - - - - - - ranking = 0.33333333333333keywords = vessel (Clic here for more details about this article) |
| | Next -> |