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Soft Tissue Defects (soft + tissue_defect)

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Medical Sciences	100%

Selected Abstracts

Peroneal artery perforator-based propeller flap reconstruction of the lateral distal lower extremity after tumor extirpation: Case report and literature review

MICROSURGERY, Issue 8 2008
Ariel N. Rad M.D.
Background: Soft tissue defects in the distal lower extremity present a formidable challenge due to the lack of reliable local flap options. Pedicled adipofasciocutaneous flaps provide the closest match to local tissues, but random pattern flaps are limited in reliability, size, reach, and arc-of-rotation. One hundred and eighty degree perforator-based propeller flaps are an innovative option because they provide robust axial perfusion to flaps with significantly greater surface area and ease of transposition versus that provided by their random pattern counterparts in these anatomic regions traditionally addressed with free tissue transfer. Case: We present a rare case of aggressive digital papillary carcinoma of the posteriolateral ankle and Achilles region. Wide local excision resulted in a defect with Achilles tendon exposure and denudation. A fasciocutaneous propeller flap based on a dominant peroneal artery perforator was raised and rotated 180° to resurface the wound, providing a gliding surface for Achilles tendon function. The reconstruction was successful with no complications, excellent contour, and esthetic appearance. Conclusions: Peroneal perforator-based propeller flaps in the ankle region are useful local options providing unparalleled form and function, with excellent surface area and mobility, for dynamic areas of the lower extremity, without sacrificing any major vessels or nerves. This technique adds to the reconstructive microsurgeon's armamentarium for complex coverage of the ankle region. © 2008 Wiley-Liss, Inc. Microsurgery, 2008. [source]

Face resurfacing using a cervicothoracic skin flap prefabricated by lateral thigh fascial flap and tissue expander

MICROSURGERY, Issue 7 2009
Ph.D., Qingfeng Li M.D.
Background: Resurfacing of facial massive soft tissue defect is a formidable challenge because of the unique character of the region and the limitation of well-matched donor site. In this report, we introduce a technique for using the prefabricated cervicothoracic skin flap for facial resurfacing, in an attempt to meet the principle of flap selection in face reconstructive surgery for matching the color and texture, large dimension, and thinner thickness (MLT) of the recipient. Materials: Eleven patients with massive facial scars underwent resurfacing procedures with prefabricated cervicothoracic flaps. The vasculature of the lateral thigh fascial flap, including the descending branch of the lateral femoral circumflex vessels and the surrounding muscle fascia, was used as the vascular carrier, and the pedicles of the fascial flap were anastomosed to either the superior thyroid or facial vessels in flap prefabrication. A tissue expander was placed beneath the fascial flap to enlarge the size and reduce the thickness of the flap. Results: The average size of the harvested fascia flap was 6.5 × 11.7 cm. After a mean interval of 21.5 weeks, the expanders were filled to a mean volume of 1,685 ml. The sizes of the prefabricated skin flaps ranged from 12 × 15 cm to 15 × 32 cm. The prefabricated skin flaps were then transferred to the recipient site as pedicled flaps for facial resurfacing. All facial soft tissue defects were successfully covered by the flaps. The donor sites were primarily closed and healed without complications. Although varied degrees of venous congestion were developed after flap transfers, the marginal necrosis only occurred in two cases. The results in follow-up showed most resurfaced faces restored natural contour and regained emotional expression. Conclusion: MLT is the principle for flap selection in resurfacing of the massive facial soft tissue defect. Our experience in this series of patients demonstrated that the prefabricated cervicothoracic skin flap could be a reliable alternative tool for resurfacing of massive facial soft tissue defects. © 2009 Wiley-Liss, Inc. Microsurgery, 2009. [source]

Spontaneous cecum perforation following rectus abdominis free flap transfer for isolated lower limb trauma

MICROSURGERY, Issue 3 2009
Ch.B., Roger J. G. Stevens M.Sc.
A case of a 32-year-old motorcyclist, who sustained an open comminuted fracture of the left tibia and subsequently developed spontaneous cecal perforation following successful fixation of the fracture and reconstruction of the soft tissue defect with a rectus abdominis free flap, is reported. Although benign cecal perforation has been described in patients with thermal burns and blunt trauma of the abdomen or pelvis, our association has not been reported previously in the medical literature. It is important to recognize cecal perforation early as it is associated with a high mortality from peritonitis and septicaemia. © 2009 Wiley-Liss, Inc. Microsurgery, 2009. [source]

Anatomic basis of perforator flaps of medial vastus muscle

MICROSURGERY, Issue 1 2008
Heping Zheng Ph.D.
The purpose of this study was to elucidate anatomical features of perforating branch flaps based on the muscular branches of the medial vastus muscle and to seek a new, applicable technique that could be used in repairing soft tissue defects around human knees. In this study, the origin, the course, the branches, the distribution, and the distal anastomosis of the muscular branch of the medial vastus muscle were observed in 30 sides of adult cadaveric lower limb specimens with the adductor tubercle, the patella midpoint, and the inguinal ligament midpoint as the observation markers. The specimens had been perfused arterially with red gelatin before they were supplied. It was observed that the femoral artery gave constant muscular branches into the medial vastus muscle at the tip of the femoral triangle. The artery entered the muscle via the hilum and ran laterally downwards along the muscular bundle until it reached the lateral patella to anastomose with the arterial circle around the bone. Along its course, it also gave 1,3 (1/77%) musculocutaneous perforating branches (0.5,0.9 mm in diameter). It then extended vertically through the medial vastus muscle into the deep fascia and ran superficially to the overlying skin of the muscle. A flap based on the perforating branch of the medial vastus muscle could be harvested at a size of about 8.5 cm × 15.0 cm and might be transferred retrograde to repair the soft tissue defect around the knee. © 2007 Wiley-Liss, Inc. Microsurgery, 2008. [source]

Anatomic study and clinical application of distally-based neuro-myocutaneous compound flaps in the leg

MICROSURGERY, Issue 6 2007
Ai-Xi Yu M.D., Ph.D.
Objective: Anatomical study on the anastomosis between the neurovascular axis and the musculocutaneous perforators in leg. The distally-based neuron-myocutaneous flap was used for repairing special patients with soft tissue defect in foot and ankle. Methods: Systematical observation was carried out on 30 injected lower legs about the anastomosis between the neurovascular axis and the musculocutaneous perforators, and we summarized the clinical experiences from February 2004 on 12 cases using distally-based neuron-myocutaneous flap for repairing special patients with soft tissue defect in foot and ankle. Results: The neuron-vessels of sural nerve anastomosed permanently with the musculocutaneous perforators of medial and lateral head of gastrocnemius. There were two to three anastomoses found, respectively. The medial anastomotic branches were found larger in caliber than the lateral ones. The spatium intermuscular branches of the posterior tibial artery gave off their junior branches and anastomosed with the vessels in or out of the soleus muscle. There were two to three muscular branches perforated out of the soleus muscle, with mean caliber 0.5 ± 0.2 mm and accompanying with one to two veins. The neuron-vessels of the superficial fibular nerve gave off alone its course two to three muscular branches to the long extensor muscle digits and the long fibular muscle, and one to two fasciocutaneous to the skin. The diameter of the muscular branches was 0.4 ± 0.2 mm in average. Accounting for the operating models in the 12 cases, we had distally-based sural neuron-myocutaneous flap in 7 cases, saphenous neuron-myocutaneous flap in 4 cases, and superficial fibular neuron-myocutaneous flap in 1 case. All these cases were followed up at least for 2,6 months and had the significant results of nice limb's shape and cured osteomyelitis. Conclusion: Distally-based neuro-myocutaneous flap in leg can live with reliable blood circulation. These flaps offer excellent donor sites for repairing special the soft tissue defect in foot and ankle. © 2007 Wiley-Liss, Inc. Microsurgery, 2007. [source]

Primary oromandibular reconstruction using free flaps and thorp plates in cancer patients: A 5-year experience,

HEAD & NECK: JOURNAL FOR THE SCIENCES & SPECIALTIES OF THE HEAD AND NECK, Issue 1 2003
Tito Poli MD
Abstract Background. Low-profile second-generation THORP titanium plates combined with soft tissues free flaps (forearm or TRAM) can be used for oromandibular reconstruction in patients with SCC in advanced stage (stage III,IV). Methods. To evaluate long-term stability and possible complications of this reconstructive technique, we recorded, retrospectively, data of 25 patients with posterolateral oromandibular defects after tumor resection collected during a 5-year period. Results. All free flaps were successfully transferred, although eight patients were initially seen with delayed hardware-related reconstructive complications: plate exposure in four patients and plate fracture in four patients. Conclusions. Nowadays, the state-of-the-art treatment for mandibular defects is primary bone reconstruction with bone free flaps, but in selected cases (elderly patients, poor performance status, posterolateral oromandibular defects, soft tissue defects much more important than bone defects) the association with THORP plate-soft tissue free flaps represents a good reconstructive choice. © 2002 Wiley Periodicals, Inc. Head Neck 24: 000,000, 2002 [source]

Face resurfacing using a cervicothoracic skin flap prefabricated by lateral thigh fascial flap and tissue expander

The distal superficial femoral arterial branch to the sartorius muscle as a recipient vessel for soft tissue defects around the knee: Anatomic study and clinical applications

MICROSURGERY, Issue 6 2009
Fernando A. Herrera M.D.
Complex wounds surrounding the knee and proximal tibia pose a significant challenge for the reconstructive surgeon. Most of these defects can be managed using local or regional flaps alone. However, large defects with a wide zone of injury frequently require microvascular tissue transfers to aid in soft tissue coverage and closure of large cavities. We describe a unique recipient vessel for microvascular anastomosis for free flap reconstruction involving the knee and proximal tibia through anatomic and clinical studies. © 2009 Wiley-Liss, Inc. Microsurgery 2009. [source]

The thoracodorsal vascular tree-based combined fascial flaps

MICROSURGERY, Issue 2 2009
Meisei Takeishi M.D.
In this study, combined fascial flaps pedicled on the thoracodorsal artery and vein were raised and used for thin coverage of dorsal surfaces of the fingers and the dorsum of hand and foot with favorable results. The combined fascial flaps consist of the serratus anterior fascia and the axillary fascia at the entrance of the latissimus dorsi. These flaps were used for reconstruction of the hand, fingers, or foot in nine patients. Reconstruction was performed for burn or burn scar contracture, after resection of malignant tumors, posttraumatic skin defects, and chronic regional pain syndrome. The sites of reconstruction were dorsal surfaces of fingers, dorsum of hand, wrist and palm, forearm, lower leg, and foot. The flaps were used in various configurations including two independent fascial flaps, two-lobed fascial flap with separate feeding vessels, and composite fascial and thoracodorsal artery perforator flap. The fascial and skin flaps survived in all nine patients, with favorable results both functionally and esthetically. Good coverage of soft tissue defects and good recovery of range of motion in resurfaced joints were achieved. There were no complications. The scars at the sites of harvest were not noticeable. The advantage of this method is that not only a single flap but flaps of a variety of configurations can be harvested for different purposes. The thoracodorsal vascular tree-based combined fascial flaps are useful for the reconstruction of soft tissue defects in the extremities. © 2008 Wiley-Liss, Inc. Microsurgery, 2009. [source]