Despite the now widespread experience with the administration of chemotherapeutic agents in oncology, extravasation injuries still occur. Furthermore, the most appropriate management of such injuries is not known. The authors examined the current treatment options for extravasation injury and the incidence of this problem. All cases of extravasation referred to the plastic surgery service at one institution from 1994 through 1996 were examined. During a 6-year period there were 44 cases of extravasation injury identified in 42 patients. Comparison with a previous study conducted 15 years before at the same institution revealed a significant reduction in the incidence of extravasation injuries during that time (0.01% vs. 0.1%; = 0.00). The site of extravasation was peripheral in 32 cases and central in 12. Paclitaxel and doxorubicin were the two most common drugs involved. The local infusion of antidotes was not performed routinely. Only 26 of the 42 patients were referred to the plastic surgery service for care. Only 10 of those 26 patients required local ulcer excision and closure to achieve a healed wound. The mean time between injury and referral was 40 days. This time did not predict the subsequent need for a surgical procedure. Most patients, including the remaining 16 referred to the plastic surgery service, did not require surgical intervention. All were watched expectantly, and their injuries healed spontaneously. In conclusion, the incidence of extravasation is decreasing, most likely as a result of the diligence in the administration and identification of extravasation injuries as well as the result of the use of more central infusion sites. Most cases can be managed conservatively, with directed surgical treatment of the ulceration when appropriate.
The pre-expanded pedicled TDA perforator flap is a suitable alternative for coverage of the axillary defects after the release of the burn contractures. A pliable texture and large size flap can be obtained to transfer to the axillary area and the donor site scar is considered as cosmetically acceptable.
The medial plantar flap presents an ideal tissue reserve, particularly for the reconstruction of the plantar and palmar areas, which require a sensate and unique form of skin. In the past 5 years, the authors performed 16 free flaps, 10 locally pedicled flaps, and five cross-leg flaps on 31 patients for the reconstruction of palmar and plantar defects. All flaps transferred to the palmar area survived, providing good color match and sufficient bulkiness. The overall results were satisfactory in terms of function and sensation, and no complications related to flap survival in the plantar area were observed. All flaps used to cover defects in the heel and ankle region adapted well to their recipient areas, and all lower extremities remained functional. Because the medial plantar flap presents glabrous, sensate skin with proper bulkiness and permits the movement of underlying structures, the authors advocate its use and view this procedure as an excellent alternative in the reconstruction of palmar and plantar weight-bearing areas.
Indications for vacuum-assisted closure (VAC) therapy described generally include acute, chronic, traumatic wounds and ulcers. Recent studies related to investigating new applications of VAC therapy have begun to be reported at literature in many aspects. We used this technique in a novel area. A 21-year-old man presented who suffered venous congestion in anterolateral thigh fasciocutaneous flap at the postoperative second day. Following two cycles of VAC therapy, 72 hours later, venous congestion disappeared. Application of VAC therapy to the flap helps removal of excess interstitial fluid because of increased pressure gradients. It seems that VAC therapy is an option in venous congestion when the interstitial pressure rises above capillary pressure.
When presented with an extensive soft-tissue defect involving the sole of the foot, reconstruction with free muscle flaps covered by a split-thickness skin graft is the proposed method of treatment. However, persistent graft breakdown and a chronic wound of the weight-bearing flap is a challenging problem during the late postoperative period, as experienced by the authors in their patients with high-energy-induced lower extremity injuries. The authors used the instep flap as an island cross-foot flap to manage persistent graft breakdown that involved skin-grafted muscle flaps transferred previously to the heel in 3 patients and to treat a chronic wound involving an amputation stump in 1 patient. The vascular pathology of the injured extremities indicated a cross-leg procedure instead of a free flap transfer. Pedicles were wrapped with split-thickness skin grafts and flaps were harvested superficial to the plantar fascia. Pedicles were divided during postoperative week 3, and no complications related to the operation or to immobilization have been encountered during the postoperative follow-up. During the 1-year follow-up, durable coverage, free from development of open wounds, has been achieved, and patients have expressed their satisfaction. In the case of complicated, high-velocity foot injuries, the authors suggest that this procedure be kept in mind as an alternative treatment option because it has some advantages over conventional cross-leg procedures.
The present study reviews 215 male patients suffering high velocity-high energy injuries of the lower leg or foot caused by war weapons such as missiles, gunshots, and land mines. They were treated in the Department of Plastic and Reconstructive Surgery at Gulhane Military Medical Academy (Ankara, Turkey) between November 1993-January 2001. Severe soft-tissue defects requiring flap coverage and associated open bone fractures that were treated 7-21 days (mean, 9.6 days) after the injury were included in the study. Twenty-three of 226 extremities (10.2%) underwent primary below-knee amputation. The number of debridements prior to definitive treatment was between 1-3 (mean, 1.9). Gustilo type III open tibia fractures accompanied 104 of 126 soft-tissue defects of the lower leg. Sixty-four bone defects accompanied 83 soft-tissue defects of the feet. Eighteen local pedicled muscle flaps and 208 free muscle flaps (latissimus dorsi, rectus abdominis, and gracilis) were used in soft-tissue coverage of 209 defects. Overall, the free muscle flap success rate was 91.3%. Bone defects were restored with 106 bone grafts, 25 free fibula flaps, and 14 distraction osteogenesis procedures. Osseous and soft-tissue defects were reconstructed simultaneously at the first definitive treatment in 94% of cases. The mean follow-up after definitive treatment was 25 (range, 9-47) months. The average full weight-bearing times for lower leg and feet injuries were 8.4 months and 4 months, respectively. Early, aggressive, and serial debridement of osseous and soft tissue, early restoration of bone and soft-tissue defects at the same stage, intensive rehabilitation, and patient education were the key points in the management of high velocity-high energy injuries of the lower leg and foot.
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