Versatility of the vertical designed deep inferior epigastric perforator flap

The deep inferior epigastric perforator (DIEP) flap is one of the most commonly used perforator flaps. However, when horizontally oriented, it has certain pitfalls such as sacrifice of the contralateral donor site, the need to discard soft tissue that will not be adequately perfused, and long operating times. To overcome these handicaps, the flap in a vertical orientation was designed and demonstrated the versatility of this technique in a number of different anatomical tissue restorations in this study. The vertical DIEP flaps were used in 8 patients (7 males and 1 female) in 3 years. Defects were located in the lower limb (4 cases), face (3 cases), and hip (1 cases). All flaps were transferred as free, except one in the hip that was pedicled. Flap sizes varied from 7 × 5 cm to 13 × 9 cm. All donor defects were closed primarily. The mean follow‐up time was 13.6 months. All flaps survived totally, but one which had partial necrosis. A hematoma developed postoperatively in the donor site of the pedicled DIEP flap. Cosmetic outcomes were satisfactory in all patients. All donor site scars were acceptable with minimal contour irregularities. The vertical DIEP flap offers diverse opportunities in various soft tissue reconstructions and is candidate to be an important choice of free flap repertoire. The method can be proposed particularly for restoration of moderate sized defects rather than that of large defects as in postmastectomy breast reconstruction. © 2009 Wiley‐Liss, Inc. Microsurgery, 2009.     

Metatarsal artery perforator‐based propeller flap

Soft‐tissue defects of the distal foot that involve an exposed tendon and bone demonstrate a reconstructive challenge for plastic surgeons. This report investigates the feasibility and reliability of metatarsal artery perforator (MAP)‐based propeller flap for reconstruction of the distal foot soft‐tissue defects. Between July 2011 and June 2012, six patients underwent distal foot reconstruction with seven MAP‐based propeller flaps. Five flaps were based on the third metatarsal artery and two flaps were based on the first metatarsal artery. The flap size ranged from 4 × 2 cm to 8 × 4 cm. All flaps completely survived. Two patients developed transient distal venous congestion, which subsided spontaneously without complications. There were no donor site complications. All patients were ambulating without difficulty within the first month of surgery. MAP‐based propeller flaps can be used to repair the distal foot soft‐tissue defects, providing sufficient skin territory and excellent esthetic and functional recovery. © 2013 Wiley Periodicals, Inc. Microsurgery 34:287–291, 2014.     

Freestyle perforator‐based propeller flap of medial arm for medial elbow reconstruction

Elbow reconstruction is challenging for reconstructive surgeons. The purpose of this report is to present the results of the use of freestyle perforator‐based propeller flap designed from the medial arm region for elbow reconstruction. The defects following soft tissue sarcoma resection at the medial and posterior elbow were repaired in two patients. The dimensions of the defects were 11 × 7 cm² and 10 × 7 cm². Two perforators were identified in each case using Doppler ultrasound probe in the medial arm, adjacent to the defect. The perforator with visible pulsation was chosen as the pedicle vessel, which was 12‐cm and 7‐cm proximal to the medial epicondyle. An elliptical flap, extending almost the full length of arm, was raised and rotated 180° to repair medial elbow defects. The sizes of the flaps were 17 × 8 cm² and 11 × 7 cm². The donor sites were closed directly. Both flaps survived; temporary venous congestion occurred in one case. There were no other postoperative complications. These cases illustrated that the medial arm flap might be used for reconstruction of medial elbow defects with this freestyle perforator‐based propeller flap design. © 2014 Wiley Periodicals, Inc. Microsurgery 35:411–414, 2015.     

Reconstruction of distal lower extremities defect using the free peroneal artery perforator vessel based flap

Soft tissue defects of the distal lower extremities are challenging. The purpose of this paper is to present our experiences with the free peroneal artery perforator flap for the reconstruction of soft tissue defects of the distal lower extremity. Nine free peroneal artery perforator flaps were used to reconstruct soft tissue defects of the lower extremities between April 2006 and October 2011. All flaps were used for distal leg and foot reconstruction. Peroneal artery perforator flaps ranged in size from 2 cm × 4 cm to 6 cm × 12 cm. The length of the vascular pedicle ranged from 2 to 6 cm. Recipient vessels were: medial plantar vessels in seven cases, the dorsalis pedis vessel in one, metatarsal vessel in one. All flaps survived completely, a success rate of 100%. Advantages of this flap are that there is no need to sacrifice any main artery in the lower leg, and minimal morbidity at the donor site. This free perforator flap may be useful for patients with small to medium soft tissue defects of the distal lower extremities and feet. © 2014 Wiley Periodicals, Inc. Microsurgery 34:629–632, 2014.     

Sequential chimeric medial femoral condyle and anterolateral thigh flow‐through flaps for one‐stage reconstructions of composite bone and soft tissue defects: Report of three cases

Small recalcitrant non‐unions with poor perfusion require reconstruction with vascularized bone flaps. Cases with concomitant large soft tissue defects are especially challenging, since vascularized soft tissue transfer is often indicated and distant microvascular anastomoses may be required. We introduce a sequential chimeric free flap composed of a medial femoral condyle corticoperiosteal flap anastomosed to an anterolateral thigh flow‐through flap (MFC‐ALT flap) and report its use for reconstruction of small non‐unions with concomitant large soft tissue defects in three exemplary patients. Two female and one male patients ages 39–58 years suffered from composite bone and soft tissue defects of the lower extremity and clavicle caused by tumor resection and postoperative radiation resp. infected tibial pilon fracture. The sizes of the soft tissue defects ranged from 15–23 × 4.5–6 cm and the sizes of the bone defects ranged from 1.5–4 × 2–4 cm. Defect reconstructions were performed in all cases with sequential chimeric MFC‐ALT flaps with sizes ranging from 2–4 × 1.6–4 cm for the MFC and 21–23 × 7–8 cm for the ALT skin paddles. Functional reconstructions were achieved in all cases resulting in stable unions and soft tissue coverage enabling the patients to bear full weight without assistance on 5‐months follow‐up. Postoperative course was uneventful and complications were restricted to a small skin necrosis at the suture line in one case. MFC‐ALT flaps may be a safe, and effective procedure for one‐stage reconstructions of small, irregularly shaped bone defects with concomitant large soft tissue loss or surrounding instable scarring, particularly in cases of recalcitrant non‐unions after radiation exposure.     

Peroneal artery perforator chimeric flap for reconstruction of composite defects in extremities

Large bone defects of extremities, especially those associated with soft tissue defects, represent difficult reconstructive problems. Chimeric flap is a suitable option for reconstruction of complex bone and soft‐tissue defects. In this report, we present the experience on use of the peroneal artery perforator chimeric flap for the reconstruction of complex bone and soft tissue defects in the extremities in 16 patients. The bone defects were located in the tibia in 8 patients, in both tibia and fibula in 1 patient, in the ulna in 2 patients, in both ulna and radius in 2 patients, and the metatarsal bone in 3 patients. The flap was created with skin paddle and fibula bone segments based on independent perforators. The sizes of flap ranged from 8 × 6 to 20 × 11 cm², and the length of fibular grafts ranged from 6 to 22 cm. All flaps survived completely. Bone union was ultimately obtained in all cases at 5 to 11 months, while two cases suffered from stress fractures in 12 month and 18 month after operation, respectively, which eventually healed with external fixation treatment. The follow‐up time ranged from 12 to 37 months. The definite bone hypertrophy was observed from X‐ray at 18 months after operation. In conclusion, our results show that the peroneal artery perforator chimeric flap is a good option for reconstruction of complex bone and soft‐tissue defects of extremities, particularly for those with three‐dimensional defects and bone defects exceeding 6 cm in length. © 2010 Wiley‐Liss, Inc. Microsurgery, 2010.     

Reconstruction of post‐traumatic drop foot deformity by the chimeric deep inferior epigastric artery perforator free flap associated with a composite quadriceps osteotendinous graft

Dorsiflexor tendons are particularly exposed in crush injury of the foot. Anterior tibialis tendon defects may be responsible for a steppage gait and a drop foot deformity. Drop foot reconstruction is challenging because of the high risk of postoperative adhesions and functional sequelae. In this report, we present the results of the reconstruction of post‐injury anterior tibialis tendon defects with chimeric deep inferior epigatric artery perforator (DIEP) free flap associated with a quadriceps osteotendinous graft in two patients. Two men (32‐year‐old and 19‐year‐old) presented drop foot deformity with defect of the anterior tibialis tendon secondary to a crush injury. The sizes of the soft tissues defects at the foot dorsum were 24 cm × 8 cm and 20 cm × 8 cm, respectively. The quadriceps osteotendinous grafts were used to reconstruct the anterior tibialis tendon in both patients. The chimeric DIEP free flaps with skin paddles (24 cm × 8 cm and 20 cm × 8 cm) and rectus abdominis fascia (24 cm × 4 cm and 20 cm × 4 cm) were used for reconstruction. The skin component based on a musculocutaneous perforator was used for soft tissue reconstruction of the foot dorsum. The fascial component based on a second perforator was used to create a sliding surface around the osteotendinous graft. Postoperative course was uneventful. Rehabilitation lasted 3 months. The range of ankle movement was measured during 12 months. The first patient recovered 10 degree of dorsiflexion. The second patient recovered 25 degree of dorsiflexion. Walk recovery was satisfying in both patients. The single‐stage procedure using the chimeric DIEP free flap may be an option for post‐injury drop foot reanimation. Creating a sliding surface around a composite osteotendinous quadriceps graft with a vascularized fascial component avoid postoperative peritendinous adhesions. This technique may improve foot dorsiflexion and walk recovery. © 2015 Wiley Periodicals, Inc. Microsurgery 36:334–338, 2016.     

Pedicled chimeric gastrocnemius—medial sural artery adipofascial flap for reconstruction of anterolateral defects of the knee

A medial gastrocnemius muscle flap is useful for soft tissue reconstruction of the knee and proximal tibia but insufficient to cover defects involving the lateral aspect of the knee. The purpose of this report is to present the results of the use of a pedicled chimeric gastrocnemius—medial sural artery adipofascial flap for reconstruction of defects of the knee and lateral aspect of the knee. Six patients underwent soft tissue reconstruction of the knee by means of the described procedure. Patients included one female and five males. The mean age of the patients was 48 years. The cause of soft tissue defects was open fractures in three cases and infection in three cases. The mean size of soft tissue defects was 9.3 × 7 cm (range: 6 × 3 to 18 × 14 cm), and the mean size of adipofascial components was 6.8 × 3.8 cm (range: 6 × 3 to 10 × 6 cm). Medial knee defects were covered by the medial gastrocnemius muscle component and lateral knee defects were covered by the medial sural artery adipofascial component. All flaps survived in the six cases. Soft tissue reconstruction and infection control were successful without any additional surgical procedures. A pedicled chimeric gastrocnemius–medial sural artery adipofascial flap may be considered effective for soft tissue reconstruction of the knee as it reduces scars at the donor site and reconstructs the lateral knee defects not covered by the medial gastrocnemius muscle flap. © 2015 Wiley Periodicals, Inc. Microsurgery 37:206–211, 2017.     

Reverse lateral supramalleolar adipofascial flap and skin grafting for one‐stage soft tissue reconstruction of foot and ankle joint

The aim of this report is to present the clinical result and efficacy of reverse lateral supramalleolar adipofascial flap and skin grafting for one stage soft tissue reconstruction of the foot and ankle joints. Reconstruction using a reverse lateral supramalleolar adipofascial flap and skin grafting was performed in eight cases between January 2005 and March 2009. All the subjects were male with a mean age of 53 years. The mean follow‐up period was 20 months. The reasons for soft tissue defects were diabetic foot, infected bursitis, open injuries of the foot, and chronic osteomyelitis. The mean size of the flaps was 3.5 (3–4) × 4.5 (4–6) cm. The flaps were elevated in the form of an adipofascial flap and split‐thickness skin grafting was performed over the flaps and adjoining raw areas. Flaps survived in all cases. The implantation of the split‐thickness skin graft over the flap was also successful in all cases. Neither partial necrosis in the adipofascial flap nor venous congestion was observed. At the last follow‐up, there were no limited motions in the ankle and the toe. No cases complained of inconveniences in ambulation or had difficulties in selecting footwear. In cases that require a flap for the exposed bone or tendon of the foot with a small‐sized defect, reverse lateral supramalleolar adipofascial flap and skin grafting is considered a useful method as it lowers the morbidity rate of the donor site and reconstructs soft tissues. © 2010 Wiley‐Liss, Inc. Microsurgery 30:423–429, 2010.     

Turbocharged bilateral pedicled DIEP flap for reconstruction of thigh defect without recipient vessels: A case report

Reconstruction of thigh defects is usually straightforward, but in cases of poor soft tissue quality, free flap reconstruction is not possible due to the absence of recipient vessels. The turbocharge technique may increase the viable, vascularized area of a flap. In this report we present a case of the use of a turbocharged bilateral pedicled DIEP flap for reconstruction of thigh defect without recipient vessels. A 29‐year‐old woman who underwent neoadjuvant chemotherapy plus radiation therapy for a leiomyosarcoma on the left thigh. Six weeks later, complete tumor excision and a femoropopliteal bypass with contralateral saphenous vein was performed. In the following days the wound had dehiscence, infection, necrosis of the surrounding muscles and exposure of femoropopliteal bypass. No recipient vessels were available for free flap and critical limb ischemia due to bypass thrombosis was detected. The reconstruction of a large thigh defect (30 × 12 cm) and the coverage of a femoropopliteal bypass with a turbocharged bilateral pedicled DIEP flap was performed. A flap including the entire infraumbilical tissue was designed and the anastomosis of the proximal stump of the right inferior epigastric vessels with the distal ends of the inferior left epigastric vessels was performed to increase the viable area. The flap survived without any complications during the postoperative period. At 12‐month follow up, coverage was stable with no tumor recurrence. Our result suggests that a turbocharged bilateral pedicled DIEP flap may be an option for reconstructing large tissue defects when no recipient vessels are available for free flap.     

Reconstruction of the lateral malleolus and calcaneus region using free thoracodorsal artery perforator flaps

Reconstruction of the lateral malleolus or calcaneus region is challenging because of poor vascularity, minimal presence of soft tissue, and difficulties with flap positioning during and after the operation. In many cases, local flaps are limited in terms of size, durability, and vascularity. Free tissue transfer can be useful for complicated wounds. We report here on the results of the reconstruction in this region using free thoracodorsal artery perforator flaps. Between October 2010 and October 2013, 16 cases of lateral malleolus or calcaneus defects were reconstructed using free thoracodorsal artery perforator flaps. The defects varied from 2 × 5 cm² to 12 × 16 cm², and the flaps from 3 × 5 cm² to 10 × 15 cm². Two cases were reconstructed using chimeric‐pattern flaps. Only the superficial adipose layers were harvested for all the flaps, without further thinning or debulking process. Five cases with complications occurred, including three cases of partial necrosis of the flap and two cases of venous congestion caused by thrombosis and compression of the venous pedicle, and one flap was totally lost. The mean follow‐up duration was 11.8 months. All the patients were able to wear shoes. All but one were able to walk. The thoracodorsal artery perforator flap can be made super‐thin, allowing patients to wear shoes, and it can be harvested in a chimeric‐pattern for complex defects. Therefore, it may represent a viable alternative choice for the reconstruction of the lateral malleolus and calcaneus region. © 2015 Wiley Periodicals, Inc. Microsurgery 36:198–205, 2016.     

Salvage of the lower extremity free flap using cross-leg venous repair.

This retrospective study was designed to evaluate a salvage technique for free flaps suffering venous congestion by using a cross-leg vein repair in patients with venous-impaired lower extremities. Four free flap reconstructions were performed using the latissimus dorsi muscle to reconstruct soft tissue defects in the lower extremity. The recipient artery was confined to the ipsilateral leg and the venous anastomosis was performed with a long saphenous vein from the contralateral side. The legs were immobilised together by means of an external fixator. All patients were males with a mean age of 31 years. The mean time of pedicle division was 8.8 days (7-10). The mean size of the free flap was 186.5 cm(2). All flaps survived after pedicle division without venous congestion. There were no complications such as joint stiffness or donor site morbidity except for a linear scar. The cross-leg venous repair is a refinement of a salvage procedure for compromised free flaps used in the reconstruction of severe soft tissue defects in vascularly compromised lower extremities.     

改良腹壁下动脉穿支皮瓣的临床应用

目的 探讨腹壁下动脉穿支皮瓣(deep inferior epigastric perforator flap,DIEP皮瓣)切取方式的改进,扩大DIEP皮瓣的临床应用范围.方法 采用双腹壁下血管蒂仅带肌袖的DIEP皮瓣(并可通过筋膜蒂携带髂骨或肋骨)修复四肢大面积软组织缺损,其中前臂缺损5例,手腕部缺损6例,创面面积为10.0 cm×5.0 cm～45.0cm×20.0 cm,均为急诊修复.结果 术后11例皮瓣中全部存活10例,大部分存活1例.随访时间3～61个月,皮瓣愈合良好,手功能恢复满意.所有供区均未发生腹壁疝.结论 改良DIEP皮瓣是修复大面积皮肤缺损的首选皮瓣之一.     

Dorsalis pedis arterialized venous flap for hand and foot reconstruction

Objective:To report the results of repair of skin defects in the extremities with arterialized venous flap harvested from the lateral aspect of the dorsum of the foot.Methods:Six cases of skin and soft...     

Successful free flap salvage upon venous congestion in bilateral breast reconstruction using a venous cross-over bypass: A case report

Abdominal free flaps such as the muscle sparing transverse rectus abdominis myocutaneous (ms-TRAM) or deep inferior epigastric artery perforator (DIEP) flap represent the gold standard in autologous breast reconstruction. We describe a salvage procedure during bilateral free flap breast reconstruction due to insufficient venous drainage using a venous cross-over bypass. A 54-year-old woman with a thrombosis of the left subclavian port-system in the medical history was elected for simultaneous bilateral breast reconstruction with ms-TRAM and DIEP flaps. Intraoperatively, a venous congestion of the DIEP flap, which was connected to the left cranial internal mammary vessels, appeared. In the absence of sufficient ipsilateral venous recipient vessels, we performed a salvage procedure requiring a 15 cm small saphenous vein graft and presternal subcutaneous tunneling. The flap vein was anastomosed end-to-end with the contralateral caudal internal mammary vein using a coupler system. The postoperative course was uneventful and both flaps survived. We describe the cross-over venous emergency bypass as a useful tool in unexpected venous thrombosis during bilateral free flap breast reconstruction.     

Breast reconstruction with superior epigastric artery perforator (SEAP) free flap: Report of two cases

The deep inferior epigastric artery perforator (DIEP) flap is the gold standard for autologous breast reconstruction. When the DIEP pedicle is damaged, alternative perforator flaps are harvested from sites with less donor tissue, such as the thigh. Pedicled superior epigastric artery perforator (SEAP) flaps have been recently described for reconstruction of inferior partial breast defects. The purpose of this report is to show the surgical technique of the free SEAP flap for reconstruction of the entire breast in two patients. The authors describe two patients where the DIEP pedicle was unavailable. The first patient was 53 years old, with body mass index (BMI) 22.7, while the second patient was 60 with BMI 32.4. The donor site was marked as for a DIEP, and two lateral row perforators were selected in each case. Flaps were designed to cross the midline, with adequate perfusion confirmed via indocyanine green angiography. Both flaps were rotated 90° counterclockwise for inset into the chest. Flap size and weight for the two patients were: 24 × 15 cm and 350 g; and 25 × 15 cm and 400 g. Both patients had a routine postoperative course without complications. Length of follow-up was 155 and 158 days, respectively. We believe that the free SEAP flap is a promising technique in select patients who require an alternative to the DIEP for autologous breast reconstruction.     

The bipedicled latissimus dorsi myocutaneous free flap: Clinical experience with 53 patients

The Latissimus dorsi musculocutaneous flap is a valuable workhorse of the microsurgeon, especially in closing large body defects. One of the pitfalls in harvesting the flap, is particularly in its inferior aspect which may be unreliable. Here we report a series of 53 patients who were undergone bipedicled free latissimus dorsi musculocutaneous free flaps for extensive tissue defects. The age of patients were between 5 and 64 and all of them were males. The wound sizes in these patients ranged between 31–35 × 10–12 cm and flap dimensions were between 38–48 × 6–8 cm. Perforator branches of the 10th intercostal vessels were dissected and supercharged to the flaps to reduce the risk of ischemia of the inferior cutaneous extensions. The secondary pedicles were anastomosed to recipient vessels other than the primary pedicles. Recipient areas were consisted of lower extremities. Four patients suffered of early arterial failure in the major pedicle and all revisions were successfully attempted. Neither sign of venous congestion nor arterial insufficiency were observed at the inferior cutaneous extensions of the flaps, and all defects were reconstructed successfully. All donor sites were primarily closed, only two patients suffered from a minor area of superficial epidermal loss at the donor site, without suffering any adjunct complications. In conclusion coverage of large defects can be safely performed with extending the skin paddle of latissimus dorsi flap as a bipedicled free flap. © 2009 Wiley‐Liss, Inc. Microsurgery, 2010.     

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

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.     

Use of a 72‐cm‐long extended bilateral deep inferior epigastric artery perforator free flap for reconstruction of a lower leg with no suitable recipient vessel around the injury zone: A case report

In free‐flap reconstruction of the lower extremity, due either to trauma or pre‐existing vascular disease, healthy vessels may not be readily available in the proximity of the defect. A variety of options including a cross‐leg free flap, vein grafts, arteriovenous loops, and “bridging” flaps have been used to address the issue. The purpose of this report is to present a case in which a 72‐cm long extended bilateral deep inferior epigastric artery perforator (DIEP) free flap was used for coverage of a 20 × 25 cm soft tissue defect of the lower leg following a Gustilo grade IIIC fracture in a 29‐year‐old man. Because usable recipient vessels were far from the zone of injury, and to avoid complications accompanying long vein grafts, a long flap was necessary. The exposed tibia required coverage with a free flap, but peripheral portions of the defect with exposed muscles could be covered with a skin graft. Thus, a 72 × 12 cm flap was chosen. The flap was based on both bilateral DIEPs and on the superficial circumflex iliac artery (SCIA). The flap survived completely with no complications. After one debulking surgery, the flap and the donor site showed pleasing cosmesis, and the patient could walk without crutches at 18 months after the first surgery. In cases where no healthy recipient vessels can be found close to the defect, we believe that the use of an extended bilateral DIEP flap may be a feasible option which shortens or precludes vein grafts with no additional flap donor sites.