"Components separation" method for closure of abdominal-wall defects: an anatomic and clinical study

Closure of large abdominal-wall defects usually requires the transposition of remote myocutaneous flaps or free-tissue transfers. The purpose of this study was to determine if separation of the muscle components of the abdominal wall would allow mobilization of each unit over a greater distance than possible by mobilization of the entire abdominal wall as a block. The abdominal walls of 10 fresh cadavers were dissected. This demonstrated that the external oblique muscle can be separated from the internal oblique in a relatively avascular plane. The rectus muscle with its overlying rectus fascia can be elevated from the posterior rectus sheath. The compound flap of the rectus muscle, with its attached internal oblique-transversus abdominis muscle, can be advanced 10 cm around the waistline. The external oblique has limited advancement. These findings were utilized clinically in the reconstruction of abdominal-wall defects in 11 patients, ranging in size from 4 x 4 to 18 x 35 cm. This study suggests that large abdominal-wall defects can be reconstructed with functional transfer of abdominal-wall components without the need for resorting to distant transposition of free-muscle flaps.     

Comparison of strategies for preventing abdominal-wall weakness after TRAM flap breast reconstruction.

To determine the best method for preserving abdominal-wall integrity after TRAM flap breast reconstruction, the records of 130 patients followed for at least 6 months (mean 18 months) were examined. Three strategies for management of the abdominal-wall repair were compared. In the first group (72 patients), the entire width of the rectus abdominis muscle was harvested with the flap, and the anterior rectus sheath was closed in one layer. In the second group (20 patients), only the medial two-thirds of the rectus abdominis muscle was removed from the abdomen. The muscle and fascial donor defects were closed in separate layers. In the third group (38 patients), only one-fifth of the muscle was preserved, and a two-layered fascial closure of the anterior rectus sheath was performed, emphasizing repair of the internal oblique fascia to the midline fascia deep to the linea alba. Reinforcing synthetic mesh was used (in 10 patients) if closure was difficult or sutures tended to pull through the fascia. The incidence of abdominal weakness and/or bulging was similar in the first two groups (33 and 40 percent, respectively), but significantly lower (8 percent) in the third group (p = 0.006).     

A new extended external oblique musculocutaneous flap for reconstruction of large chest-wall defects

A new extended external oblique musculocutaneous flap utilized in the reconstruction of chest-wall defects is described. The flap is drawn as a V-Y rotation flap on the ipsilateral abdominal wall. It is laterally based, and its pedicle coincides with the five lowest costal insertions of the external oblique. The flap extends above the transiliac line, from the posterior axillary line to the linea alba, and includes the dynamic territory of the external oblique muscle. Vascular supply is provided by the musculocutaneous perforating arteries of the intercostal vessels and their subcutaneous branches. The flap is raised medially and includes the anterior sheath of the rectus. Undermining continues between the external and the internal oblique muscles as far as the posterior axillary line. The donor site on the abdominal wall is reinforced by the plication of the internal oblique sheath. This flap was used in 13 patients with major anterior chest-wall excisional defects. The mean chest-wall defect was about 390 cm2. Marginal necrosis with distal skin loss was observed in one patient. All other flaps healed without complications. The extended external oblique musculocutaneous flap differs from other external oblique flaps already described in several aspects that allow it to obtain better functional and aesthetic results.     

New microsurgical breast reconstruction using free paraumbilical perforator adiposal flaps

Pedicled transverse rectus abdominis musculocutaneous (TRAM) flaps have generally been used for bilateral breast losses. The major disadvantages of this method are the total or partial loss of the rectus abdominis muscles and various resulting postoperative complications, such as abdominal bulging and lumbar pain. With the recent development of perforator flaps and supermicrosurgery with anastomosis of 0.5-mm caliber vessels, these serious complications can be overcome with a paraumbilical perforator adiposal flap, without sacrificing the rectus abdominis muscle. The breasts of a 57-year-old woman who had undergone a bilateral subcutaneous mastectomy, including silicone prostheses, were repaired simultaneously with this new method using free paraumbilical perforator adiposal flaps. This new method of breast augmentation with a vascularized adiposal flap and without any muscle component is minimally invasive; its advantages are the preservation of the rectus abdominis muscles and the short time elevation for the adiposal flap.     

Transverse dual-perforator fascia-sparing free TRAM flap: technique description

As techniques for breast reconstruction with autologous abdominal tissue have evolved, free transverse rectus abdominis myocutaneous flaps have persevered because of their superior reliability and minimal donor-site morbidity compared with muscle-sparing techniques. Further refinements are described in this article to maximize abdominal flap perfusion and ensure primary closure of the rectus fascia. It has been well documented that incorporating both the lateral and medial perforators provides maximal perfusion to all zones of the lower abdominal transverse skin flap. However, dissection and harvest of both sets of perforators requires disruption and/or sacrifice of abdominal wall tissues. The technique presented here was designed to use both the lateral and medial row perforators, and to minimize abdominal wall disruption. Deep inferior epigastric artery medial and lateral row perforators are selected for their diameter, proximity, and transverse orientation to each other. A transverse ellipse of fascia is incised to incorporate both perforators. The fascial incision is then extended inferiorly in a T configuration to allow for adequate exposure and harvest of the vascular pedicle and/or rectus abdominis, and primary closure. Limiting perforator selection to one row of inferior epigastric arteries diminishes perfusion to the abdominal flap. Furthermore, perforator and inferior epigastric artery dissection often results in fascial defects that are not amenable to primary closure. However, maximal abdominal flap perfusion and minimal donor-site morbidity can be achieved with the transverse dual-perforator fascia-sparing free transverse rectus abdominis myocutaneous flap technique and can be performed in most patients.     

Abdominal wall partitioning (the accordion effect) for reconstruction of major defects: a retrospective review of 10 patients

Ten patients underwent abdominal wall reconstruction using the technique of abdominal wall partitioning. All defects were closed in the midline by approximating fascia to fascia with the assistance of a general surgeon. One patient had skin grafted small bowel. Five patients had chronically infected mesh and previous failed attempts at repair. Four patients had large ventral hernias following gastric reduction operations and massive weight loss. No defect in any dimension was less than 20 cm. All patients had secure abdominal wall repair by reconstruction of a midline anchor for the abdominal wall musculature. One patient was lost to follow-up after 3 weeks. The average follow-up time for the remaining nine patients was 18.6 months (range, 6 months to 4.7 years). One patient required readmission to the hospital for management of a limited area of skin necrosis. Two patients had minor wound infections, and three patients had subcutaneous seromas, all of which were managed on an outpatient basis. One patient developed a 2 x 2-cm subxiphoid hernia recurrence. Technical details include subcutaneous undermining of the abdominal skin to the anterior axillary lines bilaterally, mobilization of the viscera to expose the white lines of Toldt bilaterally, and parallel, parasagittal, staggered releases of the transversalis fascia, transversalis muscle, external oblique fascia, external oblique muscle, and rectus fascia. These multiple releases allow expansion and translation of the abdominal wall by an accordion-like effect. This accordion-like effect allows closure of abdominal wall defects that are substantially larger than what can be closed with current techniques.     

The separation of anatomic components technique for the reconstruction of massive midline abdominal wall defects: anatomy, surgical technique, applications, and limitations revisited

Reconstruction of massive abdominal wall defects has long been a vexing clinical problem. A landmark development for the autogenous tissue reconstruction of these difficult wounds was the introduction of "components of anatomic separation" technique by Ramirez et al. This method uses bilateral, innervated, bipedicle, rectus abdominis-transversus abdominis-internal oblique muscle flap complexes transposed medially to reconstruct the central abdominal wall. Enamored with this concept, this institution sought to define the limitations and complications and to quantify functional outcome with the use of this technique. During a 4-year period (July of 1991 to 1995), 22 patients underwent reconstruction of massive midline abdominal wounds. The defects varied in size from 6 to 14 cm in width and from 10 to 24 cm in height. Causes included removal of infected synthetic mesh material (n = 7), recurrent hernia (n = 4), removal of split-thickness skin graft and dense abdominal wall cicatrix (n = 4), parastomal hernia (n = 2), primary incisional hernia (n = 2), trauma/enteric sepsis (n = 2), and tumor resection (abdominal wall desmoid tumor involving the right rectus abdominis muscle) (n = 1). Twenty patients were treated with mobilization of both rectus abdominis muscles, and in two patients one muscle complex was used. The plane of "separation" was the interface between the external and internal oblique muscles. A quantitative dynamic assessment of the abdominal wall was performed in two patients by using a Cybex TEF machine, with analysis of truncal flexion strength being undertaken preoperatively and at 6 months after surgery. Patients achieved wound healing in all cases with one operation. Minor complications included superficial infection in two patients and a wound seroma in one. One patient developed a recurrent incisional hernia 8 months postoperatively. There was one postoperative death caused by multisystem organ failure. One patient required the addition of synthetic mesh to achieve abdominal closure. This case involved a thin patient whose defect exceeded 16 cm in width. There has been no clinically apparent muscle weakness in the abdomen over that present preoperatively. Analysis of preoperative and postoperative truncal force generation revealed a 40 percent increase in strength in the two patients tested on a Cybex machine. Reoperation was possible through the reconstructed abdominal wall in two patients without untoward sequela. This operation is an effective method for autogenous reconstruction of massive midline abdominal wall defects. It can be used either as a primary mode of defect closure or to treat the complications of trauma, surgery, or various diseases.     

Breast reconstruction with an external oblique abdominis muscle turnover flap and a bipedicled abdominal skin flap

A new technique of breast reconstruction is demonstrated using a turnover flap of the external oblique abdominis muscle together with a sheath of the rectus muscle to enlarge the submuscular pectoralis major pocket for the implant. To overcome a tight skin, a bipedicled abdominal skin flap is transposed for breast reconstruction. In so doing, a natural-looking breast is formed by a simple operative technique with rare complications. The technique has been applied in 11 patients with good results.     

Closure of the donor defect for breast reconstruction with rectus abdominis myocutaneous flaps

The abdominal muscles not only constitute a multidirectional cinch that holds the abdominal contents in place, but they also determine the flexion and rotational movements of the trunk. The rectus is mainly responsible for flexion and the obliques are responsible for rotating the trunk. It is therefore important to maintain the tone and direction of pull of the oblique muscles. The key to closure of the fascial defect is to replace the same area of anterior rectus fascia (tendon of both obliques and transversus muscles) as has been removed with the rectus abdominis flap pedicle. This replacement, done with a double Merselene mesh, should extend up to the costal margin and should be of the same width as the fascia taken with the muscle pedicle. This technique was drawn from experience with 186 patients. Of these, 31 were simply approximated, and 43 percent developed weakness, bulging, or hernias, of which 5 required secondary repair. A total of 155 patients were closed with Merselene mesh, and only 4 percent developed bulging that was later repaired and attributed to technical mistakes. There were two cases of infection and three cases of exposed mesh due to necrosis (mesh did not need removal). Seromas were common (14 percent), but the incidence was reduced to 5 percent after tacking stitches were done from the mesh to the subcutaneous fascia.     

Pfannenstiel incision as an alternative approach for harvesting the rectus abdominis muscle for free-tissue transfer

The rectus abdominis muscle has been one of the most commonly used donor tissues for free-flap reconstruction of defects in the extremities and in selected head and neck patients. The rectus abdominis has provided adequate soft-tissue mass with predictable anatomy and results for the majority of its applications in free-flap reconstruction. Harvesting of this muscle has typically been done through a paramedian or midline incision, which has left a lengthy notable scar on a patient's abdomen. To avoid the late aesthetic deformity associated with this typical approach for the rectus abdominis, we began harvesting the muscle through a Pfannenstiel incision. Patients were initially selected based on young age and limited soft-tissue requirements. With additional experience, this technique was extended to include all healthy patients regardless of age. Also, soft-tissue limitations no longer became an issue, as we learned the entire rectus abdominis muscle could be harvested from this approach. An extended Pfannenstiel incision was made from the ipsilateral anterior superior iliac spine to the lateral border of the contralateral rectus abdominis. A superiorly based flap was raised to expose the full length of the anterior rectus sheath from pubis to costal margin. In our earlier patients, a periumbilical incision was made for presumed easier access, but we discovered this was an unnecessary maneuver. With the anterior sheath fully exposed, the muscle was harvested and the sheath repaired in a routine manner. The elevated abdominal flap was returned to its anatomic position and closed over a suction drain. Since 1993, 10 patients have undergone a Pfannenstiel approach for harvesting of the rectus abdominis muscle. The mean age was 16. The areas requiring coverage included a traumatic elbow defect, seven traumatic lower extremity defects, one lower extremity sarcoma defect, and one lower extremity septic joint defect. Mean follow-up for these patients was 12 months. There were no flap failures. One patient developed an arterial thrombosis on postoperative day 5 and was treated with successful revision. There were no abdominal wall complications. Cosmesis was judged as good in all patients. We would recommend avoiding this approach in heavy or moderate smokers, diabetic patients, and patients with significant obesity. The Pfannenstiel approach to the rectus abdominis muscle has allowed for complete harvest of the muscle, improved aesthetic results compared with alternative techniques, and avoidance of donor-site morbidityin healthy patients.     

Breast reconstruction with superficial inferior epigastric artery flaps: a prospective comparison with TRAM and DIEP flaps

Breast reconstruction using the lower abdominal free superficial inferior epigastric artery (SIEA) flap has the potential to virtually eliminate abdominal donor-site morbidity because the rectus abdominis fascia and muscle are not incised or excised. However, despite its advantages, the free SIEA flap for breast reconstruction is rarely used. A prospective study was conducted of the reliability and outcomes of the use of SIEA flaps for breast reconstruction compared with transverse rectus abdominis musculocutaneous (TRAM) and deep inferior epigastric perforator (DIEP) flaps. Breast reconstruction with an SIEA flap was attempted in 47 consecutive free autologous tissue breast reconstructions between August of 2001 and November of 2002. The average patient age was 49 years, and the average body mass index was 27 kg/m. The SIEA flap was used in 14 (30 percent) of these breast reconstructions in 12 patients. An SIEA flap was not used in the remaining 33 cases because the SIEA was absent or was deemed too small. The mean superficial inferior epigastric vessel pedicle length was approximately 7 cm. The internal mammary vessels were used as recipients in all SIEA flap cases so that the flap could be positioned sufficiently medially on the chest wall. The average hospital stay was significantly shorter for patients who underwent unilateral breast reconstruction with SIEA flaps than it was for those who underwent reconstruction with TRAM or DIEP flaps. Of the 47 free flaps, one SIEA flap was lost because of arterial thrombosis. Medium-size and large breasts were reconstructed with hemi-lower abdominal SIEA flaps, with aesthetic results similar to those obtained with TRAM and DIEP flaps. The free SIEA flap is an attractive option for autologous tissue breast reconstruction. Harvest of this flap does not injure the anterior rectus fascia or underlying rectus abdominis muscle. This can potentially eliminate abdominal donor-site complications such as bulge and hernia formation, and decrease weakness, discomfort, and hospital stay compared with TRAM and DIEP flaps. The disadvantages of an SIEA flap are a smaller pedicle diameter and shorter pedicle length than TRAM and DIEP flaps and the absence or inadequacy of an arterial pedicle in most patients. Nevertheless, in selected patients, the SIEA flap offers advantages over the TRAM and DIEP flaps for breast reconstruction.     

Abdominoplasty and abdominal wall rehabilitation: a comprehensive approach

Standard abdominoplasty techniques involve a low horizontal or W skin excision, muscle plication, and umbilical transposition. Newer techniques include suction-assisted lipectomy, the use of high lateral tension with fascial suspension, and external oblique muscle advancement. The author has modified these traditional procedures and added new techniques to improve the aesthetic and functional results of the abdominoplasty procedure. This modification provides a comprehensive approach to abdominal wall aesthetic improvement and rehabilitation. The comprehensive approach described includes four components: the "U-M dermolipectomy," "V umbilicoplasty," the rectus abdominis "myofascial release," and suction-assisted lipectomy. The patient is marked while standing for areas of suction lipectomy and undermining. The lower incision is designed as an open U with the lateral limbs placed inside the bikini line. The upper incision is a lazy M with the higher peaks located at the level of the flanks. Subcutaneous hydration is achieved to perform suction along the flanks, waistline, and iliac areas. Gentle suction of the flaps is also performed. The umbilicus is cored out in a heart shape. The flaps within the U-M marks are excised, and the undermining is performed to the xiphoid and costal margins. The rectus diastasis is marked, and the anterior rectus fascia is incised at the junction of the medial third with the central third of the width of the rectus sheath. Horizontal figure-eight plication sutures by using the lateral fascial edge enable easier infolding of the central tissue. The new recipient of the umbilicus is made by an incision in a V shape on the abdominal flap. The umbilicus is telescoped, and the triangular flap of the abdomen is sutured to the triangular defect of the umbilicus. Skin flap fixation to the umbilicus relieves tension in the lower portion of the flap. The upper skin flap, which is cut in an M manner, provides lateral tension and matches the length of the lower flap. A standard fascial suspension is used and closure is performed in layers. The techniques described here are intertwined procedures. Each facilitates the accomplishment of the other procedure, and they complement each other. They all attain the 12 objectives of the abdominoplasty described. These combined techniques have been used in 104 patients in a period of 11 years. Complications were minimal and easily manageable, except for one patient who required excision of a pseudobursa and retightening of the lower quadrants of the abdominal wall musculature to correct extreme lordosis. A comprehensive approach for the treatment of complex abdominal wall aesthetic and functional defects is presented. These require thoughtful integration of the four components mentioned. This approach has allowed predictable, reproducible, and aesthetically pleasing results.     

TRAM flap safety optimized with intraoperative Doppler

Anatomic studies have clearly documented the variable position of the deep superior epigastric vessels in the rectus abdominis muscle. In our opinion, only that part of the rectus abdominis muscle containing the vascular pedicle should be transposed with the TRAM flap. The Doppler probe provides a simple method of identifying the dominant intramuscular vascular axis. It consistently alerts the surgeon to any unusual position of a vessel at the costal margin or within the rectus abdominis muscle. This knowledge enables a conservative yet safe dissection of the vascular pedicle, rectus abdominis muscle, and its sheath. This in turn will enable a competent abdominal closure. The Doppler technique is safe, simple, quick, noninvasive, familiar to most surgeons, and applicable to all patients.     

The segmental rectus abdominis free flap for ankle and foot reconstruction.

The reconstruction of soft-tissue defects of the ankle and foot usually requires free-tissue transfer. Although certain local flaps have been described for the reconstruction of these injuries, their utility may be compromised by significant crush injury or the size and location of the defect. Part of the rectus abdominis muscle, the segmental rectus abdominis free flap, is ideally suited for this use because of the muscle's versatility, reliability, and negligible donor deformity when harvested through a low transverse abdominal incision. Seven patients reconstructed with this flap are presented, and the technique is discussed. All patients have been successfully reconstructed with preservation of the ankle and foot. At present, all patients are fully or partially weight-bearing. The segmental rectus abdominis free flap is recommended for the reconstruction of such wounds.     

The oblique rectus abdominis musculocutaneous flap: revisited clinical applications

The authors present their experience with a previously described but infrequently used variation of the rectus abdominis myocutaneous flap. Skin paddles angled obliquely from the line of the rectus abdominis and toward the rib cage were successfully carried on periumbilical perforators from the inferior epigastric system. Skin paddle dimensions ranged from 6.5 to 12 cm in width and from 10 to 27 cm in length in 14 consecutive patients. In six of the 14 patients, the flap was used intraabdominally to obliterate radiated pelvic defects and to close radiated vaginal defects. Five flaps were placed externally to repair radiated wounds of the perineum, thigh, and trunk, and the remaining three cases were performed as free tissue transfers. One cadaver injection study was performed to redemonstrate the preferential flow of fluid in a superior-oblique direction from periumbilical perforators. Termed the oblique rectus abdominis musculocutaneous ("ORAM") flap, this flap variation has significant advantages in terms of ease of dissection and versatility over its flap cousins the vertical rectus abdominis musculocutaneous flap and the transverse rectus abdominis musculocutaneous flap.     

Acute repair of a full-thickness right ventricular defect with a composite myofascial pedicle flap.

A full-thickness defect of the right ventricle presented acutely after mediastinitis and sternal dehiscence. This developed 29 days after bilateral internal mammary artery harvest for coronary artery bypass grafting. The defect was managed successfully with a pedicled left rectus abdominis muscle flap using an attached island of the anterior rectus sheath for endocardial lining. The vascular anatomic basis for viability of the rectus abdominis muscle flap after internal mammary artery harvest is derived primarily from musculophrenic, lumbar, lower sixth intercostal, and subcostal artery communications. In addition, the advantages of a myofascial pedicle flap for reconstruction of full-thickness cardiac defects are its ready availability and a strong anterior fascial sheath that can be used as a neoendocardial lining. The patient did well and remains asymptomatic after 3 years.     

Vaginal and pelvic reconstruction with distally based rectus abdominis myocutaneous flaps

This report introduces a new method of vaginal reconstruction using a single rectus abdominis myocutaneous flap based distally. Applications of this flap in reconstruction of major abdominal wall and pelvic defects, such as hemipelvectomies, are also described. The flap is designed to carry a paddle of upper abdominal skin on a distally based muscle and vascular pedicle. Advantages of this flap design are (1) the technique is straightforward and rapid, (2) flap viability is reliable, (3) the epigastric skin-fascial donor defect preserves the anterior rectus fascia distal to the linea semicircularis, which prevents hernia, (4) a large arc of rotation is provided, and (5) the epigastric donor site does not interfere with colostomy and urinary conduit stomas in the pelvic exenteration patient. We have done 11 vaginal reconstructions and 9 major pelvic defect reconstructions with this flap during the last 3 1/2 years. In these 20 patients, the only complications were two partial flap losses. No major flap losses or ventral hernias occurred.     

Transverse rectus sheath plication in abdominoplasty

The standard abdominoplasty technique uses a wide, vertically oriented plication of the rectus sheath to narrow the waistline. This reduces the contribution of the rectus sheath to the anterior abdominal wall from more than 50 percent to 25 percent or less and creates an unnaturally flat appearance. No amount of exercise can restore the native form of the rectus sheath. For the past 3 years, the authors have performed a transverse plication of the rectus sheath, to address vertical laxity, complemented by a bilateral crescent-shaped plication of the external oblique fascia, to address waistline contour. Six consecutive patients who underwent the transverse rectus plication technique were compared with a similar group of patients who underwent vertical rectus plication. Comparison was made via preoperative and postoperative photographic analysis by two impartial judges. Although the overall result was excellent in both groups, the global score was significantly higher in the transverse plication group (4.5 versus 3.9, p = 0.044). Scores for anterior abdominal contour (4.7 versus 4.2, p = 0.029) and definition of the linea semilunaris (4.6 versus 3.7, p = 0.008) were also significantly higher for the transverse plication group. The difference for waistline contour (4.5 versus 3.8, p = 0.067), definition of the linea alba (4.4 versus 3.9, p = 0.067), and hip-waist transition (4.4 versus 3.7, p = 0.067) did not reach statistical significance. The outline of the rectus sheath is a significant portion of what is perceived as an aesthetic abdomen. Transverse plication of the rectus sheath with bilateral crescent-shaped plications of the external oblique fascia retains this native form. The result is improved anterior abdominal contour and definition of the rectus sheath with a comparable or better improvement in waistline contour and transition from the hips to the waist when compared with wide, vertical rectus plication.     

Breast Reconstruction with the free TRAM or DIEP flap: patient selection,choice of flap,and outcome

Recent reports of breast reconstruction with the deep inferior epigastric perforator (DIEP) flap indicate increased fat necrosis and venous congestion as compared with the free transverse rectus abdominis muscle (TRAM) flap. Although the benefits of the DIEP flap regarding the abdominal wall are well documented, its reconstructive advantage remains uncertain. The main objective of this study was to address selection criteria for the free TRAM and DIEP flaps on the basis of patient characteristics and vascular anatomy of the flap that might minimize flap morbidity. A total of 163 free TRAM or DIEP flap breast reconstructions were performed on 135 women between 1997 and 2000. Four levels of muscle sparing related to the rectus abdominis muscle were used. The free TRAM flap was performed on 118 women, of whom 93 were unilateral and 25 were bilateral, totaling 143 flaps. The DIEP flap procedure was performed on 17 women, of whom 14 were unilateral and three were bilateral, totaling 20 flaps. Morbidities related to the 143 free TRAM flaps included return to the operating room for 11 flaps (7.7 percent), total necrosis in five flaps (3.5 percent), mild fat necrosis in 14 flaps (9.8 percent), mild venous congestion in two flaps (1.4 percent), and lower abdominal bulge in eight women (6.8 percent). Partial flap necrosis did not occur. Morbidities related to the 20 DIEP flaps included return to the operating room for three flaps (15 percent), total necrosis in one flap (5 percent), and mild fat necrosis in two flaps (10 percent). Partial flap necrosis, venous congestion, and a lower abdominal bulge were not observed. Selection of the free TRAM or DIEP flap should be made on the basis of patient weight, quantity of abdominal fat, and breast volume requirement, and on the number, caliber, and location of the perforating vessels. Occurrence of venous congestion and total flap loss in the free TRAM and DIEP flaps appears to be independent of the patient age, weight, degree of muscle sparing, and tobacco use. The occurrence of fat necrosis is related to patient weight (p < 0.001) but not related to patient age or preservation of the rectus abdominis muscle. The ability to perform a sit-up is related to patient weight (p < 0.001) and patient age (p < 0.001) but not related to preservation of the muscle or intercostal nerves. The incidence of lower abdominal bulge is reduced after DIEP flap reconstruction (p < 0.001). The DIEP flap can be an excellent option for properly selected women.