Emilio Garcia-Tutor

Preoperative planning of DIEP and SGAP flaps: preliminary experience with magnetic resonance angiography using 3-tesla equipment and blood-pool contrast medium.

BACKGROUND Autologous breast reconstruction techniques can be used to create a breast, in particular the superior gluteal artery perforator (SGAP) and deep inferior epigastric artery perforator (DIEP) flaps. Preoperative imaging is an essential planning tool in mapping the location and size of perforator vessels. The aim of this report is to show the usefulness of angio-MR technique for preoperative planning of DIEP and SGAP flaps. Initial experience, surgical findings correlation and imaging findings will be described. METHODS From February 2007 to September 2007, ten consecutive women considered for breast reconstruction with DIEP (eight patients) and SGAP flaps (two patients) after previous mastectomy for breast cancer were studied. After written informed consent was obtained, a preoperative angio-MR using 3-Tesla equipment and blood-pool contrast medium was performed to localize and evaluate the main perforator vessels in each patient and procedure. RESULTS Angio-MR showed all the main perforator vessels later observed during the surgical procedure with a very good location concordance, but missed one main perforator vessels in each of two patients. In all patients undergoing SGAP flaps, an accurate identification of the main perforator vessels was achieved. Angio-MR clearly showed the intramuscular course of the perforator vessels for DIEP and SGAP flaps. Exact correlation between angio-MR and surgical findings was observed. CONCLUSIONS The use of angio-MR for preoperative perforator flaps evaluation yielded promising results and would allow not only to locate perforator vessels but also to globally assess presurgical planning of perforator flaps in a noninvasive, radiation and toxicity-free way.

The effect of anterior abdominal wall scars on the vascular anatomy of the abdominal wall: A cadaveric and clinical study with clinical implications

The anterior abdominal wall integument is frequently used in a range of reconstructive flaps. These tissues are supplied by the deep and superficial inferior epigastric arteries (DIEA and SIEAs) and the deep and superficial superior epigastric arteries (DSEA and SSEAs). Previous abdominal wall surgery alters this vascular anatomy and may influence flap design. One hundred and sixty‐eight patients underwent abdominal wall computed tomographic angiography (CTA) for preoperative imaging. Fifty‐eight of these patients had undergone previous abdominal surgery, and were assessed for scar pattern and relationship to the course and distribution of all major axial vessels and perforators. Two cadaveric abdominal wall specimens with midline abdominal scars underwent contrast injection of the DIEAs and DSEAs, with subsequent CTA. The course and distribution of all cutaneous vessels were assessed. In all clinical and cadaveric cases, the vasculature of the abdominal wall had been altered by previous surgery. In the clinical cases, vascular architecture was universally altered in the region of the scar, often modifying the filling patterns of the abdominal wall and occasionally precluding the use of an abdominal wall flap. In both cadaveric specimens, regions of non‐filling were evident upon contrast injection, highlighting the angiosomes not supplied by the DIEA or DSEA. Previous abdominal wall surgery necessarily alters the vascular architecture of the abdominal wall, and may alter the source vessels supplying cutaneous tissues. CTA was useful in identifying and delineating these changes, and may be used as a preoperative tool in this role. Clin. Anat. 22:815–822, 2009.

The anatomy and variations of the internal thoracic (internal mammary) artery and implications in autologous breast reconstruction: clinical anatomical study and literature review

BackgroundThe internal thoracic (IT) vessels (otherwise known as the thoracica interna or internal mammary vessels) are widely used as recipient vessels in autologous breast reconstruction. Despite this, normal and pathological variations in IT artery architecture have been described, and these have the potential to complicate dissection and the selection of suitable vessels.MethodsA clinical anatomical study of 240 IT arteries (120 patients) and review of the literature was undertaken. Participants comprised 120 female patients undergoing preoperative imaging of the IT artery prior to autologous breast reconstruction, 42 with computed tomographic angiography (CTA) and 78 with ultrasound.ResultsThere was complete concordance between surgical and radiological findings. An IT artery was present in 100% of cases, with a duplicate IT artery in two cases (1% overall). The position of the IT artery was between two IT veins most frequently (71.5% of cases), and was lateral to the vein(s) least frequently (6%). There were large IT perforators from the first and second intercostal spaces in 87 and 91% of cases, respectively, with the incidence of such perforators reducing in the lower spaces. The literature highlighted a range of cadaveric and clinical cases in which there was absence of a patent IT artery, variant course or size, and variant relationship to the IT vein.ConclusionA range of congenital, pathological and iatrogenic variants in IT artery anatomy have the potential to limit the use of the IT artery in autologous breast reconstruction. Preoperative imaging with ultrasound or CTA may provide a clear and accurate method of identifying these anatomical variations pre-operatively.

Chest wall reconstruction using iliac bone allografts and muscle flaps.

Technically we can divide full-thickness thoracic reconstruction into 2 parts: providing a rigid support and ensuring well-vascularized coverage. Since 1986, the authors’ center has had ample experience with bone banks and the use of cryopreserved bone grafts, which led them to consider the possibility of using these grafts for full-thickness chest wall reconstruction. They describe 3 patients in whom resection of the tumor and reconstruction of the thorax were carried out using iliac bone allografts covered with muscle flaps (1 pectoralis major and 2 rectus abdominis). None of the patients experienced breathing difficulties, pain, or instability after 14 months, 18 months, and 11 years of follow-up. The result of the reconstruction was excellent in all 3 patients in terms of function and aesthetics. The advantage of allografts compared with synthetic materials is their potential integration; they can become part of the host patient’s living tissue.

Predictors of blood transfusion in deep inferior epigastric artery perforator flap breast reconstruction.

Perioperative blood loss during and following breast reconstruction surgery can have substantial impact on free flap survival and patient morbidity. Transfusion rates of up to 95% have been reported following transverse rectus abdominis myocutaneous flap breast reconstruction, with blood loss described as significant in most cases. However, there has been little reported of such requirements in patients undergoing deep inferior epigastric perforator (DIEP) flap breast reconstruction. We present the transfusion requirements of 152 consecutive patients who underwent DIEP flap breast reconstruction, with a view to quantifying transfusion requirements and identifying risk factors for such loss. In this cohort, 80.3% of patients required blood transfusion, with a mean volume of 3.9 U per patient. There was a statistically significant correlation for increased transfusion requirement in patients with preoperative anemia ( P < 0.001) and in bilateral cases ( P < 0.001), but not for cases of immediate reconstruction ( P = 0.72). Although blood loss in breast reconstructive surgery is rarely large enough to be life-threatening, relative anemia does have significant effect on flap survival and patient morbidity. With risk factors for increased transfusion requirements identified in the current study, high-risk patients can be predicted preoperatively.

Aggressive basal cell carcinoma of the temporal region in a patient with Gorlin-Goltz syndrome.

Gorlin-Goltz syndrome is an autosomal dominant disorder with variable penetration characterized primarily by five major findings: multiple basal cell carcinomas presenting at a young age, pits on the palms and soles, skeletal abnormalities, jaw cysts, and ectopic calcification of the falx cerebri and other structures. When the basal cell carcinomas are located in the head and neck there is a high risk of invasion of deep structures if early and radical treatment is not performed. The authors present a 59-year-old man affected by basal cell carcinoma in the context of Gorlin-Goltz syndrome. Although patients with this syndrome can present aggressive basal cell carcinomas, it is unusual to find them involving the craniofacial bones. In this patient the basal cell carcinoma involved the middle ear, the intrapetrous aspect of the facial nerve, and the dura mater. The reconstruction of a wide three-dimensional defect, in which the brain was exposed, was achieved with local flaps and a free musculocutaneous rectus abdominis flap. Factors affecting reconstruction in the lateral cranial base are discussed.

Vaginal Reconstruction Using a Modified Rectus Abdominis Musculocutaneous Flap in Pelvic Cancer Surgery

The authors present a modification of the design for the classic cutaneous pattern of the rectus abdominis musculocutaneous flap for vaginal reconstruction after pelvic cancer surgery. The authors designed a paramedial and supraumbilical dermo-cutaneous flap with paraumbilical randomized vascularization, which was sutured to the classic cutaneous TRAM flap pattern and rotated around a longitudinal axis to form the neo-introitus. The use of this new cutaneous design allows for a perfect cylindrical shape all along the length of the new vagina, thus achieving a more anatomic reconstruction than those currently obtained with the classic cutaneous patterns, and with fewer tendencies to distal retraction, necrosis, and partial stenosis.

The viability of cryopreserved onlay cranial bone allografts: a comparative experimental study versus fresh autografts.

It is well known that calvarial bone autografts are the bone grafts that are the least reabsorbant and have the best long-term evolution in craniofacial surgery. However, they do have certain limitations: (1) reabsorption results in repeated surgery and the need for new donor areas, (2) a limited amount of autogenous cranial bone is available (due to avoiding areas close to cranial sutures and venous sinuses, and because the temporal bone is very fragile and the cranium has not fully developed in children), and (3) graft extraction increases surgical time and morbidity. Because of this, we present an alternative to calvarial bone autografts: cryopreserved allografts. This paper is an experimental prospective study carried out on sheep with the following goals: (1) to assess the behavior of calvarial onlay bone grafts cryopreserved at −80°C, using fresh autografts implanted under the same conditions as controls; (2) to compare reabsorption percentages statistically over time; and (3) to study qualitatively any histological variations. The results obtained are (1) more reabsorption of allografts when compared to autografts (at 90 days, 21.97% versus 20.21% of grafted volume), although this difference is not statistically significant; (2) a reduction in height in all onlay grafts as a consequence of the loss of the diplöe; (3) the absence of any type of inflammation caused by a reaction to cryopreserved allografts; and (4) bone substitution performed using frozen allografts is histologically similar to that using fresh autografts.

3D Volumetric Modeling and Microvascular Reconstruction of Irradiated Lumbosacral Defects after Oncologic Resection

Background Locoregional flaps are sufficient in most sacral reconstructions. However, large sacral defects due to malignancy necessitate a different reconstructive approach, with local flaps compromised by radiation and regional flaps inadequate for broad surface areas or substantial volume obliteration. In this report, we present our experience using free muscle transfer for volumetric reconstruction, in such cases, and demonstrate three-dimensional (3D) haptic models of the sacral defect to aid preoperative planning. Methods Five consecutive patients with irradiated sacral defects secondary to oncologic resections were included, surface area ranging from 143–600 cm2. Latissimus dorsi (LD)-based free flap sacral reconstruction was performed in each case, between 2005 and 2011. Where the superior gluteal artery was compromised, the subcostal artery (SA) was used as a recipient vessel. Microvascular technique, complications, and outcomes are reported. The use of volumetric analysis and 3D printing is also demonstrated, with imaging data converted to 3D images suitable for 3D printing with Osirix software (Pixmeo, Geneva, Switzerland). An office-based, desktop 3D printer was used to print 3D models of sacral defects, used to demonstrate surface area and contour and produce a volumetric print of the dead space needed for flap obliteration. Results The clinical series of LD free flap reconstructions is presented, with successful transfer in all cases, and adequate soft-tissue cover and volume obliteration achieved. The original use of the SA as a recipient vessel was successfully achieved. All wounds healed uneventfully. 3D printing is also demonstrated as a useful tool for 3D evaluation of volume and dead space. Conclusion Free flaps offer unique benefits in sacral reconstruction where local tissue is compromised by irradiation and tumor recurrence, and dead space requires accurate volumetric reconstruction. We describe for the first time the use of the SA as a recipient in free flap sacral reconstruction. 3D printing of haptic bio-models is a rapidly evolving field with a substantial role in preoperative planning.

The Anatomy and Variations of the Internal Thoracic (Internal Mammary) Artery and Implications in Autologous Breast Reconstruction

Internal mammary vessels travel parallel to the lateral border of the sternum. The vein divides in two usually at the level of the second rib. Main perforators arise in second and first intercostal space, suitable in some cases for anastomosis. Microsurgical anastomosis can be performed to the proximal or distal end of the internal mammary artery, and the same, due to the lack of valves, can be done in the internal mammary vein. This is especially useful in supercharged flaps, or when two flaps are needed for unilateral breast reconstruction. Internal mammary artery (IMA) and internal mammary vein (IMV) are the recipient vessels of choice in autologous breast reconstruction. The anatomical variability is low, being a safe and constant receptor pedicle. The approach of the vessels in the second intercostal space prevents removal of the costal cartilage, saving time and associated morbidity.