The profunda artery perforator flap was first introduced for breast reconstruction in 2010. In this article, the authors analyze the results of all profunda artery perforator flaps performed by their ...group to date.
A retrospective review was completed of consecutive profunda artery perforator flaps performed by the senior author (R.J.A.) from 2010 to 2014. Patient demographics, indications, operative techniques, flap specifics, complications, and number of operations were recorded.
Ninety-six patients have undergone 164 profunda artery perforator flap operations for breast reconstruction since 2010. Reconstructions were performed following breast cancer management (59.5 percent), following prophylactic mastectomy for cancer risk reduction (35.7 percent), and for congenital breast deformity (4.8 percent). The average age of the patients was 48 years (range, 24 to 64 years) and their average body mass index was 22.5 kg/m. Average flap weight was 367.4 g and average pedicle length was found to be 10.2 cm. The success rate of the profunda artery perforator flap was greater than 99 percent, with a 3 percent take-back rate and only one flap loss recorded. Complications included hematoma (1.9 percent), seroma (6 percent), fat necrosis (7 percent), and donor-site infection (1.9 percent).
The profunda artery perforator flap is an excellent option for breast reconstruction. Advantages include a reliable blood supply, long pedicle, thick donor tissue, and a favorable donor site. Currently, the profunda artery perforator flap is second only to the deep inferior epigastric artery perforator among flaps used by the authors for breast reconstruction.
Therapeutic, IV.
Free flap reconstruction after lower extremity trauma remains challenging with various factors affecting overall success. Increasing defect and flap size have been demonstrated to be a surrogate for ...overall injury severity and correlated with complications. In addition, larger free flaps that encompass more tissue theoretically possess high metabolic demand, and may be more susceptible to ischemic insult. Therefore, the purpose of our study was to determine how flap size affects microsurgical outcomes in the setting of lower extremity trauma reconstruction.
Retrospective review of 806 lower extremity free flap reconstructions performed from 1979 to 2016 among three affiliated hospitals: a private university hospital, Veterans Health Administration Hospital (VA), and a large, public hospital serving as a level 1 trauma center for the city. Soft tissue free flaps used for below the knee reconstructions of traumatic injuries were included. A receiver operating curve (ROC) was generated and Youden index was used to determine the optimal flap size for predicting flap success. Based on this, flaps were divided into those smaller than 250 cm
and larger than 250 cm
. Partial flap failure, total flap failure, takebacks, and overall major complications (defined as events involving flap compromise) were compared between these two groups. Multivariate logistic regression was performed to determine whether flap size independently predicts complications and flap failures, controlling for injury-related and operative factors.
A total of 393 patients underwent lower extremity free tissue transfer. There were 229 flaps (58.2%) with size <250 cm
and 164 flaps (41.7%) ≥ 250 cm
. ROC analysis and Youden index calculation demonstrated 250 cm
(AUC 0.651) to be the cutoff free flap for predicting increasing flap failure. Compared to flaps with less than 250 cm
, larger flaps were associated with increased major complications (33.6% vs. 50.0%, p = .001), any flap failure (11.8% vs. 25.0%, p = .001) and partial flap failure (4.8% vs. 14.6%, p = .001). Logistic regression analysis controlling for age, flap type, era of reconstruction, number of venous anastomoses, presence of associated injuries, presence of a bone gap, vessel runoff, and flap size identified increasing flap size to be independently predictive of major complications (p = .05), any flap failure (p = .001), partial flap failure (p < .001), and takebacks (p = .03). Subset analysis by flap type demonstrated that when flap size exceeded 250 cm
, use of muscle flaps was associated with significantly increased flap failure rates (p = .008) while for smaller flap size, there was no significant difference in complications between muscle and fasciocutaneous flaps.
Increasing flap size is independently predictive of flap complications. In particular, a flap size cutoff value of 250 cm
was associated with significantly increased flap failure and complications particularly among muscle-based flaps. Therefore, we suggest that fasciocutaneous flaps be utilized for injuries requiring large surface area of soft tissue reconstruction.
Inferior turbinate hypertrophy is often encountered by plastic surgeons who perform rhinoplasty. Many treatment options are available to treat the inferior turbinate. The objective of this study was ...to systematically review outcomes of available techniques and provide guidance to surgical turbinate management.
A MEDLINE search was performed for means of treating inferior turbinate hypertrophy. Studies selected focused on treatment of the inferior turbinate in isolation and excluding patients with refractory allergic rhinitis, vasomotor rhinitis, or hypertrophic rhinitis.
Fifty-eight articles were identified, collectively including the following surgical treatments of inferior turbinate hypertrophy: total turbinectomy, partial turbinectomy, submucosal resection, laser surgery, cryotherapy, electrocautery, radiofrequency ablation, and turbinate outfracture. Outcomes and complications were collected from all studies. Procedures such as turbinectomy (partial/total) and submucosal resection showed crusting and epistaxis at comparatively higher rates, whereas more conservative treatments such as cryotherapy and submucous diathermy failed to provide long-term results. Submucosal resection and radiofrequency ablation were shown to decrease nasal resistance and preserve mucosal function. No literature exists to support the belief that turbinate outfracture alone is an effective treatment for turbinate hypertrophy.
Treatment of inferior turbinate hypertrophy is best accomplished with modalities that provide long-lasting results, preservation of turbinate function, and low complication rates. Submucosal resection and radiofrequency ablation appear to best fulfill these criteria. Turbinate outfracture should only be considered in combination with tissue-reduction procedures.
The dependent nature of the lower extremity predisposes to venous congestion, especially following significant trauma. The benefit of a second venous anastomosis, however, remains unclear in lower ...extremity trauma free flap reconstruction. This study investigated the effect of an additional venous anastomosis on flap outcomes in lower extremity trauma reconstruction.
Retrospective review between 1979 and 2016 identified 361 soft tissue flaps performed for Gustilo IIIB/C coverage meeting inclusion criteria. Muscle flaps were performed in 287 cases (79.9%) and fasciocutaneous flaps in 72 cases (20.1%). Single-vein anastomosis was performed in 76% of cases and dual-vein anastmoses in 24% of cases. Patient demographics, flap characteristics, and outcomes were examined.
Fasciocutaneous flaps were more likely to have two veins performed (P < .001). Complications occurred in 143 flaps (39.8%): 45 take-backs (12.4%), 37 partial losses (10.3%), 31 complete losses (8.6%). Compared to single-vein flaps, two veins reduced major complications (P = .005), partial flap failures (P = .008), and any flap failure (P = .018). Multivariable regression analysis demonstrated two veins to be protective against complications (RR = 2.58, P = .009). Subset regression analysis by flap type demonstrated an even more significant reduction in complications among muscle flaps (RR = 3.92, P = .005). Additionally, a >1 mm vein size mismatch was predictive of total flap failure (RR = 3.02, P = .038).
Lower extremity trauma free flaps with two venous anastomoses demonstrated a fourfold reduction in complication rates compared to single-vein flaps. Additionally, venous size mismatch >1 mm was an independent predictor of total flap failure, suggesting beneficial effects of both two-vein outflow and matched vessel diameter.
Pharyngeaoesophageal Reconstruction Lee, Z-Hye; Hanasono, Matthew M
Otolaryngologic clinics of North America
56, Številka:
4
Journal Article
Recenzirano
Pharyngoesophageal reconstruction is one of the most challenging reconstructive dilemmas that demands extensive planning, meticulous surgical execution, and timely management of postoperative ...complications. The main goals of reconstruction are to protect critical blood vessels of the neck, to provide alimentary continuity, and to restore functions such as speech and swallowing. With the evolution of techniques, fasciocutaneous flaps have become the gold standard for most defects in this region. Major complications include anastomotic strictures and fistulae, but most patients can tolerate an oral diet and achieve fluent speech after rehabilitation with a tracheoesophageal puncture.
Examine outcomes for lateral arm autologous tissue transfer in head and neck reconstruction.
Retrospective cohort study.
Tertiary cancer center.
All patients who underwent traditional lateral arm, ...extended lateral arm, and lateral forearm flaps for head and neck reconstruction from 2012 to 2022 were assessed. Disabilities of the arm, shoulder, and hand (DASH) was measured. Factors associated with complications and enteral or mixed diet were evaluated by multivariable regression.
Among 160 patients followed for a median of 2.3 ± 2.1 years, defects were 54% oral tongue, 18% external, 9% maxilla, 8% buccal mucosa, 9% floor of mouth, and 3% pharynx. Flap types (and median pedicle lengths) were 41% traditional lateral arm (8 cm), 25% extended lateral arm (11.5 cm), and 34% lateral forearm (14 cm). All donor sites were closed primarily; 19.6% and 0% of patients had increased DASH scores 2 and 12 weeks after reconstruction. Major complications occurred in 18.1% of patients, including 6.3% reoperation, 6.9% readmission, 3.7% fistula, and 1.8% flap loss. Complications were independently associated with peripheral vascular disease (odds ratio OR: 5.71, 95% confidence interval CI: 1.5-21.6, P = .01), pharyngeal defects (OR: 11.3, 95% CI: 1.4-94.5, P = .025), and interposition vein grafts (OR: 3.78, 95% CI: 1.1-13.3, P = .037).
The lateral arm free flap was safe, versatile, and reliable for head and neck reconstruction with low donor-site morbidity. Complications occurred in a fifth of patients and were associated with peripheral vascular disease, pharyngeal defects, and vein grafts.
Considering that muscle has higher metabolic demand than fasciocutaneous tissue and can be more difficult to monitor clinically, the authors compared take-back salvage rates between fasciocutaneous ...and muscle free flaps for lower extremity trauma reconstruction.
The authors conducted a retrospective review of 806 free flaps (1979 to 2016); 481 soft-tissue flaps performed for below-knee trauma met inclusion criteria. Primary outcome measures were perioperative complications, specifically, take-backs and flap salvage rates. Univariate and multivariate regression analysis was performed where appropriate.
Take-backs occurred in 71 flaps (muscle, n = 44; fasciocutaneous, n = 27) at an average of 3.7 ± 5.4 days postoperatively. Indications were venous (48 percent), arterial (31 percent), unknown (10 percent), and hematoma (10 percent). Overall outcomes were complete salvage (37 percent), partial failure (25 percent), and total failure (38 percent). Take-backs occurring within 48 hours postoperatively correlated with higher salvage rates (p = 0.022). Fasciocutaneous flaps demonstrated increased take-back rates compared with muscle flaps (p = 0.005) that more frequently occurred within 48 hours postoperatively (relative risk, 13.2; p = 0.012). Fasciocutaneous flaps were successfully salvaged more often than muscle-based flaps (p < 0.001). Multivariable regression strongly demonstrated higher risk of take-back failure for muscle flaps (relative risk, 9.42; p = 0.001), despite higher take-back rates among fasciocutaneous flaps (relative risk, 2.28; p = 0.004).
Compared with muscle-based flaps, fasciocutaneous flaps demonstrated earlier and more frequent take-backs for suspected vascular compromise, with higher successful take-back salvage rates. Furthermore, muscle flaps with skin paddles also demonstrated better salvage outcomes than those without. These findings may reflect a combination of lower metabolic demand and easier visual recognition of vascular compromise in fasciocutaneous tissue.
Therapeutic, III.
Gustilo type IIIC open tibia fractures are characterized by an ischemic limb requiring immediate arterial repair. In this patient population, the decision between primary amputation and limb salvage ...can be challenging. This study aims to evaluate the reconstructive outcomes of patients with Gustilo type IIIC injuries.
A single-center retrospective review of 806 lower extremity free flaps from 1976 to 2016 was performed. Flap loss and salvage rates for patients with Gustilo type IIIC injuries were determined. To determine the utility of performing salvage in this group, outcomes of the IIIC reconstructions were compared to those of similar patients with Gustilo I type IIB injuries with only a single patent vessel.
A total of 32 patients with Gustilo type IIIC injuries underwent reconstruction after traumatic injury. Ten patients (31.3 percent) experienced a perioperative complication, including seven unplanned returns to the operating room (21.9 percent), three partial flap losses (9.4 percent), and five complete flap losses (15.6 percent). When type IIIC injuries were compared with single-vessel Gustilo type IIIB injuries, no statistically significant differences were noted with respect to major perioperative complications (p = 0.527), unplanned return to the operating room (p = 0.06), partial flap loss (p = 0.209), complete flap loss (p = 0.596), or salvage rate (p = 0.368). Although this result was not statistically significant, Gustilo type IIIC injuries trended toward lower take-back rates and higher salvage rates compared with single-vessel Gustilo type IIIB injuries.
Patients with Gustilo type IIIC open tibia fractures should be considered candidates for limb salvage, as flap loss and reconstruction of these injuries are comparable to those of the routinely reconstructed single-vessel runoff type IIIB injuries.
Therapeutic, IV.
The microvascular free fibula flap has become the gold standard for reconstruction of complex mandibular defects since its description by Hidalgo in 1989. Prior studies have demonstrated its safety ...and efficacy in the pediatric population. However, this reconstructive method is often used only as a last resort for correction of congenital mandibular hypoplasia, after failure of bone grafting and distraction osteogenesis. The authors describe our experience using this technique, facilitated by virtual planning and prefabricated cutting jigs, for children with severe congenital mandibular hypoplasia.
All patients with mandibular reconstruction with a fibula flap in children with congenital mandibular hypoplasia between 2009 and 2014 by the senior authors were identified. Each patient underwent preoperative computed tomography scanning and virtual surgical planning to create custom cutting jigs for creation of the mandibular defect and fibular osteotomies. Preoperative, intraoperative, and postoperative medical records were examined in detail.
Five patients age 10 to 18 with congenital mandibular hypoplasia and Pruzansky Grade III mandibles underwent microvascular free fibula flap for mandibular reconstruction during this period. Flap success rate was 100%. All patients underwent subsequent revision procedures to improve symmetry or for hardware removal. The 4 patients in our series who required dental implants were able to have them placed into their mandibular reconstruction.
Preoperative virtual planning and prefabricated cutting jigs allow for precise complex fibula reconstruction of the mandible in the pediatric population. Additionally, virtual planning facilitates concomitant orthognathic procedures in patients with hemifacial microsomia. Our early success in this patient population leads us to suggest that while the free fibula can be safely and successfully used after multiple prior surgical interventions in the same anatomic region, it can also be a powerful tool for primary correction of congenital mandibular hypoplasia.
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