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opment of engaged, conscious, and dedicated leaders within the residencies they lead.

After studying this article, the participant should be able to 1. Appraise and evaluate risk factors for respiratory compromise following oncologic resection. 2. Outline and apply an algorithmic approach to reconstruction of the chest wall based on defect composition, size, and characteristics of surrounding tissue. 3. Recognize and evaluate indications for and types of skeletal stabilization of the chest wall. 4. Critically consider, compare, and select pedicled and free flaps for chest wall reconstruction that do not impair residual respiratory function or skeletal stability.

Chest wall reconstruction restores respiratory function, provides protection for underlying viscera, and supports the shoulder girdle. Common indications for chest wall reconstruction include neoplasms, trauma, infectious processes, and congenital defects. Loss of chest wall integrity can result in respiratory and cardiac compromise and upper extremity instability. Advances in reconstructive techniques have expanded the resectabili. Advances in reconstructive techniques have expanded the resectability of large complex oncologic tumors by safely and reliably restoring chest wall integrity in an immediate fashion with minimal or no secondary deficits. The purpose of this article is to provide the reader with current evidenced-based knowledge to optimize care of patients requiring chest wall reconstruction. This article discusses the evaluation and management of oncologic chest wall defects, reviews controversial considerations in chest wall reconstruction, and provides an algorithm for the reconstruction of complex chest wall defects. Respiratory preservation, semirigid stabilization, and longevity are key when reconstructing chest wall defects.

Vascularized lymph node transplantation is a surgical approach for the treatment of chronic lymphedema. However, there is no clinical standard for flap placement nor vascular anastomoses. The authors propose a novel flowthrough configuration for an omental vascularized lymph node transplant in the popliteal space. To prepare the popliteal space for an omental free flap, the medial popliteal fat pad and medial head of the gastrocnemius muscle were debulked. Venous anastomoses were completed with vein couplers, joining the right gastroepiploic vein to the medial sural venae comitantes and the left gastroepiploic vein to the lesser saphenous vein. Arterial anastomoses were hand sewn, joining the right gastroepiploic artery to the proximal medial sural artery and the left gastroepiploic artery to the distal medial sural artery, to create the flowthrough configuration. A retrospective review of patients who underwent this procedure at a single institution was performed. Six patients with chronic lymphedema of the lower extremity underwent vascularized lymph node transplantation from June of 2019 to November of 2020. Five patients underwent at least 3 months of postoperative surveillance, with no postoperative complications reported. In this technique contribution, the authors describe a novel flowthrough configuration for an omental free flap to the popliteal space. The popliteal space offers an aesthetically favorable recipient location when appropriately prepared. The medial sural vessels are ideal recipient vessels for the flowthrough omental flap.

Therapeutic, IV.

Therapeutic, IV.

Vein grafts enable soft-tissue reconstruction in cases of insufficient pedicle length, a lack of nearby recipient vessels, and a wide zone of injury caused by trauma or radiation therapy. The purpose of this article is to provide a comprehensive review of vein grafts in free flap reconstruction focusing on the timing of arteriovenous loops, complications, and surgical technique. Vein graft indications, types of vein grafts, and location-specific considerations are also reviewed. Three reconstructive microsurgeons at high-volume centers were asked to offer institutional pearls on the order of anastomosis, selection of donor veins, and timing of arteriovenous loops. In terms of gap length, vessel gaps less than 10 cm may be reconstructed with an interposition or transposition vein graft. For longer gaps, surgeons should consider the use of arteriovenous loops, transposition arteriovenous loops, or flow-through flaps. Both one and two-stage arteriovenous loops are used, depending on patient comorbidities, potehigh-volume centers were asked to offer institutional pearls on the order of anastomosis, selection of donor veins, and timing of arteriovenous loops. In terms of gap length, vessel gaps less than 10 cm may be reconstructed with an interposition or transposition vein graft. For longer gaps, surgeons should consider the use of arteriovenous loops, transposition arteriovenous loops, or flow-through flaps. Both one and two-stage arteriovenous loops are used, depending on patient comorbidities, potential exposure of critical structures, and surgeon preference. Although one-stage arteriovenous loops expedite the reconstructive process, two-stage arteriovenous loops require shorter operations and help identify patients at risk of flap failure. Although whether the use of vein grafts increases flap failure rates is controversial, complications are highest in lower extremity reconstruction, cases of a prolonged interval between stages in two-stage arteriovenous loops, and unplanned vein grafts.

The muscle-sparing thoracotomy offers several benefits over the traditional posterolateral thoracotomy approach for surgically accessing the chest cavity. Some of the potential advantages of preserving the latissimus dorsi and serratus anterior muscles include both functional benefits and potential use of these muscles for future flap reconstruction. Nevertheless, the muscle-sparing thoracotomy technique has traditionally been described with a wide exposure and, as a result, a theoretically higher risk of seroma and hematoma formation due to the increased dead space. The authors propose a new approach to muscle-sparing thoracotomy to avoid the disadvantages of each technique. By defining two subcutaneous anatomical triangles that can be safely lifted without disrupting the latissimus dorsi and serratus anterior muscles' blood supply, this novel approach provides good exposure, preserves muscle flaps for future use, and minimizes dead space. As a result, this novel muscle-sparing thoracotomy technique has ths dead space. As a result, this novel muscle-sparing thoracotomy technique has the potential to minimize postoperative complications and maximize patient outcomes.

Osseous reconstruction following total spondylectomy/vertebrectomy in the thoracic spine is indicated to restore spinal stability. To assist with bony reconstruction, vascularized bone flaps including free vascularized fibula flaps and pedicled rib flaps can be used. However, there are limited data comparing various techniques. The authors aimed to evaluate the outcomes of free vascularized fibula flaps and pedicled rib flaps used for thoracic spinal reconstruction.

The authors reviewed 44 vascularized bone flaps [10 anterior pedicled rib flaps, 25 posterior pedicled rib flaps, and nine vascularized fibula flaps] for corpectomy defects spanning T1 to L1 between January of 1999 and June of 2018. Mean age and follow-up were 46 ±17 years and 74 ± 52 months, respectively.

The union rate was 93 percent, with a similar mean time to union among the three groups free vascularized fibula flaps, 9 ± 4 months; anterior pedicled rib flaps, 9 ± 6 months; and posterior pedicled rib flaps, 9 ± 5 months (p = 0.95). Surgical-site complications were found in 27 vascularized bone flaps (61 percent), and reoperations and revisions were performed in 14 (32 percent) and 10 (23 percent) vascularized bone flaps, respectively. No differences were identified among anterior pedicled rib flaps, posterior pedicled rib flaps, and vascularized fibula flaps with regard to complication, reoperation, and revision rates.

Free vascularized fibula flaps and pedicled rib flaps provide durable reconstruction for thoracic spinal defects. Union, time to union, revision, and reoperation rates were similar among anterior and posterior pedicled rib flaps and vascularized fibula flaps. selleck compound Given the variability in indication and defect types among the flap cohorts, the authors' results should be interpreted carefully as an insight into the outcomes of different vascularized bone flaps for the unique cases of thoracic spinal reconstruction rather than to compare the different flaps used.

Therapeutic, III.

Therapeutic, III.

Regional flaps are an important component of the reconstructive ladder and represent a versatile option in reconstructing various oral cavity defects. An axial buccal flap based on the facial artery, the facial artery musculomucosal flap, was first described by Pribaz et al. and has been shown to have good functional outcomes with minimal morbidity. Indeed, other surgeons have praised its favorable arc of rotation, reliability, and role as an alternative to free tissue transfer, with shorter duration of general anesthesia and allowance for earlier postoperative mobilization. The facial artery musculomucosal flap has significant versatility, as it can be superiorly or inferiorly based and can be performed in either single- or two-stage fashion. It is of particular advantage for reconstruction of the oral cavity (retromolar trigone, hard palate, alveolar ridge, lip, tongue, and floor of mouth), oropharynx (tongue base, lateral pharynx, and soft palate), and sinonasal structures. Despite its advantages, its wimobilization. The facial artery musculomucosal flap has significant versatility, as it can be superiorly or inferiorly based and can be performed in either single- or two-stage fashion. It is of particular advantage for reconstruction of the oral cavity (retromolar trigone, hard palate, alveolar ridge, lip, tongue, and floor of mouth), oropharynx (tongue base, lateral pharynx, and soft palate), and sinonasal structures. Despite its advantages, its widespread use has been limited by a lack of familiarity and difficulty in safely raising a reliable flap consistently. The senior author (S.C.D.) has successfully utilized a high volume of facial artery musculomucosal flaps with a low complication rate in a broad array of oral cavity and oropharyngeal defects. In this article, the authors share technical details on how to harvest and inset this flap by incorporating key landmarks in a reliable fashion.

Computer-assisted surgery has become the mainstream in mandibular reconstruction, but the lack of a standard measuring approach for spatial deviations of mandible hinders postoperative verification and the comparison of different subjects. This study aims to set up a comprehensive approach for measuring spatial deviations of computer-assisted mandibular reconstruction.

A systematic review was conducted to extract all measurements for computer-assisted mandibular reconstruction. Thereafter, eligible measurements were included in the authors' comprehensive approach, which categorized the measurements according to different anatomical structures and landmarks.

A total of 80 studies were included in the authors' systematic review, and 31 measurements were extracted. The authors established a comprehensive panel of anatomical landmarks to facilitate measurement, including parts, points, lines, planes, and angles. These measurements encompassed spatial deviations of the overall mandible, condyle, gonial angle, bone grafts, midline, surgical plate, osteotomy, and miscellaneous indicators.