Microvascular reconstructions of full-thickness oncological chest wall defects

Reconstruction of massive chest wall defect after malignant chest wall mass excision in resource limited setting, a case report

INTRODUCTION AND IMPORTANCE

Chest wall tumors, rare but impactful, constitute less than 2 % of the population and 5 % of thoracic neoplasms. Wide-margin resection is vital, often causing substantial defects necessitating reconstruction. However, in resource-limited settings like sub-Saharan Africa, access to reconstruction materials is limited. We present a successful case of managing a massive chest wall defect using flexible wire and polypropylene mesh in such a context.

CASE PRESENTATION

A 40-year-old male presented with a gradually enlarging anterolateral chest wall mass, diagnosed as low-grade synovial sarcoma. Imaging revealed involvement of the 6th to 11th ribs with compression of the diaphragm and liver. A multidisciplinary team planned wide-margin excision, chest wall reconstruction, and adjuvant chemoradiation. Using a sternal wire bridge and polypropylene mesh, the 25 cm by 15 cm defect was reconstructed, covered with a latissimus dorsi flap. The patient recovered well postoperatively, highlighting the feasibility of innovative approaches in resource-limited settings.

CLINICAL DISCUSSION

Defects larger than 5 cm or involving over 4 ribs require reconstruction to prevent lung herniation and respiratory issues, especially for anteriorolateral defects. Our case featured a 25 by 15 cm anteriorolateral chest wall defect, necessitating rigid reconstruction. Due to resource constraints, we utilized flexible wires and polypropylene mesh, offering a cost-effective solution for managing massive chest wall defects.

CONCLUSION

This case underscores the challenges faced in managing chest wall tumors in resource-constrained regions and emphasizes the importance of innovative solutions for achieving successful outcomes in chest wall reconstruction.

Anterior Chest Wall Reconstruction After Separation of Thoraco-Omphalopagus Conjoined Twins With Cadaveric Rib Grafts and Omental Flap

BACKGROUND

Anterior chest wall defects have a wide range of etiologies in the pediatric population, ranging from infection, tumor, and trauma to congenital diseases. The reconstructive goals include restoring skeletal stability, obliterating dead space, preserving cardiopulmonary mechanics, and protecting vital underlying mediastinal organs. Although various reconstructive methods have been described in the literature, selecting the optimal method is challenging for the growing pediatric skeleton. Here, we report a case of previously thoraco-omphalopagus twins who underwent successful separation and reconstruction and presented for definitive anterior chest wall reconstruction.

METHODS

A pair of previously thoraco-omphalopagus conjoined twins underwent definitive anterior chest wall defect reconstruction using cadaveric ribs and omental flap. Twin A received 2 cadaveric ribs, whereas twin B had a much larger sternal defect that required 3 cadaveric ribs combined with an omental flap for soft tissue chest coverage. Both twins were followed up for 8 months.

RESULTS

Twin A's postoperative course was uneventful, and she was discharged on postoperative day 6. Twin B's course was complicated, and she was discharged on supported ventilation on postoperative day 10. At 8 months postoperatively, both twins healed well, and chest radiographs confirmed the stability of the chest reconstructions. The rib grafts in the twin with a tracheostomy were not mobile, and the patient had a solid sternum with adequate pulmonary expansion. The construct initially did not facilitate pulmonary functioning, but after a healing process, it eventually allowed for the twin with the tracheostomy who required pulmonary assistance to no longer need this device.

CONCLUSIONS

Cryopreserved cadaveric ribs and omental flaps offer safe and reliable reconstructive methods to successfully reconstruct congenital anterior chest wall skeletal defects in the growing pediatric population. The involvement of multidisciplinary team care is key to optimizing the outcomes.

Intrathoracic scapular dislocation following radical surgical chondrosarcoma resection from chest wall

Locked scapula or intrathoracic scapular dislocation is an extremely rare entity encountered in the emergency department, with very few cases reported in literature. Conservative vs surgical approach in treating intrathoracic scapular dislocation is not well defined in literature. In this case report, we present a rare case of intrathoracic scapular dislocation, following multiple ribs resection due to malignant bone tumour, which was treated by closed manipulation reduction technique.

[Application of expanded anterolateral thigh myocutaneous flap in the repair of huge chest wall defect]

OBJECTIVE

To investigate the application of expanded anterolateral thigh myocutaneous flap in the repair of huge chest wall defect.

METHODS

Between August 2018 and December 2020, 12 patients, including 4 males and 8 females, were treated with expanded anterolateral thigh myocutaneous flap to repair huge complex defects after thoracic wall tumor surgery. The age ranged from 28 to 72 years, with an average of 54.9 years. There were 4 cases of phyllodes cell sarcoma, 2 cases of soft tissue sarcoma, 1 case of metastatic chest wall tumor of lung cancer, and 5 cases of breast cancer recurrence. All cases underwent 2-7 tumor resection operations, of which 3 cases had previously received lower abdominal flap transplantation and total flap failure occurred, the other 9 cases were thin and were not suitable to use the abdomen as the flap donor site. After thorough debridement, the area of secondary chest wall defect was 300-600 cm ²; the length of the flap was (24.7±0.7) cm, the width of the skin island was (10.6±0.7) cm, the length of the lateral femoral muscular flap was (26.8±0.5) cm, the width was (15.3±0.6) cm, and the length of the vascular pedicle was (7.9±0.6) cm.

RESULTS

The myocutaneous flaps and the skin grafts on the muscular flaps were all survived in 11 patients, and the wounds in the donor and recipient sites healed by first intention. One male patient had a dehiscence of the chest wall incision, which was further repaired by omentum combined with skin graft. The appearance of the reconstructed chest wall in 12 patients was good, the texture was satisfactory, and there was no skin flap contracture and deformation. Only linear scar was left in the donor site of the flap, and slight hyperplastic scar was left in the skin harvesting site, which had no significant effect on the function of the thigh. All patients were followed up 9-15 months, with an average of 12.6 months. No tumor recurrence was found.

CONCLUSION

The expanded anterolateral thigh myocutaneous flap surgery is easy to operate, the effective repair area is significantly increased, and multiple flap transplantation is avoided. It can be used as a rescue means for the repair of huge chest wall defects.

Resection and reconstruction of huge tumors in the chest wall

OBJECTIVE

To evaluate the experience and effects of resection and reconstruction of 4 cases of huge tumors in the chest wall.

METHODS

The clinical data of 4 patients with huge tumors in the chest wall from July 2015 to January 2020 were collected and analyzed. There were 2 males and 2 females.Chondrosarcoma was diagnosed in 2 cases, giant cell tumor was diagnosed in 1 case,and metastasis from breast cancer was diagnosed in 1 case.All patients underwent extensive tumor resection and had thoracic exposure after tumor resection.Two patients underwent reconstruction with mesh and titanium mesh, and the incision was closed directly.The third patient underwent reconstruction with mesh and latissimus dorsi flap,and the fourth patient underwent reconstruction with mesh,titanium mesh and latissimus dorsi flap.

RESULT

One patient had incision infection after operation,which resolved after debridement.All patients were followed up for 2-6 years, no tumor recurrence or metastasis was noted during follow-up.None of patients had abnormal breathing, dyspnea or other physical discomfort.

CONCLUSION

It is difficult to resect the huge tumors in the chest wall,and it is more reasonable and safer to choose a reconstruction method using mesh and titanium mesh.The latissimus dorsi flap can achieve good results in repairing soft tissue defects.Close perioperative management and multidisciplinary team discussions can help to achieve better curative effects.

The Best of Chest Wall Reconstruction: Principles and Clinical Application for Complex Oncologic and Sternal Defects

LEARNING OBJECTIVES

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.

SUMMARY

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 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.

Free Myocutaneous Flap Assessment in a Rat Model: Verification of a Wireless Bioelectrical Impedance Assessment (BIA) System for Vascular Compromise Following Microsurgery

Background: Microvascular tissue transfer is a common reconstructive procedure. We designed a bioelectrical impedance assessment (BIA) system for quantitative analysis of tissue status. This study attempts to verify it through the animal model. Methods: The flaps of the rat model were monitored by the BIA system. Results: The BIA variation of the free flap in the rat after the vascular compromise was recorded. The non-vascular ligation limbs of the same rat served as a control group. The bio-impedance in the experimental group was larger than the control group. The bio-impedances of both the thigh/feet flaps in the experimental group were increased over time. In the thigh, the difference in bio-impedance from the control group was first detected at 10 kHz at the 3rd and last at 1 kHz at the 6th h, after vascular compromise. The same finding was observed in the feet. Compared with the control group, the bio-impedance ratio (1 kHz/20 kHz) of the experimental group decreased with time, while their variation tendencies in the thigh and feet were similar. Conclusions: The flap may be monitored by the BIA for vascular status.

Comparison of pedicled versus free flaps for reconstruction of extensive deep sternal wound defects following cardiac surgery: A retrospective study

BACKGROUND

Myocutaneous pedicled flaps are the method of choice for sternal reconstruction after deep sternal wound infection (DSWI) following cardiac surgery. We set out to investigate whether free flaps provide a superior alternative for particularly extended sternal defects.

METHODS

Between October 2008 and February 2020, 86 patients with DSWI underwent sternal reconstruction with myocutaneous flaps at our institution. Patients were retrospectively grouped into pedicled (A; n = 42) and free flaps (B, n = 44). The objective was to compare operative details, outcome variables, surgical as well as medical complication rates between both groups, retrospectively. Binary logistic regression analysis was applied to determine the effect of increasing defect size on flap necrosis.

RESULTS

Rates of partial flap necrosis (>5% of the skin island) were significant higher in pedicled flaps (n = 14), when compared to free flaps (n = 4) (OR: 5.0; 33 vs. 9%; p = .008). Increasing defect size was a significant risk factor for the incidence of partial flap necrosis of pedicled flaps (p = .012), resulting in a significant higher rate of additional surgeries (p = .036). Binary regression model revealed that the relative likelihood of pedicled flap necrosis increased by 2.7% with every extra square-centimeter of defect size.

CONCLUSION

To avoid an increased risk of partial flap necrosis, free flaps expand the limits of extensive sternal defect reconstruction with encouragingly low complication rates and proved to be a superior alternative to pedicled flaps in selected patients.

Complex Microsurgical Reconstruction After Tumor Resection in the Trunk and Extremities

Reconstruction of soft tissue defects following tumor ablation procedures in the trunk and extremities can challenge the microsurgeon. The goal is not just to provide adequate soft tissue coverage but also to restore form and function and minimize donor site morbidity. Although the principles of the reconstructive ladder still apply in the trunk and extremities, free tissue transfer is used in many cases to optimally restore form and function. Microsurgery has changed the practice in soft tissue tumors, and amputation is less frequently necessary.

Forequarter Amputation and Reconstructive Options

OBJECTIVE

This study aimed to present the results of a series of forequarter amputations (FQAs) and to evaluate the reconstructive methods used.

SUMMARY BACKGROUND DATA

Although FQA has become a rare procedure in the era of limb-sparing treatment of extremity malignancies, it is a useful option when resection of a shoulder girdle or proximal upper extremity tumor cannot be performed so as to retain a functional limb.

METHODS

Thirty-four patients were treated with FQA in 1989 to 2017. Various reconstructive techniques were used, including free fillet flaps from the amputated extremity.

RESULTS

All patients presented with intractable symptoms such as severe pain, motor or sensory deficit, or limb edema. Seventeen patients were treated with palliative intent. Chest wall resection was performed in 9 patients. Free flap reconstruction was necessary for 15 patients, with 11 free flaps harvested from the amputated extremity. There was no operative mortality, and no free flaps were lost. In curatively treated patients, estimated 5-year disease-specific survival was 60%. Median survival in the palliatively treated group was 13 months (1-35 months).

CONCLUSIONS

Limb-sparing treatment is preferable for most shoulder girdle and proximal upper extremity tumors. Sometimes, FQA is the only option enabling curative treatment. In palliative indications, considerable disease-free intervals and relief from disabling symptoms can be achieved. The extensive tissue defects caused by extended FQA can be safely and reliably reconstructed by means of free flaps, preferably harvested from the amputated extremity.

Synthetic Mesh Versus Acellular Dermal Matrix for Oncologic Chest Wall Reconstruction: A Comparative Analysis

BACKGROUND

Management of chest wall defects after oncologic resection is challenging due to multifactorial etiologies. Traditionally, skeletal stabilization in chest wall reconstruction (CWR) was performed with synthetic prosthetic mesh. The authors hypothesized that CWR for oncologic resection defects with acellular dermal matrix (ADM) is associated with a lower incidence of complications than synthetic mesh.

METHODS

Consecutive patients who underwent CWR using synthetic mesh (SM) or ADM at a single center were reviewed. Only oncologic defects involving resection of at least one rib and reconstruction with both mesh and overlying soft tissue flaps were included in this study. Patients' demographics, treatment factors, and outcomes were prospectively documented. The primary outcome measure was surgical-site complications (SSCs). The secondary outcomes were specific wound-healing events, cardiopulmonary complications, reoperation, and mortality.

RESULTS

This study investigated 146 patients [95 (65.1%) with SM; 51 (34.9%) with ADM] who underwent resection and CWR of oncologic defects. The mean follow-up period was 29.3 months (range 6-109 months). The mean age was 51.5 years, and the mean size of the defect area was 173.8 cm². The SM-CWR patients had a greater number of ribs resected (2.7 vs. 2.0 ribs; p = 0.006) but a similar incidence of sternal resections (29.5% vs. 23.5%; p = 0.591) compared with the ADM-CWR patients. The SM-CWR patients experienced significantly more SSCs (32.6% vs. 15.7%; p = 0.027) than the ADM-CWR patients. The two groups had similar rates of specific wound-healing complications. No differences in mortality or reoperations were observed.

CONCLUSIONS

The ADM-CWR patients experienced fewer SSCs than the SM-CWR patients. Surgeons should consider selectively using ADM for CWR, particularly in patients at higher risk for SSCs.

Reconstruction of massive chest wall defects: A 20-year experience

BACKGROUND

Large chest wall resections can result in paradoxical chest wall movement leading to prolonged ventilator dependence and major respiratory impairment. The purpose of this study was to determine as to which factors are predictive or protective of complications in massive oncologic chest wall defect reconstructions.

METHODS

A retrospective review of a prospectively maintained database of consecutive patients who underwent immediate reconstruction of massive thoracic oncologic defects (≥5 ribs) was performed. Univariate and multivariate logistic regression analyses identified risk factors.

RESULTS

We identified 59 patients (median age, 53 years) with a mean follow-up of 36 months. Rib resections ranged from 5 to 10 ribs (defect area, 80-690 cm²). Sixty-two percent of the patients developed at least one postoperative complication. Superior/middle resections were associated with increased risk of general and pulmonary complications (71.4% vs. 35.3%; OR 4.54; p = 0.013). The 90-day mortality rate following massive chest wall resection and reconstruction was 8.5%. Two factors that were significantly associated with shorter overall survival time were preoperative XRT and preoperative chemotherapy (p = 0.021 and p < 0.001, respectively).

CONCLUSIONS

Patients with massive oncological thoracic defects have a high rate of reconstructive complications, particularly pulmonary, leading to prolonged ventilator dependence. Superior resections were more likely to be associated with increased pulmonary and overall complications. The length of postoperative recovery was significantly associated with the size of the defect, and larger defects had prolonged hospital stays. Because of the large dimensions of chest wall defects, almost half of the cases required flap coverage to allow for appropriate defect closure. Understanding the unique demands of these rare but challenging cases is critically important in predicting patient outcomes.

Thoracic wall ischemia after repair of thoracoabdominal aortic aneurysm requiring large microvascular soft tissue reconstruction

A 67-year-old man presented to the vascular service with a Crawford extent I thoracoabdominal aortic aneurysm. He underwent open thoracoabdominal aortic replacement from just distal to the left subclavian artery to just proximal to the origin of the superior mesenteric artery under deep hypothermic circulatory arrest. His postoperative course was complicated by thoracic wall ischemia, resulting in a life-threatening defect of the chest wall that exposed lung parenchyma and the aortic graft. Successful microvascular soft tissue reconstruction was performed using an anterolateral thigh flap and arteriovenous loop. This is a case report of a large chest wall defect resulting from thoracoabdominal aortic aneurysm repair. This case highlights the feasibility of microvascular reconstruction techniques to repair even the largest defects.

ROLE OF ARTERIOVENOUS VASCULAR LOOPS IN MICROSURGICAL RECONSTRUCTION OF THE EXTREMITIES

Objective:

To analyze 10 consecutive cases of microsurgical arteriovenous loops created to reconstruct complex injuries from March 2011 to May 2012.

Methods:

This observational cohort-type study conducted by the Hand and Microsurgery Group at the HC-FMUSP included patients who were candidates for microsurgical reconstruction as a last alternative to amputation of the limb with proven absence of adequate recipient vessels for primary microsurgical anastomosis, in a prospective and consecutive manner. We analyzed 14 variables (epidemiological, clinical, procedure-related, and outcome) in patients who underwent reconstruction using an arteriovenous loop utilizing a single-stage or two-stage procedure.

Results:

The injuries were mostly traumatic (80%). The success rate of the single-stage procedure was 75%, and 17% for the two-stage procedure. The rate of preservation for the injured limb was 44%.

Conclusion:

This study reinforces the more recent understanding that the indication for single-stage or two-stage reconstruction should be individualized; our findings favor the single-stage reconstruction. This technique should be used in selected cases, as a last reconstructive alternative before amputation, and further studies are necessary to confirm its safety and efficacy in our practice. Level of Evidence IV; Case series.

Materials and techniques in chest wall reconstruction: a review

Extensive chest wall resection and reconstruction are a challenging procedure that requires a multidisciplinary approach, including input from thoracic surgeon, plastic surgeon and oncologist. In particular chest wall neoplastic pathology is associated with high surgical morbidity and can result in full thickness defects hard to reconstruct. The goals of a successful chest wall reconstruction are to restore the chest wall rigidity, preserve pulmonary mechanic and protect the intrathoracic organs minimizing the thoracic deformity. In case of large full thickness defects synthetic, biologic or composite meshes can be used, with or without titanium plate to restore thoracic cage rigidity as like as more recently the use of allograft to reconstruct the sternum. After skeletal stability is established full tissue coverage can be achieved using direct suture, skin graft or local advancement flaps, pedicled myocutaneous flaps or free flaps. The aim of this article is to illustrate the indications, various materials and techniques for chest wall reconstruction with the goal to obtain the best chest wall rigidity and soft tissue coverage.

Complex Microsurgical Reconstruction After Tumor Resection in the Trunk and Extremities

Reconstruction of soft tissue defects following tumor ablation procedures in the trunk and extremities can challenge the microsurgeon. The goal is not just to provide adequate soft tissue coverage but also to restore form and function and minimize donor site morbidity. Although the principles of the reconstructive ladder still apply in the trunk and extremities, free tissue transfer is used in many cases to optimally restore form and function. Microsurgery has changed the practice in soft tissue tumors, and amputation is less frequently necessary.

Soft Tissue Sarcoma of the Trunk and Extremities

The diagnostic methods and treatment modalities of soft tissue sarcomas have evolved with the multidisciplinary approach. The soft tissue sarcoma team must have specialists capable of using and combining modern methods of radiology and pathology, cytogenetics, tumour surgery, tissue transfer techniques, radiotherapy and chemotherapy for optimal local and systemic treatment. Limb sparing surgery combined with radiotherapy has lowered the amputation rate and maintained low rates of local recurrence. Reconstructive surgery facilitates treatment of patients with soft tissue sarcoma by permitting tumour resection with adequate margins, protects vital structures, enables early postoperative radiation therapy, maintains extremity length, and if necessary assists in palliative procedures. The ability to maintain function and aesthetics after tumour resection, and effective palliation improves the quality of life for these patients. Early recognition and appropriate referral to a tumour centre improve the outcome.

Chest wall reconstruction after extended resection

Extensive chest wall resection and reconstruction is a challenging procedure that requires a multidisciplinary approach, including input from thoracic surgeons, plastic surgeons, neurosurgeons, and radiation oncologists. The primary goals of any chest wall reconstruction is to obliterate dead space, restore chest wall rigidity, preserve pulmonary mechanics, protect intrathoracic organs, provide soft tissue coverage, minimize deformity, and allow patients to receive adjuvant radiotherapy. Successful chest wall reconstruction requires the re-establishment of skeletal stability to prevent chest wall hernias, avoids thoracoplasty-like contraction of the operated side, protects underlying viscera, and maintain a cosmetically-acceptable appearance. After skeletal stability is established, full tissue coverage can be achieved using direct closure, skin grafts, local advancement flaps, pedicled myocutaneous flaps, or free flaps. This review examines the indications for chest wall reconstruction and describes techniques for establishment of chest wall rigidity and soft tissue coverage.

Dynamic 3D printed titanium copy prosthesis: a novel design for large chest wall resection and reconstruction

Due to high rates of complications, chest wall resection and reconstruction is a high risk procedure when large size of resection is required. Many different prosthetic materials have been used with similar results. Recently, thanks to the new advances in technology, personalized reconstruction have been possible with specific custom-made prosthesis. Nevertheless, they all generate certain amount of stiffness in thoracic motion because of his rigidity. In this report, we present a forward step in prosthesis design based on tridimensional titanium-printed technology. An exact copy of the resected chest wall was made, even endowing simulated sternochondral articulations, to achieve the most exact adaptation and best functional results, with a view to minimize postoperative complications. This novel design, may constitute an important step towards the improvement of the functional postoperative outcomes compared to the other prosthesis, on the hope, to reduce postoperative complications.

Two-stage free anterolateral thigh flap in the management of full-thickness chest wall resection

Free tissue transfers are sometimes required in the reconstruction of large full-thickness chest wall defects. To minimize the risk of viscera exposure in case of free flap complications, we describe a two-stage procedure using an anterolateral thigh flap.

Anterolateral thigh flap for axillary reconstruction after sarcoma resection

BACKGROUND

Reconstruction of extensive axillary defects after sarcoma resection presents a challenging problem in reconstructive microsurgery. The purpose of this report was to investigate the feasibility of the free anterolateral thigh (ALT) flap for oncologic axillary reconstruction.

METHODS

The extensive axillary defects in six patients with sarcoma was reconstructed using a free ALT flap. The defect size ranged from 15 × 11 to 28 × 25 cm² . Five patients had recurrent cases and the ipsilateral latissimus dorsi flap had been already used in three patients. Two patients with a full-thickness defect underwent chest wall reconstruction with the iliotibial tract.

RESULTS

All flaps survived completely and the wounds healed without complications in all patients.

CONCLUSIONS

The free ALT flap is an ideal flap for axillary reconstruction after extensive sarcoma resection. It can be tailored to the requirements of the individual's defect and provides durable coverage for the axillary neurovascular bundle and intrathoracic structures. Flap harvesting in the lateral decubitus position enables a two-team approach. © 2015 Wiley Periodicals, Inc. Microsurgery 36:378-383, 2016.

Thoracic Wall Reconstruction after Tumor Resection

Introduction

Surgical treatment of malignant thoracic wall tumors represents a formidable challenge. In particular, locally advanced tumors that have already infiltrated critical anatomic structures are associated with a high surgical morbidity and can result in full-thickness defects of the thoracic wall. Plastic surgery can reduce this surgical morbidity by reconstructing the thoracic wall through various tissue transfer techniques. Sufficient soft-tissue reconstruction of the thoracic wall improves quality of life and mitigates functional impairment after extensive resection. The aim of this article is to illustrate the various plastic surgery treatment options in the multimodal therapy of patients with malignant thoracic wall tumors.

Materials and methods

This article is based on a review of the current literature and the evaluation of a patient database.

Results

Several plastic surgical treatment options can be implemented in the curative and palliative therapy of patients with malignant solid tumors of the chest wall. Large soft-tissue defects after tumor resection can be covered by local, pedicled, or free flaps. In cases of large full-thickness defects, flaps can be combined with polypropylene mesh to improve chest wall stability and to maintain pulmonary function. The success of modern medicine has resulted in an increasing number of patients with prolonged survival suffering from locally advanced tumors that can be painful, malodorous, or prone to bleeding. Resection of these tumors followed by thoracic wall reconstruction with viable tissue can substantially enhance the quality of life of these patients.

Discussion

In curative treatment regimens, chest wall reconstruction enables complete resection of locally advanced tumors and subsequent adjuvant radiotherapy. In palliative disease treatment, plastic surgical techniques of thoracic wall reconstruction provide palliation of tumor-associated morbidity and can therefore improve patients’ quality of life.

Chest wall reconstruction after oncological resections

Most chest wall defects requiring reconstruction result from tumor resection. Bone and soft tissue sarcomas and recurrent mammary cancer are the most common tumors. Careful preoperative evaluation, meticulous surgical technique and active postoperative treatment are important. The selection of reconstruction is based on the nature, size and location of the defect as well as on the general health and prognosis of the patient. The goals of the reconstruction are adequate stability, water- and airtight closure of the chest cavity, and acceptable cosmetic appearance. The pedicled muscular or musculocutaneous flaps are usually the first choice for tis-sue coverage. These include flaps such as latissimus dorsi, vertical or transverse rectus abdominis and pectoralis. In certain cases also the breast flap or omental flap can be used. In selected cases, a free flap reconstruction is indicated if the local options for reconstruction have been used, or if they are unreliable due to earlier scars or radiotherapy. The free flaps to be used for chest wall can be harvested from the thigh (tensor fascia latae flap, anterolateral thigh flap), from the abdomen (transverse rectus abdominis flaps, deep epigastric perforator flaps) or from the chest wall (latissimus dorsi flap and other flaps based on the subscapular artery). Sometimes a fillet forearm can be used as a flap to cover a defect after extended forequarter amputation. Artificial meshes are commonly used to give stability in the defect and to give a platform for the flap. Methylmethacrylate embedded between the two layers of a mesh, or one or two rib grafts fixed to the mesh, can be used to give additional stability in extensive defects to prevent paradoxical movement.

Free tensor fascia lata flap and synthetic mesh reconstruction for full-thickness chest wall defect

A large full-thickness chest wall defect over 10 cm in diameter requires skeletal reconstruction and soft tissue coverage. Use of various flaps for soft tissue coverage was previously reported, but en bloc resection in each case affects these flap pedicles and sizes. We present a case of a 74-year-old man with a soft tissue tumor involving the left lateral chest wall. We performed an en block resection and skeletal reconstruction using a mesh, free tensor fascia lata (TFL) flap for soft tissue coverage. This procedure could be performed in one position. A fixed fascia lata of the flap was also useful for tight reconstruction with the mesh. We suggest that free TFL and/or anterior lateral thigh flap is a useful technique to reconstruct anterior to posterior lateral chest wall defects.

[Chest wall resection and reconstruction for thoracic tumor invading the chest wall: a report of 12 cases]

背景与目的

胸部肿瘤累及胸壁是临床常见事件，若无远处转移，完整切除受累胸壁仍可获得良好疗效。本文结合12例肿瘤患者胸壁切除与重建（chest wall resection and reconstruction, CWRR）的经验就重建人工材料、软组织覆盖等方面作一介绍，并强调切除外科与重建外科合作的重要性。

方法

总结2005年10月-2011年4月北京大学肿瘤医院胸外一科和重建外科共同参与的CWRR 12例，详细复习自确诊至今的诊治全过程，包括术前治疗、手术方式、切除范围、重建方式，主要的局部及全身并发症及生存情况。

结果

12例均为根治性手术，均行骨性胸壁切除，切除后骨性胸壁缺损为25 cm²-700 cm²，胸壁软组织缺损为56 cm²-400 cm²。骨性胸壁修补材料采用聚丙烯单丝网片（polypropylene mesh），软组织修复采用转移肌瓣、转移肌皮瓣及大网膜瓣。术后1例发生呼吸衰竭，呼吸机辅助通气1个月后痊愈，余11例均无并发症，全组12例至今全部存活。

结论

只有切除外科和重建外科同时参与才能完成符合肿瘤原则的复杂CWRR。由切除外科主导、重建外科协助、了解并熟悉重建材料及胸壁软组织重建，是达到手术根治性及保证远期生存的关键。

Sternal reconstruction after cardiac transplantation: a case of an oversized donor heart

BACKGROUND

We present a unique case of a cardiac transplant recipient who received an oversized heart.

METHODS

To allow the chest to accommodate the organ, extensive resection of the bony chest wall was performed. As both pectoralis major myocutaneous flaps and omental transposition were insufficient to cover the wound, a chest rotational flap was chosen.

RESULTS

The large size of the flap allowed us to cover the entire protuberant heart, and the excess soft tissue absorbed the pulsations from the heart without placing tension on the suture line.

CONCLUSION

While the closure of complex sternal wounds can pose great challenges, the plastic surgeon possesses a variety of options including pectoralis, omental, rectus abdominus, latissimus dorsi as well as skin and subcutaneous flap closures to choose from.

Forequarter amputation combined with chest wall resection: a single-center experience

BACKGROUND

Forequarter amputation combined with chest wall resection is a rarely performed procedure. Six patients were treated for advanced malignancies with this operation in our institution since 1993. Uncontrollable pain, lymphedema, loss of function of the affected limb and, in some patients, localized ulceration of the tumor at the time of presentation, provided the indication for the operation. All patients underwent radical amputation of the upper limb and the structures of the shoulder girdle, in combination with resection of the thoracic chest wall in an extent of 2 to 7 ribs.

METHODS

Chest wall reconstruction was achieved by implantation of a polytetrafluoroethylene patch (n=5) or a combination of a metal implant (Stratos System R, MedXpert GmbH, Heitersheim, Germany) and a polytetrafluoroethylene patch (n=1). Myocutaneous coverage of the defects was achieved by use of pedicled flaps from adjacent tissue (n=3) or by free myocutaneous flaps harvested from the amputated forearm (n=3).

RESULTS

No perioperative mortality occurred; however, significant morbidity was seen after the use of the free forearm flaps based on occurring vascular problems. All 3 patients had to undergo surgical revision of the flap. Survival ranged from 5 to 50 months (median=23.5 months) with 3 patients still alive at the time of this investigation.

CONCLUSIONS

Forequarter amputation in combination with chest wall resection is a feasible and potentially curative treatment for malignant tumors of the shoulder girdle with invasion of the chest wall. The operation results in immediate palliation and long-term survival can be obtained in selected cases.

Reconstruction of complex thoraco-abdominal defects with extended anterolateral thigh flap

Background:

The reconstruction of complex thoraco-abdominal defects following tumour ablative procedures has evolved over the years from the use of pedicle flaps to free flaps. The free extended anterolateral thigh flap is a good choice to cover large defects in one stage.

Materials and Methods:

From 2004 to 2009, five patients with complex defects of the thoracic and abdominal wall following tumour ablation were reconstructed in one stage and were studied. The commonest tumour was chondrosarcoma. The skeletal component was reconstructed with methylmethacrylate bone cement and polypropylene mesh and the soft tissue with free extended anterolateral thigh flap. The flaps were anastomosed with internal mammary vessels. The donor sites of the flaps were covered with split-skin graft.

Result:

All the flaps survived well. One flap required re-exploration for venous congestion and was successfully salvaged. Two flaps had post operative wound infection and were managed conservatively. All flap donor sites developed hyper-pigmentation, contour deformity and cobble stone appearance.

Conclusion:

Single-stage reconstruction of the complex defects of the thoraco-abdominal region is feasible with extended anterolateral thigh flap and can be adopted as the first procedure of choice.

Combined free vascularized iliac osteocutaneous flap and pedicled pectoralis major myocutaneous flap for reconstruction of anterior chest wall full-thickness defect

Large defects of the anterior chest wall lead to gross chest instability that can result in paradoxic respiration. Osteoradionecrosis of the lower sternum and multiple left ribs resulted in a huge, full-thickness defect of the left anterior chest wall in a 67-year-old woman. An iliac osteocutaneous flap (bone segment 3 × 14 cm) was harvested for reconstruction of the bone defect. The skin defect was covered by the skin paddle of the iliac osteocutaneous flap and a contralateral rotational pectoralis major muscle flap. Months postoperatively, the patient was physically active, the chest was stable, and the vascularized iliac bone was incorporated into the recipient bone.

Arteriovenous loops in microsurgical free tissue transfer in reconstruction of central sternal defects

OBJECTIVE

In some patients with chest wall defects, free tissue transfer is indicated. Complications arise if multiple operations have left the trunk devoid of recipient vessels. In such patients, an arteriovenous loop between the cephalic vein and the thoracoacromial artery can be used.

METHODS

A review of all our patients who underwent chest wall reconstruction with a cephalic vein-thoracoacromial artery loop between 2000 and 2009 was performed (n = 29, 19 women and 10 men). The mean age was 64.9 years. Underlying causes were sternal osteomyelitis (n = 20), tumor (n = 4), and osteoradionecrosis (n = 5). All patients were in American Society of Anesthesiologists classes III and IV. Flap selection, intraoperative and postoperative complications, operative time, time of ventilatory support, mean hospital stay, and midterm survival were recorded.

RESULTS

Twenty-five patients received a tensor fascia lata flap, 2 a vertical rectus myocutaneuos flap, and 2 a deep inferior epigastric perforator flap. Mean duration of surgery was 6.8 hours (4.7-10.5 hours). Two transplanted tissue flaps died and/or had to be removed and 4 were revised successfully. Seven patients had wound complications such as infection or prolonged wound healing. Mean time for ventilator support was 93.6 hours (4-463 hours). The median intensive care unit time was 11 days and the overall hospital stay 27.4 days (11-102 days). One-year survival in the whole group was 69.8%.

CONCLUSIONS

The concept of arteriovenous loops allows creation of neovessels at the recipient site and has proven to be a superb tool to facilitate free tissue transfer or to provide an exit strategy in situations with unexpected vascular problems at the recipient site.

Minimally invasive esophagectomy: an overview

Minimally invasive approaches to esophageal resection have been shown to be feasible and safe, with outcomes similar to open esophagectomy. There are no controlled trials comparing the outcomes of minimally invasive esophagectomy (MIE) with open techniques, just a few comparative studies and many single institution series from which assessment of MIE and its present role have been made. The reported improvements from MIE approaches include reduced blood loss, time in intensive care and time in hospital. In comparative studies there is no clear reduction in respiratory complications, although larger series suggest there may be a benefit from MIE. Although MIE approaches report less lymph node retrieval compared with open extended lymphadenectomy, MIE cancer outcomes are comparable with open surgery. MIE will be a major component of the future esophageal surgeons' armamentarium, but should continue to be carefully assessed. There is a role for multicentered studies to prospectively audit outcomes. Large numbers of patients would be required to perform randomized trials of MIE versus open resection.

Reconstruction of the thoracic wall-long-term follow-up including pulmonary function tests

PURPOSE

Thoracic wall reconstructions have become a standard procedure for the reconstructive plastic surgeon in the larger hospital setting, but detailed reports about long-term results including pulmonary function and physical examination are rare.

MATERIALS AND METHODS

The data of 92 consecutive patients with full thickness chest wall resections were acquired from patient's charts and contact to patients, their relatives or general practitioners, with special reference to treatment and clinical course. At a mean follow-up of 5.5 years, 36 patients were examined physically and interviewed. Twenty-seven of them underwent additional pulmonary function tests. Kaplan-Meier method was used to calculate survival. Regression tests were undertaken to identify factors influencing the outcome.

RESULTS

Postoperative complications were observed in 42.4%, but neither mesh implantation nor the size of the defect contributed significantly. The 5-year mortality was worse for patients with recurrent mamma carcinoma (90.6%) than for patients with soft tissue sarcoma (56.3%). No medical history or operation parameter (resection size and localization) besides the general patients' conditions increased mortality. Pulmonary function parameters were only moderately reduced and not significantly affected by the resections' size or its localization. Majority of patients suffer from sensation disorders and motion-dependent pain, which contributed significantly to hypoxemia. Quality-of-life parameters were significantly reduced compared to the healthy control group but similar to the control group with cancer according to the Short Form-36 protocol. We could not detect a relevant decrease in quality of life comparing post- to preoperative values.

CONCLUSIONS

Thoracic wall reconstruction provides sufficient thoracic wall stability to maintain pulmonary function, but postoperative pain and sensation disorders are considerable. However, chest wall repair can contribute to palliation and even cure after full-thickness resections.

Reconstruction of complex chest wall defects by using polypropylene mesh and a pedicled latissimus dorsi flap: a 6-year experience

BACKGROUND

Reconstruction of full thickness defects of the chest wall is controversial and presents a complicated treatment scenario for thoracic and reconstructive plastic surgeons. It requires close cooperation between the cardiothoracic and reconstructive surgeons to achieve an optimal outcome and reduce the incidence of complications.

OBJECTIVE

The purpose of this study is to evaluate our results in patients who underwent prosthetic bony reconstruction with polypropylene mesh and pedicle latissimus dorsi flap after chest wall resection. The principles of chest wall reconstruction include: wide excision of primary chest wall tumour with macroscopically healthy margins, wound excision and debridement of necrotic devitalised and irradiated tissues, control of infection and local wound care.

STUDY DESIGN

This is a descriptive study. It includes 20 patients who underwent chest wall resection due to various causes and followed by reconstruction with polypropylene mesh along with pedicled latissimus dorsi flap.

PLACE AND DURATION OF STUDY

The study was conducted at the Department of Plastic and Reconstructive Surgery, Federal Postgraduate Medical Institute, Sheikh Zayed Hospital Lahore, over a period of 6 years from August 1999 to August 2005.

PATIENTS AND METHODS

This study included 20 patients who underwent chest wall reconstruction using polypropylene mesh and pedicled latissimus dorsi flap from August 1999 to August 2005. Patient demographic data including age, sex, pathological diagnosis, extent and type of resection, size of defect, and outcome were recorded. All patients were followed up in our outpatients department for 1 year.

RESULTS

There was a total of 20 patients, 16 males and four females. The average age was 54 years (range 44-64 years). The indications for resection were primary chest wall tumours in 13 (65%) patients, local recurrence from breast tumours in one (5%) patient, post median sternotomy in three (15%) patients and radionecrosis in three (15%) patients. Ribs along with a part of sternum were resected in 14 (70%) patients, ribs along with clavicle in two (10%) patients and ribs only in four (20%) patients. The average area of chest wall defect after resection was 16.5 x 13 cm. In all patients, skeletal defect was reconstructed with polypropylene mesh. Soft tissue coverage was provided with a pedicled latissimus dorsi flap in all cases. Three patients with a chest wall tumour developed a recurrence within 6 months. Among these three, one patient died within 8 months of follow up due to myocardial infarction.

CONCLUSION

Chest wall resection and reconstruction with synthetic polypropylene mesh and local muscle flaps can be performed as a safe, effective one-stage surgical procedure for a variety of major chest wall defects.

Pathological Pulmonary Hernia in a Patient With Metastatic Breast Cancer

Introduction: Pathological pulmonary hernia is a rare clinical entity which can be caused by malignancies. Clinical Picture: A 72-year-old female presented with a painful bulge in the left 4th intercostal space. Chest radiography and computed tomography demonstrated a left pulmonary hernia, pleural effusion and destruction of ribs. Treatment: The hernia sac was excised and a part of the chest wall was resected with reconstruction of residual defect. Outcome: The patient died 2 years after the treatment. Conclusions: A multidisciplinary approach involving various medical specialists may offer patients with pathological pulmonary hernia remarkable palliation and better quality of life. Key words: Palliative care, Surgical flaps, Surgical mesh

An innovative treatment concept for free flap reconstruction of complex central chest wall defects--the cephalic-thoraco-acromial (CTA) loop

BACKGROUND

Loco-regional flaps are the method of choice for chest wall reconstruction. However there is a selected group of patients who require free flap reconstruction, when all other options are used up. A small subgroup of these patients was identified where the commonly used recipient vessels (Internal mammary A. + V., Thoraco-dorsal A. + V.) were no longer available.

PATIENT AND METHOD

This group comprised 16 seriously ill patients in the period from 2000 to 2004. Underlying diseases were sternum osteomyelitis (10x), tumor (2x), and osteo-radionecrosis (4x). There were 10 women and 6 men with mean age 62.4 years. All patients were classified as ASA III and IV. Fourteen patients received a TFL flap, two patients a vertical rectus myocutaneous flap (VRAM). Recipient vessels were created with a temporary A-V loop between the cephalic vein and the thoraco-acromial artery (CTA-loop).

RESULTS

No flap was lost and two had to be revised successfully for thrombosis of the arterial anastomosis. Mean operation time was 6.1 (4.7-8.4) h. Average time for ventilatory support was 56 (4-338) h. Five patients died within 6 months postoperatively due their underlying advanced disease (n = 3) or multiple organ failure (n = 2).

CONCLUSION

The new concept of creating recipient vessels for free flap reconstruction of complex thoracic wall defects proved to be safe and reliable. The CTA loop allowed for unhurried flap dissection, best possible flap positioning, and straightforward end-end anastomoses in these seriously sick patients. The outcome with respect to complications and survival justifies the operative effort.

Comparison of acellular dermal matrix and synthetic mesh for lateral chest wall reconstruction in a rabbit model

BACKGROUND

Synthetic mesh is used for chest wall reconstruction, but infection or exposure can occur and necessitate removal. Human acellular dermal matrix (AlloDerm) has been used to reconstruct musculofascial defects in the trunk with low infection and herniation rates. AlloDerm may have advantages over synthetic mesh for chest wall reconstruction. This study compared outcomes and repair strengths of AlloDerm to expanded polytetrafluoroethylene mesh used for repair of rib cage defects.

METHODS

A 3 x 3-cm, full-thickness, lateral rib cage defect was created in each rabbit and repaired with expanded polytetrafluoroethylene (n = 8) or acellular dermal matrix (n = 9). At 4 weeks, the animals were euthanized and evaluated for lung herniation/dehiscence, strength of adhesions between the implant and intrapleural structures, and breaking strength of the implant materials and the implant-fascia interface. Tissue sections were analyzed with histologic and immunohistochemical staining to evaluate cellular infiltration and vascularization.

RESULTS

No herniation or dehiscence occurred with either material. The incidence and strength of adhesions was similar between materials. The mean breaking strength of the AlloDerm-fascia interface (14.5 +/- 8.9 N) was greater than the expanded polytetrafluoroethylene-fascia interface (8.7 +/- 4.4 N; p = 0.027) and similar to the rib-intercostal-rib interface of the contralateral native chest wall (14.0 +/- 5.6 N). The AlloDerm grafts became infiltrated with cells and vascularized after implantation.

CONCLUSIONS

AlloDerm used for chest wall reconstruction results in greater implant-defect interface strength than expanded polytetrafluoroethylene. The ability of AlloDerm to become vascularized and remodeled by autologous cells and to resist infection may be advantageous for chest wall reconstruction.