Chest wall resection and reconstruction for tumors: analysis of oncological and functional outcome

Phrenoplasty Techniques for the Reconstruction of Basal Chest Wall Defects

BACKGROUND

Primary and secondary tumors of the abdominal lower third of the bony thorax are relatively rare. Therefore, indications and techniques for chest wall reconstructions in this area are not well defined.

METHODS

The techniques for reconstructing basal chest wall defects using the diaphragm are described. Indications for phrenoplasty are limited to reconstruction after full-thickness resection of at least two of the last four ribs in the midaxillary line. The diaphragm can be used for reconstructive purposes both if it is intact and if it is partially involved in the resection of the chest wall.

RESULTS

At our institution, the abovementioned reconstructive technique was successfully performed in five patients with an uneventful post-operative course.

CONCLUSIONS

The main advantages of these methods are the use of promptly available, high-quality autologous tissue and the exclusion of the pleural space from the defect area, thus transforming a thoracic defect into an abdominal one. The disadvantage is a variable reduction in the volume of the hemithorax. These techniques could be compared with other reconstruction techniques using pre-/post-operative respiratory functional tests.

Complications of chest wall around malignant tumors: differences based on reconstruction strategy

BACKGROUND

Malignant chest wall tumors need to be excised with wide resection to ensure tumor free margins, and the reconstruction method should be selected according to the depth and dimensions of the tumor. Vascularized tissue is needed to cover the superficial soft tissue defect or bone tissue defect. This study evaluated differences in complications according to reconstruction strategy.

METHODS

Forty-five patients with 52 operations for resection of malignant tumors in the chest wall were retrospectively reviewed. Patients were categorized as having superficial tumors, comprising Group A with simple closure for small soft tissue defects and Group B with flap coverage for wide soft tissue defects, or deep tumors, comprising Group C with full-thickness resection with or without mesh reconstruction and Group D with full-thickness resection covered by flap with or without polymethyl methacrylate. Complications were evaluated for the 52 operations based on reconstruction strategy then risk factors for surgical and respiratory complications were elucidated.

RESULTS

Total local recurrence-free survival rates in 45 patients who received first operation were 83.9% at 5 years and 70.6% at 10 years. The surgical complication rate was 11.5% (6/52), occurring only in cases with deep tumors, predominantly from Group D. Operations needing chest wall reconstruction (p = 0.0016) and flap transfer (p = 0.0112) were significantly associated with the incidence of complications. Operations involving complications showed significantly larger tumors, wider areas of bony chest wall resection and greater volumes of bleeding (p < 0.005). Flap transfer was the only significant predictor identified from multivariate analysis (OR: 10.8, 95%CI: 1.05-111; p = 0.0456). The respiratory complication rate was 13.5% (7/52), occurring with superficial and deep tumors, particularly Groups B and D. Flap transfer was significantly associated with the incidence of respiratory complications (p < 0.0005). Cases in the group with respiratory complications were older, more frequently had a history of smoking, had lower FEV1.0% and had a wider area of skin resected compared to cases in the group without respiratory complications (p < 0.05). Preoperative FEV1.0% was the only significant predictor identified from multivariate analysis (OR: 0.814, 95%CI: 0.693-0.957; p = 0.0126).

CONCLUSIONS

Surgical complications were more frequent in Group D and after operations involving flap transfer. Severe preoperative FEV1.0% was associated with respiratory complications even in cases of superficial tumors with flap transfer.

Chest wall resections for non-small cell lung cancer: a literature review

Background and Objective

The development of early screening for lung cancer has led to improved overall survival in patients with non-small cell lung cancer (NSCLC). However, the management of NSCLC patients with resectable and potentially resectable chest wall invasion (CWI) requires attention. The purpose of this review is to summarize the role of surgery (chest wall resections) in NSCLC patients with CWI.

Methods

A literature search and review from three databases (PubMed, Embase, and ScienceDirect) comprised the last 39 years. This review was focused on the treatment of NSCLC patients with CWI, mainly including the preoperative evaluation, principles of treatment and strategic decision-making, surgical complications, and prognostic factors.

Key Content and Findings

Through the collection of relevant literature on NSCLC that invades the chest wall, this narrative review describes the actual role in clinical practice and future developments of chest wall resections. Preoperative treatment requires the multidisciplinary team (MDT) team to conduct accurate clinical staging of the patient and pay attention to the patient's lymph node status and rib invasion status. The successful implementation of chest wall resection and possible chest wall reconstruction requires refined individualized treatment based on the patient's clinical characteristics, supplemented by possible postoperative systemic treatment.

Conclusions

Surgery plays an important role in treating NSCLC patients with CWI, and a collaborative, experienced MDT is an essential component of the successful treatment of CWI with lung cancer. In the future, more high-quality clinical research is needed to focus on CWI patients so that patients can receive more effective treatment options and better clinical prognosis.

Malignant Chest Wall Tumors: Complex Defects and Their Management-A Review of 181 Cases

BACKGROUND

Chest wall tumors are a heterogeneous group of tumors that are managed by surgeons from diverse specialties. Due to their rarity, there is no consensus on their diagnosis and management.

MATERIALS

This retrospective, descriptive analysis includes patients with malignant chest wall tumors undergoing chest wall resection. Tumors were classified as primary, secondary, and metastatic tumors. The analysis includes clinicopathological characteristics, resection-reconstruction profile, and relapse patterns.

RESULTS

A total of 181 patients underwent chest wall resection between 1999 and 2020. In primary tumors (69%), the majority were soft tissue tumors (59%). In secondary tumors, the majority were from the breast (45%) and lung (42%). Twenty-five percent of patients received neoadjuvant chemotherapy, and 98% of patients underwent R0 resection. Soft tissue, skeletal + soft tissue, and extended resections were performed in 45%, 70%, and 28% of patients, respectively. The majority of patients (60%) underwent rib resections, and a median of 3.5 ribs were resected. The mean defect size was 24 cm2. Soft tissue reconstruction was performed in 40% of patients, mostly with latissimus dorsi flaps. Rigid reconstruction was performed in 57% of patients, and 18% underwent mesh-bone cement sandwich technique reconstruction. Adjuvant radiotherapy and chemotherapy were given to 29% and 39% of patients, respectively.

CONCLUSIONS

This is one of the largest single-institutional experiences on malignant chest wall tumors. The results highlight varied tumor spectra and multimodality approaches for optimal functional and survival outcomes. In limited resource setting, surgery, including reconstructive expertise, is very crucial.

Thoracic cavity remodeling and pulmonary function change after chest wall resection

Background

Chest wall resection (CWR) is an essential procedure for treating malignancies and infectious conditions of the chest wall. However, there are few studies on the pulmonary function and changes in thoracic cavity volume (TCV) related to CWR. This study aims to investigate the effects of CWR on long-term changes in TCV and pulmonary function.

Methods

Data of patients who underwent CWR between 2001 and 2021 were retrospectively reviewed. Patients who underwent single rib or lung resection rather than wedge resection were excluded. TCV (liter) was defined as the sum of the right and left TCVs (RCV and LCV) and was measured using computed tomography image reconstruction software. Changes in pulmonary function and TCV 1 year postoperatively were analyzed.

Results

A total of 45 patients were included. The number of resected ribs was 2 in 16 (35.6%) and ≥3 in 29 (64.4%) patients. Thirty patients underwent reconstruction. Long-term post-CWR decreased in forced vital capacity (FVC) (-7.9%, P=0.004) and forced expiratory volume in 1 second (FEV1) (-7.0%, P=0.002) were significant. There was no significant decrease in FEV1/FVC ratio (-3.0%, P=0.06), diffusing capacity of the lung for carbon monoxide (DLCO) (-5.9%, P=0.18) and TCV (-3.1%, P=0.10). There was no correlation between changes in TCV and decreases in FVC (r=0.12, P=0.56) or FEV1 (r=0.15, P=0.45). After right-side CWR (n=27), RCV (-7.8%, P=0.01) decreased significantly, whereas LCV (+2.1%, P=0.58) did not. The left-side CWR exhibited an identical pattern. (LCV: -8.5%, P=0.004; RCV: +1.3%, P=0.85). In the ≥3 rib-resection group, FVC (-9.5%, P=0.02), FEV1 (-7.9%, P=0.02) and TCV (-6.4%, P=0.04) decreased significantly. No significant changes were noted in the 2 rib-resection group. There were no significant differences in the changes in pulmonary function nor TCV between the reconstruction and no-reconstruction groups.

Conclusions

The long-term decrease in pulmonary function after CWR was significant, especially after ≥3-rib resection.

Enhanced recovery after chest wall resection and reconstruction: a clinical practice review

Since the late 1990s, and Henrik Kehlet's hypothesis that a reduction of the body's stress response to major surgeries could decrease postoperative morbidity, "Enhanced Recovery After Surgery" (ERAS) care pathways have been streamlined. They are now well accepted and considered standard in many surgical disciplines. Yet, to this day, there is no specific ERAS protocol for chest wall resections (CWRs), the removal of a full-thickness portion of the chest wall, including muscle, bone and possibly skin. This is most unfortunate because these are high-risk surgeries, which carry high morbidity rates. In this review, we propose an overview of the current key elements of the ERAS guidelines for thoracic surgery that might apply to CWRs. A successful ERAS pathway for CWR patients would entail, as is the standard approach, three parts: pre-, peri- and postoperative elements. Preoperative items would include specific information, targeted patient education, involvement of all members of the team, including the plastic surgeons, smoking cessation, dedicated nutrition and carbohydrate loading. Perioperative items would likely be standard for thoracotomy patients, namely carefully selective pre-anesthesia sedative medication only in some rare instances, low-molecular-weight heparin throughout, antibiotic prophylaxis, minimization of postoperative nausea and vomiting, avoidance of fluid overload and of urinary drainage. Postoperative elements would include early mobilization and feeding, swift discontinuation of intravenous fluid supply and chest tube removal as soon as safe. Optimal pain management throughout also appears to be critical to minimize the risk of respiratory complications. Together, all these items are achievable and may hold the key to successful introduction of ERAS pathways to the benefit of CWR patients.

A System for Mixed-Reality Holographic Overlays of Real-Time Rendered 3D-Reconstructed Imaging Using a Video Pass-through Head-Mounted Display-A Pathway to Future Navigation in Chest Wall Surgery

Background: Three-dimensional reconstructions of state-of-the-art high-resolution imaging are progressively being used more for preprocedural assessment in thoracic surgery. It is a promising tool that aims to improve patient-specific treatment planning, for example, for minimally invasive or robotic-assisted lung resections. Increasingly available mixed-reality hardware based on video pass-through technology enables the projection of image data as a hologram onto the patient. We describe the novel method of real-time 3D surgical planning in a mixed-reality setting by presenting three representative cases utilizing volume rendering. Materials: A mixed-reality system was set up using a high-performance workstation running a video pass-through-based head-mounted display. Image data from computer tomography were imported and volume-rendered in real-time to be customized through live editing. The image-based hologram was projected onto the patient, highlighting the regions of interest. Results: Three oncological cases were selected to explore the potentials of the mixed-reality system. Two of them presented large tumor masses in the thoracic cavity, while a third case presented an unclear lesion of the chest wall. We aligned real-time rendered 3D holographic image data onto the patient allowing us to investigate the relationship between anatomical structures and their respective body position. Conclusions: The exploration of holographic overlay has proven to be promising in improving preprocedural surgical planning, particularly for complex oncological tasks in the thoracic surgical field. Further studies on outcome-related surgical planning and navigation should therefore be conducted. Ongoing technological progress of extended reality hardware and intelligent software features will most likely enhance applicability and the range of use in surgical fields within the near future.

Sternal resection and reconstruction: a review

Sternal resection and reconstruction is a rare but sometimes challenging procedure due to its profound anatomical and functional implications. For these reasons, an adequate preoperative evaluation is crucial in each patient, especially when we are faced with malignant lesions that sometimes require extensive radical resections, thus demanding an integrated reconstructive strategy that allows stabilizing the chest wall, protecting the underlying mediastinum and minimize resulting deformity. The large number of available reconstruction techniques and the lack of quality studies for their analysis mean that sternal reconstruction depends to a great extent on the consensus of experts or, more frequently, on the simple preference of each surgical team. This article aims to provide an overview of sternal resection and reconstruction. Indications for partial versus total or subtotal sternectomy are suggested and their surgical and oncological outcomes are presented. The use of rigid or semi-rigid prostheses is an ongoing debate, although recent functional data advise reserving rigid reconstructions for extensive defects. Sternectomy for primary tumors or local tumor involvement has a good prognosis with an overall survival of 5 and 10 years: 67% and 58%, respectively, provided that a radical resection with free surgical margins is performed. Breast cancer is the most common secondary sternal tumor, and surgery can offer 5-year overall survival ranging from 20% to 50% provided an R0 resection is achieved, although radical surgery does not appear to decrease rates. of recurrence. Metastases of origin other than the breast give the worst results (less than 40% at 36 months and 0% at 5 years) and although the data available on these cases are limited, the radicality of the resection does not seem to modify the survival or recurrence rates, so a conservative approach is probably more appropriate.

Management of complications after chest wall resection and reconstruction: a narrative review

Background and Objective

Chest wall resection and reconstruction procedures carry high postoperative morbidity. Therefore, successful outcomes necessitate prevention, prompt identification, and appropriate management of ensuing complications. This narrative review aims to provide a comprehensive overview of evidence-based strategies for managing complications following chest wall resection and reconstruction.

Methods

A literature search was conducted using the PubMed database for relevant English-language studies published since 1980.

Key Content and Findings

Complications following chest wall resection and reconstruction can be broadly classified into surgical site-related, respiratory, or other systemic complications. Surgical site and respiratory complications are the most common, with reported incidence rates of approximately 40% across some series. Predisposing factors for respiratory morbidity include greater numbers of resected ribs and concurrent pulmonary lobectomy. Definitive correlations between specific prosthetic materials and complications remain elusive. Management should be tailored to the type and severity of the complication, surgical variables, and patient factors. Specific approaches for managing common complications are discussed in detail. Emerging preventive approaches, such as minimally invasive surgical techniques, are also briefly highlighted to help guide future research.

Conclusions

An emphasis on anticipating and judiciously managing complications of chest wall resection and reconstruction, alongside a coordinated multidisciplinary approach, can optimize outcomes for patients undergoing this intrinsically complex surgery.

Early Outcomes of the Bird-cage Chest Wall Reconstruction in the Philippine General Hospital

Objective

To describe the treatment outcomes of patients with chest wall tumors undergoing resection and Birdcage chest wall reconstruction in the local setting.

Methods

Data were obtained from 13 patients who underwent chest wall resection and Bird-cage (methylmethacrylate neo-rib, mesh, soft tissue, and skin) reconstruction in the Philippine General Hospital from January 2008 to September 2019. Demographics, operative procedures, 30-day operative morbidity, and mortality were evaluated using means and frequencies.

Results

We included 13 (77% female) patients with a mean age of 44.5 years. The most common indication for chest wall resection was recurrent neoplasm (5/13, 38.46%). The most extensive chest wall defect was 600 cm2. The average length of ICU stay was 5.15 days, and two patients had prolonged intubation (>3 days). The graft infection rate was 38%, pneumonia 23%, and the operative mortality rate was zero.

Conclusion

Bird-cage reconstruction is a safe, reliable, and cheap method of providing rigid chest wall reconstruction for chest wall tumor resection.

Collaborative Virtual Reality Real-Time 3D Image Editing for Chest Wall Resections and Reconstruction Planning

The integration of extended reality (XR) technologies into health care procedures presents transformative opportunities, particularly in surgical processes. This study delves into the utilization of virtual reality (VR) for preoperative planning related to chest wall resections in thoracic surgery. Leveraging the capabilities of 3-dimensional (3D) imaging, real-time visualization, and collaborative VR environments, surgeons gain enhanced anatomical insights and can develop predictive surgical strategies. Two clinical cases highlighted the effectiveness of this approach, showcasing the potential for personalized and intricate surgical planning. The setup provides an immersive, dynamic representation of real patient data, enabling collaboration among teams from separate locations. While VR offers enhanced interactive and visualization capabilities, preliminary evidence suggests it may support more refined preoperative strategies, potentially influence postoperative outcomes, and optimize resource management. However, its comparative advantage over traditional methods needs further empirical validation. Emphasizing the potential of XR, this exploration suggests its broad implications in thoracic surgery, especially when dealing with complex cases requiring multidisciplinary collaboration in the immersive virtual space, often referred to as the metaverse. This innovative approach necessitates further examination, marking a shift toward future surgical preparations. In this article, we sought to demonstrate the technique of an immersive real-time volume-rendered collaborative VR-planning tool using exemplary case studies in chest wall surgery.

Outcome Analysis of Treatment Modalities for Thoracic Sarcomas

BACKGROUND

Primary chest wall sarcomas are a rare and heterogeneous group of chest wall tumors that require multimodal oncologic and surgical therapy. The aim of this study was to review our experience regarding the surgical treatment of chest wall sarcomas, evaluating the short- and long-term results.

METHODS

In this retrospective single-center study, patients who underwent surgery for soft tissue and bone sarcoma of the chest wall between 1999 and 2018 were included. We analyzed the oncologic and surgical outcomes of chest wall resections and reconstructions, assessing overall and recurrence-free survival and the associated clinical factors.

RESULTS

In total, 44 patients underwent chest wall resection for primary chest wall sarcoma, of which 18 (41%) received surgery only, 10 (23%) received additional chemoradiotherapy, 7% (3) received surgery with chemotherapy, and 30% (13) received radiotherapy in addition to surgery. No perioperative mortality occurred. Five-year overall survival was 51.5% (CI 95%: 36.1-73.4%), and median overall survival was 1973 days (CI 95% 1461; -). As determined in the univariate analysis, the presence of metastasis upon admission and tumor grade were significantly associated with shorter survival (p = 0.037 and p < 0.01, respectively). Five-year recurrence-free survival was 71.5% (95% CI 57.6%; 88.7%). Tumor resection margins and metastatic disease upon diagnosis were significantly associated with recurrence-free survival (p < 0.01 and p < 0.01, respectively).

CONCLUSION

Surgical therapy is the cornerstone of the treatment of chest wall sarcomas and can be performed safely. Metastasis and high tumor grade have a negative influence on overall survival, while tumor margins and metastasis have a negative influence on local recurrence.

Analysis of the Chest Wall Reconstruction Methods after Malignant Tumor Resection

Background  The chest wall defects can be caused by various reasons. In the case of malignant tumor resection of the chest wall, it is essential to reconstruct the chest wall to cover the vital tissue and restore the pulmonary function with prevention of paradoxical motion. With our experience, we analyzed and evaluated the results and complications of the chest wall reconstructions followed by malignant tumor resection. Methods  From 2013 to 2022, we reviewed a medical record of patients who received chest reconstruction due to chest wall malignant tumor resection. The following data were retrieved: patients' demographic data, tumor type, type of operation, method of chest wall reconstruction of the soft and skeletal tissue and complications. Results  There were seven males and six female patients. The causes of reconstruction were 12 primary tumors and one metastatic carcinoma. The pathological types were seven sarcomas, three invasive breast carcinoma, and three squamous cell carcinomas. The skeletal reconstruction was performed in six patients. The series of the flap were eight pedicled latissimus dorsi (LD) myocutaneous flaps, two pectoralis major myocutaneous flap, two vertical rectus abdominis myocutaneous free flap, and one LD free flap. Among all the cases, only one staged reconstruction and successful reconstruction without flail chest. Most of the complications were atelectasis. Conclusion  In the case of accompanying multiple ribs and sternal defect, skeletal reconstruction would need skeletal reconstruction to prevent paradoxical chest wall motion. The flap for soft tissue defect be selected according to defect size and location of chest wall. With our experience, we recommend the reconstruction algorithm for chest wall defect due to malignant tumor resection.

The oncologic efficacy of extended thoracic resections

Locally invasive lung cancers pose unique challenges for management. Surgical resection of these tumors can pose high morbidity due to the invasion into surrounding structures, including the spine, chest wall, and great vessels. With advances in immunotherapy and chemoradiation, the role for radical resection of these malignancies and associated oncologic outcomes is evolving. This article reviews the current literature of extended thoracic resections with a focus on technical approach, functional outcomes, and oncologic efficacy.

Full-thickness chest wall resection for malignant chest wall tumors and postoperative problems

Background

Chest wall malignant tumor (including primary and metastatic lesions) is rare, representing less than 5% of all thoracic malignancies. Local control of chest wall malignancies requires wide resection with tumor-free margins. These requirements increase the risk of thoracic cavity failure and subsequent pulmonary failure. The restoration strategy for chest wall defects comprises chest wall reconstruction and soft-tissue coverage. Various reconstruction methods have been used, but both evidence and guidelines for chest wall reconstruction remain lacking. The purposes of this study were to collate our institutional experience, evaluate the outcomes of full-thickness chest wall resection and reconstruction for patients with chest wall malignant tumor, and identify problems in current practice for chest wall reconstruction with a focus on local control, complications, pulmonary function and scoliosis.

Methods

Participants comprised 30 patients with full-thickness chest wall malignant tumor who underwent chest wall resection and reconstruction between 1997 and 2021 in Mie University Hospital. All patients underwent chest wall resection of primary, recurrent or metastatic malignant tumors. A retrospective review was conducted for 32 operations.

Results

Recurrence was observed after 5 operations. Total 5-year recurrence-free survival (RFS) rate was 79.3%. Diameter ≥5 cm was significantly associated with poor RFS. The postoperative complication rate was 18.8%. Flail chest was observed with resection of ≥3 ribs in anterior and lateral resections or with sternum resection without polyethylene methylmethacrylate reconstruction. Postoperative EFV1.0% did not show any significant decrease. Postoperative %VC decreased significantly with resection of ≥4 ribs or an area of >70 cm2. Postoperative scoliosis was observed in 8 of 28 patients. Posterior resection was associated with a high prevalence of scoliosis (88.9%).

Conclusion

With chest wall reconstruction, risks of pulmonary impairment, flail chest and scoliosis were significantly increased. New strategies including indications for rigid reconstruction are needed to improve the outcomes of chest wall reconstruction.

Long-term outcomes after chest wall resection and repair with titanium bars and sternal plates

Objectives

En-bloc complete resection remains the treatment of choice for localized chest wall (CW) tumors. Titanium bars reconstruction demonstrated encouraging results with satisfactory early outcomes. However, long-term outcomes remain under-reported. The purpose of this study is to evaluate long-term outcomes after CW resection and repair with titanium devices.

Methods

From June 2012 to December 2018, we retrospectively reviewed all patients with CW tumors who underwent surgical resection and repair using titanium. Long-term outcomes were assessed.

Results

We identified 87 patients who underwent CW tumor resections and titanium reconstruction. Sixty-eight patients were included in the study (excluding benign tumors, Pancoast tumors, palliative surgeries, or clavicle reconstruction). There were 29 sarcomas, 20 isolated CW metastases, eight lung cancers, four breast cancers, three thymic malignancies, two sarcomatoid mesothelioma, and one desmoid tumor. Complete resection was achieved in 64 patients (94%), while R1 resection in four patients (6%). Resection involved one rib in two patients, two ribs in thirteen, three ribs in eighteen, four ribs in nine, five ribs in two, seven ribs in one, partial sternum in fifteen, and full sternum in sixteen patients. No patient experienced flail chest. The 1-year, 3-year, and 5-year overall survival rates and disease-free survivals were 82.3%, 61.4%,57.3%, and 67.6%,57.3%,52.6%, respectively. Surgical site infection occurred in 18% (n = 12) of cases. Eleven of twelve patients had an early infection (<1 year), which required material removal in six patients. Asymptomatic connector unsealing occurred in 6% (n = 4), with only one re-intervention. Titanium allergy has never been reported. Chronic chest pain (lasting more than 3 months after surgery, with daily use of pain killer) was reported in 24% of patients.

Conclusion

CW resections with titanium reconstruction are associated with long-term survivors. Titanium devices were safe, reliable, and achieved satisfactory oncological results with low morbidity and implant-related complication rates.

Management of Early-Stage Resected Non-Small Cell Lung Cancer: Consensus Statement of the Lung cancer Consortium

BACKGROUND

Management of early-stage non-small cell lung cancer (ES-NSCLC) has evolved over the last few years especially in terms of work-up and the use of systemic therapy. This consensus statement was developed to present updated guidelines for the management of this disease.

METHODS

Multidisciplinary team (MDT) of lung cancer experts convened to discuss a set of pertinent questions with importance relevance to the management of ES-NSCLC. ES-NSCLC includes stages I, II and resected stage III. The experts included consultants in chest imaging, thoracic surgery, radiation oncology, and medical oncology. Questions were discussed in virtual meetings and then a written manuscript with supporting evidence was drafted, reviewed, and approved by the team members.

RESULTS

The Consensus Statement included 9 questions addressing work-up and management of ES-NSCLC. Background information and literature review were presented for each question followed by specific recommendations to address the questions by oncology providers. The Statement was endorsed by various oncology societies in the Gulf region.

CONCLUSION

The Consensus Statement serves as a guide for thoracic MDT members in the management of ES-NSCLC. Adaptation of these to the local setting is dictated usually by available resources and expertise, however, all efforts should be excreted to provide the optimal care to all patients whenever possible.

Expert consensus on resection of chest wall tumors and chest wall reconstruction

Chest wall tumors are a relatively uncommon disease in clinical practice. Most of the published studies about chest wall tumors are usually single-center retrospective studies, involving few patients. Therefore, evidences regarding clinical conclusions about chest wall tumors are lacking, and some controversial issues have still to be agreed upon. In January 2019, 73 experts in thoracic surgery, plastic surgery, science, and engineering jointly released the Chinese Expert Consensus on Chest Wall Tumor Resection and Chest Wall Reconstruction (2018 edition). After that, numerous experts put forward new perspectives on some academic issues in this version of the consensus, pointing out the necessity to further discuss the points of contention. Thus, we conducted a survey through the administration of a questionnaire among 85 experts in the world. Consensus has been reached on some major points as follows. (I) Wide excision should be performed for desmoid tumor (DT) of chest wall. After excluding the distant metastasis by multi-disciplinary team, solitary sternal plasmacytoma can be treated with extensive resection and adjuvant radiotherapy. (II) Wide excision with above 2 cm margin distance should be attempted to obtain R0 resection margin for chest wall tumor unless the tumor involves vital organs or structures, including the great vessels, heart, trachea, joints, and spine. (III) For patients with chest wall tumors undergoing unplanned excision (UE) for the first time, it is necessary to carry out wide excision as soon as possible within 1–3 months following the previous surgery. (IV) Current Tumor Node Metastasis staging criteria (American Joint Committee on Cancer) of bone tumor and soft tissue sarcoma are not suitable for chest wall sarcomas. (V) It is necessary to use rigid implants for chest wall reconstruction once the maximum diameter of the chest wall defect exceeds 5 cm in adults and adolescents. (VI) For non-small cell lung cancer (NSCLC) invading the chest wall, wide excision with neoadjuvant and/or adjuvant therapy are recommended for patients with stage T_3-4N_0-1M₀. As clear guidelines are lacking, these consensus statements on controversial issues on chest wall tumors and resection could possibly serve as further guidance in clinical practice during the upcoming years.

[Reconstruction of post-resection chest wall defects in surgical treatment of invasive non-small cell lung cancer]

OBJECTIVE

To present the results of reconstruction of post-resection chest wall defects with nickel-titanium (TiNi) implants in patients with invasive NSCLC and to analyze the features of perioperative management.

MATERIAL AND METHODS

We enrolled 9 patients with NSCLC involving the ribs after lobectomy or pneumonectomy with chest wall reconstruction. Defects were closed used TiNi mesh and rib prostheses. We selected the shape and dimensions of artificial ribs individually before surgery according to CT data and 3D models of reinforcing elements.

RESULTS

There were male smokers aged 64.6±4.6 years among patients (range 58-73). T3N0M0 was diagnosed in 6 patients, T3N1M0 - 2, T3N2M0 - 1. Squamous cell carcinoma was verified in 4 (44.4%) patients, adenocarcinoma - in 5 (55.6%) patients. All patients had comorbidities. Mean Charlson's comorbidity index was 6.56±4.6. Dimension of chest wall defect varied from 78 to 100 cm². Postoperative period was uneventful without signs of respiratory failure. There were no lethal outcomes. Complications occurred in 33.3% of patients (prolonged air discharge through the drains, pleuritis and atrial fibrillation).

CONCLUSION

Surgical treatment of NSCLC spreading to the chest wall is a complex task requiring further improvement. Bioadaptive TiNi implants are a promising reinforcing material that allows successful reconstruction of post-resection chest wall defects with good anatomical, functional and cosmetic results. «Sandwich» technology is advisable for extensive defects. This approach includes 2 layers of knitted mesh and rib prostheses between these layers.

Complications of Chest Wall Resection in Conjunction with Pulmonary Resection

Techniques for chest wall resection and reconstruction have evolved over the years. Chest wall resection in conjunction with pulmonary resection has several complications, including pulmonary and infectious. Risk factors for complications are related to the size of the defect, number of ribs resected, and the addition of a pulmonary resection. Material used for reconstruction does not impact the overall complication rate.

Ventilatory failure in a cat following radical chest wall resection for feline injection site sarcoma

Case summary

A 12-year-old spayed female domestic shorthair cat presented for chest wall resection and radiation therapy following incomplete surgical excision of a feline injection site sarcoma. A CT scan for surgical planning was performed under general anesthesia and showed extensive tumor infiltration of the soft tissues of the right thorax. The cat recovered uneventfully from this anesthetic event. Nineteen days later, the patient was reanesthetized for forequarter amputation plus radical chest wall resection, including ribs 3–8 and all associated soft tissues plus adjacent spinous processes. Postoperatively, the patient developed acute respiratory failure secondary to hypoventilation. The cat was mechanically ventilated for 12 h prior to being successfully weaned from the ventilator. However, the improvement was transient and mechanical ventilation was reinitiated 6 h later owing to respiratory fatigue. On the second day, the cat developed unexplained central nervous system signs and was euthanized.

Relevance and novel information

To our knowledge, this is the first case report to describe ventilatory failure secondary to radical chest wall resection in a cat. Hypoventilation with subsequent need for mechanical ventilation is a potential complication that should be considered during preoperative planning in patients requiring extensive chest wall resections.

A South American Experience With Postoperative Complications Following Chest Wall Reconstruction for Neoplasms

BACKGROUND

This study aims to report postoperative complications of chest wall reconstructions due to resections of primary or secondary neoplasms in a South American cancer institution and their association with prosthesis reconstruction.

MATERIALS AND METHODS

We retrospectively reviewed clinical records of patients with primary or secondary chest wall neoplasms who underwent resection and reconstruction between November 2008 and October 2018 at the Instituto Nacional de Cancerología, Bogota, Colombia.

RESULTS

A total of 77 patients were analyzed, 50 were women (64.9%), and the median age was 45.8 years. There were 22(28.6%) sternal resections and 55(71.4%) costal resections. Prosthetic material was used in 14(18.2%) sternal and 37(48.1%) costal reconstructions. There were 26(33.7%) early postoperative complications and 16(20.8%) reinterventions. Infections were observed in 12(15.6%) patients and 4(5.2%) patients developed respiratory complications. 33.3% of all the early infections were presented in patients with methyl methacrylate (MMA) reconstructions and the same percentage in those with titanium plates. There were six (7.8%) late complications and five were related to prosthetic material extrusion, all required prosthetic material removal. The mean overall survival was 77,3 months (SD = 8 months), and 1-year and 5-year overall survival was 85% and 61%, respectively.

CONCLUSIONS

Infections were the more frequent postoperative complications in chest wall reconstructions. The use of either MMA or titanium plates was not related to early postoperative complications, although MMA reconstructions developed higher late complications and required prosthetic material removal.

Chest wall resection and reconstruction for primary and metastatic sarcomas: an 11-year retrospective cohort study

OBJECTIVES

Chest wall sarcomas are rare, aggressive malignancies, the management of which mainly revolves around surgery. Radical tumour excision with free margins represents the optimal treatment for loco-regional clinically resectable disease. The objective of this study was to review our 11-year experience with chest wall resection for primary and metastatic sarcomas, focusing on surgical techniques and strategies for reconstruction.

METHODS

Retrospective analysis of a comprehensive database of patients who underwent chest wall resection for primary or secondary sarcoma at our Institute from January 2009 to December 2019.

RESULTS

Out of 26 patients, 21 (81%) suffered from primary chest wall sarcoma, while 5 (19%) had recurring disease. The median number of resected ribs was 3. Sternal resection was performed in 6 cases (23%). Prosthetic thoracic reconstruction was deemed necessary in 24 cases (92%). Tumour recurrence was observed in 15 patients (58%). The median overall survival was 73.6 months. Primary and secondary tumours showed comparable survival (P = 0.49). At univariate analysis, disease recurrence and infiltrated margins on pathological specimens were associated with poorer survival (P = 0.014 and 0.022, respectively). In patients with primary sarcoma, the median progression-free survival was 13.3 months. Associated visceral resections were significantly associated to postoperative complications (P = 0.02).

CONCLUSIONS

Chest wall resection followed by prosthetic reconstruction is feasible in carefully selected patients and should be performed by experienced surgeons with the aim of achieving free resection margins, resulting in improved long-term outcomes.

Reconstrucción de pared torácica con material de fijación en pacientes con lesiones tumorales. Serie de casos

Introducción. El manejo quirúrgico de las lesiones de la pared costal con resección y reconstrucción con material protésico ha venido en aumento, debido al avance en las técnicas quirúrgicas y en la experiencia del cirujano, así como en la innovación y las características de los materiales protésicos, que permiten realizar resecciones amplias de la pared garantizando una mayor estabilidad esquelética, una menor alteración de la mecánica respiratoria y mejores los resultados estéticos. Métodos. Se presenta la experiencia en la clínica CardioVID, Medellín, Colombia, entre los años 2015 y 2019, mediante una revisión retrospectiva de 8 casos sometidos a resección de lesiones benignas de la pared torácica y reconstrucción con material protésico. Resultados. Se encontró una adecuada evolución de los pacientes, con un buen resultado estético y funcional, con adecuado control de la enfermedad, sin reportes de complicaciones ni de recidiva en el seguimiento. Discusión. Una técnica adecuada permite la reconstrucción de estos defectos con complicaciones mínimas y bajas tasas de extracción de prótesis, finalizando con excelentes resultados funcionales y cosméticos. Con nuestra experiencia podemos concluir que la elección adecuada de los pacientes candidatos a manejo quirúrgico, una buena técnica quirúrgica y un personal con experiencia son cruciales para lograr buenos resultados en cuanto a función pulmonar y estética. Además de lograr una sobrevida bajo los parámetros establecidos posterior a lograr una resección R0.

Dynamic titanium prosthesis based on 3D-printed replica for chest wall resection and reconstruction

3D-printing technologies can assist the surgical planning and prosthesis engineering for the management of extended chest wall resection. Different types of prosthesis have been utilized over time, but some concerns remain about their impact on the respiratory function. Here we present a new kind of 3D-printed titanium prosthesis designed to be either strong and flexible. The prosthesis was created on a 1:1 3D-printed anatomic replica of the chest, used to delineate surgical margins and to define the reconstructive requirements.

The progression of non-small cell lung cancer from diagnosis to surgery

OBJECTIVES

The IASLC 8th TNM Staging 8th differentiates between a greater number of T-stages. Resection remains the mainstay of curative treatment with often significant waiting times. This study aims to quantify the T-stage progression and growth of non-small cell lung cancers (NSCLCs) between radiological diagnosis and resection, and its impact on disease recurrence and survival.

MATERIALS AND METHODS

A retrospective analysis of NSCLC resections (289) in a high-volume centre between July 01, 2015 and June 30, 2016. Baseline demographics, time from diagnostic CT to surgery, tumour size (cm) and T-stage from diagnostic CT, PET-CT and post-operative histopathology reports were recorded. The primary outcome was increase in T-stage from diagnostic CT to resection. Kaplan-Meier and cox proportional hazard analyses were used to determine recurrence-free survival and survival.

RESULTS

Median increase in tumour size between diagnosis and resection was 0.3 cm (p < 0.0001). Median percentage increase in size was 13%. T-stage increased in 133 (46.0%) patients. N stage increased in 51 patients (17.7%), 32 (11.1%) to N2 disease. Mean survival in those upstaged was 43.5 (39.9-47.1) months versus 53.4 (50.0-56.8) months in patients not upstaged (p = 0.025). Mean recurrence-free survival in those upstaged was 39.1 (35.2-43.0) months versus 47.7 (43.9-51.4) months in patients not upstaged (p = 0.117). Upstaging was independently associated with inferior survival (HR 1.674, p = 0.006) and inferior recurrence-free survival (HR 1.423, p = 0.038).

CONCLUSIONS

A significant number of patients are upstaged between diagnostic and resection resulting in reduced survival and recurrence-free survival. A change in management pathways are required to improve outcomes in NSCLC.

Surgical Management of Chest Wall Sarcoma

Chest wall sarcoma is a rare and challenging pathology best managed by a multidisciplinary team experienced in the management of a multiple different pathologies. Knowledge of the management sequence is important for each sarcoma type in order to provide optimal treatment. Surgical resection of chest wall resections remains the primary treatment of disease isolated to the chest wall. Optimal margins of resection and reconstruction techniques have yet to be determined.

Chest wall resection and reconstruction: a case series of 20 patients in Hospital Kuala Lumpur, Malaysia

Chest wall resection is defined as partial or full-thickness removal of the chest wall. Significant morbidity has been recorded, with documented respiratory failure as high as 27%. Medical records of all patients who had undergone chest wall resection and reconstruction were reviewed. Patients' demographics, length of surgery, reconstruction method, size of tumor and chest wall defect, histopathological result, complications, duration of post-operative antibiotics, and hospital stay were assessed. From 1 April 2017 to 30 April 2019, a total of 20 patients underwent chest wall reconstructive surgery. The median age was 57 years, with 12 females and 8 males. Fourteen patients (70%) had malignant disease and 6 patients (30%) had benign disease. Nine patients underwent rigid reconstruction (titanium mesh for sternum and titanium plates for ribs), 6 patients had non-rigid reconstruction (with polypropylene or composite mesh), and 5 patients had primary closure. Nine patients (45%) required closure with myocutaneous flap. Complications were noted in 70% of patients. Patients who underwent primary closure had minor complications. In total, 66.7% of patients who had closure with either fasciocutaneous or myocutaneous flaps had threatened flap necrosis. Two patients developed pneumonia and 3 patients (15%) had respiratory failure requiring tracheostomy and prolonged ventilation. There was 1 mortality (5%) in this series. In conclusion, chest wall resections involving large defects require prudent clinical judgment and multidisciplinary assessments in determining the choice of chest wall reconstruction to improve outcomes.

Sternal Reconstruction With Non-Rigid Biologic Mesh Overlay

Adequate reconstruction of sternal defects is critical for function and quality of life. Reconstructive techniques have historically included a rigid component, most often a synthetic prosthesis, but these are associated with complications related to presence of a foreign body and the loss of native bone's flexibility and growth capability. Recently, biologic mesh has been used as an alternative for reconstructions of the chest wall, but not the sternum. We present the case of a large sternal defect after chondrosarcoma resection reconstructed with porcine acellular dermal matrix and soft tissue flaps, without rigid component, and with excellent patient outcome through 2 years of follow-up.

Combined bipedicled latissimus dorsi and groin flap for anterior chest wall reconstruction

We provide a case report of reconstruction of a massive chest wall defect after recurrent phyllodes tumour resections. The reconstruction used a bipedicled groin and latissimus dorsi flap, with composite rib autologous reconstruction. The patient successfully recovered from the operation. Our case illustrates the applicability of this flap in the armamentarium of anterior chest wall reconstructive options.

Surgical complication and postoperative pulmonary function in patients undergoing tumor surgery with thoracic wall resection

Postoperative complications of thoracic wall resection include respiratory complications, skin necrosis and infection. The aim of the present study was to examine postoperative complications in patients who required combined thoracic wall resection during the surgical removal of a tumor. The present study included 68 patients; there were 50 patients with lung tumors and 18 patients with musculoskeletal tumors. The clinical factors associated with complications were compared between the two groups. Preoperative and postoperative pulmonary function tests were performed to examine the residual pulmonary function in 16 patients. Thoracic cage reconstruction was performed in 46 patients. Postoperative complications occurred in 30 (44.1%) patients, and one patient died from postoperative pneumonitis. Compared with the pulmonary function preoperative test results, the postoperative results revealed a decrease in the mean vital capacity percentage and an increase in the mean forced expiratory volume within 1 sec as a percent of the forced vital capacity. In patients with lung tumors, pneumonectomy can result in an increased rate of complications following thoracic wall resection. Residual pulmonary function is affected by impaired thoracic cage expansion and removal of the lung. However, the results of the present study demonstrated that these complications can be somewhat stabilized by thoracic wall reconstruction.