Reconstruction of the chestwall and thorax

Rotational Latissimus Dorsi Flap for Lateral Repair of Thoracic Cerebrospinal Fluid-Pleural Fistula: Case Report

BACKGROUND AND IMPORTANCE

Giant calcified thoracic discs are challenging surgical pathologies that tend to be more centrally located and calcified. This complicates the removal process and potentiates the formation of dural defects, resulting in persistent cerebrospinal fluid (CSF) leaks and the formation of pleural fistulas. The typical intervention for this is CSF diversion through external ventricular drain or lumbar drain placement, followed by direct repair. However, if all these measures fail, subsequent salvage techniques have not been described previously.

CLINICAL PRESENTATION

A 45-year-old man with past medical history of obesity (body mass index: 58), hypertension, and type 2 diabetes mellitus presented to the emergency department with thoracic myelopathy symptoms. MR demonstrated a giant calcified thoracic discs at T7-T8 with severe spinal cord compression. Intraoperatively, the disc was found fused to the dura and removal caused a large ventrolateral dural dehiscence. CSF diversion and direct repair were attempted unsuccessfully, so a salvage procedure with a rotational pedicled latissimus dorsi flap was performed. The patient's latissimus dorsi was exposed and resected from attachments, maintaining thoracodorsal blood supply, while removing thoracodorsal innervation. The flap was then rotated into the previous corpectomy site. The dural defect was repaired with a sealant patch, overlayed with a parietal pleural flap and the latissimus dorsi flap. By the patient's last follow-up, he had full functional independence at home.

CONCLUSION

We present a surgical case highlighting the challenges of managing postoperative CSF-pleural fistula occurring after giant calcified thoracic disc removal and the successful use of a novel rotational latissimus dorsi flap to definitively repair the fistula after unsuccessful primary interventions.

The use of flaps for management of deep sternal wound complications: A systematic review and meta-analysis

BACKGROUND

Many options are available for reconstruction after deep sternal wound infections. However, these options have not been critically appraised. The aim of this systematic review and meta-analysis was to assess the existing evidence on sternal rewiring versus flap reconstruction and pectoralis major muscle flaps (PMFs) versus greater omental flaps (GOFs).

METHODS

A systematic review and meta-analysis was performed. CENTRAL, MEDLINE and EMBASE were searched. Outcomes of interest included mortality, treatment failure and length of hospital stay (LOS).

RESULTS

Fourteen studies were included. Nine studies compared flaps to rewiring, reporting on 618 patients. Patients treated with flaps had significantly lower mortality compared with patient treated with rewiring (Risk ratio [RR] 0.42, 95% confidence interval [CI]: 0.23-0.77, P < 0.01). Flap patients had significantly lower treatment failure compared with those who were treated with rewiring (RR 0.22, 95% CI: 0.14-0.37, P < 0.01). No statistically significant differences were observed in LOS between patients treated with flaps compared those treated with rewiring (standard mean difference -0.84, 95% CI: -1.91 to 0.24, P = 0.13). Five studies compared PMF with GOF, reporting on 599 patients. No statistically significant differences were found in mortality (RR 0.63, 95% CI: 0.24-1.68, P = 0.36), LOS (standard mean difference -14.52, 95% CI: -42.00 to 12.96, P = 0.30) or treatment failure (RR 1.37, 95% CI: 0.31-6.07, P = 0.68) in patients treated with PMF compared with patients treated with GOF.

CONCLUSIONS

Flap-based reconstruction demonstrated improved mortality and treatment outcomes compared to sternal rewiring. However, no significant differences were observed in outcomes between the PMF- and GOF-based reconstructions.

New perspectives in prosthetic reconstruction in chest wall resection

The extension of chest wall resection for the treatment of primary and secondary tumours is still widely debated. The reconstructive strategy after extensive surgery is challenging as well as chest wall demolition itself. Reconstructive surgery aims to avoid respiratory failure and to guarantee intra-thoracic organs protection. The purpose of this review is to analyse the literature on this issue focusing on the planning strategy for chest wall reconstruction. This is a narrative review, reporting data from the most interesting studies on chest wall demolition and reconstruction. Representative surgical series on chest wall thoracic surgery were selected and described. We focused to identify the best reconstructive strategies analyzing employed materials, techniques of reconstruction, morbidity and mortality. Nowadays the new "bio-mimetic" materials in "rigid" and "non-rigid" chest wall systems reconstructive represent new horizons for the treatment of challenging thoracic diseases. Further prospective studies are warranted to identify new materials enhancing thoracic function after major thoracic excisions.

Vertical Rectus Abdominis Myocutaneous Flap for Reconstruction of Forequarter Amputation Defect after Shoulder Soft Tissue Sarcoma Resection: Technical Consideration

Forequarter amputations in advanced local malignancy or trauma cases often leave a large defect that is challenging to reconstruct. Options for defect closure are varied. A vertical rectus abdominis myocutaneous (VRAM) flap could be an alternative to close a significantly large defect, which is relatively easier than the more technically demanding free flap. This case presents a 64-year-old man with a soft tissue sarcoma in the left shoulder that was treated by forequarter amputation and subsequent defect closure using a VRAM flap. The VRAM flap was initially used to reconstruct the chest and abdominal walls. There have been no reported uses for the shoulder defect. The repair site defect was viable even with a less aesthetic donor site, and all of the defects were closed without any signs of infection. The VRAM flap is a good option for a large defect closure at the shoulder region, particularly after forequarter amputation.

Reconstruction of a massive chest wall defect using a free anterolateral-lower medial thigh flaps: a case report

Critical defects of the chest wall require robust soft tissue coverage to protect the thoracic viscera. We define massive chest wall defects as larger than two-thirds of the chest wall. For such defects, classic flaps like the omentum, latissimus dorsi and anterolateral thigh flaps are usually insufficient. In our patient, a bilateral total mastectomy for locally advanced breast cancer resulted in a massive chest wall defect (40 by 30 cm). Soft tissue coverage was achieved with a combined anterolateral-lower medial thigh flaps. Revascularization of the anterolateral thigh and lower medial thigh components was via the internal mammary and thoracoacromial vessels, respectively. Post-operative recovery was uneventful and the patient received adjuvant chemoradiotherapy in a timely manner. The total follow up was 24-months. We illustrate the novel use of the lower medial thigh territory in extending the size of the anterolateral thigh flap to reconstruct massive chest wall defects.

Defect Coverage after Forequarter Amputation—A Systematic Review Assessing Different Surgical Approaches

Autologous fillet flaps are a common reconstructive option for large defects after forequarter amputation (FQA) due to advanced local malignancy or trauma. The inclusion of osseous structures into these has several advantages. This article therefore systematically reviews reconstructive options after FQA, using osteomusculocutaneous fillet flaps, with emphasis on personalized surgical technique and outcome. Additionally, we report on a case with an alternative surgical technique, which included targeted muscle reinnervation (TMR) of the flap. Our literature search was conducted in the PubMed and Cochrane databases. Studies that were identified were thoroughly scrutinized with regard to relevance, resulting in the inclusion of four studies (10 cases). FQA was predominantly a consequence of local malignancy. For vascular supply, the brachial artery was predominantly anastomosed to the subclavian artery and the brachial or cephalic vein to the subclavian or external jugular vein. Furthermore, we report on a case of a large osteosarcoma of the humerus. Extended FQA required the use of the forearm for defect coverage and shoulder contour reconstruction. Moreover, we performed TMR. Follow-up showed a satisfactory result and no phantom limb pain. In case of the need for free flap reconstruction after FQA, this review demonstrates the safety and advantage of osteomusculocutaneous fillet flaps. If the inclusion of the elbow joint into the flap is not possible, we recommend the use of the forearm, as described. Additionally, we advocate for the additional implementation of TMR, as it can be performed quickly and is likely to reduce phantom limb and neuroma pain.

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.

Porous Ceramic Sternal Prosthesis Implantation in a 13-Year-Old Patient Presenting with Metastatic Ewing's Sarcoma

Ewing's sarcoma is the second most frequent primary malignant bone tumor in adolescents and young adults. Locations on the thoracic wall represent up to 20% of primary and secondary locations. We present the case of a 13-year-old patient treated with the use of a radiolucency porous bioceramic prosthesis as a sternal replacement for a wide tumor resection in an oncologic context. Focal radiation therapy was not possible due to the high risk of severe myocardial injuries caused by the sternal location of the tumor. The sternum CERAMIL® (I.CERAM, Limoges, France), in porous alumina (Al ₂ O ₃ ) has already been implanted into adults in sternal replacement during its invasion by a tumor or its infectious destruction. There were no complication concerning the surgery. The last follow-up at 2 years postoperatively reveals a satisfactory clinical situation with any functional thoracic complaint and nor any functional respiratory symptoms. The porous alumina sternal prosthesis offers a reliable alternative for sternal replacement indications for children in an oncologic context.

Utilizing NPWT improving skin graft taking in reconstruction for extended breast skin defects following mastectomy

NPWT fulfill graft taking in complex breast wounds.

Bilateral Anterolateral Thigh Myocutaneous Flaps for Giant Complex Chest Wall Reconstruction

BACKGROUND

Extensive reconstruction of complex full-thickness chest wall oncological defects is challenging. Bilateral free anterolateral thigh (ALT) myocutaneous flap transfer for the complex reconstruction of a large area of the chest wall is discussed.

MATERIALS AND METHODS

We reported a single unit's experience in 1-staged multilayered reconstruction of large full-thickness chest wall defects in 22 patients (16 primary chest wall tumor cases, 5 locally advanced breast cancer cases, and 1 osteoradionecrosis case) treated between 2011 and 2018. Bilateral ALT myocutaneous flaps together with traditional cement implant or unmovable/movable joint conformable titanium struts were used for chest wall reconstruction. The anatomical characteristics of pedicle origin and pattern of the venae comitantes of the ALT myocutaneous flap, recipient vessels, and anastomosis patterns were described.

RESULTS

Bilateral ALT myocutaneous flaps were used for soft tissue reconstruction in 22 cases. Different methods of flap harvesting and vascular anastomosis were selected as needed. No vein grafts or arteriovenous loops were required. We observed 3 vascular patterns of the flap pedicle, including 1 oblique branch and descending branch (59.1%, n = 26), 2 single descending branch (9.1%, n = 4), and 3 double branches of the descending branch (31.8%, n = 14). The flap was harvested pedicled with solely the oblique branch in 7 (15.9%) cases, solely the descending branch in 28 (63.6%) cases to minimize the donor site morbidity, and pedicled with the oblique and descending branch in 9 (20.5%) cases to achieve multiple vascular anastomosis choices. Stable skeletal reconstructions were achieved using traditional cement implant (13.6%, n = 3) or conformable titanium struts (86.4%, n = 19), with good fixation strength. Complication risk was low. An algorithmic approach to management is presented and recommended.

CONCLUSION

Various forms of bilateral ALT myocutaneous flap transfer with different skeletal reconstruction presents as a reliable treatment for patients with large full-thickness chest wall defects. Anatomical variations in the pedicle and pattern of venae comitantes of the ALT myocutaneous flap are reported. In some challenging cases, finding the vessels in the recipient area is difficult. The clinical significance of each vascular pattern is delineated, and surgical technical considerations are discussed on the basis of the recipient area requirements and types of a flap's vascular anatomy.

A rare case of chest wall reconstruction in a child

INTRODUCTION

Ewing sarcoma/primitive neuroectodermal tumour (ES/PNET) is the most common malignant tumour of the chest wall in children and young adults. Chest wall defect left after complete resection of the involved ribs and chest wall defect requiring reconstruction, is surgically challenging for cosmetic as well as for functional purposes especially in growing children.

IMPORTANCE

A rare but feasible and simple technique for a case of chest wall tumour reconstruction has been described here with its successful outcome with available composite muscular vascularised flap.

Aesthetic Contouring of the Chest wall with Rib Resection

BACKGROUND

In past decades, several invasive and noninvasive aesthetic procedures have been sought as a way to improve body contouring, and one may resort to uncertified and potentially dangerous procedures to achieve that goal. An example of this practice would be the resection of ribs to reduce the waist for aesthetic reasons. The objective was to check scientific evidence on the effectiveness and safety of removal of floating ribs for aesthetic purposes.

METHODS

A systematic review of the literature was carried out in EMBASE/Elsevier, Cochrane, Scopus, Medline, PubMed, BVS, SciELO, OneFile, and Lilacs, throughout the period until June 2020, using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines.

RESULTS

Fifty-six articles were found in all databases. After applying the inclusion criteria, by reading the title and abstract of the studies found, only two articles were definitively included. One addressed the possibility of removing the 7th and 8th ribs for improving body contouring in patients with an exaggerated anterior projection of the chest wall, without showing cases or surgical techniques. The other demonstrated procedures of body contouring in transgender by the removal of the 11th and 12th ribs in five of the 22 patients studied, just providing a brief description of the surgical technique used, without details.

CONCLUSIONS

Despite the relevance of the theme and its popularity, there is not enough scientific evidence to support the practice, effectiveness and safety of the resection of ribs for aesthetic purposes.

LEVEL OF EVIDENCE III

This journal requires that authors assign a level of evidence to each article. For a full description of these Evidence-Based Medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266 .

Extensive Microsurgical Reconstruction of Chest Wall Defects for Locally Advanced Breast Cancer: A 10-Year Single-Unit Experience

BACKGROUND

Despite improvements in the early detection of breast cancer, locally advanced breast cancer (LABC) involving the chest wall exists in developing countries. Surgical resection remains a controversial management option. This study aims to demonstrate the value of chest wall reconstructive techniques for large LABC defects and report long-term outcomes.

MATERIALS AND METHODS

We report a 10-years single-unit experience in the reconstruction of large defects (>300 cm). From 2007 to 2017, all LABC cases managed with large surgical resection with immediate microsurgical chest wall reconstruction were included in this study. Herein, we present the demographics, comorbidities, clinicopathological LABC characteristics, surgical techniques (free flap choice, recipient vessels), and outcomes (survival, complication, cosmesis, and patient satisfaction).

RESULTS

Of the 104 LABC cases, free deep inferior epigastric artery perforator flap was performed in 41 (39.4%) cases, free anterolateral thigh flap in 5 (4.8%), free deep inferior epigastric artery perforator combined with pedicled transverse rectus abdominis myocutaneous (TRAM) flap in 23 (22.1%), free muscle-sparing transverse rectus abdominis muscle flap in 30 (28.9%), and free transverse upper gracilis flap in 5 (4.8%). Complications were low. Over a median follow-up of 49.5 months, the 3-year local recurrence rate and distant metastasis-free survival were 13.9% and 84.9%, respectively. In addition, the 3-year disease-free survival and overall survival were 84.2% and 92.0%, respectively. The rate of excellent and good ratings by the esthetic assessment panel was 83.0%, and the patient satisfaction rate was 90.0%.

CONCLUSION

Wide resection and microvascular free tissue transfer is oncologically safe in LABC with huge tumors and provides versatile solutions for the reconstruction of extensive chest wall defects. With favorable long-term survival and cosmetic outcomes, surgical resection of LABC combined with flap reconstruction may offer a practical approach in difficult and complicated cases.

IMPLICATIONS FOR PRACTICE

In this retrospective review, it was demonstrated that wide resection followed by distinct chest wall reconstructive free flaps transfer is oncologically safe in LABC with huge tumors and provides useful solutions for the reconstruction of extensive chest wall defects.

A reconstructive algorithm of oncologic defects of the upper trunk and shoulder girdle: Factors predicting complexity and outcomes

BACKGROUND

Locally advanced malignancies of the upper torso and shoulder girdle (UT-SG) necessitate extensive resection and complex reconstruction. Due to the infrequent nature of these operations, a global reconstructive algorithm has not been defined.

METHODS

A retrospective review of all patients who received reconstructive surgery following malignant tumor extirpation in the UT-SG from 2008 to 2018 at the University of Texas MD Anderson Cancer Center. Factors predicting the need for flap reconstruction and risk for postoperative complications were evaluated.

RESULTS

In total, 252 procedures met inclusion criteria. The most common pathology was sarcoma (76%) and 52% were primary tumors. The median defect area was 112 cm² (range 4-1350 cm² ). Reconstructive techniques included pedicled flaps (46%), local tissue rearrangement (38%), and free flaps (16%). On univariate analysis, the probability of needing a free flap increased 39% when the defect size increased by 100 cm² . The strongest independent predictors of requiring a free flap were major vessel exposure (adjusted odds ratio [OR] = 4.92, 95% confidence interval [CI], 1.36-17.84, P = .015) and major peripheral nerve exposure (adjusted OR = 3.2, 95% CI, 1.1-9.2, P = .031).

CONCLUSION

Despite the aggressive nature of their malignancies, patients requiring an UT-SG resection demonstrate high survival rates and therefore demand a durable reconstruction. Exposed critical structures and defect size were predictive of free tissue transfer.

Soft-Tissue Reconstruction after Composite Vertebrectomy and Chest Wall Resection for Spinal Tumors

BACKGROUND

Oncologic resections involving both the spine and chest wall commonly require immediate soft-tissue reconstruction. The authors hypothesized that reconstructions of composite resections involving both the thoracic spine and chest wall would have a higher complication rate than reconstructions for resections limited to the thoracic spine alone.

METHODS

The authors performed a retrospective analysis of all consecutive patients who underwent a thoracic vertebrectomy and soft-tissue reconstruction from 2002 to 2017. Patients were divided into two groups: those whose defect was limited to the thoracic spine and those who required a composite resection involving the chest wall.

RESULTS

One hundred patients were included. Composite resection patients had larger defects, as indicated by a greater incidence of multilevel vertebrectomies (70.2 percent versus 17 percent; p = 0.001). Thoracic spine patients were older (58.2 ± 10.4 years versus 48.6 ± 13.9 years; p < 0.001) and had a greater incidence of metastatic disease (88.7 percent versus 38.3 percent; p = 0.001). Univariate and multivariate logistic regression analyses demonstrated that composite resections were not significantly associated with a higher rate of surgical, medical, or overall complications. Multivariate logistic regression analysis of composite resection subgroup demonstrated that flap separation of the spinal cord from the intrapleural space was protective against complications (OR, 0.22; 95 percent CI, 0.05 to 0.81; p = 0.03).

CONCLUSIONS

Despite the large defect size in composite resection patients, there was no increase in complications compared to thoracic spine patients. In composite resection patients, separating the exposed spinal cord from the intrapleural space with well-vascularized soft tissue was protective against complications.

CLINICAL QUESTION/LEVEL OF EVIDENCE

Risk, II.

Three-Dimensional-Printed Model as a Template for Chest Wall Reconstruction

BACKGROUND

To our knowledge, this is the first time that a three-dimensional (3D)-printed model was used as an intraoperative template to recreate the resected portion of the lateral chest wall after resection of a large chest-wall tumour.

METHODS

Fabrication of 3D-printed models requires collaboration among a surgeon, radiologist, segmenter, and 3D printing centre. Three-dimensional models are created with computed tomographic and magnetic resonance data. These models can provide an accurate guide for surgical resection and can be used intraoperatively as a template to construct tailored prostheses.

RESULTS

We achieved complete resection of the chest wall defect, restored skeletal function and physiologic chest excursion, and achieved the best cosmetic appearance in all cases.

CONCLUSIONS

Small- to medium-sized chest wall defects can be repaired with musculocutaneous flaps with or without prosthetic materials, but more complicated defects require increasingly sophisticated reconstructive techniques and technologies. An advanced technique is the use of a 3D-printed model of the chest wall as an intraoperative template.

Chest Wall Reconstruction with a Bilayered Wound Matrix Mesh Following Toilet Mastectomy

Patient: Female, 43

Final Diagnosis: Metastatic breast cancer

Symptoms: Breast lesion, breast tumor

Medication: —

Clinical Procedure: Chest wall reconstruction with a bilayered wound matrix mesh following toilet mastectomy

Specialty: Surgery

Surgical configurations of the pectoralis major flap for reconstruction of sternoclavicular defects: a systematic review and new classification of described techniques

OBJECTIVES

The pectoralis major flap has been considered the workhorse flap for chest and sternoclavicular defect reconstruction. There have been many configurations of the pectoralis major flap reported in the literature for use in reconstruction sternoclavicular defects either involving bone, soft tissue elements, or both. This study reviews the different configurations of the pectoralis major flap for sternoclavicular defect reconstruction and provides the first ever classification for these techniques. We also provide an algorithm for the selection of these flap variants for sternoclavicular defect reconstruction.

METHODS

EMBASE, Cochrane library, Ovid medicine and PubMed databases were searched from its inception to August of 2019. We included all studies describing surgical management of sternoclavicular defects. The studies were reviewed, and the different configurations of the pectoralis major flap used for sternoclavicular defect reconstruction were cataloged. We then proposed a new classification system for these procedures.

RESULTS

The study included 6 articles published in the English language that provided a descriptive procedure for the use of pectoralis major flap in the reconstruction of sternoclavicular defects. The procedures were classified into three broad categories. In Type 1, the whole pectoris muscle is used. In Type 2, the pectoralis muscle is split and either advanced medially (type 2a) or rotated (type 2b) to fill the defect. In type 3, the clavicular portion of the pectoralis is islandized on a pedicle, either the thoracoacromial artery (type 3a) or the deltoid branch of the thoracoacromial artery (type 3b).

CONCLUSION

There are multiple configurations of the pectoralis flap reported in the English language literature for the reconstruction of sternoclavicular defects. Our classification system, the Opoku Classification will help surgeons select the appropriate configuration of the pectoralis major flap for sternoclavicular joint defect reconstruction based on size of defect, the status of the vascular anatomy, and acceptability of upper extremity disability. It will also help facilitate communication when describing the different configurations of the pectoralis major flap for reconstruction of sternoclavicular joint defects.

Adjacent skin rotation flap for large defect in primary breast tumor

BACKGROUNDS

Surgical resection of large primary breast tumor often results in large chest wall defects. The purpose of this study is to evaluate the feasibility of using adjacent skin rotation (ASR) flap in patients with giant primary breast tumor.

METHODS

A total of 26 giant primary breast tumor patients treated with ASR flap were included in this study. The postoperative conditions, including operating time, blood loss, length of hospital stay, and clinical complications were observed. Meanwhile, the information on 17 breast tumor patients treated with transverse rectus abdominis myocutaneous (TRAM) flap were collected and assigned to a control group.

RESULTS

The mean defect size after mastectomy was 16.7 × 13.4 cm, while the median follow-up period was 13 months after surgery. A total of 15.4% patients had developed with local complications, and one of them had more than one complication. When comparing the postoperative outcomes, statistically significant differences were found between the two groups with respect to operating time, blood loss, and length of hospital stay (P < 0.001).

CONCLUSIONS

ASR flap is a reliable technique for immediate reconstruction of massive chest wall defects in patients with giant primary breast tumor.

Thoracic wall reconstruction with bioabsorbable plates in pediatric malignant thoracic wall tumors

AIM

Childhood malignant chest wall tumors may require extensive surgical resection and reconstruction with musculoskeletal flaps or non-resorbable prosthetic materials. Implant-related complications and scoliosis often occur. This study analyzes the outcomes of chest wall reconstruction using resorbable plates as an alternative approach.

METHODS

Retrospective review (2007-2015) of patients who underwent resection of malignant primary chest wall tumors in 2 tertiary pediatric centers. Reconstruction was performed using copolymer (l-lactic and glycolic acid) plates, fixed to the ribs and surrounding structures with copolymer screws and/or polyglactin sutures.

RESULTS

Eight patients aged 10.6+2.6years were treated. There were no operative complications, and implant removal was not required in any case. Six patients received postoperative radiotherapy. Over follow-up (39.6months, range 9.4-78), chest wall shape was maintained in all, and there were no radiological artifacts. Three patients developed scoliosis (Cobb 17°-33°), but treatment was needed only in one, who had undergone hemivertebrectomy. There were no cases of local tumor relapse. One patient died because of metastatic spread.

CONCLUSIONS

Implantation of bioabsorbable l-lactic and glycolic acid copolymer plates with a relatively simple technique provided a rigid, stable reconstruction with only mild mid-/long-term complications. Resorbable plates may be a good alternative for pediatric chest wall reconstruction.

LEVEL OF EVIDENCE

IV.

Three-Dimensional Custom-Made Titanium Ribs for Reconstruction of a Large Chest Wall Defect

Reconstruction of large chest wall defects always demand surgeons of having lots of means available (both materials and resourceful) to apply a cover to chest wall defects which can range from a few centimeters to the lack of a few entire ribs. In this study, we present the case of a teenager who suffered from a complete resection of three ribs because of Ewing sarcoma dependent on the sixth rib. Given the size of the defect, a multidisciplinary approach was chosen to provide rigid and soft tissue coverage and minimal functional and aesthetic impact. Custom-made titanium implants were designed based on three-dimensional computed tomography scan reconstruction. The surgical specimen via a left lateral thoracotomy (fifth, sixth, and seventh entire ribs) was resected, leaving a defect of 35 × 12 × 6 cm. A Gore-Tex patch (W. L. Gore & Associates, Arizona, United States) was placed and, after that, the implants were anchored to the posterior fragment of the healthy ribs and to the costal cartilage anteriorly. Finally, the surgical site was covered with a latissimus dorsi flap. The postoperative course was uneventful. After 9 months of follow-up, the patient has full mobility. This case shows that the implant of custom-made ribs, combined with other techniques, is a good surgical choice for reconstruction of large chest wall defects. The implant of custom-made ribs, combined with other techniques, is a good surgical choice for reconstruction of large chest wall defects.

Reparo de lesão penetrante em parede torácica de cão, ocasionada por javali (Sus scrofa scrofa), com flape unipediculado de músculo reto abdominal

RESUMO Lesões penetrantes no tórax causadas por interação animal são frequentes em cães e caracterizam-se por dano extenso e desvitalização dos tecidos moles adjacentes. Quando a musculatura local é insuficiente para a reconstrução, retalhos musculares podem ser mobilizados para reparar o defeito torácico. O presente relato tem como objetivo demonstrar uma alternativa para o reparo de defeito da parede torácica em um cão, ocasionada por interação com javali (Sus scrofa scrofa), utilizando flape unipediculado de músculo reto abdominal. Com base na literatura consultada, essa técnica reconstrutiva ainda não foi descrita. O flape de músculo reto abdominal mostrou-se uma alternativa viável no reparo de lesão extensa e infectada na parede torácica em cães.

Important considerations in chest wall reconstruction

Chest wall reconstruction represents one of the most challenging tasks in plastic surgery. Over the past several decades, a more profound understanding of surgical anatomy and physiology along with tremendous advances in surgical technique have resulted in substantial improvements in postoperative outcomes. Conceptually, the reconstructive goals include dead space obliteration, restoration of skeletal stability with protection of intrathoracic structures, and stable soft tissue coverage. Ideally, these goals are achieved with minimal aesthetic deformity. J. Surg. Oncol. 2016;113:913-922. © 2016 Wiley Periodicals, Inc.

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.

Using local flaps in a chest wall reconstruction after mastectomy for locally advanced breast cancer

BACKGROUND

Surgical ablation for locally advanced breast cancer results in large chest wall defects, which can then be managed with local flaps or skin grafts. The purpose of this article is to evaluate the outcomes of three types of local skin flaps.

METHODS

Among 25 local flaps in 24 patients, 6 were bilateral advancement (BA) flaps, 9 were thoracoabdominal (TA) flaps, and 10 were thoracoepigastric (TE) flaps. Clinical outcomes were compared including complications, the need for a secondary surgical intervention, and the timing of adjuvant therapy.

RESULTS

The mean defect size was 436.2 cm(2). Two patients with TA flaps and 6 patients with TE flaps developed distal flap necrosis, and skin grafts were needed to treat 2 patients with TE flaps. Radiation was administered to the BA, TA, and TE patients after average postoperative durations of 28, 30, or 41 days, respectively. The incidence of flap necrosis tended to be higher in TE patients, which lead to significant delays in adjuvant radiation therapy (P=0.02).

CONCLUSIONS

Three types of local skin flaps can be used to treat large chest wall defects after the excision of locally advanced breast cancer. Each flap has its own merits and demerits, and selecting flaps should be based on strict indications based on the dimensions and locations of the defects.

A salvage maneuver for the caudal part of the pectoralis major muscle in the reconstruction of superior thoracic wall defects: The pectoralis kite flap

The pectoralis major muscle flap is the most commonly used option for chest wall reconstruction. However, its utilization should be avoided in chest wall tumors infiltrating the muscle. This article presents the utilization of the caudal part of the pectoralis major muscle as a pedicled flap in cases requiring the resection of the cranial part of the muscle due to tumor infiltration. Fourteen patients with a mean age of 60.3 years were operated for malignant thoracic wall tumors between 2011 and 2014. All tumors were located on the upper thoracic area with a mean defect size of 16.6 × 12 cm. During tumor resection, the thoracoacromial vessels and pectoral branch were preserved and dissected until reaching the pectoralis muscle. After the resection of the cranial part of the muscle, the caudal part is prepared as a pedicled island flap and used for the coverage of the resultant defect. The mean postoperative follow-up period was 10.9 months. All flaps survived without any partial or total flap loss. A case of local recurrence, two cases of hematoma requiring drainage, and two cases of local wound-healing problems were the encountered complications. The pectoral kite flap is a versatile and reliable option for the coverage of small to medium upper chest wall defects with minimal morbidity, and it gives the reconstructive surgeon the opportunity to use the non-infiltrated caudal part of the pectoralis muscle instead of an unnecessary resection of the whole muscle.

Pedicled full-thickness abdominal flap combined with skin grafting for the reconstruction of anterior chest wall defect following major electrical burn

Successful reconstruction of extensive anterior chest wall defect following major electrical burn represents a very challenging surgery. Herein we report the first case using pedicled full-thickness abdominal flap combined with skin grafting to treat this injury with severe infection and exposure of pericardium and ribs in a Chinese patient. Following the performance of chest debridement to remove necrotic and infected tissues and the injection of broad-spectrum antibiotics to reduce infection, a pedicled full-thickness abdominal flap was used to cover the exposed pericardium and ribs, and skin grafting from the right leg of the patient was done to cover the exposed vital tissues. The patient was followed up for a total of 3·5 years, and satisfactory cosmetic and functional outcomes were obtained without complications. This report provides an effective method for the surgeons who encounter similar cases where reconstruction of extensive anterior chest wall is required.

Multi-staged flap reconstruction for complex radiation thoracic ulcer

INTRODUCTION

Chest wall reconstruction due to previous radiation therapy can be challenging and complex, requiring a multidisciplinary approach.

PRESENTATION OF CASE

The authors present the case of a 84-year-old woman with a right chest wall radionecrosis ulcer, that was submitted to an ablative surgery resulting in a full-thickness defect of 224 cm², firstly reconstructed with a pedicled omental flap. Due to partial flap necrosis, other debridements and chest wall multi-staged flap reconstruction were performed.

DISCUSSION

This case highlights that the reconstructive choice should be individualized and dependent on patient and local factors. The authors advise that surgical team should work closely and be well versed in chest wall reconstruction with a variety of pedicled flaps, when a complication occurs.

CONCLUSION

A multi-staged flap reconstruction could be a salvage procedure for the coverage of complex, great and complicated chest wall defects due to previous radiation therapy.

Soft tissue tumors of the trunk: management of local disease in the breast and chest and abdominal walls

Soft tissue sarcomas of the trunk are rare lesions, generally managed using an algorithm similar to that employed for extremity sarcomas. This review summarizes the standard treatment of truncal sarcomas and considers how these recommendations differ for each of the various common histologic subtypes observed on the trunk: desmoid, dermatofibrosarcoma protuberans (DFSP), and angiosarcoma.

[Treatment of lung cancer with chest wall invasion]

The aim of this study was to analyze chest wall invasion, the indication and multidisciplinary nature of treatment, the methods used for parietal reconstruction and the technical problems posed by this procedure in patients with lung cancer and chest wall invasion. Chest wall invasion from adjacent malignancies affects 5% of patients with a bronchogenic carcinoma. Preoperative determination of parietal invasion aids the planning of an appropriate therapeutic approach. Positron emission tomography combined with computed tomography (PET/CT) improves the study of T-factor and metastatic nodal involvement and distant metastases. As a rule, surgical treatment should attempt complete tumoral resection: lobectomy, resection of the parietal pleura and/or of the chest wall--ensuring tumor-free margins--and hilar and mediastinal lymphadenectomy. We also analyzed the distinct prognostic factors for survival, as well as the indication for induction or adjuvant therapy. Chest wall reconstruction involves recreating the most anatomical and physiological conditions possible in the chest cavity and surrounding muscles. The ideal reconstruction would achieve adequate parietal stability and coverage to preserve functionality, with the cosmetic result being an important, but secondary, consideration. Many materials are available for reconstruction and the choice of material should be individualized in each patient. A multidisciplinary team able to plan and perform the resection and subsequent reconstruction, oversee postoperative management and treat complications early is essential.

Tissue-engineered ribs for chest wall reconstruction: a case with 12-year follow-up

We hereby report on a case in which a huge chest wall defect generated by resection of a massive aggressive tumor (desmoplastic fibroma) was repaired with osteogenic-induced mesenchymal stem cells embedded in a bone-derived biomaterial. In this case, there were three challenges to overcome: reconstruction of the soft tissue, repair of the skeletal defect of the thoracic wall and repair of the defect in the pleural cavity. The defects of soft tissue and pleural cavity were reconstructed, respectively, with an ipsilateral abdominal flap and a diaphragm muscular flap. The huge defect in the chest wall was successfully repaired with the tissue-engineered ribs, which was confirmed by long-term follow-up with computerized tomography and histological and immunohistochemical evaluations. In view of its effectiveness and safety, tissue-engineered bones may have a broad application for the repair of large skeletal defects and bone regeneration.

Management of radiation wounds

Radiotherapy forms an integral part in cancer treatment today. It is used alone or in combination with surgery and chemotherapy. Although radiotherapy is useful to effect tumour death, it also exerts a deleterious effect on surrounding normal tissues. These effects are either acute or can manifest months or years after the treatment. The chronic wounds are a result of impaired wound healing. This impairment results in fibrosis, nonhealing ulcers, lymphoedema and radionecrosis amongst others. This article will discuss the pathophysiology in brief, along with the manifestations of radiation-induced injury and the treatment available currently.

Uncommon flaps for chest wall reconstruction

The omentum, external oblique musculocutaneous, and thoracoepigastric flaps are uncommonly used for chest wall reconstruction. Nevertheless, awareness and knowledge of these flaps is essential for reconstructive surgeons because they fill specific niche indications or serve as lifeboats when workhorse flaps are unavailable. The current report describes the anatomic basis, technical aspects of flap elevation, and indications for these unusual flaps.

Chest Wall Resection and Reconstruction a True Thoracoscopic Approach

We set out to perform resection of a chest wall mass with subsequent reconstruction using a pure thoracoscopic approach. Using video-assisted thoracic surgery via a three-incision approach, we successfully removed an 8.5 × 3.5–cm specimen en bloc. We then reconstructed the chest wall with 2-mm polytetrafluoroethylene. A total thoracoscopic approach to chest wall resection and reconstruction represent an additional option in this area of thoracic surgery. This approach avoids some of the drawbacks of more invasive procedures. This report outlines a totally thoracoscopic approach that we feel represents a safe and viable option for patients requiring chest wall resection and reconstruction.

Isolated metastasis of colon cancer to the scapula: is surgical resection warranted?

BACKGROUND

Distant metastases from colon cancer spread most frequently to the liver and the lung. Risk factors include positive lymph nodes and high grade tumors. Isolated metastases to the appendicular skeleton are very rare, particularly in the absence of identifiable risk factors.

CASE REPORT

The patient was a 55 year old male with no previous personal or family history of colon cancer. Routine screening revealed a sigmoid adenocarcinoma. He underwent resection with primary anastomosis and was found to have Stage IIA colon cancer. He declined chemotherapy as part of a clinical trial, and eight months later was found to have an isolated metastasis in his right scapula. This was treated medically, but grew to 12 × 15 cm. The patient underwent a curative forequarter amputation and is now more than four years from his original colon surgery.

DISCUSSION

Stage IIA colon cancers are associated with a high five year survival rate, and chemotherapy is not automatically given. If metastases occur, they are likely to arise from local recurrence or follow lymphatic dissemination to the liver or lungs. Isolated skeletal metastases are quite rare and are usually confined to the axial skeleton. To our knowledge, this is the first reported case of an isolated scapular metastasis in a patient with node negative disease. The decision to treat the recurrence with radiation and chemotherapy did not reduce the tumor, and a forequarter amputation was eventually required.

CONCLUSION

This case highlights the importance of adequately analyzing the stage of colon cancer and offering appropriate treatment. Equally important is the early involvement of a surgeon in discussing the timing of the treatment for recurrence. Perhaps if the patient had received chemotherapy or earlier resection, he could have been spared the forequarter amputation. The physician must also be aware of the remote possibility of an unusual presentation of metastasis in order to pursue timely work up.

Immediate locally advanced breast cancer and chest wall reconstruction: surgical planning and reconstruction strategies with extended V-Y latissimus dorsi myocutaneous flap

BACKGROUND

Surgical resection in locally advanced breast cancer produces large defects that may not be suitable for primary closure. Immediate reconstruction is controversial and presents a complicated scenario for breast surgeons and plastic surgeons.

METHODS

In this study, a different design was planned for the latissimus dorsi musculocutaneous flap with primary closure in V-Y for the correction of major lesions in the anterior chest wall. Twenty-five patients underwent immediate locally advanced breast cancer reconstruction with a V-Y latissimus dorsi musculocutaneous flap. This flap was raised from adjacent tissue located on the lateral and posterior thoracic region and presented a triangular shape whose base was the lateral aspect of the mastectomy wound. The technique was indicated in patients with large thoracic wounds.

RESULTS

Mean follow-up time was 16 months. Closure was obtained in the donor and recipient sites without the use of skin grafts or other more major procedures. Complications occurred in nine patients (36 percent), including dorsal wound dehiscence in five patients and seroma in three. All cases except one were treated by a conservative approach with a good result. No total flap loss was reported. All patients achieved a satisfactory thoracic reconstruction and adequate wound care.

CONCLUSIONS

The V-Y latissimus dorsi musculocutaneous flap is a reliable technique for immediate locally advanced breast cancer reconstruction. The technique is advantageous because the V-Y design allows primary closure of the chest wound and donor defect. Success depends on patient selection, coordinated planning with the breast cancer surgeon, and careful intraoperative management.

[Forequarter amputation of the right upper chest: limitations of ultra radical interdisciplinary oncological surgery]

Total forearm free flap procedures after forequarter amputations have been sparsely described in the literature. Using the amputated arm as a "free filet flap" remains a viable surgical option after radical forequarter amputations performed for the resection of large, invasive tumors of the shoulder or thoracic wall region. Using the forequarter specimen as a donor site seems favorable in that it eliminates the usual donor site morbidity. Nevertheless, in our patient with invasive ductal carcinoma of the breast and a fibrosarcoma suffering from severe pain and septic conditions - which failed to respond properly to conservative therapy - as well as rapidly progressive tumor ulceration despite repeated radiation therapy, we decided to attempt complete tumor removal by hemithoracectomy as a last resort. This decision was taken following multiple interdisciplinary consultations and thorough patient information. Although technically feasible with complete tumor removal and safe soft tissue free flap coverage, the postoperative course raises questions about the advisability of such ultra radical surgical procedures, as well as about the limitations of respiratory recovery after hemithoracectomy with removal of the sternum. Hence, based on our experience with such radical tumor surgery, we discuss the issues of diminished postoperative pulmonary function, intensive care possibilities and ethical issues. The English full-text version of this article is available at SpringerLink (under "Supplemental").

Principles of chest wall resection and reconstruction

Despite significant improvements in surgical technique and perioperative care, the management of patients requiring chest wall resection and reconstruction is an ongoing challenge for thoracic surgeons. A successful approach includes a thorough assessment of the patient and the lesion, an adequate biopsy to confirm tissue diagnosis, and a well-established treatment plan. In the case of a primary tumor of the chest wall, the extent of the resection should not be limited by the size of the resulting defect. Following resection, chest wall reconstruction mandates an appreciation for restoration of functional and structural components. An algorithmic approach to chest wall reconstruction begins with the assessment of the nature of the defect, taking into consideration factors such as infection, tumor location, previous radiation therapy, and surgical intervention. The latter factors bear influence on the type of tissue required as well as whether reconstruction can be performed in a single stage or whether it is better delayed. Finally, patient factors including lifestyle and work, as well as prognosis, are considered to determine the best reconstructive option.

Primary chest wall tumors

The differential diagnosis of chest wall tumors is diverse, including both benign and malignant lesions (primary and malignant), local extension of adjacent disease, and local manifestations of infectious and inflammatory processes. Primary chest wall tumors are best classified by their primary component: soft tissue or bone. Work-up consists of a thorough history, physical examination and imaging to best assess location, size, composition, association with surrounding structures, and evidence of any soft tissue component. Biopsies are often required, especially for soft tissue masses. Treatment depends on histological subtype and location, but may include chemotherapy and radiotherapy in addition to surgical resection.

[Chest wall reconstruction in acquired defects]

Acquired chest wall defects present a challenging problem for thoracic surgeons. Many of such defects can be repaired with the use of local and regional musculocutaneous flaps, but larger defects compromising skeletal structure require increasingly sophisticated reconstructive techniques. The following discussion will review the options for repair acquired chest wall defects based in literature. The authors searched the Pubmed (www.pubmed.com) and found citations from January 1996 to February 2008. By reading the titles and the abstracts most of the citations were discharged because they focused in congenital chest wall defects or were cases report. However, many papers were found describing the outcome of large series of patients with acquired chest wall deformities. A review of recent literature shows that the repair of chest wall defects with soft tissues, if possible, remains the treatment of choice. Large chest wall defects require skeletal reconstruction to prevent paradoxical respiration. The selection of the most appropriate flap is primary dictated by the location and the size of the defect. It is important to transfer tissue with good vitality, so understanding the vascular supply is imperative. Autogenous grafts have been used in the past for skeletal reconstruction but a combination of synthetic materials with musculocutaneous flaps has been used lately. Based in the literature, the use of prosthetic material in chest wall reconstruction does not significantly increases the risk of wound infection.