Reconstruction of massive oncologic defects using free fillet flaps. Plast Reconstr Surg. 2010;125:913-922. [PMID: 20195119 DOI: 10.1097/prs.0b013e3181cb6548]

Buried filet of limb flaps for the reconstruction of forequarter and hindquarter amputations

BACKGROUND AND OBJECTIVES

Forequarter and hindquarter amputations have traditionally been closed with local tissues, but the technique is plagued by a high rate of complication such as marginal necrosis, seroma, infection, and dehiscence. Filet of limb flaps have been used when local tissues are insufficient for closure, and despite their use in more extensive and complex wounds, outcomes seem to be better in these cases. Recognizing that filet of limb flaps not only serve to cover the wound, but also eliminate dead space, supplement at-risk and/or radiated tissue, pad underlying hard structures, and facilitate neuroma prevention with target muscle reinnervation, we have change our practice to utilize buried filet of limb flaps even when local tissues are technically "sufficient" to close the wound. The purpose of this article to organize and describe the ways in which buried filet-of-limb flaps can be used to achieve important and discrete surgical objectives in forequarter and hindquarter amputation, and to facilitate increased recognition of collaborative interdisciplinary opportunities for spare-part reconstruction.

METHODS

Retrospective data from the medical records of seven patients, collected between 2010 to 2023 at our single tertiary referral center, were reviewed. This included all patients for whom a buried (or partially buried) filet of limb flap was attempted for forequarter or hindquarter amputation reconstruction.

RESULTS

Five males and two females ranging 55 to 75 years of age, met the inclusion criteria. Three cases of forequarter amputation and four cases of hindquarter amputation were included. Six flaps were successfully transferred without major flap-related complications. The mean follow-up period was eight and a half months.

CONCLUSION

Even when local tissues are technically "sufficient" to close forequarter and hindquarter amputation wounds, we have found buried filet of limb flaps to be useful in several ways. These include occupying dead space, providing double-layer coverage, padding hard structures, preventing neuromas, and reconstructing sacro- and spino-pelvic continuity. Our approach emphasizes interdisciplinary collaboration and highlights the potential advantages of buried filet of limb flaps in optimizing patient outcomes for complex limb amputations.

Free fillet flap: Outcomes in emergency microsurgical reconstruction of upper and lower limb

INTRODUCTION

Despite its infrequency, 'spare-part surgery' represents a reconstructive strategy that uses segments of amputated limbs as donor tissue to preserve function in other injured anatomical regions. The purpose of this study was to review our 14-year experience in emergency microsurgical reconstruction of traumatised limbs using free fillet flaps obtained from non-salvageable amputated parts.

MATERIALS AND METHODS

A retrospective observational study was conducted on patients who underwent urgent free fillet flap transfer for upper or lower limb reconstruction between 2007 and 2021. The characteristics and levels of injury, as well as the flap designs, functional outcomes and complications were documented.

RESULTS

A series of eight clinical cases is presented. One osteo-tendino-cutaneous and seven fasciocutaneous flaps were filleted from non-replantable amputated limbs for free transfer. Stable coverage of the dorsal aspect of the hand and fingers was achieved in three patients, and limb shortening was avoided in five patients. An open thumb fracture with bone defect, three below-knee stumps and one trans-metatarsal level were preserved. The mean Quick-Disabilities of the Arm, Shoulder and Hand score for upper limb reconstructions was 16.75 points. In all the cases of lower limb reconstruction, the nerves were repaired, resulting in a protective sensitivity (S3 level) with no pressure ulcer development during the follow-up period. All patients were able to return to normal prosthetic ambulation with a mean Amputee Mobility Predictor Pro score of 45 points. Two haematomas, one surgical wound dehiscence and two immediate revisions of venous anastomoses were registered.

CONCLUSIONS

The microvascular filleted flap demonstrated versatility in the emergency reconstruction of complex limb injuries, providing stable coverage and optimising limb length preservation within a single major surgical procedure, while eliminating morbidity from any other uninjured donor site.

Towards Optimizing Sub-Normothermic Machine Perfusion in Fasciocutaneous Flaps: A Large Animal Study

Machine perfusion has developed rapidly since its first use in solid organ transplantation. Likewise, reconstructive surgery has kept pace, and ex vivo perfusion appears as a new trend in vascularized composite allotransplants preservation. In autologous reconstruction, fasciocutaneous flaps are now the gold standard due to their low morbidity (muscle sparing) and favorable functional and cosmetic results. However, failures still occasionally arise due to difficulties encountered with the vessels during free flap transfer. The development of machine perfusion procedures would make it possible to temporarily substitute or even avoid microsurgical anastomoses in certain complex cases. We performed oxygenated acellular sub-normothermic perfusions of fasciocutaneous flaps for 24 and 48 h in a porcine model and compared continuous and intermittent perfusion regimens. The monitored metrics included vascular resistance, edema, arteriovenous oxygen gas differentials, and metabolic parameters. A final histological assessment was performed. Porcine flaps which underwent successful oxygenated perfusion showed minimal or no signs of cell necrosis at the end of the perfusion. Intermittent perfusion allowed overall better results to be obtained at 24 h and extended perfusion duration. This work provides a strong foundation for further research and could lead to new and reliable reconstructive techniques.

Free Fillet Flap of Lower Extremity: 38 Amputations with Seven Examples of Targeted Muscle Reinnervation and Regenerative Peripheral Nerve Interfaces

BACKGROUND

Extremely high-level lower extremity amputations are rare procedures that require significant soft-tissue and bony reconstruction. This study describes the use of fillet flaps for oncologic reconstruction and the incorporation of targeted muscle reinnervation (TMR) and regenerative peripheral nerve interfaces (RPNIs) for chronic pain prevention.

METHODS

The authors performed a retrospective review of patients who underwent lower extremity fillet flaps at MD Anderson Cancer Center from January of 2004 through April of 2021. Surgical outcomes were summarized and compared. Numeric rating scale and patient-reported outcomes measures were collected.

RESULTS

Thirty-eight fillet flaps were performed for lower extremity reconstruction. Extirpative surgery included external hemipelvectomy (42%), external hemipelvectomy with sacrectomy (32%), and supratrochanteric above-knee amputation (26%). Median defect size was 600 cm 2 , and 50% included a bony component. Twenty-one patients (55%) experienced postoperative complications, with 16 requiring operative intervention. There was an increased trend toward complications in patients with preoperative radiotherapy, although this was not significant (44% versus 65%; P = 0.203). Seven patients underwent TMR or RPNI. In these patients, the mean numeric rating scale residual limb pain score was 2.8 ± 3.4 ( n = 5; range, 0 to 4/10) and phantom limb pain was 4 ± 3.2 ( n = 6; range, 0 to 7/10). The mean Patient-Reported Outcomes Measures Information Systems T scores were as follows: pain intensity, 50.8 ± 10.6 ( n = 6; range, 30.7 to 60.5); pain interference, 59.2 ± 12.1 ( n = 5; range, 40.7 to 70.1); and pain behavior, 62.3 ± 6.7 ( n = 3; range, 54.6 to 67.2).

CONCLUSIONS

Lower limb fillet flaps are reliable sources of bone, soft tissue, and nerve for reconstruction of oncologic amputation. TMR or RPNI are important new treatment adjuncts that should be considered during every amputation.

CLINICAL QUESTION/LEVEL OF EVIDENCE

Therapeutic, IV.

'Thou shalt not throw away a living thing': A single-centre 10-year experience using the spare parts principle for complex sarcoma reconstruction

INTRODUCTION

For aggressive limb sarcomas beyond reconstructive reach, an amputation may be the only alternative to achieve a complete tumour resection. However, very proximal amputations result in greater loss of function and quality-of-life impact. The spare parts principle advocates utilising tissues distal to the amputation site, for reconstructing complex defects and preserving the function. We aim to present our 10-year experience utilising this principle in complex sarcoma surgery.

METHODS

A retrospective review of our prospective sarcoma database was conducted for sarcoma patients treated with an amputation between 2012 and 2022. Cases in which distal segments were used for the reconstruction were identified. Demographic data, tumour characteristics, and surgical and non-surgical treatment, along with oncological outcomes and complications, were recorded and analysed.

RESULTS

Fourteen patients were eligible for inclusion. The median age was 54 years at presentation (8-80 years) with 43% being females. Nine had a primary sarcoma resection, two were treated for recurrent tumours, two presented intractable osteomyelitis following sarcoma treatment and one had an amputation as a palliative procedure. The latter was the only oncological case in which tumour clearance was not achieved. Three patients developed metastasis and subsequently died during follow-up.

DISCUSSION

Careful balancing of oncological goals and preservation of function is required for proximal limb-threatening sarcomas. When an amputation is required, tissues distal to the cancer site provide a safe reconstructive alternative, optimising patient recovery and preserving function. Our experience is limited by the small number of cases presenting with these rare and aggressive tumours.

Soft Tissue Reconstruction Using the Free Forearm Fillet Flap in the Salvage of Forequarter Amputations for Recurrent Sarcoma: A Report of 2 Cases

ABSTRACT

Reconstruction after radical forequarter amputation for recurrent proximal extremity sarcoma is challenging because the defect is significant, and the axillary or subclavian vessels are resected with the tumor, indicating that the pedicle of nearby flaps is often cut off. Free flaps are commonly used to cover the defect, but the donor site morbidity is problematic. Another problem with resecting the axillary or subclavian vessels is difficulty obtaining recipient vessels with matching calibers for another free flap. The authors presented 2 cases that successfully solved all these problems by covering the defects by the forearm fillet flaps.The forearm fillet flap has the advantage of using a portion that is usually discarded, so there is no donor site morbidity. Moreover, using the brachial artery as the pedicle of the flap allows the anastomosis to the stump of the resected axillary or subclavian artery because differences in caliber are slight.The use of the forearm fillet flaps has been reported less frequently than the fillet flaps in the lower extremities, and most cases are posttraumatic. In cases of trauma, complications are reported to occur in about 1 in 4 patients, but in cases after tumor resection, ischemic time can be controlled, and there are no risks of contamination or unnoticed forearm damage, so more stable results can be expected as in this report.Using the free flap from the distal portion of the resected upper limb, especially in cases with a short prognosis, is a viable option that effectively minimizes damage to the donor site and maintains quality of life.

Multidisciplinary Approach to Hemipelvectomy for Pelvic Sarcomas

» Pelvic sarcomas are a rare and diverse group of tumors in terms of size and histology.» Pelvic sarcomas present a treatment challenge to the orthopaedic oncologist.» The size and location of these tumors require a varied approach to resection and reconstruction, but the tumor's proximity to other internal structures within the pelvis (e.g., the bladder, the iliac vessels, and the bowel) makes extrication demanding.» The ideal treatment requires assembling a hemipelvectomy team that consists of an orthopaedic oncologist, a surgical oncologist, a urologist, a vascular surgeon, a gynecologic oncologist, a plastic and reconstructive surgeon, a dedicated anesthesia team, and a dedicated rehabilitation physical therapy team. Each member can use his or her expertise to address the individual aspects of the pelvic resection and achieve the optimal oncologic and functional outcome.

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.

Application of Spare Parts in Combination with Targeted Muscle Reinnervation Surgery

SUMMARY

Targeted muscle reinnervation is a contemporary technique designed to enhance an amputee's ability to operate a myoelectric prosthesis. This technique has been shown to decrease neuropathic pain, including neuroma and phantom limb pain. In certain amputations, especially forequarter and hindlimb levels, there may be no nearby recipient muscle sites, or the residual nerve may be too short to perform targeted muscle reinnervation. Applying the spare parts concept can help solve this problem by providing nerve autograft or additional muscle recipient sites within the spare parts flap for successful targeted muscle reinnervation surgery procedures. A retrospective review of all patients that underwent spare parts targeted muscle reinnervation reconstructions between 2016 and 2019 at two institutions was performed. Patients were assessed for healing, neuroma and phantom limb pain, and function. Twelve patients underwent targeted muscle reinnervation during spare parts reconstruction; eight were male and four were female. The mean patient age was 55.3 years (range, 16 to 72 years). For those with known soft-tissue deficit size, the surface area of the donor site spared by using spare parts reconstruction ranged from 216 to 856 cm2. None of the 12 patients subsequently experienced neuroma, and 75 percent had no phantom limb pain after 3 months. Three patients have obtained insurance-approved myoelectric prosthetics, and all three demonstrated intuitive control of targeted muscles. Using a spare parts reconstruction in conjunction with targeted muscle reinnervation may optimize reconstructive efforts in the setting of major limb amputations and aid in decreasing phantom limb and neuroma pain, and facilitate the possibility of functional prosthetic and/or myoelectric prosthesis use.

CLINICAL QUESTION/LEVEL OF EVIDENCE

Therapeutic, IV.

Lower Extremity Reconstruction After Soft Tissue Sarcoma Resection

Surgical resection with wide margins and perioperative radiation therapy is the standard treatment of extremity soft tissue sarcomas. This combination often results in complex wounds and functional compromise. Reconstructive surgery is integral to limb salvage after sarcoma resection. Advances in adjuvant therapy and reconstructive surgical techniques have made functional limb salvage, instead of amputation, possible for most patients. This article reviews key concepts in the multidisciplinary care of patients with extremity soft tissue sarcomas and details reconstructive surgical techniques, including locoregional and free tissue transfer, free functional muscle transfer, and vascularized bone transfer, to optimize functional limb restoration after sarcoma resection.

Reconstruction of Basic Hand Function by a Free Osteocutaneous Spare-Part Flap From the Lower Leg After Septicemia: A Case Report

Background: Spare-part surgery is widely accepted and offers an option in extremely traumatized patients for reconstructive maneuvers. Standardized techniques are lacking, and the therapy needs to fit the patient's clinic. Materials and Methods: In a woman with necrosis of almost all extremities due to septic infection, we used the lower leg as a free osteocutaneous flap to reconstruct a basic hand function after amputation. The fibula segment was buried alongside the remaining first metacarpal bone. On the hand stump, 2 short metacarpals were lengthened using the remaining 2 metacarpals as osteovascular on-top plasties. The flap was microsurgically anastomosed end-to-side to the ulnar artery. After 3 months, the buried fibula was trimmed to the necessary thumb length and fixed to the local metacarpal I stump. Secondary procedures were performed to deepen the first web space. Results: The patient is now able to manage her daily life. Also, she is able to put on her prosthesis on both legs and walk without aids. Conclusions: To our knowledge, this is the first description of successful microvascular transfer of an osteocutaneous free flap from an amputated lower leg of this size and could present a valuable technique for other cases.

Forequarter Amputation and Reconstructive Options

OBJECTIVE

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

SUMMARY BACKGROUND DATA

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

METHODS

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

RESULTS

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

CONCLUSIONS

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

Reconstruction of complex hemipelvectomy defects: A 17-year single-institutional experience with lower extremity free and pedicled fillet flaps

INTRODUCTION

Hemipelvectomy procedures result in massive soft tissue defects. The standard approach is to reconstruct the defect with anterior or posterior hemipelvectomy flaps. Certain situations preclude the use of local tissue flaps, and an alternative is the use of leg fillet flaps, circumferential pedicled or free flaps harvested from the amputated part. The purpose of this study is to present our institution's experience with using pedicled and free fillet flaps to reconstruct hemipelvectomy soft tissue defects.

METHODS

We performed a retrospective chart review of patients who underwent hemipelvectomy and fillet flap reconstruction from 2001 to 2018. Demographics, clinical and surgical characteristics, postoperative outcomes, and complications of patients were reviewed.

RESULTS

Ten patients were identified and included. Their mean age was 51 ± SD 12.4 years. Six patients underwent standard external hemipelvectomy and 4 patients underwent extended external hemipelvectomy. Seven lower extremity fillet flaps were performed as free tissue transfers, and 3 were pedicled flaps. The mean flap size was 1,153 ± SD 1137 cm². The mean follow-up was 5 months (range: 1-24 months). Five patients developed postoperative complications; none of them required operative intervention. There were no partial or total flap losses postoperatively.

CONCLUSION

Reconstruction with pedicled or free lower extremity fillet flaps is a valuable reconstructive approach, for managing large soft tissue defects following hemipelvectomy when the standard anterior and posterior thigh flaps are unavailable or inadequate for complete soft tissue coverage. This useful technique mitigates donor site morbidity, while simultaneously achieving massive soft tissue coverage with an acceptable complication profile.

The forearm fillet flap: 'spare parts' reconstruction for forequarter amputations

Radical forequarter amputation is often performed for recurrent proximal extremity tumors. A free forearm fillet flap is used to provide excellent coverage of the resultant defect without donor site morbidity. Use of a free flap from the distal portion of the extremity with proximal tumor burden is safe and effective.

Radiation-Induced Wound Infections in Operated Soft Tissue Sarcomas: An Unbelievable Challenge in a Series of Five Cases

Introduction

The standard modality for the treatment of soft tissue sarcomas is a wide excision followed by radiation therapy either in the form of external beam radiation or brachytherapy. Radiation therapy thus is an integral part of management and limb salvage in these cases. This, however, subjects the irradiated tissue to a greater risk for necrosis and local infection. This study suggests a protocol to manage these infections. A multimodal approach to these problems is important. Studies have shown that the use of negative pressure wound therapy (NPWT) in non-healing wounds significantly reduces edema by removing excessive fluid from the wound bed as well as facilitating removal of the infective pathogen after an aggressive wound debridement. The author has judiciously used NPWT in each of these patients with encouraging results. With no well-defined guidelines to manage radiation-induced wound infections, this retrospective study gives an overview and protocol for a systematic approach.

Case Report

This is a retrospective series of five cases managed between January 2014 and December 2016. All were men with a mean age of 30.6 years with a mean follow-up of 27 months. We analyzed their demographic, clinical data, history, wound locations, primary diagnosis on histopathology, organisms isolated on culture, surgical details, antibiotics administered, and special interventions such as skin flaps or grafting and clinical outcome.Of the five, three patients received exclusive external beam radiation therapy (EBRT) and two were given intralesional brachytherapy and EBRT. Three received additional chemotherapy. 7/9 isolated organisms were multidrug-resistant mean 5.4 cycles of NPWT after aggressive debridement was needed to achieve healthy granulation tissue bed. Wounds were closed at median 31.5 days (three split-thickness split skin grafting, one local rotation flap, and one healing with secondary intention). We had two mortalities secondary to metastasis.

Conclusion

We recommend aggressive debridement, prolonged use of NPWT in infected irradiated wounds, and appropriate antibiotics with soft tissue cover by a multidisciplinary team to achieve good results.

Limb salvage: When, where, and how?

From an era where amputation was the only option to the current day function preserving resections and complex reconstructions has been a major advance in the treatment of musculoskeletal sarcomas. The objectives of extremity reconstruction after oncologic resection include providing skeletal stability where necessary, adequate wound coverage to allow early subsequent adjuvant therapy, optimising the aesthetic outcome and preservation of functional capability with early return to function. This article highlights the concepts of surgical margins in oncology, discusses the principles governing safe surgical resection in these tumors and summarises the current modalities and recent developments relevant to reconstruction after limb salvage. The rationale of choice of a particular resection modality and the unique challenges of reconstruction in skeletally immature individuals are also discussed. Striking the right balance between adequate resection, while yet retaining or reconstructing tissue for acceptable function and cosmesis is a difficult task. Complications are not uncommon and patients and their families need to be counseled regarding the potential setbacks that may occur in the course of their eventual road to recovery, Limb salvage entails a well orchestrated effort involving various specialties and better outcomes are likely to be achieved with centralization of expertise at regional centers.

Reconstruction using a pedicled upper arm fillet flap after excision of a malignant peripheral nerve sheath tumor: A case report

Non-salvageable extremities have been utilized for harvesting fillet flaps as part of the “spare parts” concept in traumatic and oncologic settings. Here we report on the use of a pedicled fillet flap of the upper arm for chest wall reconstruction after excision of a malignant peripheral nerve sheath tumor in a patient with neurofibromatosis. Pedicled flaps as part of the “spare parts” concept provide the advantage of reduced donor-site morbidity, immediate closure, intact vasculature, and adequate soft tissue coverage of large defects. Malignant peripheral nerve sheath tumor is a rare aggressive tumor with a poor prognosis that may result in large defects post resection. Limited data describes the use of pedicled fillet flaps of the upper extremity. We report the use of a pedicled fillet flap of the upper arm as a viable option that can be successfully used for coverage of soft tissue defects of the shoulder and chest wall post complex resections in an oncologic setting.

Limb salvage in musculoskeletal oncology: Recent advances

The treatment of musculoskeletal sarcomas has made vast strides in the last few decades. From an era where amputation was the only option to the current day function preserving resections and complex reconstructions has been a major advance. The objectives of extremity reconstruction after oncologic resection include providing skeletal stability where necessary, adequate wound coverage to allow early subsequent adjuvant therapy, optimising the aesthetic outcome and preservation of functional capability with early return to function. This article highlights the concepts of surgical margins in oncology, discusses the principles governing safe surgical resection in these tumors and summarises the current modalities and recent developments relevant to reconstruction after limb salvage. The rationale of choice of a particular resection modality, the unique challenges of reconstruction in skeletally immature individuals and the impact of adjuvant modalities like chemotherapy and radiotherapy on surgical outcomes are also discussed.

[Forearm osteomusculocutaneous free filet flap for arm reconstruction after amputation as an alternative to shoulder disarticulation]

We report the case of a 55-year-old woman suffering from a type I neurofibromatosis (also known as Von Recklinghausen neurofibromatosis) who was diagnosed with a high-grade schwannosarcoma of the median nerve, between the upper third and the medium third of the arm, upon contact with the humerus, invading the humeral vessels. The oncologic treatment of this tumour consisted in the amputation of the arm through the surgical neck of the humerus. In order to create a laterothoracic claw, to bring a partial function of the upper limb back, we decided to realize a free fillet forearm flap. This composite flap was composed of the radius and the ulna, all the forearm muscles and the skin of the anterior side of the forearm. A humeroradial plate osteosynthesis was done and the flap was then harvested with the radial pedicle, and anastomosed to the axillar artery. This procedure gave our patient a functional stump, giving back the arm functionality, especially the claw movement.

Reconstructive treatment of soft tissue sarcoma of the upper extremity

Limb-sparing surgery is currently the cornerstone of treatment for most patients with soft-tissue sarcoma of the upper extremity. To achieve the best outcome, the reconstructive surgeon must be part of a multidisciplinary team and is required to have a thorough understanding of the whole treatment concept. This article provides an update for the current surgical management of patients with soft tissue sarcoma of the upper extremity. Relevant nonsurgical aspects are also highlighted.