BACKGROUND

 

 

The adductor compartment of the thigh is the second most common site for soft tissue tumors of the thigh, preceded by the anterior (quadriceps) compartment. Although resection of the muscular elements of this compartment does not considerably affect overall function of the lower extremity, the proximity of the major neurovascular bundle (NVB) of the lower extremity requires special attention in the preoperative evaluation process and during tumor resection.

 

Tumors arising within the adductor compartment are often extremely large at presentation. As they enlarge, they often displace the superficial femoral and profundus vessels, and they may involve the extrapelvic floor musculature (obturator fascia) and bone (superior and inferior pubic rami and ischium) and even extend extracompartmentally to the medial hamstrings or the psoas muscle and the adjacent hip joint. These anatomic characteristics often make resection extremely difficult. Such large tumors were traditionally treated with amputation (ie, hemipelvectomy). Availability of effective chemo- and radiotherapeutic regimens has allowed the execution of limb-sparing resections at that site with low rates of local tumor recurrence.

 

Lipomas and low-grade liposarcomas, which are the most common tumor type at that site, are usually removed easily with their enveloping capsule without having to manipulate the vascular bundle. High-grade soft tissue sarcomas, however, may grossly adhere to and surround the vascular bundle and require partial or complete resection of the involved bundle segment. Therefore, a limb-sparing tumor resection at that site begins with dissection and preservation of the superficial femoral vessels.

 

Large high-grade sarcomas usually necessitate ligation of the profundus femoris artery. The surrounding adductors are then detached from their origin along the inferior and superior pubic rami and ischium and removed en bloc with the tumor. Reconstruction of the soft tissue defect remaining after tumor resection is usually done by transferring the sartorius muscle and the remaining medial hamstrings.

 

ANATOMY

 

The adductor compartment of the thigh consists of the adductor magnus, brevis, and longus; the gracilis muscles; and the major vascular bundle of the lower extremity. Compartmental muscles arise from the pelvic floor and the medial aspect of the ipsilateral pelvic ring (symphysis pubis, inferior pubic ramus, ischium, and obturator fascia) and attach distally to the linea aspera and the medial aspect of the distal femur.

 

The superficial femoral artery passes along the anterior and lateral margins of the entire compartment and forms the lateral border. This compartment is best thought of as an inverted funnel, with the base being the obturator ring and fascia, the lateral border being the femur and linea aspera, and the tip of the cone being the adductor hiatus (FIG 1).

 

INDICATIONS

 

Benign soft tissue tumors of the adductor compartment Soft tissue sarcomas of the adductor compartment

 

 

CONTRAINDICATIONS

 

Approximately 95% of high-grade soft tissue sarcomas and almost all low-grade sarcomas of the adductor group can be safely resected.

 

Today, amputation is rarely indicated. There are, however, several contraindications to limb-sparing surgery.

 

In general, a combination of several contraindications is required, most of which are related to extremely large tumors. In those cases, we recommend induction chemotherapy or isolated limb perfusion and repeated

 

staging studies before a definitive decision is made regarding amputation.2,3 Contraindications to limb-sparing surgery include the following:

 

 

Major neurovascular involvement Pelvic floor involvement

 

Extensive extracompartmental extension

 

IMAGING AND OTHER STAGING STUDIES

 

Preoperative staging studies must evaluate the sartorial canal, pelvic floor, medial hamstrings, ischium, psoas muscle, and hip joint to determine the full extent of bone and soft tissue involvement; plain radiographs, computed tomography (CT), and magnetic resonance imaging (MRI) of the affected thigh, ipsilateral hip joint, and hemipelvis are indicated.

 

Most adductor tumors displace the superficial femoral vessels but rarely directly involve these structures (FIG 2). The profundus femoris artery, on the other hand, is often involved and must be ligated as it passes through the adductor brevis. The obturator artery and nerve, which pass through the obturator fascia, are routinely ligated.

 

In light of the earlier discussion, preoperative vascular evaluation of the patient should include direct questioning about intermittent claudication, limb swelling, and deep vein thrombosis. Vascular evaluation should include, in addition to physical examination, ankle-brachial pressure index and duplex ultrasound scanning of the femoral arteries and veins in the affected leg and of the greater saphenous vein in both legs.

 

Underlying chronic obstructive arterial disease should prompt liberal use of angiography, CT angiography, or magnetic resonance (MR) angiography. Biplanar angiography,

 

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especially in patients older than 40 years of age, should be done to evaluate the patency of the superficial femoral artery: Ligation of the profundus artery without a patent superficial femoral artery will lead to a nonviable extremity.

 

 

 

FIG 1 • A. Anatomic structures of the adductor compartment. B. Crosssectional anatomy of the adductor group. The sartorial canal is opened.

 

 

In the past, angiography was also used preoperatively to outline the course of the vascular bundle within the affected thigh and to assess the likelihood of vascular reconstruction. Highdefinition MR scans provide the same useful information.

 

Availability of high-definition MR scans provides the same useful information.

 

The bony structures of the pelvic floor are the closest margin for large sarcomas that arise within this muscle group. Occasionally, tumors arising from the pelvic ring require resection of the pelvic floor (type III pelvic resection) if negative margins are to be obtained in conjunction with a formal adductor group resection. Rarely, proximal adductor tumors may extend as a dumbbell around the ischium into the ischiorectal fossa. The possibility of such extension must always be evaluated preoperatively (FIG 3).

 

The medial hamstrings also take their origin from the ischium. There is no intermuscular septum separating the adductor group from the posterior hamstrings proximally; therefore, extracompartmental extension may occur between the adductor muscles and the medial hamstrings as these tumors enlarge proximally. Adequate resection may require partial medial hamstring resection.

 

 

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FIG 2 • A. CT showing large sarcoma of the proximal adductor compartment with displacement of the common femoral vascular bundle. Although the vessels are considerably displaced, a plane of dissection is evident between them and the tumoral mass. B. Positron emission tomography (PET) scanning is particularly useful in evaluation of sarcoma extension within the adductor compartment.

 

 

 

 

 

FIG 3 • A. Axial MRI showing a sarcoma of the adductor compartment. B. Coronal section showing a dumbbell-shaped extension around the ischium into the pelvic cavity.

 

TECHNIQUES

• Incision and Exposure

The incision extends from the proximal border of the inguinal region just inferior to the sartorius muscle and parallels the muscle to the posteromedial aspect of the knee to include the previous biopsy site (TECH FIG 1A). This incision permits large anterior and posterior flaps to be developed to visualize the

 

vastus medialis, the sartorial canal, and the entire adductor compartment. The incision can be extended to expose the popliteal space medially if required. The superior extent may have to be T'd along the border of the inferior pubic ramus if there is a large soft tissue component extending to the obturator fossa and ischium.

 

Large anterior and posterior fasciocutaneous flaps are elevated and retracted anteriorly to expose the vastus medialis and the sartorial canal and posteriorly to the lower edge of the adductor muscle group (TECH FIG 1B,C). The biopsy site is left en bloc with the underlying adductor muscles.

 

The sartorius muscle is the key to the dissection of the entire muscle group. The sartorial canal is opened proximally to identify the common femoral artery before ligating the profundus vessels. The muscles are detached from their origin (superior and inferior pubic rami) and along the obturator foramen. The dissection continues from proximal to distal: The obturator vessels, then the profundus femoral vessels, are ligated and transected (TECH FIG 1D,E).

 

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TECH FIG 1 • A. The incision extends from the proximal border of the inguinal region just inferior to the sartorius muscle and parallels the muscle to the posteromedial aspect of the knee to include the previous biopsy site. B,C. Large anterior and posterior fasciocutaneous flaps are elevated and retracted anteriorly to expose the vastus medialis and the sartorial canal and posteriorly to the lower edge of the adductor muscle group. D. Release of the adductor muscles from their insertions. The adductor magnus and longus are detached from their insertions on the femur throughout its length to the adductor hiatus. The adductor

magnus tendon is then transected distally. A finger is inserted into the adductor hiatus to guide the cautery and protect the underlying vessels. E. The surgical defect following resection. (Courtesy of Martin M. Malawer.)

• Tumor Resection

   

  Lipomas are removed with their enveloping capsules.

   

  Low- and high-grade sarcomas, however, require en bloc removal of an overlying cuff of adductor musculature (TECH FIG 2).

   

  Vascular involvement without a plane of dissection necessitates en bloc resection of the involved vascular segment (TECH FIG 3).

   

   

   

  TECH FIG 2 • A. Axial MRI of the midthigh showing a well-differentiated liposarcoma of the adductor compartment. B. The tumor is well encapsulated and can be safely removed with a narrow cuff of adductor musculature. (continued)

   

   

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  TECH FIG 2 • (continued) C. Completion of tumor removal. The remaining structures to be transected are the insertions onto the distal femur as well as portions of the gracilis muscle if required. The entire tumor is then removed and the wound is inspected. The superficial femoral artery and vein are inspected for any leaks. The cut edge of the muscles along the femur may be oversewn for hemostasis. If there is a large adductor tumor, occasionally, a portion of the proximal medial hamstrings must also be removed en bloc.

   

   

   

  TECH FIG 3 • A. High-grade sarcoma of the adductor compartment extending into the superficial femoral vessels. Note the metal clip over the profundus femoral artery stump at the tumor bed. B. Blood vessels are suture-ligated and removed en bloc with the tumor. C. Gross surgical specimen. (C: Courtesy of Martin M. Malawer.)

• Vascular and Soft Tissue Reconstruction

 

Resection of only a portion of the circumference of the artery for a short segment may be repaired by autologous vein patch. End-to-end anastomosis of a full circumferential resection is likely to be associated with considerable tension, and an interposition graft is required in those cases. Such reconstruction should preferentially be carried out with autologous tissue, primarily the greater saphenous vein (TECH FIG 4).

 

It is best to use the vein from the contralateral thigh to preserve venous drainage as much as possible around the primary surgical site. This is particularly important when the femoral vein has to be ligated because of tumor extension around it or because of inadvertent injury. If the greater saphenous vein is inadequate or has been previously removed, the use of a prosthetic conduit is acceptable.

 

Use of an arm vein graft, although more time-consuming, provides a better long-term solution. If the superficial femoral artery is chronically occluded, removal of the occluded segment is of no direct consequence. Careful intraoperative and postoperative evaluation of the profunda collaterals is mandatory; construction of a femoral popliteal bypass is done at the first sign of calf and foot ischemia.

 

Reconstruction of the superficial femoral vein after en bloc resection with the tumor is more controversial. It is time-consuming and associated with high failure rates, even when a prosthetic material is used.

Ligation is therefore a valid option in most of these cases.

 

Prophylactic calf fasciotomy is strongly advised in patients in which superficial femoral arterial reconstruction and venous ligation were done and compromise of the venous collaterals is anticipated.

 

The sartorius muscle is mobilized to cover the vascular bundle. Fasciocutaneous flaps are closed with

interrupted layers of sutures over suction catheters.

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TECH FIG 4 • Vascular reconstruction with autologous greater saphenous vein.

 

 

 

PEARLS AND PITFALLS

Radiographic considerations ▪ Preoperative imaging of the entire adductor compartment and pelvic floor as well as detailed vascular evaluation Intraoperative considerations ▪ Full exposure of the vascular bundle before tumor resection

• En bloc resection and reconstruction of affected vascular segments

• Prophylactic calf fasciotomy if arterial reconstruction and venous ligation were done

 

 

POSTOPERATIVE CARE

 

Continuous suction is required for 3 to 5 days, and perioperative intravenous antibiotics are continued until the drainage tubes are removed.

 

Full weight bearing is allowed as tolerated.

OUTCOMES

Resections around the adductor compartment are usually associated with minimal loss of function. Limb edema, however, may occur in patients who had vascular reconstruction and venous ligation. Adjuvant

 

radiation therapy also increases the likelihood of chronic limb edema, which can be managed with

lymphatic drainage.

Patients who require a vascular reconstruction have similar rates of local tumor control and systemic relapse compared with patients who have not. However, these patients have higher chances of wound

complications and deep vein thromboses.1

 

 

COMPLICATIONS

Deep wound infection Vascular insufficiency Deep vein thrombosis Flap ischemia

Local tumor recurrence

 

 

REFERENCES

1. Ghert MA, Davis AM, Griffin AM, et al. The surgical and functional outcome of limb-salvage surgery with vascular reconstruction for soft tissue sarcoma of the extremity. Ann Surg Oncol 2005;12: 1102-1110.

    

    

2. Gutman M, Inbar M, Lev-Shlush D, et al. High-dose tumor necrosis factor-alpha and melphalan administered via isolated limb perfusion for advanced limb soft tissue sarcoma results in a >90% response rate and limb preservation. Cancer 1997;79:1129-1137.

    

    

3. Henshaw RM, Priebat DA, Perry DJ, et al. Survival after induction chemotherapy and surgical resection for high-grade soft tissue sarcoma. Is radiation necessary? Ann Surg Oncol 2001;8:484-495.