Abstract
Giant cell tumor (GCT) of the distal end of the ulna is an uncommon site for primary bone tumors. When it occurs, en-bloc resection of the distal part of the ulna with or without reconstruction stabilization of the ulnar stump is the recommended treatment. We present a case of a 56-year-old man with a GCT of the distal ulna treated successfully with an en-bloc resection of the distal ulna with reconstruction using radioulnar joint prosthesis. Although the experience with this type of treatment is limited, implantation of a metallic prosthesis to replace the distal part of the ulna can also be considered as a salvage procedure for the treatment of this difficult pathology.
Keywords: Distal ulna, Giant cell tumor, Resection, Radioulnar prosthesis
Introduction
Giant cell tumor (GCT) of bone is a rare, benign, but locally invasive neoplasm, accounting for 3–5% of all primary bone tumors [1, 2]. Usually, these tumors involve the distal femur, proximal tibia and distal radius of skeletally mature individuals [3]. However, the location of the distal ulna is very unusual, with a reported incidence from 0.45 to 6% [4–15]. When this occur, the treatment of choice is controversial. However, en-bloc resection of the distal part of the ulna with or without reconstruction stabilization of the ulnar stump is the recommended treatment for distal ulna CGT [6–8], although in some cases with excessive resection of the distal ulna, residual pain due to impingement, impaired gripping and reduced load bearing are those most frequently experienced [15]. Is for this reason that the radioulnar joint prosthesis can be a valid option as a salvage procedure for the treatment of this difficult problem [16]. However, the clinical experience with this prosthesis after en-bloc resection of CGT in the distal ulna is limited, although it seems to be that the initial results are promising [10, 11, 13].
The purpose of this report is to review the literature of the distal ulna GCT and to present another case with this localization that was treated successfully with resection of a large distal ulnar segment followed by reconstruction with radioulnar prosthesis.
Case report
A 56-year-old man presented with a 6-month history of pain in his non-dominant left wrist. Although the range of motion of the wrist was normal, the distal end of the ulna was enlarged and tender. Radiographs revealed a multilobular and radiolucent area with a clear margin in the distal ulna (Fig. 1). A CT scan showed a lesion measuring 8 cm in length and 4 cm in width, expanding and partly destroying the thin cortex. On T1-weighted MRI images, the lesion showed a low-intensity signal and on T2-weighted images with fat suppression, a heterogeneous high-intensity signal (Fig. 2). Plain chest radiographs and a CT scan of the thorax and abdomen were normal without evidence of metastasis.
Fig. 1.
Postero-anterior (a) and lateral (b) radiographs of the distal forearm and wrist show a multilobular and radiolucent area with a clear margin in the distal end of the ulna
Fig. 2.
MRI of the wrist. On T1-weighted image with fat suppression, the lesion showed a low-intensity signal (a), while on T1 coronal turbo-spin-echo (TSE) weighted image (b), a heterogeneous high-intensity signal was observed
The work-up diagnosis was primary GCT, which was confirmed by trucut biopsy. The patient underwent a wide en-bloc resection of a GCT of the distal ulna, including the triangular fibrocartilage complex, the ulnar border of the pronator quadratus and part of the distal radioulnar joint capsule, with immediate reconstruction of the distal radioulnar joint (DRUJ) using a radioulnar joint prosthesis (APTIS MEDICAL, Louisville, Kentucky, USA) [16]. This semi-constrained prosthesis was used to substitute the deficiency created by the absence of soft tissue support of the DRUJ and to address the gross instability of the remaining ulna caused by a large segmental resection. In our case, 2 cm of radiographically normal-appearing proximal ulnar bone was resected in order to achieve a wide safety margin. The total amount of bone removed from the distal end of the ulna was 10 cm long. As a consequence of this, we placed one short diaphyseal fibular intercalary allograft between the ulnar stump and the ulnar stem prosthesis in order to cover the total surface of the plasma coating implant within the ulna (Fig. 3).
Fig. 3.
Post-operative postero-anterior (a) and lateral (b) radiographs, showing the radioulnar joint prothesis in place. Note the intercalary allograft between the ulnar stump and the ulnar stem prosthesis in order to stabilize the implant
After the chirurgical intervention, we applied a well-padded short-arm splint. The splint remains in position for 2 weeks at which time sutures are removed and range of motion exercises are started. The tumor was sent for routine gross, histological and pathological examinations. Histologically, the lesion was a typical CGT composed of a large number of uniformly distributed osteoclast-like giant cells in a bland stroma of spindle-shaped mononuclear cells. Mitotic figures were absent, and surgical margins were free of tumor.
The functional results were evaluated using two scoring system: the Ferracini et al. score [7], based on range of motion, pain level, muscle strength and the presence or absence of ulnar impingement and ulnar or carpal instability and Mayo wrist score [17], based on pain intensity, functional status, range of motion and grip strength. With the Ferracini et al. [7] score, the patient achieved excellent results, scoring 18 out of 18 points at 6 and 12 months post-operatively, and with respect to the Mayo wrist score [17], the patient achieved a score of 82 (good) and 92 (excellent) at 6 and 12 months, respectively.
The oncologic results showed a good evolution with no evidence of local recurrence at 2-year follow-up. The patient’s wrist was free from pain, and measurements of active range of motion, hand grip and key pinch strength at 2 years post-operatively are shown in Tables 1 and 2, respectively.
Table 1.
Range of motion of right and left wrist
| Range of motion | Right | Left |
|---|---|---|
| Palmar flexion | 80 | 80 |
| Dorsiflexion | 70 | 70 |
| Ulnar deviation | 40 | 35 |
| Radial deviation | 20 | 15 |
| Supination | 80 | 80 |
| Pronation | 85 | 80 |
Measurements were calculated in degrees using a goniometer 2 years post-operatively
Table 2.
Bilateral measurements of hand grip and key pinch strength (kg) were calculated using JAMAR dynamometer
| Right | Left | |
|---|---|---|
| Hand grip strength | 44.6 | 40.2 |
| Key grip strength | 14 | 13.4 |
Measurements are the average of three trials
Discussion
Giant cell tumor of bone is rare. The reported annual incidence ranges from 0.65 to 1 cases per million population and affects people between 20 and 40 years of age and is more common in women than in men [18, 19]. Nearly 50% of the cases occur in the region of the knee. The distal radius is the third most common site for GCT, accounting for approximately 10% of cases [18, 20, 21]. However, the location of the distal ulna is very unusual, with a reported incidence from 0.45 to 6% [4–15]. When this occur, various treatment options have been proposed, including intralesional curettage, curettage and bone grafting, cryotherapy of the cavity after curettage, application of phenol after curettage, radiation, insertion of methylmetacrilate cement in the cavity after curettage, resection followed by allograft, en-bloc resection with or without reconstruction or stabilization of the ulna and prosthetic reconstruction [22]. Of these, en-bloc resection of the distal part of the ulna maintaining extra-lesional margins with or without reconstruction or stabilization of the ulnar stump is the more oncologically advantageous treatment for GCT located in this area [6–8]. According to Cooney et al. [6], reconstruction of the osseous defect after resection of a neoplasm of the distal end of the ulna, including GCT, is usually not necessary to maintain function. Similar results were observed by Wolfe et al. [8] in a multicenter study over wide excision of the distal ulna. However, other authors disagree because stabilization of the distal ulna following large resection, as a our case, can be a significant clinical problem with associated pain and weakness due to a decreased interosseous space with ulnar stump impingement on the radius metaphysis or instability of the radiocarpal joint with ulnar translation of the carpus [23–25]. For this reason, they suggest that soft tissue stabilization of the ulnar stump should be performed whenever possible. Although an oncological prosthesis per se is currently not available to reconstruct the distal ulna following the resection of a tumor, when all of the soft tissue support is removed from the distal ulna (fundamentally, the triangular fibrocartilage complex and the interosseous membrane), the radioulnar joint prosthesis can be an option in order to replace the gross instability of the remaining ulna caused by a large segmental resection [26]. In this sense, several prostheses have been designed for replacement of the DRUJ. However, most of them are designed to be used in patients with intact soft tissue and stabilizing ligaments at the DRUJ. These devices, therefore, are not appropriate for use in patients who have undergone resection of the DRUJ, because anteroposterior stability is not fully restored and suturing soft tissue limits mobility. However, the APTIS prosthesis can be used successfully to reconstruct and stabilize the DRUJ following the resection of a large tumor, which in this case was a giant cell tumor of the distal ulna. Moreover, the fully constrained prosthesis provided the patient the ability to return to reasonable function following the resection of a large distal segment of the ulna, although other prosthesis models have been used with good results (Table 3).
Table 3.
GCT of the distal ulna treated by en-bloc resection of distal ulna and reconstruction with radioulnar joint prosthesis. A literature review
| Author | Year | Prosthesis | Follow-up | ROM | HG | KP | Result | |||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| DF | PF | UD | RD | S | P | |||||||
| Pirela-Cruz et al. | 2008 | APTIS® | 13 m | 70 | 65 | 45 | 24 | 70 | 80 | 40 | 12.8 | E |
| Roidis et al. | 2007 | E-Centrix® | 2 years | Full | ND | ND | E | |||||
| Burke et al. | 2009 | STABILITY® | 9 m | Full | ND | ND | E | |||||
| Gracia et al. | 2011 | APTIS® | 2 years | 80 | 70 | 35 | 15 | 80 | 80 | 44.6 | 13 | E |
m months, Y year, ND not done, DF dorsiflexion, PM palmar flexion, UD ulnar deviation, RD redial deviation, S supination, P pronation, E excellent, ROM range of movement
Although conclusions cannot be drawn from some cases and long-term studies are required, radioulnar joint prosthesis for reconstruction after resection of a large segment of the distal ulna for GCT can be a valid option in order to reestablish the mechanical continuity of the forearm, reducing pain and improving strength and function.
Open Access
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