To appreciate the role of MCP arthroplasty in JRA and compare/contrast silastic arthroplasty and pyrocarbon arthroplasty.
Introduction
Juvenile idiopathic arthritis (JIA) is the most common chronic rheumatic disease of childhood [1]. JIA encompasses a group of arthritides that are distinct from adult arthritic disease, requiring onset before 16 years of age and greater than 6 weeks duration [1]. In Europe and North America, its incidence and prevalence have been reported between 2–20 and 16–150 per 100,000, respectively [1]. One study noted that the most frequent joints involved are the knees, ankles, and elbows, followed by wrist and metacarpophalangeal (MCP) joint at 24% and 21% involvement, respectively [2]. By 5 years, MCP joint involvement had increased to 38% [2].Conservative management of JIA includes medications, splinting, and corticosteroid injections [3]. If patients are resistant to traditional therapy with methotrexate, biologic therapy is attempted [3]. Frequently JIA can be controlled with just these steps and can even result in remission early in life [1, 3]. However, in some patients, the destructive process can progress, greatly impacting quality of life and ability to function. In this population, surgical intervention with MCP joint arthroplasty may serve as an alternative treatment to relieve pain and improve hand function.While there have been a number of studies on MCP joint replacement in osteoarthritis and rheumatoid arthritis of adults, there are none that discuss outcomes of MCP joint replacement in this population. A literature review showed that total joint replacement in patients with JIA can have good survival at 10 years, but has high rates of revision, as would be expected in young patients. In this article, we present two cases of patients with JIA involving the MCP joint treated with arthroplasty with greater than 5 years follow-up.
Case Report 1
A 21-year-old right-handed female with history of JIA involving the knees, ankles, wrists, and hands presented with increasing pain and limited use of her right fingers. She began having symptoms at 6 years old affecting bilateral knees and ankles and was formally diagnosed at 9 years old. Initially, she was treated with methotrexate and hydroxychloroquine. She also had intra-articular corticosteroid injections performed to both knees. She, later, developed severe progressive disease in her wrists and hands requiring bilateral wrist fusions 11 years after diagnosis. Her disease progressed to affect her right hand MCP joints resulting in significant pain and deformity (Fig. 1). She failed splinting and conservative treatment and went on to have total arthroplasty of her index through small finger MCP joints.
Figure 1
Pre-operative radiographs of patient’s right hand following wrist arthrodesis and demonstrating significant MCP subluxation and arthritis: AP view (left), oblique view (middle), and lateral view (right).
Pre-operative radiographs of patient’s right hand following wrist arthrodesis and demonstrating significant MCP subluxation and arthritis: AP view (left), oblique view (middle), and lateral view (right).A dorsal surgical approach was used to centralize the extensor tendon and rebalance the soft tissues, followed by MCP arthroplasty of joints 2 through 5 (Fig. 2). After approximately 3 weeks of immobilization, the patient graduated to an MCP extension resting splint and started hand therapy. The ROM initially improved, as shown in Table 1, followed by a later decrease in the long and ring finger ROM.
Figure 2
Radiographs at 1 month post-operation showing well-aligned MCP implants: AP view (left), oblique view (middle), and lateral view (right).
Table 1
Patient range of motion.
Radiographs at 1 month post-operation showing well-aligned MCP implants: AP view (left), oblique view (middle), and lateral view (right).Patient range of motion.The patient was followed for 7 years after the surgery requiring no reoperation or revision. At final follow-up, the patient had finished school and worked as a receptionist for 5 years before becoming a stay-at-home mom. Her post-operative course was free of clinical complications. However, radiographically her findings are worrisome with significant subsidence and recurrent deformity (Fig. 3). Overall, clinically she remains satisfied with her hands as they allowed her to retain most of her daily activities.
Figure 3
Radiographs at 7 years follow-up of patient’s right hand: AP view (left), oblique view (middle), and lateral view (right). Despite good pain relief, note the ulnar drift of the digits and implant subsidence.
Radiographs at 7 years follow-up of patient’s right hand: AP view (left), oblique view (middle), and lateral view (right). Despite good pain relief, note the ulnar drift of the digits and implant subsidence.
Case Report 2
The second patient was a 14-year-old right-handed female with a 9-year history of JIA manifested by pain and decreased ROM in her wrists, MCP joints of both hands, and elbows. The patient presented with increasing flexion contractures of the MCP joints of the right hand as well as volar subluxation of all five fingers of the right hand (Fig. 4). She had taken methotrexate and naproxen since age 7; however, at this time, she had been off her medication for 3 months. Besides contractures, she also lacked fingertip pinch, causing her to hold pens across the mid-portion of the palm while at school. While she maintained coronal plane alignment of her digits, she had notable subluxation and flexion contractures of the MCP joints. Due to the flexion contractures and increasing difficulty with activities of daily living (ADL), the decision was made to proceed with intrinsic muscle releases, capsular releases, and synovectomies of MCPs 2 through 5 on the right hand and possible arthroplasty (depending on intraoperative findings), with right thumb MCP synovectomy versus arthrodesis.
Figure 4
Pre-operative radiographs of patient’s right hand illustrating significant MCP arthritis of the digits and thumb: AP view (left), oblique view (middle), and lateral view (right).
Pre-operative radiographs of patient’s right hand illustrating significant MCP arthritis of the digits and thumb: AP view (left), oblique view (middle), and lateral view (right).A dorsal surgical approach was used for all fingers. Intraoperatively, there was complete loss of articular cartilage of the long and ring fingers, and silicone MCP arthroplasties were utilized for those joints. The index and little fingers had sufficient articular cartilage, so they received intrinsic muscle releases, capsular release, synovectomies, and temporary pinning of the MCP joints. The thumb also had complete loss of the articular cartilage and, therefore, proceeded with a fusion of the MCP joint of the thumb (Fig. 5). Postoperatively, a dorsal outrigger with extension slings to the thumb and fingers was used as well as a resting night splint to hold her fingers in neutral extension, though she did not use them consistently. Hand therapy was performed twice a day for 2 weeks beginning 2 weeks after surgery.
Figure 5
Radiographs of patient’s right hand 2 months post-operation show successful thumb fusion and well-aligned digits: AP view (left), oblique view (middle), and lateral view (right).
Radiographs of patient’s right hand 2 months post-operation show successful thumb fusion and well-aligned digits: AP view (left), oblique view (middle), and lateral view (right).At final follow-up, the patient reported that her pain was greatly reduced, though her function in prehensile pinch and grip only improved slightly, with thumb abduction interval increasing from 3.0 cm to 4.5 cm. The patient’s ROM improved over time, as shown in Table 1. Extension was improved but not fully. She otherwise had revision-free survival of the implant for 5.2 years of follow-up after the surgery and did not develop any complications (Fig. 6).
Figure 6
Radiographs at over 5 years post-surgery of Patient 2’s right hand demonstrating maintenance of the alignments with stable implants: AP view (left), oblique view (middle), and lateral view (right).
Radiographs at over 5 years post-surgery of Patient 2’s right hand demonstrating maintenance of the alignments with stable implants: AP view (left), oblique view (middle), and lateral view (right).
Discussion
Given the rare nature, no studies exist on the outcomes of MCP joint arthroplasty in this population. The previous literature has described the successful use of MCP joint arthroplasty in other inflammatory arthritides (e.g., rheumatoid arthritis); however, typically in older patients. Chung et al. found significant functional and ROM improvement in MCP joints after arthroplasty, with improvements in Michigan Hand Outcomes Questionnaire function and ADL scores of 23 and 16 points, respectively [4]. Studies have also reported a 20–34 degree improvement in ulnar deviation and 9 degree improvement in arc of motion at the MCP joint [4, 5] However, silicone-based implants have a rate of fracture around 9–10% in larger-sized studies, though higher rates have been reported [4, 5]. Kirschenbaum et al. followed patients for an average of 8.5 years and had a revision rate of 2–3% [5], while Chung et al. reported the same revision rate during a 3 year follow-up study [4]. Although direct comparison is not possible to these studies, the patients in our study also experienced improvement in range of motion and reasonable implant survival.Despite JIA also being an inflammatory arthritide, the use of MCP joint arthroplasty in young patients presents unique challenges. Inserting an implant at an early age makes it susceptible to prolonged wear and tear, which may lead to failure. In addition, depending on the physiologic stage, children will continue to grow which may change the bone, soft tissue, and forces experienced at each joint.A literature review of PubMed was performed using the search terms “arthroplasty” and “juvenile arthritis” since 2012 in the English language. This gave 22 results, which were then limited to articles addressing long-term outcomes and survival, excluding case reports, leaving ten journal articles. There were no articles addressing MCP joint arthroplasty.Overall, joint replacement in young patients with JIA has shown reasonable survivorship with rates ranging from 70 to 95% at 10 years, with implants surviving longer in older patients [6, 7, 8, 9, 10, 11, 12, 13, 14]. However, rates of revision remain high (8.9–29%) as is expected in young patients [6, 7, 10].In our patients, it was believed that surgical intervention was indicated given the persistent severe pain and dysfunction despite exhaustive medical treatment. Given the lack of a standard treatment protocol in this situation, it was thought that MCP joint arthroplasty would provide the patient with the best opportunity for a functional hand and pain relief. Based on the medium-term radiographic outcomes, it appears that silicone is a better choice of implant for JIA when compared to pyrocarbon.
Conclusion
Medical treatment commonly results in improvement or remission of JIA; however, in rare cases, surgical treatment may be necessary. These two cases demonstrate successful treatment of JIA with MCP joint arthroplasty, improving pain, and function. Silicone implants fared better radiographically but had limited functional improvement compared to pyrocarbon, though more studies would be necessary to identify, in which implant provides better outcomes for this population. Recognizing the limitations and risks with arthroplasty in young patients, we do not recommend that MCP joint arthroplasty should be routinely performed; however, in cases that are recalcitrant to medical and conservative treatment, MCP arthroplasty may be considered a viable option to improve pain and function.In patients with severe JIA, MCP joint arthroplasty can relieve pain and improve functional use of the hands. At minimum 5.2 years follow-up, silastic implants fared better radiographically than pyrocarbon implants.Declaration of patient consent : The authors certify that they have obtained all appropriate patient consent forms. In the form, the patient has given the consent for his/ her images and other clinical information to be reported in the journal. The patient understands that his/ her names and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.Conflict of interest:Nil Source of support:None
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