Introduction
75% of THAs dislocations are posterior. Anterior dislocation is a rare complication that has been associated with posterior osteophytes of the joint and anterior approach to the hip. It’s produced by extension, adduction, and external rotation of the lower extremity.1 Epstein described four types of anterior dislocations in native hip, classified into two groups:2 type 1 (superior dislocations), which includes pubic and subespinal dislocations and type 2 (inferior dislocations), including obturator and perineal dislocations. Obturator dislocation is an extremely rare complication among patients with THA; only three cases have previously been described in the literature,3,4,5 but this is the only one in which a disassembly of the prosthesis components occurred. We think that the patient morbid obesity could had contributed to this unique dislocation.
Case report
A 58-year-old woman with morbid obesity (BMI of 55) and a history of schizophrenia and arterial hypertension, was taken to the emergency room after a fall from standing height a week before, she was diagnosed with an intracapsular fracture of left hip and an ipsilateral Monteggia fracture-dislocation. Five years earlier, she’d suffered an intracapsular fracture of the right hip, treated with a THA.
Surgery was performed three days later; the hip was replaced through a posterolateral approach using a non-cemented THA with a ceramic polyethylene pairing (H-MAX stem, head number 36 and delta TT acetabular cup with polyethylene liner (Lima®, Italy)) (Figure 1).
On postoperative day 4, she developed a low-grade fever and purulent discharge through the surgical wound of the left hip. Laboratory analysis showed a CRP of 8.73 mg/dl, ESR of 83 mm and 8.80 × 1,000/μl leukocytes. With the presumed diagnosis of an early deep infection of the arthroplasty, it was decided to carry out a debridement and irrigation of the hip under general anesthesia and in the lateral decubitus position. The modular components (the polyethylene liner and ceramic femoral head) were exchanged and were tested carefully for stability. The remaining components were tested for loosening and left in situ. Several samples of joint and subfascial fluid collections, along with tissue from the femoral and acetabular regions were taken for culture.
While awakening from the general anesthesia, and as a consequence of a coughing reflex, the patient suffered a sudden uncontrolled adduction and external rotation of the left thigh while in lateral decubitus, which was difficult to control due to the difficulty in handling her large weight. Once the breathing tube was removed, she was placed in supine position and an intra-operative fluoroscopy showed an anterior dislocation of the THA. Under sedoanalgesia, closed reduction was initially attempted by longitudinal traction and internal rotation, to no success. Finally, it was decided to carry out an open reduction using the previous approach, in supine position. Through palpation, we realized that the femoral head was trapped in the obturator foramen and a periprosthetic fracture of the proximal femur was noticed too. Fluoroscopy confirmed a Vancouver B2 fracture (Figure 2). On account of these findings, it was decided to perform a CT scan of the join in order to study the dislocation and establish an appropriated action plan before handling the hip again. Empirical treatment with Vancomycin and Cefepime was initiated, and a skin traction of 3 kg was applied.
CT imaging confirmed a Vancouver B2 periprosthetic fracture, with varus displacement of the stem; it involved the anterior cortex and the lesser trochanter of the femur. In addition, CT confirmed an intrapelvic obturator dislocation of the prosthetic femoral head (Figure 3). The acetabular cup showed a correct position (45o of abduction and 15o of anteversion). Intraoperative cultures were positive for Enterococcus faecalis, Granulicatella adiacens and Bacteroides fragilis and empiric therapy was substituted by Ampicillin and Metronidazole according to the antibiogram.
We decided to perform a two-stage revision THA. The first stage was performed four days later, under general anesthesia and through the prior approach. The femoral prosthetic head was found disassembled from the stem and was located intrapelvically adjacent to the obturator foramen. The loose femoral stem was removed. We performed a careful dissection through the greater sciatic notch and through the obturator foramen. In order to avoid further intrapelvic migration of the prosthetic head, we placed a Hohmann retractor through the greater sciatic notch to buttress the femoral head, with attention not to injure the sciatic nerve. Using a finger through the obturator foramen, the femoral head was carefully guided through the foramen. Afterwards, we removed the acetabular cup and carried out an extensive lavage and debridement of the surgical site. Finally, a gentamycin-loaded polymethyl methacrylate cement spacer was inserted and the fracture was reduced and stabilized using a Cable cerclage (Figure 4).
A seven-week course of antibiotic treatment was completed, and negative-pressure wound therapy was applied until full cessation of wound discharge (VAC®, KCI Clinic). During this time, the patient placed in isolation due to a nosocomial catheter-associated infection caused by extended spectrum beta-lactamase producing Klebsiella pneumoniae. Further cultures of the wound exudate revealed coinfection by Pseudomonas aeruginosa, which responded favorably to amoxicillin and metronidazole. The second stage was performed nine weeks later, after confirming normalized laboratory markers of infection such as CRP, ESR and white blood cell count. We implanted a non-cemented modular revision stem (MP stem, Link®, Germany) and a dual mobility cup (Delta One TT, Lima®, Italy) (Figure 5).
The patient didn’t present any postoperative complications following the second stage surgery and was discharged to a Rehabilitation Facility for two months. Two years later, she’s currently asymptomatic: she walks with a crutch, without restrictions of her daily activities; there aren`t clinical, laboratory or radiological data suggesting recurrence of infection (Figure 6).
Discussion
Instability of the THA has been linked to several risk factors, some of which are patient-dependent: female gender, weakness of the abductors, infection, and comorbidities like alcoholism and obesity. A history of intracapsular hip fracture and femoral head necrosis has also been associated with an increased risk of dislocation of the implant, as well as revision surgery.1 Obesity is related to greater risk of dislocation, and it also increases the risk of developing both short-term and long-term complications after THA.6,7 Among patients with morbid obesity (BMI > 40 kg/m2), the incidence of complications increases, and it becomes higher with increasing BMI values.8
This case report highlights the difficulties encountered in the management of a morbidly obese patient who was treated for a femoral neck fracture with a delayed cementless total hip. She developed an early infection, and after early debridement with exchanged of head and liner, she sustained an anterior dislocation. Patient size hindered her peri-operative management, so an uncontrolled adduction and external rotation happened in lateral decubitus position; we think that the adduction together with the fact that her thigs had a considerable diameter, triggered an obturator dislocation of the prosthesis and supporting this suspicion, Elkins and cols observed that tight to tight contact can predispose to instability in obese patients with THA, and such instability was directly related to thigh girth.9
The obturator foramen is located anteroinferior and obliquely to the acetabulum and is covered over by muscles and a ligamentous membrane. Its dimensions are more triangular and smaller in females than in males,10 with a mean area of 12.2 ± 2.1 cm2 compared to a 10.18 cm2 circle area for a spherical 36-mm femoral head.11 In this type of dislocation, the prosthetic femoral head is in close relation to the obturator foramen and it may go through this foramen, because of its size. In this context, the obturator membrane acts like a buttonhole, and prosthetic femoral head can get caught in the obturator foramen. Repeated attempts of reduction might have disassembled the prosthetic head from the trunnion, because it was trapped in obturator foramen, despite being a fresh tapper. Disassembly of the inner head from the stem is a rare complication because a force of more than 427 kg is necessary to pull the head from the taper,12 some authors related the failure of the taper locking mechanism with the impingement of the head within the acetabulum after a hip dislocation,13,14 in our case obturator foramen and its membrane caused the impingement. This’s an obstacle to achieve a safely closed reduction, so a periprosthetic fracture is possible too. In any case, reduction maneuvers should be done with caution.15
Closed reduction has been described for obturator dislocations of native hips but published cases show that it´s difficult to achieve it in prosthetic hips.3,5 The impossibility of reduction may lead to untimely manoeuvres that increases the risk of producing a periprosthetic fracture, as in that case. However, we cannot exclude that the fracture was produced by the trauma that led to the dislocation or even it might has occurred intraoperatively during primary arthroplasty; we dismissed this possibility with postoperative X-ray control (Figure 1), neither signs of fracture were detected during early debridement surgery. We noticed the periprosthetic fracture with loose stem performing an open reduction after the dislocation.
Obturator dislocation has been described as case reports in native hips; in prosthetic hips it is an extremely rare complication. Glassner et al.3 published the case of a 29-year-old male, which suffered an obturator dislocation of THA following a high-energy motor-vehicle accident; in this case, closed reduction attempts failed, so they performed an open reduction by posterior approach. By contrast, Day et al.4 released a similar case, treated successfully by closed reduction. Niciejewski et al,5 described a 55-year-old woman who presented an obturator dislocation 16 day following a THA and they treated her directly by open reduction. None of them described a component disassembly of the prosthesis, besides us.
Conclusion
Therefore, in case of an anterior dislocation of THA, we must consider the possibility of an obturator dislocation which makes difficult a safe closed reduction, so reduction maneuvers should be done with caution in order to minimizing the risk of complications, such as peri-prosthetic fractures or prosthetic disassembly. If close reduction of the arthroplasty isn’t possible, it is mandatory to carry out an open reduction.