- Case report
- Open Access
- Open Peer Review
Recurrent spontaneous hip dislocation in a patient with neurofibromatosis type 1: a case report
© Galbraith et al; licensee BioMed Central Ltd. 2011
- Received: 23 June 2010
- Accepted: 16 March 2011
- Published: 16 March 2011
Neurofibromatosis type-1 is a common genetic disorder which often affects the skeleton. Skeletal manifestations of neurofibromatosis type-1 include scoliosis, congenital pseudarthrosis of the tibia and intraosseous cystic lesions. Dislocation of the hip associated with neurofibromatosis type-1 is a rare occurrence and is underreported in the literature.
We report a case of hip dislocation resulting from an intra-articular neurofibroma in an 18-year-old Caucasian woman following minor trauma. This was originally suggested by the abnormalities on early radiographs of her pelvis and later confirmed with computed tomography and magnetic resonance imaging. Treatment was successful with skeletal traction for six weeks with no further hip dislocations at a 12-year follow-up.
This case illustrates the radiological features of this rare complication of neurofibromatosis type-1 using the modalities of plain radiograph, magnetic resonance imaging and computed tomography reconstruction. The radiological images give a clear insight into the mechanism by which neurofibromatosis type-1 leads to hip dislocation. It also demonstrates one treatment option with excellent results on long-term follow-up.
- Femoral Neck
- Compute Tomography Reconstruction
- Common Genetic Disorder
- Skeletal Traction
Neurofibromatosis type 1 (NF-1) is one of the most common autosomal dominant disorders affecting humans. It is estimated to affect 1 in 3,000 newborns and 1,000,000 people worldwide . Friedrich Daniel von Recklinghausen, a German pathologist, was first to describe the neural involvement within affected tissues; hence, the association of his name with this disease. It is a disease involving tissues of ectodermal and mesoectodermal origin, particularly affecting skin, subcutaneous tissue, peripheral nerves and the skeleton.
The clinical features of NF-1 include: cafβ-au-lait spots, Lisch nodules, axillary freckling, optic gliomas and peripheral neurofibromas. NF-1 is a disease deeply relevant to orthopaedic surgery. Patients with NF-1 may present with characteristic orthopaedic manifestations such as scoliosis, congenital pseudoarthrosis of the tibia and limb hypertrophy. Intraosseous cystic lesions, periosteal bone proliferation coxa valga and protrusion acetabuli have also been reported .
Dislocation of the hip associated with NF-1 is a rare occurrence. A comprehensive review of the literature revealed 12 cases of hip dislocation attributed to NF-1. We report a case of recurrent hip dislocation resulting from an intra-articular neurofibroma in an 18-year-old woman.
An 18-year-old Caucasian woman with a history of NF-1 presented to the emergency department with pain in her left hip following minor trauma. She had tripped over her dog and landed on her left side. NF-1 had been diagnosed clinically in childhood. She had a histologically proven neurofibroma excised from her right forearm four years previously. She had a strong family history of NF-1, her mother and three second degree relatives exhibited clinical features.
Her hip was relocated under general anaesthetic and this was maintained with skin traction. A computed tomography (CT) of her pelvis displayed a smooth erosion of the lateral margin of her left ileum and femoral neck, markedly increased femoral neck offset, a concave abnormality superior to the left acetabulum and thinning of the left inferior pubic ramus. These changes, which appeared to be long standing, were accepted to be a result of a local neurofibroma causing bone erosion. Eight days post-operatively she experienced a sudden onset of left hip pain on attempting to move in bed. A radiograph of her hip revealed repeat dislocation. Relocation of her hip was performed under general anaesthetic and balanced skeletal traction was maintained by inserting a pin to her left proximal tibia. Skeletal traction was maintained for six weeks. She was mobilizing without aids at eight weeks and follow-up at three months revealed a normal hip examination.
Neurofibromatosis type-1 is a common genetic disorder that can have both focal and generalized skeletal manifestations. Generalized skeletal manifestations such as osteoporosis and short stature are common. Focal abnormalities such as tibial dysplasia, short angle scoliosis and sphenoid wing dysplasia, although less common, are well documented in the literature. However, there is a relative paucity of reported cases of pathological hip dislocation in patients with NF-1, with only 12 documented cases found in the published literature. Six dislocations occurred following trivial trauma [4–8]and six cases were deemed atraumatic [9–13].
The suggested mechanism for dislocation for the majority of cases has been related to the intra-articular growth of neurofibromas [4, 5, 8, 10, 13]. Local neurofibromas can lead to deformity of the pelvis, erosion of the neck of the femur, valgus deformity and joint capsule laxity, all of which predispose a person to dislocation. Neurofibromas distant from the hip joint have also been hypothesised to cause pathological dislocation. Mechanical instability due to weakness of the abductor muscles caused by spinal-cord tumors has been suggested as a predisposing factor . Similarly, neurofibromas can lead to a deficiency of the normal sensation of the hip joint leading to a neuropathic arthropathy which can progress to dislocation .
Treatment described has ranged from conservative approaches to definitive surgical intervention, including Girdlestone resection  and total hip replacement . Despite short-term good results from various treatments the long-term evidence is lacking, with no follow-up data longer than six years for any published case.
For our patient her hip dislocation was accepted to be a result of a neurofibroma impinging on the hip joint. This was originally suggested by the abnormalities on early radiographs of her pelvis and later confirmed with CT and MRI. The CT reconstructions of the hip area clearly demonstrate the mechanism by which hip dislocation has occurred (Figure 4). The smooth erosion of the lateral margin of the left ileum and femoral neck, the markedly increased femoral neck offset and the concave abnormality superior to the left acetabulum all contribute to the instability of the hip joint. The soft tissue swelling responsible for these abnormalities is clearly demonstrated on the MRI scan (Figure 3). There were no spinal-tumors displayed on the MRI of her lumbar spine. She was treated conservatively with skeletal traction. The short term results were excellent and at 12 years follow-up she has had no further episodes of dislocation.
This case illustrates the radiological features of this rare complication of NF-1 using the modalities of plain radiograph, MRI and CT reconstruction. The radiological images give a clear insight into the mechanism by which NF-1 leads to hip dislocation. It also demonstrates one treatment option with excellent results on long-term follow-up.
Written informed consent was obtained from the patient for publication of this case report and accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal.
- Fienman NL, Yakovac WC: Neurofibromatosis in childhood. J Pediatr. 1970, 339: 339-346.View ArticleGoogle Scholar
- Crawford AH, Bagamery N: Osseous manifestations of neurofibromatosis in childhood. J Pediatr Orthop. 1986, 72: 72-88.View ArticleGoogle Scholar
- Vitale MG, Guha A, Skaggs DL: Orthopaedic manifestations of neurofibromatosis in children: an update. Clin Orthop Relat Res. 2002, 107: 107-118. 10.1097/00003086-200208000-00013.View ArticleGoogle Scholar
- Nakasone S, Norimatsu H, Hamasaki N, Kinjo S, Kinjo Y, Ibaraki K: A case report of recurrent dislocation of the hip joint with neurofibromatosis. Seikeigeka to Saigaigeka Orthop Surg Traumatol. 1989, 38: 511-514.Google Scholar
- Lachiewicz PF, Salvati EA, Hely D, Ghelman B: Pathological dislocation of the hip in neurofibromatosis. A case report. J Bone Joint Surg Am. 1983, 414: 414-415.Google Scholar
- Phillips JE, McMaster MJ: Pathological dislocation of the hip in neurofibromatosis. J R Coll Surg Edinb. 1987, 180: 180-182.Google Scholar
- Odent T, Ranger P, Aarabi M, Hamdy RC, Fassier F: Total hip arthroplasty in a patient with neurofibromatosis type I and recurrent spontaneous hip dislocation. Can J Surg. 2004, 219: 219-220.Google Scholar
- Guilleminet M, Creyssel J, de Mourgues G, Fischer L: [Von Recklinghausen's neurofibromatosis. Congenital hypertrophy of the lower limb in childhood and spontaneous luxation of the homolateral hip in adult age]. Presse Med. 1970, 1269: 1269-1271.Google Scholar
- Lampasi M, Greggi T, Sudanese A: Pathological dislocation of the hip in neurofibromatosis: a case report. Chir Organi Mov. 2008, 163: 163-166. 10.1007/s12306-007-0027-y.View ArticleGoogle Scholar
- Haga N, Nakamura S, Taniguchi K, Iwaya T: Pathologic dislocation of the hip in von Recklinghausen's disease: a report of two cases. J Pediatr Orthop. 1994, 674: 674-676.View ArticleGoogle Scholar
- Endo H, Mitani S, Sugihara S, Kuroda T, Nakahara S, Ozaki T: Nontraumatic subluxation of the hip after spine surgery for scoliosis in a patient with von Recklinghausen's disease. J Orthop Sci. 2007, 510: 510-514. 10.1007/s00776-007-1166-6.View ArticleGoogle Scholar
- Lucet L, Elayoubi L, Defives T, Mejjad O, Le Loet X, Cambon-Michot C: [Anterior pathologic dislocation of the hip in adulthood complicating Von Recklinghausen neurofibromatosis]. Rev Rhum Ed Fr. 1993, 79: 79-80.Google Scholar
- Kuroda M, Nakase H, Yasui N, Ochi T, Takahashi Y, Hirabayashi S: Non-traumatic dislocation of the hip in von Recklinghausen's disease: a case report. RinsyouSeikeigeka (Clinical Orthopaedic Surgery). 1999, 1151: 1151-1154.Google Scholar
This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.