Open Journal of Stomatology
Vol.07 No.11(2017), Article ID:80238,6 pages
10.4236/ojst.2017.711043

Zygomatico-Coronoid Ankylosis: A Case Report

Risimati Ephraim Rikhotso, Mbali Nkonyane

University of the Witwatersrand, Johannesburg, South Africa

Copyright © 2017 by authors and Scientific Research Publishing Inc.

This work is licensed under the Creative Commons Attribution International License (CC BY 4.0).

http://creativecommons.org/licenses/by/4.0/

Received: September 4, 2017; Accepted: November 7, 2017; Published: November 10, 2017

ABSTRACT

Extra-articular ankylosis resulting from bony union between the coronoid process and the zygoma is very rare. It may result from facial fractures caused by gunshots, treated or untreated facial fractures or may arise as an extension of intracapsular ankylosis. We report a case of ankylosis between the coronoid process and the zygomatic arch in a 33-year-old Black male. The bony ankylosis was the result of a 2 year old untreated zygomatic arch fracture. Ankylosis developed secondary to heterotopic bone formation following trauma. The patient was treated by intra-oral coronoidectomy, followed by physiotherapy for three months. He returned for review one year later with a mouth-opening of 40 mm and a stable occlusion.

Keywords:

Zygoma, Coronoid, Ankylosis, Extra-Articular

1. Introduction

Bony union between the coronoid process (CP) and the zygoma is a very rare cause of extra-articular temporomandibular joint ankylosis [1] . It may result from facial fractures caused by gunshots, [2] treated or untreated fractures of the zygoma complex [3] [4] [5] with or without concomitant fractures of the CP, [6] chemical burns, mandibular fractures, [7] infection involving the infratemporal fossa, [8] local surgical complications [3] [9] [10] myositis ossificans [11] and extension of intracapsular ankylosis [10] .

We report a case of ankylosis between the CP and the zygomatic bone in a 33-year-old Black male. This bony ankylosis was the result of an untreated zygomatic arch fracture sustained in a motor vehicle accident two years previously.

2. Report of a Case

A 33-year man presented to the maxillofacial and oral surgery outpatient clinic of the Chris Hani Baragwanath Academic Hospital (Johannesburg, South Africa) complaining of inability to open his mouth. He gave a history of being involved in a motor vehicle accident two years previously.

Patient’s history indicated that following clinical and radiographic assessment then, he was diagnosed with an isolated left zygomatic arch fracture (Figure 1). He was admitted for surgery (Gillies lift) but absconded for fear of an operation. Since then the patient’s mouth opening had progressively decreased.

Extra-oral examination revealed a depression over the zygomatic arch region. Interincisal mouth opening was zero and the patient could not perform any protrusive or lateral movements. Intra-oral examination however showed a stable occlusion and no further abnormalities.

Radiographic examination with 3-D recons CT scan, axial and coronal CTs revealed a bony mass bridging the CP and the zygomatic arch on the left side without capsular involvement (Figure 2 and Figure 3).

A diagnosis of zygomatico-coronoid ankylosis was made. The patient was taken to theatre and nasal intubation was performed fibre-optically. The left coronoid was exposed via an intra-oral incision. CP was confirmed to be fused with the ZA. A fissure bur was used to separate the left CP from the ramus (Figure 4).

The rest of the CP was separated from the inner aspect of the zygoma by means of an osteotome. The mass of bone and the CP attached to the zygoma were removed. The patient was then stretched to an interincisal mouth opening of 32 mm. Patient commenced physiotherapy the following day and was discharged with an interincisal opening of 30 mm. Figure 5 shows an orthopantomogram post-coronoidectomy. He returned 12 months later with an opening of 40 mm (Figure 6).

Figure 1. Submento-Vertex x-ray showing left zygomatic arch fracture (arrow).

Figure 2. 3-D reconstruction illustrating bony mass between coronoid and zygoma (arrow).

Figure 3. Axial CTs showing bony union between coronoid process and Zygoma (arrow).

Figure 4. Intraoperative image showing osteotomy cuts.

Figure 5. Post-operative orthopantomogram.

Figure 6. Inter-incisal mouth opening (40 mm) 12 months after the operation.

3. Discussion

Zygomatico-coronoid ankylosis is a very rare condition. This condition must be clearly distinguished from fibrous attachment of the ZA to the CP (zygomatico- coronoid fibrosis), a much more common clinical entity. Coronoidectomy is however the treatment of choice for both conditions [9] .

Sequence of events that culminate in extra-articular TMJ ankylosis awaits elucidation, since heterotopic bone formation is rarely encountered in the maxillofacial region (examples of heterotopic bone formation in the maxillo-facial region include ossification of the stylohyoid ligament [12] periosteal ossification following subperiosteal haemorrhage or infection, and myositis ossificans of the masseter muscles [13] . It may results from metaplastic changes in CT elements that do not have osteogenic potential, following trauma, infection or surgery [1] . Histological examination generally reveals proliferating CT fibroblasts in transition to osteoblasts and areas of cartilage, osteoid and bone [9] .

Most authors agree that the only possible treatment for extra-articular ankylosis is a coronoidectomy [1] . Diverse opinions as to whether the coronoid should be approached intra-orally or extra-orally exist. Extra-oral approach gives good access, but may result in a visible scar and CN VII palsy. Intra-orally there is no scar mark on the face and no risk of facial nerve injury, but access is very difficult.

In view of the large bony mass between the zygoma and the CP, and limited mouth opening in our patient, the coronal approach seemed to be the best choice but the patient refused and instead opted for the intra-oral approach.

Early post-operative mouth opening exercises, a strict follow-up and even a stretch under general anaesthetic are imperative to prevent reankylosis. Some authors have stated that conventional procedures have shown a high rate of recurrence due to heterotopic bone and fibrous tissue formation, so they have used a coronoid osteotomy and insertion of a free abdominal flap. No fat graft was used in our patient.

Upon discharge, our patient was placed on an intense physiotherapy protocol, which was maintained for three months.

The patient was followed-up at six months and had a good mouth opening and function. He returned for review after one year with a mouth-opening of 40 mm and a stable occlusion.

4. Conclusion

Extracapsular temporomandibular bony ankylosis between the coronoid process and the zygomatic arch is a rare but noteworthy complication of zygoma fractures. We have presented such a case of fusion of the left coronoid process to the zygomatic bone in a 33-year-old male. The bony ankylosis was the result of a 2 year old untreated zygomatic arch fracture. Ankylosis developed secondary to heterotopic bone formation following trauma. The patient was treated by intra- oral coronoidectomy. The rationale, indications and importance of post-operative physiotherapy are discussed.

Conflict of Interest

None.

Compliance with Ethical Standards

Informed consent was obtained from the patient.

Cite this paper

Rikhotso, R.E. and Nkonyane, M. (2017) Zygomatico-Coronoid Ankylosis: A Case Report. Open Journal of Stomatology, 7, 475-480. https://doi.org/10.4236/ojst.2017.711043

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