A Case of Bifid Mandibular Condyle

Isomura ET1,2*, Kobashi H2, Tanaka S2, Enomoto A3 and Kogo M2 1Unit of Dentistry, Osaka University Hospital, 2-15 Yamadaoka, Suita City, Osaka, Japan 2First Department of Oral and Maxillofacial Surgery, Graduate School of Dentistry, Osaka University, 1-8 Yamadaoka, Suita City, Osaka, Japan 3Department of Oral and Maxillofacial Surgery, Kinki University School of Medicine, 377-2 Onohigashi, Sayama City, Osaka, Japan

Herein we report a case of bifid mandibular condyle with complete separation found on computed tomography scan taken after a head injury.

Case Report
A 41-year-old Japanese man presented to the Trauma and Acute Critical Care Center of Osaka University Hospital after being hit by a large truck traveling at 10-20 km/hr. The patient's consciousness level according to the Glasgow Coma Scale was 10 (E4: Eye Opening was spontaneous, V1: Best Verbal Response was nil, M5: Best Motor Response was localising) at presentation. The patient was diagnosed with skull fracture, acute right subdural hematoma, acute left extradural hematoma, cerebral contusion, right femoral open fracture and left tibiofibular fracture. When a Computed Tomography (CT) scan revealed abnormality of the right condylar head, the patient was referred to our unit.
The patient had slight facial asymmetry with chin deviation to the right side, and anomaly of occlusion resulting from many residual roots with deep caries. Mouth-opening and mandibular movements were normal; the presence of temporomandibular joint symptoms was unclear because of the patient's lack of consciousness caused by the accident.
On CT scan, complete separation of the right mandibular condyle into two heads was observed. Two-dimensional (2D) images showed the cortical bone of two the heads was connected in continuity, and one of condylar head was into temporomandibular fossa, and the other was inside of that ( Figure 1A and B). The patient's entire mandible was slightly shifted to the right and the right condylar neck was shorter than the left (Figures 2 and 3).
According to the medical history provided by the patient's family, he had been in a bicycle accident at the age of seven, and had fractured his mandibular condyle; although whether the fracture had been on the left or right was unclear. Treatment had been judged unnecessary and the patient had not experienced pain or dysfunction of mouthopening or chewing. The patient developed schizophrenia at about 25 years of age, when he was a university student. He had a history of hospitalization for treatment of schizophrenia, but was being treated as an outpatient with follow-ups at a psychiatry hospital every 2-3 weeks at the time of the accident.
The bifid mandibular condyle likely resulted from the patient's bicycle accident in childhood.
As treatment, the residual roots, which were likely to become a source of infection, were extracted, and other caries treated. Open reduction and internal fixation of the leg fractures was performed under general anesthesia at the Trauma and Acute Critical Care Center on the eighth day after injury. However, the patient's consciousness did not improve and he was transferred to another hospital for care for 44 days after the accident.

Discussion
Bifid mandibular condyle is thought to result from congenital malformation, trauma, infection or tumor. In this case, bifid mandibular condyle was likely caused by trauma, because the patient had experienced fracture of the condylar head as a child. Condylar fractures can be horizontal or sagittal. Many horizontally fractured condyles have spontaneous repositioning and remodeling of the fractured fragments, or complete resorption of the fractured condyle and regeneration of a new condyle, so few horizontally was going through a growth spurt at the time of his injury, resulting in a bifid condyle. Cancellous bone union was observed on CT scan, so the condition likely resulted from trauma at a young age.
Because most bifid condyles are asymptomatic, treatment is not pursued except in cases with ankylosis after bone fracture [7,13,14,19,21]. Bifid condyles are often found incidentally on CT scan; there are no reports of treatment of bifid condyles without ankylosis. In this case, because there was no limitation of mouth opening and the patient's symptoms could not be checked, we did not treat the bifid condyle. However, if the patient's consciousness had recovered and he had reported symptoms, treatment for the fractured condyles develop bifid deformity [3,[16][17][18][19][20][21]. In many cases of horizontally fractured condyles, some healing occurs from the bone fracture to the joint, because these fractures are treated with intermaxillary fixation to correct occlusal disharmony. Wu et al. reported that two of three bifid condyles cause by trauma were sagittally fractured condyles; there are other reports of bifid condyle after sagittal facture [3,15,21].
Our patient likely had a horizontally fractured condyle because there was asymmetry of the mandible on the side with the bifid condyle. Healing as a bifid condyle is rare after horizontal condylar fracture. In this case occlusal correction was likely unsuccessful because the patient   jaw deformity might have been necessary because of mandibular asymmetry. In the past the mandibular condyle was observed only with two-dimensional X-rays, bifid condyles were often overlooked because of difficulty interpreting radiographs. The recent increase in the use of CT will result in more incidental findings of bifid condyle, as in our case.