A Pediatric Case of Tuberculous Osteomyelitis of the Mandible Mimicking a Bony Malignant Tumor ()
1. Introduction
The tuberculosis is a worldwide infectious disease that is still being a serious health problem, especially in the developing countries. Even though tuberculosis is a preventable and curable disease, it continues to impact the lives and development of millions of children and adolescents [1]. In 2019, 2081 pediatric cases of tuberculosis were recorded in Morocco, and in contrast, extrapulmonary tuberculosis was more notified (81% of these cases): lymph nodes sites were more frequent (45% of cases) among this population under 15-year-old [2]. However, the tuberculous osteomyelitis is a very rare entity occurring most commonly in vertebras and long bones, and the occurrence in the mandible is exceptional [3]. Mandible involvement usually affects older individuals, and in pediatric population, the spread of infection may be through a mucosal opening associated with an erupting tooth or by regional extractions of soft tissue lesions to underlying bone or hematogenous spread [4]. In this paper, we present a case of tuberculous osteomyelitis of the mandible occurring in a 2-year-old child.
2. Case Report
A 2-year-old girl child, suffering from anemia and without contact history of tuberculosis, presented to our department with swelling adjacent to the right angle of mandible, progressively growing during two months, without recovery after a period with antibiotics drugs. Physical examination found feverish girl, with a unilateral swelling over the right angle of mandible, extending up to the submandibular region. This swelling was painful, hard in consistency, fixed to the underlying structures with blurred limits, the overlying skin was normal and without inflammatory signs, measuring 4 cm and causing a facial asymmetry (Figure 1). The intraoral examination showed also a swelling in the right inner cheek and the retromolar trigone without purulent discharge or ulcerated lesion. There was no trismus and the teeth were in good condition (Figure 2). The orifice of the Stenon canal was normal. We didn’t notice any cervical lymphadenopathy. Hematological and biochemical investigations revealed a biological infectious syndrome (Table 1):
An ultrasound neck features showed the presence of an adenophlegmona of submandibular region measuring 36 × 23 mm with infiltration of the surrounding fatty tissues. Then, the patient was started on intravenous antibiotics using Ceftriaxone 50 mg/kg/day, Metronidazole 15 mg/kg/8hours and Gentamicin 3 mg/kg/day for one week, consequently, the biological infectious syndrome has improved steadily, however, the swelling was persistent.
A computed tomography of the neck and face was carried out with contrast-enhancing: In the bone window (Figure 3), it revealed an osteolytic lesion involving the right angle of mandible with extension into the adjacent ramus and inferior border of body of mandible with bony fragmentation. In the soft tissue window (Figure 4), there was associated a multilocular abscess and infiltration of surrounding soft tissue with microcalcifications. Right submandibular lymph nodes were also present. Findings were suggestive of tuberculous osteomyelitis, but a malignant bone neoplasm was not excluded.
The patient underwent an intraoral incision and drainage of the abscess as well as a bony biopsy to obtain specimen of the suspected lesion. The histopathological examination revealed caseating necrosis with the presence of Langerhans giant cells and epitheloid cell granulomas (Figure 5). Then, the diagnosis of tuberculous osteomyelitis of the mandible was confirmed, based on clinical and histopathological findings. The chest radiograph showed no evidence of pulmonary tuberculosis (Figure 6).
Table 1. Results of hematological and biochemical investigations.
Figure 1. Clinical view showing a swelling over the right angle of mandible.
Figure 2. Intraoral examination showing a swelling in the right inner cheek.
Figure 3. CT scan imaging revealing an osteolytic lesion of the right angle of mandible with cortical expansion (bone window).
Figure 4. CT scan imaging revealing a multilocular abscess and infiltration of surrounding soft tissue (soft tissue window).
Figure 5. Histopathological examination showing the presence of Langerhans giant cells (G) and epitheloid cells (E) granulomas.
Figure 6. Chest radiograph showing no evidence of pulmonary tuberculosis.
The patient was started on antitubercular therapy: Rifampicin 15 mg/kg, Isoniazid 10 mg/kg, Pyrazinamide 35 mg/kg during the two first months (Initial Phase) followed by seven months using Rifampicin and Isoniazid (Continuation Phase), associated with a good nutritious diet and strict oral hygiene care during 9 months. A regular follow-up, taking into account the side effects associated with antituberculosis drugs, regular tests of the hepatic enzymes and kidney function were performed during the treatment course. With the ongoing treatment, the swelling subsided gradually in size with time, and complete resolution of the lesion was obtained after 3 years of follow-up.
3. Discussion
In children and teenagers, tuberculosis is one of the biggest causes of morbidity and mortality over the world. Then, the tuberculosis incidence among this population is a sensible indicator reflecting the control level of this disease in a country. In Morocco, pediatric cases of tuberculosis presented 7% of all cases in 2019 (versus 17% in 1980), though, osteoarticular tuberculosis presented 1% of all sites [2]. Tuberculosis occurrence in mandible is very rare and is seen in less than 2% of all skeletal locations [5] [6]. The propagation of tuberculosis infection to the mandibular bone is mainly happened via a hematogenous route, spread from neighboring tissue, mucosal lesion during teeth eruption or by direct inoculation through dental extraction [7].
Clinical presentations of tuberculous involvement of mandibular bone may be various from periodontitis, apical osteitis to widespread destructive lesions. Sequestrations may be present, and pathological fracture of mandible is also reported [8] [9]. Sheikh et al. reported a case that presented a sudden onset of dull pain at the temporomandibular joint associated with reduced mouth opening [10]. The most-reported presentation is a progressive swelling of the cheek adjacent to the mandible [3] [4] [6].
Radiologically, the findings are no specific to tuberculous osteomyelitis: erosion of cortical bone is gradually replaced by a sub-periosteal abscess responsible of the painful swelling [11]. However, they may lead to suspect this specific infection and to confirm the diagnosis by other investigations.
Chaudhary et al. reported that Fine needle aspiration cytology (FNAC) can be helpful to make diagnosis; it demonstrates a granulomatous area with numerous giant and epitheloid cells surrounded by lymphocytes and plasma cells [4]. Histological examination is mandatory to confirm the diagnosis by showing a caseating or non-caseating granuloma with scattered Langerhans giant cells and epitheloid cells [3] [10].
In our case, radiological findings suggested a tuberculous osteomyelitis of the mandible, however, malignant bone neoplasm like Ewing’s sarcoma or an osteogenic sarcoma were not excluded, because all of these lesions may present the same image features (osteolytic lesion and cortical erosion) [12]. Consequently, incisional biopsy was obligatory to make the right diagnosis.
According to our national guide of antitubercular therapy in children [2], the osteoarticular tuberculosis is treated by the following association: during the initial phase, we use Rifampicin 15 mg/kg, Isoniazid 10 mn/kg, Pyrazinamide 35 mg/kg, Ethambutol 20 mg/kg, and during the continuation phase, we use Isoniazid and Rifampicin. Apart from resistance of Mycobacterium, recovery is the rule after an antitubercular therapy well established.
4. Conclusion
Tuberculous osteomyelitis of the mandible is a rare disease in children, but we have to keep it in mind when the lesion of the mandible is chronic and doesn’t recover after empiric antimicrobial therapy. Then, a histological examination is mandatory to make the right diagnosis and rule out other granulomatous or malignant lesions. The antitubercular therapy must be begun as soon as possible to reduce the disease morbidity.
Acknowledgements
We are grateful to all the staff that was involved in the care of this patient.
Consent
Consent from the patient’s parents was obtained for publication.