Conservative management of mandibular fractures in pediatric patients during the growing phase with splint fiber and ligature arch wire

Pediatric mandibular fractures occur at a relatively low frequency compared to adults, accounting for approximately 5% of all maxillofacial traumas [1]. The incidence is occurrence of facial fractures is exceedingly uncommon in children under the age of 5 years. It is approximated that merely 1% of facial fractures transpire in toddlers and preschool-aged maxillofacial trauma [2]. In children, mandible fractures are the second most common type of facial fractures, with the condyle and symphysis being the most frequent sites. Symphysis and para-symphysis fractures are more common due to developing canine tooth buds that can create a stress point in this location. Condyle and symphysis fractures account for a significant proportion of cases in children, while body, angle, and ramus fractures are relatively low in incidence but increase with adolescence. Dentoalveolar fractures are also common but are often treated in an office setting and not reported [3]. Mandibular fractures in children are more prevalent in boys and tend to occur in patients older than 2 years, particularly involving the chin or mental area [4]. Facial fractures are more common in males than females and increase with age in children. Children aged 6–11 years have a high incidence of facial fractures, with motor-vehicle accidents, play, and bike riding as common causes. Adolescents aged 12–18 years have the highest incidence, with violence and sports-related injuries as leading causes. Mandibular fractures are associated with falls, road traffic accidents, and child abuse. Sports injuries contribute to 20–30% of all oral and maxillofacial traumas in active adolescents [5‐7].

The mandibular bone in children has thin cortical bone, a thick layer of adipose tissue, and a relatively larger amount of medullary bone, making it highly elastic and prone to greenstick fractures [8].

Managing mandible fractures in pediatric patients with primary or mixed dentition is challenging as treatment must consider future growth and development. Minimizing morbidity is a priority, and conservative treatment options are preferred. Internal fixation should only be considered when necessary. Treatment techniques providing a return of pre-injury occlusion and short-term immobilization with circumdental arch wiring can yield good outcomes. Age-based categorization reveals distinct patterns of injury in children with facial fractures [7, 9, 10].

Unlike the treatment principles for mandibular fractures in adults, which typically involve reduction, fixation, and immobilization, managing mandibular fractures in children requires a more cautious approach to avoid adverse effects on skeletal growth and dental development [11, 12]. Tailored treatment plans considering age, anatomy, and fracture location are necessary, and conservative methods like splinting for close reduction and stabilization are often employed [13‐15]. Diagnosis of mandibular fractures in pediatric patients involves imaging techniques like orthopantomogram (OPG), Towne’s view, and 3D cone-beam computed tomography (CBCT) [16].

The growth of the mandible in children involves a gradual reduction in the cranium-to-face ratio, chin prominence development, and eruption of primary and permanent teeth [17].

This article focuses on the conservative management of mandibular fractures in pediatric patients during the growing phase using splint fiber as a treatment approach.

In a group of 6 pediatric patients under pediatric care, a striking gender balance was observed, with an equal distribution of 3 Males patients (50%) and 3 Female patients (50%). The age range within this group was quite broad, with the youngest being a mere 1-year-old, and the eldest being 8 years of age. However, the average within each group was found to be distinct, with male patients averaging at 2 years old, and female patients at 5.3 years old.

All 6 patients suffered from the distressing condition of mental fracture. In addition, 1 patient exhibited a Right mandibular angle fracture, which represents 16.7% of the group’s overall condition. Half of the patients in the group, or 3 individuals (50%), suffered from left condylar fracture. This is a particularly noteworthy observation, as this type of fracture typically only accounts for a small percentage of cases. Furthermore, 1 patient was found to have a bilateral condylar fracture, making up an additional 16.7% of the group’s conditions. Data is shown in Table 1.

After the completion of a 30-day observation period, which included circumdental arch wiring, the ligature wire and quartz splint was removed. The effectiveness of the 4 weeks quartz splint fixation was found to be 100% based on the results obtained from the CT scans conducted on all patients. The results showed that the desired outcome had been achieved, as shown in Figs. 3 and 4. No, the complication was noticed.

Mandibular fractures are relatively rare in pediatric patients, but they are the most common facial injury in this age group. The unique anatomical and physiological characteristics of pediatric patients, such as softer bone structure and developing dentition, make the management of mandibular fractures different from that in adults [18]. The management of mandibular fractures in children differs significantly from that in adults due to the potential disruption of growth. In pediatric patients, the outcome of mandibular fracture treatment is not solely determined by the initial intervention, but also by the impact of growth on both form and function. This highlights the importance of carefully considering the long-term effects of any treatment plan on a child’s growing facial structures, to promote optimal healing and prevent any potential complications that may arise later in life [19]. Due to the shape and size of deciduous crowns in pediatric patients, the placement of circumdental wires and arch bars during open reduction and fixation may be more challenging. Additionally, the presence of tooth buds within the mandible must be taken into account during surgical procedures, as any trauma to these developing buds may impede the eruption of permanent teeth and potentially result in a narrow alveolar ridge. Therefore, special care must be taken during the management of mandibular fractures in children to minimize the risk of damaging developing dentition and promote proper growth and development of the oral structures [20]. For growing mandible, the quartz splint helps the mandibular arch to stabilize, the maxillary arch is kept as usual and the patient is advised to have a soft liquid diet and maintain good oral hygiene. These splints are more reliable than open reduction or intermaxillary fixation techniques with cost-effectiveness the patient which saves the patient time, pain, and discomfort. On a different Literature review suggest that using impression material, impression was taken for fabrication of splint and custom splint were used for fracture [21]. On our research we use prefabricated quartz splint fiber with resin cements.

Quartz splints have been found to be reliable in stabilizing the mandibular arch, providing advantages such as cost-effectiveness, reduced surgical trauma, and lower risk of complications.

Follow-up appointments are scheduled at regular intervals to monitor the healing progress. No complications were observed during the follow-up period. Although there is limited literature on the use of splint fiber and ligature wires for pediatric mandibular fractures, the technique should be performed by an experienced surgeon due to its specific application.

Overall, the management of mandibular fractures in pediatric patients requires a comprehensive understanding of the unique challenges and considerations in this population.

In conclusion, pediatric mandible fractures present unique challenges to maxillofacial surgeons and require careful consideration of various factors. Although the incidence of mandible fractures in children is relatively low compared to adults, understanding their causes, patterns, and locations is crucial for diagnosis and treatment planning. Conservative treatment options, such as closed reduction and immobilization with splints and circumdental arch wiring, should be preferred whenever possible to avoid adverse effects on future skeletal growth and dental development. However, in specific cases, open reduction with internal fixation may be necessary to achieve optimal outcomes. Surgeon providers must tailor their treatment plans by considering the patient’s age, anatomy, and stage of dental development. The use of quartz splint fiber and external fixation with fiber splint can also be effective alternatives to provide occlusal stability without any negative impacts on growth and development. In summary, a multidisciplinary approach is essential for achieving the best outcomes for pediatric patients with mandibular fractures.