Indian Journal of Plastic Surgery Medknow Publications on behalf of Indian Journal of Plastic Surgery ISSN: 0970-0358 EISSN: 1998-376x Vol. 43, Num. 1, 2010, pp. 42-48

Indian Journal of Plastic Surgery, Vol. 43, No. 1, January-June, 2010, pp. 42-48

Original Article

Analysis of facial bone fractures: An 11-year study of 2,094 patients

Kun Hwang^1,2 , Sun Hye You¹

¹ Department of Plastic Surgery and ² Center for Advanced Medical Education by BK21 Project, Inha University College of Medicine, Incheon, Korea

Correspondence Address: Dr. Kun Hwang, Department of Plastic Surgery and Center for Advanced Medical Education by BK21 Project, Inha University College of Medicine, 7-206 Sinheung-dong, Jung-gu, Incheon - 400-711, Korea, jokerhg@inha.ac.kr

Code Number: pl10011

DOI: 10.4103/0970-0358.63959

Abstract

Keywords: Facial bones; facial fractures; injury prevention; treatment

Introduction

Facial injuries occur in a significant proportion of trauma patients requiring prompt diagnosis of fractures and soft tissue injuries, with possible emergency interventions. ^[1] Each year, increasing numbers of patients are admitted to the hospital with facial trauma. ^[1] There are many studies in the literature that have analysed the demographic factors associated with facial trauma according to various criteria. ^[2],[3],[4] The epidemiology of facial fractures varies with regard to injury type, severity and cause, depending on the population studied. ^[5] The differences in the populations with regard to the causes of facial fractures may be the result of differences in culture and a variety of risk factors. However, the reports on patients studied, use the severity of the injury as the major selection criteria for epidemiological investigation. ^[5]

An understanding of the cause, severity and temporal distribution of facial trauma can aid in establishing clinical and research priorities for effective treatment and prevention of these injuries. ^[5] Continuous long-term collection of data regarding the epidemiology of facial fractures is important because it provides information necessary for the development and evaluation of preventive measures that might help reduce the incidence of facial injuries. ^[5]

The purpose of this study was to report on the natural history of facial injuries in 2,094 cases over 11 years at the Department of Plastic and Reconstructive Surgery, Inha University Hospital, Incheon, South Korea.

Material and Methods

The medical records of patients seeking treatment for facial trauma were reviewed at the Department of Plastic and Reconstructive Surgery, Inha University Hospital, Incheon, South Korea. The study population consisted of 2,094 severely injured patients with facial fractures from February 1996 to April 2007, who were admitted to our hospital for operation and conservative treatment. The parameters assessed were age, gender, time of injury, aetiology and associated injuries, in addition to the type of fracture and treatment offered. The facial bone fractures were classified as isolated or complex fractures. The isolated facial bone fractures included frontal bone, orbital bone, nasal bone, maxilla, zygoma and mandible. The complex fractures were subclassified into five types according to the anatomical direction from the orbit and the extension from an adjacent area, which were superior, medial, lateral, inferior or other locations [Table - 1]. In addition, the complications and prognoses were analysed.

Results

Demographic distribution

This retrospective study of 2,094 cases included 1,673 males and 421 females, aged 1-97 years (mean age = 30.6 years) with facial bone fractures [Table - 2]. The highest frequency of facial bone fractures was in the age group 21-30 years (n = 608, 29%), followed by 11-20 years (n = 466, 22.3%) and 31-40 years (n = 439, 21%) [Table - 2]. There was a significant male predominance in all age groups and the overall ratio of males to females was 3.98:1.

The analysis of the annual incidence revealed that both the absolute number and the proportion of facial injuries peaked in 2006 [Table - 3], with slight increases every year [Table - 3]. The monthly incidence was relatively even; however, facial fractures were slightly more common during the month of September (n = 209, 10%) [Table - 4].

The most common causes of the injury were violent assault or nonviolent traumatic injury (n = 1,034, 49.4%), slip or fall (n = 304, 14.5%), road traffic accidents (n = 303, 14.5%), sports (n = 236, 11.3%), work-related injuries (n = 159, 7.6%) and others (n= 5 8, 2.8%) [Table - 5]. The most common sports associated with injury was soccer (38.1%).

In 60 (2.9%) of the 2,094 patients, the facial fractures were associated with other injuries [Table - 6]. Head and neck injuries were the most common isolated injuries associated with facial fractures (13.3%) [Table - 6]. Among the patients with injuries to the head and neck area, most had intra cranial injuries with altered levels of consciousness, cervical spine injuries, or optic nerve injury. Some patients (1.3%) had more than one type of associated injury, including other bone fractures [Table - 7]. The most common isolated fracture associated with facial fractures was a skull fracture (22.2%) [Table - 7]. In 359 (17.1%) of the 2,094 patients, the facial fractures were associated with other soft tissue injuries [Table - 8]. The associated injuries were most commonly soft tissue injuries of the face and neck (89.4%) [Table - 8].

Classification of facial bone fractures and treatment

The great majority of cases were isolated injuries (n = 1720, 82.1%) [Table - 1]. Nasal bone fractures were the most common (n = 790, 37.7%), followed by mandible fractures (n = 618, 30%) [Table - 1], [Figure - 1]. Tripod fractures were the most common type of complex injuries (n = 130, 6.2%) [Table - 1]. For complex injuries, the inferior region had the highest frequency of fractures (n = 293, 14%) [Table - 1],[Figure - 2].

A closed reduction procedure was performed in 46.3% of the cases, open reduction in 39.7%, closed and open reduction in 6.5% and no surgical intervention in 7.4% [Table - 9]. The closed reduction procedure was most commonly performed for nasal bone fractures (93%). Most of the other facial bone fractures were treated by open reduction (39.7%) procedures. The facial bone reduction was carried out on average 5.2 days post injury, and most had surgery within 1 week (72%) [Table - 10]. The average hospital stay for the patients with a facial bone fracture was 8.4 days; most were discharged from the hospital within 2 weeks (88.5%) [Table - 11].

For the open reduction procedure, various soft-tissue approaches were used to meet the requirements of adequate fracture exposure and stabilisation at multiple points. The most commonly used approach was the intraoral approach (32.3%), followed by the subcilliary approach (25.3%) [Table - 12]. Fracture stabilisation materials for fixation included the miniplate (66%), microplate (21.7%), microplate in combination with the miniplate (9.2%), a resorbable plate (2.4%) and wire (0.8%) [Table - 13]. In addition, reconstruction materials included the Medpor (81.5%), a resorbable sheet (16.8%) and bone grafts (1.7%) [Table - 14].

Complications and prognosis

The complication rate was 6.4% and the most common complication was hypoesthesia (68.4%), followed by diplopia (25.6%) [Table - 15]. The average follow-up period for hypoesthesia was 1.2 months and most patients (88%) improved by 1 month, while some (12%) required 3 months for improvement. The average follow-up period for diplopia was 2 months. Most patients improved (61%) during the first month of follow-up and 21% improved by 3 months. Other patients required a longer time to improve (7.1%), while some required 6-12 months.

Discussion

A large number of studies have reported on the aetiology of facial trauma. ^[1],[8] The results of epidemiological investigations vary depending on the demographics of the population studied. Factors such as geographic region, socioeconomic status and temporal factors, including time of year and time of the study, can influence both the type and the frequency of injuries reported for a given population. ^[5] This makes meaningful comparisons between epidemiological reviews difficult.

The increasing prevalence of facial bone injuries emphasises the necessity for epidemiological surveys to determine optimal prevention strategies and patient management. Such data can inform care-givers the causes and incidences of facial bone fractures. The results of this study showed a high morbidity for facial injuries in the 21-30 years age group followed by the 11-20 years age group. In addition, we found a male predominance among all injuries and ages. Although the annual incidence has increased slightly every year, the monthly frequency was relatively even.

The results of this survey are consistent with prior reports in Korea. ^[6],[7] In general, trauma is primarily a health problem among young men. However, there are differences in the causes of injury by geographic region and socioeconomic status. ^[1],[5] Long-term collection and analysis of epidemiologic data regarding facial fractures in severely injured patients is an important step in the evaluation of conventional preventative measures. ^[5] It is also necessary to determine trends to help guide the development of new methods of injury prevention. ^[5] Our results found that violent assault or nonviolent traumatic injuries remain the leading cause of injury. The results of this study suggest that violence prevention programs concentrating on both assault and self-inflicted injury may help decrease the frequency of facial trauma resulting from intentional injuries in this population. In addition, drinking and driving campaigns require strengthening because 30.3% of the all injuries were alcohol-related in our study.

In the present study, the most commonly fractured isolated bones were the nasal bone (37.7%) and the mandible (30%). Our finding agrees with previous studies in Korea. ^[13],[14] This is because the nose is an easy target in personal violence. The most common aetiology of injury in our study is trauma. The nose is projecting, relatively unprotected and with very little soft tissue cover. The most common complex fracture was a tripod fracture (6.2%). The patterns of complex facial bone fractures were classified by the anatomical direction from the orbit. Such fractures can, of course, extend to involve the associated wall of the orbit or may, as in the case of the orbital roof, be an extension from an adjacent area such as the superior rim or the frontal bone. A variety of classifications have been proposed for zygomatic fractures and orbital bone fractures. In 1961, Knight and North classified zygomatic fractures by the direction of displacement on a Waters' view radiograph. ^[10] They classified 120 fractures into six groups, hypothesising that the stability after reduction might be related to the direction of displacement. This classification has been found to be helpful in predicting the clinical features and necessary treatment, but it does not apply to complex facial bone fractures. Because this system is confined to the zygoma, it does not include the surrounding structures in the classification. In addition, treatment guidelines based on a simple classification of zygomatic fractures was presented by Zingg in 1992. ^[11] This is a simple classification system for zygomatic fractures based on anatomic points and fracture patterns. However, it is difficult to use one description for different complex facial bone fractures. In 2002, Manolidis analysed orbital bone fractures according to the orbital rim and orbital walls. ^[12] However, a more accurate classification of injury patterns, including each of these regions, might be achieved by combining the prior classifications into one simple classification to accurately describe the degree of injury to the orbit as a whole and predict the level of surgical intervention required for rigid internal fixation.

Although we may be able to use the available classifications to explain the relationship of the fracture with the surrounding structures, they cannot be applied to all complex facial bone fractures. Therefore, a novel unified classification system for facial injuries is presented here. This proposed complex facial bone fracture classification scheme provides a convenient, descriptive and reproducible method for describing fracture patterns. In our study, the complex fractures were subclassified into five types according to the anatomical direction from the orbit and extension from the adjacent areas, i.e. superior, medial, lateral, inferior and others part. Orbital skeletal injuries are frequently associated with other significant injuries. The orbital rim was considered separately as consisting of four regions, corresponding to the skeletal elements that define it: the frontal (superior), the nasoethmoidal (medial), the zygomatic (lateral) and the maxillary region (inferior). The inferior region was the most frequently involved region in a fracture, occurring in more than three-quarters of the patients (78.3%). This occurs due to its prominent location on the face. The medial region was involved in 4.3%, the superior region in 1.6% and the lateral region in 1.1% of the patients with complex facial bone fractures.

In most of the fractured facial bones, except the nasal bones (n = 1,034), an open reduction was performed in 64%, closed reduction in 14%, no surgical intervention in 12% and a closed reduction with open reduction in 11%. The fractured nasal bones accounted for most of the closed reductions (93%) and other facial bones (64%) for open reductions. Our finding is in agreement with previous studies in Korea. ^[14],[15] Facial bone reduction was carried out on average 5.2 days after the injury, when the swelling decreased, and the average hospital stay was 8.4 days. Among the 969 patients treated by open reduction, 674 patients (70%) were treated with one or more internal fixation techniques while 110 patients (12%) were treated with reconstruction methods. The miniplate was the most common osteosynthesis method used (66%) ^[9] because of the advantages in both the technical requirement and the functional outcome. The functional advantages include rapid improvement and the technical advantages include ease of application, stability and biomechanical compatibility. ^[1] Medpor was the most commonly used material for reconstruction surgery. Finally, hypoesthesia and diplopia were the most common complications (n = 125, 94%). Most patients with these complications improved during the first month (88%) with hypoesthesia and by the third month with diplopia (82%).

Conclusions

The findings of this study indicated that epidemiological research of facial fractures allows the presentation patterns of the most affected individuals and the nature of their lesions to be outlined according to the region evaluated. This retrospective study documents the higher risk of fractures in younger males and assaults and other traumas were the commonest causes. Isolated nasal bone fractures were most common. Open reduction was performed in most fractured facial bones, except nasal bones, and hypoesthesia was the most common complication in our study. The insight into the epidemiology of facial bone fractures and associated injuries is useful not only for developing prevention strategies but also for decisions with regard to patient care, development of optimal treatment regimens and appropriate resource allocation. Furthermore, treatment evaluation and complication rate analysis permits a more realistic interpretation of how patients should be managed.

References

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