Complications and complaints in craniofacial fractures - Finnish national data for 20 years.

OBJECTIVE: Research on reasons for malpractice claims in oral and maxillofacial surgery is scarce. The aim of this study was to investigate the causes and prevalence of permanent harm among craniofacial fracture related malpractice claims. MATERIALS AND METHODS: A retrospective register study was designed and implemented. All patients with a complaint and a diagnosis of facial or cranial fracture were included. The main outcome was the presence of permanent harm, and the predictor variable was the cause of complaint. Chi-square test was used for estimation of statistical significance. RESULTS: Delay in correct diagnosis was the leading cause of malpractice claims (63.2%), and permanent harm was found in 23.1% of the population. 82.4% of injuries were facial fractures in total population. 65.3% (n = 98) of facial trauma were related with delayed diagnostics (p < 0.001). Permanent harm was more frequent in patients with delayed diagnosis (71.4%) than those without (60.7%, p = 0.299). CONCLUSIONS: Claims of craniofacial trauma are related with under-diagnostics, and un-diagnosed facial fracture can lead to a high rate of permanent harm. Systematic clinical evaluation and facial trauma specialist consultation is recommended to set early correct diagnosis for and improve treatment of craniofacial trauma patients.

Epidemiology of Craniomaxillofacial Fractures Over a 5-year Period at a Midwestern Level 1 Trauma Center Serving a Large Rural Population.

BACKGROUND: Though the epidemiology of craniomaxillofacial (CMF) fractures has been well documented at urban hospitals, the characteristics of these fractures in rural hospitals have not been well studied. PURPOSE: The purpose of this study is to report on the epidemiology of CMF fractures at a regional Level 1 trauma center serving a large rural population in central Illinois. STUDY DESIGN, SETTING, SAMPLE: This is a retrospective cohort study at a community-based regional tertiary referral center that serves a predominantly rural population. Inclusion criteria comprised patients with radiologically confirmed CMF fractures between 2015 and 2019. Patients with incomplete medical records were excluded. PREDICTOR VARIABLE: Predictor variables included demographics (age, admission source, race, and sex) and etiology of CMF fracture (assault/domestic violence, all-terrain vehicle/off-road, falls, farm-related, motor vehicle collisions, gunshot wound, and others). MAIN OUTCOME VARIABLE: The primary outcome variable was the CMF anatomic location including nasal bone, orbit, mandible, malar/maxillary, and other CMF fractures. COVARIATES: The covariates are not applicable. ANALYSES: Descriptive statistics were used to summarize a sample of the population characteristics. Wilcoxon ranked sign tests and χ2 tests of independence were used to assess for statistically significant associations between select variables of interest. Statistical significance was defined as P < .05. RESULTS: Between 2015 and 2019, a total of 2,334 patients presented to the emergency department with a CMF fracture. After applying the inclusion/exclusion criteria, the final sample was composed of 1,844 patients for the management of 2,405 CMF fractures. The majority of patients were male(62.0%) and young adults (aged 18-39) had the highest number of CMF fractures (819) relative to all other age groups. The most common fracture etiology was fall(37.3%), and nasal bone fractures represented the most common fracture location(41.6%). χ2 analyses revealed statistically significant associations between the anatomic location of CMF fracture incurred, and differing categories of age, admission source, race, sex, and etiology. CONCLUSION AND RELEVANCE: Our study shows that patients seen at our Midwestern Level 1 trauma center are more likely to present with nasal bone and malar/maxillary fractures due to falls. In studies based in urban centers, patients are likely to present with orbital and mandibular fractures due to falls and assault.

The Adelaide Facial Bone Rule: A simple prediction model and clinical guideline for the presence of facial fractures using CT brain scans in victims of minor trauma.

BACKGROUND: Facial fractures bleed, resulting in high-density fluid in the sinuses (haemosinus) on computed tomography (CT) scans. A CT brain scan includes most maxillary sinuses in the scan field, which should allow detection of haemosinus as an indirect indicator of a facial fracture without the need for an additional CT facial bone scan, yet no robust evidence for this exists in the literature. The aim of this study was to determine whether the presence of haemosinus on a CT brain scan, alone or in combination with other clinical information, can predict the presence of facial fractures. METHODS: 1231 adult patients, who had both brain and facial CT scans performed on the same day, were selected from a seven year period. Patients were eligible if scans were requested for trauma. Brain and facial scans were reviewed separately for the presence of facial fractures, haemosinus, emphysema and intra-cranial haemorrhage. Prediction modelling was used to assess whether findings from brain scans could be used to identify patients requiring further CT scanning. FINDINGS: The full prediction model included four predictors and showed excellent discrimination (AUROC 0.982; 95 % CI 0.971 - 0.993). A simplified model, more suitable for clinical implementation, used only facial fractures and haemosinus as predictors. This model showed only marginally poorer discrimination (AUROC 0.964; 95 % CI 0.945 - 0.983) and excellent performance on other measures. CONCLUSION: Based on the excellent performance of the simplified prediction model, we present the Adelaide Facial Bone Rule: The absence of blood in the sinuses or facial fractures on a CT brain scan means a CT facial bone scan does not need to be routinely performed in the setting of clinically-determined minor trauma.

The pattern of maxillofacial fractures associated with rollover accidents: A 7-year retrospective study.

BACKGROUND/AIM: This study aimed to assess the incidence and pattern of maxillofacial fractures and related demographic data in the victims of rollover crashes. PATIENTS AND METHODS: This retrospective study was based on medical records of patients who sustained maxillofacial injuries following rollover accidents. Investigated data included age, gender, accident date and time, accident cause, seat belt usage, airbag deployment, road type, anatomical location of the facial fracture, and treatment approach. RESULTS: Among the 147 patients who met the inclusion criteria, the most prevalent age groups were 20-30 (36.7%) and 30-40 (32.7%) years, with a mean age of 33.6 ± 9.7 years. The male-to-female ratio was 6:1. Most crashes occurred in March, August, and July. These accidents involved 69.4% light vehicles and 39.6% heavy vehicles. The leading causes of rollover crashes were speeding (58.5%) followed by distracted driving (21.1%) and traffic rule violations (13.6%). The most prevalent injuries were fractures of the maxillary sinus wall (40.8%), nasal bones (39.5%), zygomaticomaxillary complex (36.1%), and the mandible (32.6%). Surgical intervention was necessary for 44.2% of patients, while 12.9% of cases underwent close reduction, and 42.9% did not require any surgical intervention. The occurrence of nasal bone fractures was significantly lower in cases where seat belts were worn and zygomatic arch fractures were less frequent in incidents with airbag deployment. CONCLUSIONS: In rollover crashes, the midface is the most vulnerable anatomical location. Utilization of seat belts and airbag deployment has the potential to prevent nasal bone and zygomatic arch fractures.

Predictors of Facial Fractures in Trauma Patients: Retrospective Review at a Level I Trauma Center.

BACKGROUND: The incidence and causes of facial fractures differ between patients, but patterns arise within populations. These patterns vary by gender, age, and between countries. This study aims to determine variables to identify patients at risk for facial fractures in a United States trauma population. METHODS: This is a single-center study of Trauma Registry data, inclusive of years July 1, 2016, to January 31, 2022. Inclusion criteria were based upon all trauma patients. Confirmation of a non-isolated facial fracture (dependent variable) was verified using ICD10 diagnosis codes. A logistic regression was performed in SPSS to ascertain the effects of predictor variables on the likelihood that a trauma patient will experience a facial fracture. RESULTS: 20377 patients were included in the analysis based upon the requirements specified in the methods section; 1575 (7%) had a positive facial fracture. The logistic regression model was statistically significant (N = 18507, P < .01). Significant risk factors for facial fracture identified included helicopter transport (OR = 1.35, P < .01) and increasing injury severity scores (OR = 1.07, P < .01). Modes of injury most likely to predict facial fracture included assault (OR = 6.62, P < .01), moped (OR = 2.02, P < .01), and motorcycle trauma (OR = 1.55, P < .01). The discharge disposition most likely among facial fracture patients included short-term general hospital (OR = 1.71, P < .01) and intermediate care facility (OR = 4.47, P < .01). CONCLUSIONS: Patients with traumatic injuries from assault, moped, and motorcycle accidents were more likely to present with facial fractures. These patients had more severe injuries, seen as increased ISS scores, higher likelihood of transport by helicopter, and the need for additional care after discharge.

Analysis of Nasal Bone Fractures: A 17-year Study of 3785 Patients.

In our previous study, we classified nasal bone fractures into 6 types based on computed tomography and the patterns of the nasal bone fractures (NBF) in 503 patients treated between 1998 and 2004. In the present study, we analyzed 3785 patients treated between 2005 and 2021. The age, sex, etiology, associated injuries, pattern of fractures, and treatments were reviewed, and radiographic studies were analyzed. The highest incidence was in the age group of 10 to 19 years (N=870, 23.0%), followed by 20 to 29 years (N=792, 20.9%) and 30 to 39 years (N=635, 16.8%). The most common causes of injury were slip or fall-down (42.3%), violence (24.3%), sports (19.2%), traffic accidents (8.9%), and work-related (5.3%). Most of the patients had tenderness (96.1%) and swelling (78.8%). Other findings were depression (27.1%) and nasal deviation (25.8%). Crepitus was heard in only 0.4% of the patients. The patterns of the NBFs classified by computed tomography findings were type IIA (unilateral simple fracture with displacement/without telescoping, 1283 cases, 33.9%), IIB (bilateral simple fracture with displacement/without telescoping, 786 cases, 20.8%), IIAs (unilateral simple fracture with septal fracture and displacement/without telescoping, 566 cases, 14.9%), IIBs (bilateral simple fracture with septal fracture and displacement/without telescoping 530 cases, 14.0%), I (simple fracture without displacement, 522 cases, 13.8%), and III (comminuted with telescoping or depression, 98 cases, 2.6%). In most of the cases (3,666, 96.9%), closed reduction was performed. The present analysis is one of the largest data sets on NBF in Korea, which could provide reference values for diagnosing and managing nasal bone fractures.

Facial fractures: The "bottom-up" approach.

Given the demands of a busy high-volume trauma center, trauma radiologists are expected to evaluate an enormous number of images covering a multitude of facial bones in a short period of time in severely traumatized patients. Therefore, a comprehensive checklist, search pattern, and practical approach become indispensable for evaluation. Moreover, fracture complex classification conveys abundant information in a succinct shorthand fashion, which can be a large asset in a busy high-volume trauma center: reliably helping clinicians communicate urgent findings, make early treatment decisions, and effectively plan surgical approaches. Traditionally, radiologists' approach the CT axial dataset in top-down fashion: navigating their descent craniocaudal. However, a bottom-up approach may be advantageous, especially when it comes to facial fracture complex classification. Four key anatomic landmarks of the face, when evaluated sequentially in bottom-up fashion, are favorable to rapid single-sweep facial fracture characterization: the mandible, the pterygoid plates, the zygoma, and the bony orbits. That is, when done in succession: 1. Clearing the mandible rules out a panfacial smash fracture. 2. Clearing the pterygoid plates effectively rules out a Le Fort I, II, and III fracture. 3. Clearing the zygoma effectively rules out a zygomaticomaxillary complex (ZMC) type fracture. 4. Clearing the bony orbits effectively rules out a naso-orbital-ethmoid (NOE) fracture. Following this process of exclusion and elimination; as one ascends through the face, fracture characterization becomes more manageable and straightforward. Besides identifying all of the fractures and using the appropriate classification system, the radiologist also needs to recognize key clinically relevant soft tissue injuries that may be associated with facial fractures and thus should address these in the report.

Pediatric Panfacial Fractures.

Pediatric panfacial trauma is a rare occurrence with poorly understood implications for the growing child. Treatment algorithms largely mirror adult panfacial protocols with notable exceptions including augmented healing and remodeling capacities that favor nonoperative management, limited exposure to avoid disruption of osseous suture and synchondroses growth centers, and creative fracture fixation techniques in the setting of an immature craniomaxillofacial skeleton. The following article provides a review of our institutional philosophy in the management of these challenges injuries with important anatomic, epidemiologic, examination, sequencing, and postoperative considerations.

Craniofacial Growth and Development: A Primer for the Facial Trauma Surgeon.

Understanding craniofacial growth and development is important in the management of facial trauma in the growing pediatric patient. This manuscript is a review of craniofacial growth and development and clinical implications of pediatric facial fractures.

Artificial Intelligence Model Trained with Sparse Data to Detect Facial and Cranial Bone Fractures from Head CT.

The presence of cranial and facial bone fractures is an important finding on non-enhanced head computed tomography (CT) scans from patients who have sustained head trauma. Some prior studies have proposed automatic cranial fracture detections, but studies on facial fractures are lacking. We propose a deep learning system to automatically detect both cranial and facial bone fractures. Our system incorporated models consisting of YOLOv4 for one-stage fracture detection and improved ResUNet (ResUNet++) for the segmentation of cranial and facial bones. The results from the two models mapped together provided the location of the fracture and the name of the fractured bone as the final output. The training data for the detection model were the soft tissue algorithm images from a total of 1,447 head CT studies (a total of 16,985 images), and the training data for the segmentation model included 1,538 selected head CT images. The trained models were tested on a test dataset consisting of 192 head CT studies (a total of 5,890 images). The overall performance achieved a sensitivity of 88.66%, a precision of 94.51%, and an F1 score of 0.9149. Specifically, the cranial and facial regions were evaluated and resulted in a sensitivity of 84.78% and 80.77%, a precision of 92.86% and 87.50%, and F1 scores of 0.8864 and 0.8400, respectively. The average accuracy for the segmentation labels concerning all predicted fracture bounding boxes was 80.90%. Our deep learning system could accurately detect cranial and facial bone fractures and identify the fractured bone region simultaneously.

Justifying the implementation of intraoperative computed tomography for midface fracture treatment in improving outcomes.

Intraoperative CT scanning is the international standard for treating midface fractures as it allows intraoperative assessment of reduction and fixation. To our knowledge, no NHS hospital in the UK has this facility yet due to the financial and logistical burden of its implementation. The aim of this study was to determine if complications including the requirement for a return to theatre (RTT) could have been predicted from the post-fixation CT scan. All treated midface fractures that had presented to a regionalised major trauma centre within two years (01 January 2020 - 31 December 2021) were identified. Those developing complications including RTT were determined. All postoperative CT scans (including those without complication or RTT) were re-analysed with the clinicians blinded to the outcomes to determine the positive predictive value (PPV) and negative predictive value (NPV) of requiring RTT to alter plate position intraoperatively based on CT scan alone. In all, there were eight episodes of unplanned return to theatre, resulting in an overall RTT rate of 8/119 (6.7%). When only analysing patients treated for orbital fractures this RTT rises to 8/40 (20%). Of those eight patients who had a postoperative CT and required RTT, this could have been predicted in 7/8 (87.5%). A total of 16/44 (36.4%) patients that did not have RTT would have additionally been recommended to have the plate position altered based on CT alone. Based upon those that had a CT, the PPV of CT alone being able to predict those requiring RTT was 40.6% and the NPV 96.2%. Our results would suggest intraoperative CT would likely have prevented eight patients requiring RTT in two years and could have improved outcomes in 16 cases. In preventing RTT as well as potentially improving the outcomes of a further 16 cases in maxillofacial surgery, the purchase of an intraoperative CT scanner could yield net savings of £75534-£114990 over two years.

Management Strategies for Geriatric Maxillofacial Fractures: An Anthropometric and Clinical Study in Taiwan.

BACKGROUND: Geriatric maxillofacial trauma has become an increasingly pressing clinical issue in Taiwan because of increased life expectancy. AIM AND OBJECTIVES: The purposes of this study were to investigate the anthropometric changes and the posttrauma outcomes in the aging population and to optimize the management strategies for geriatric facial fractures. MATERIALS AND METHODS: From 2015 to 2020, a total of 30 patients 65 years or older were identified to have suffered from maxillofacial fractures and presented at the emergency department of the Chang Gung Memorial Hospital (CGMH). These patients were categorized into group III, representing the elderly group. Two other groups (group I, age 18-40 years; group II, age 41-64 years) of patients were categorized based on their age. After applying propensity score matching to reduce bias caused by a large case number difference, patient demographics, anthropometric data, and management methods were compared and analyzed. RESULTS: Among 30 patients 65 years or older who met the inclusion criteria, the mean age of the matched group III was 77.31 ± 14.87 years, and the mean number of retained teeth was 11.77 (range, 3-20 teeth). The elderly patients had a significantly lower number of retained teeth (group I vs group II vs group III, 27.3 vs 25.23 vs 11.77; P < 0.001). Anthropometric data showed that facial bone structure degenerated significantly with advancing age. Outcome analysis demonstrated that falls accounted for 43.3% of injury mechanisms in the elderly group, followed by motorcycle accidents (30%) and car accidents (23.3%). Nineteen elderly patients (63%) received nonsurgical management. On the other hand, 86.7% of cases in the other 2 age groups underwent surgery. The average numbers of total hospital and intensive care unit stays in group III patients were 16.9 (range, 3-49 days) and 4.57 (range, 0-47 days), which was significantly longer than the other 2 age groups. CONCLUSIONS: Our results suggested that not only surgery is feasible for elderly patients with facial fractures, but an acceptable result is often obtainable. However, an eventful course, including extended hospital/intensive care unit stays and an increased risk of associated injuries and complications, may be expected.

Epidemiological aspects of dental trauma associated with maxillofacial injures: Ten years of clinical experience in Trieste, Italy.

BACKGROUND/AIMS: The prevalence of dental injuries in patients with facial fractures is relevant. Epidemiologically, dental trauma in association with facial fractures generally affects the age group between 20 and 40 years old, with a higher prevalence in males. The aim of this retrospective study was to identify the incidence and etiology of dental trauma associated with facial fractures over a 10-year period. METHODS: From January 2009 to April 2019, among 381 patients with facial fractures, 353 were included in this study. Age, gender, trauma etiology, injured teeth and dental treatment were investigated. RESULTS: From 353 patients, with a mean age of 49.7 ± 19.9 years, 247 (70%) were males and 106 (30%) were females. Accidental falls were the most common type of injury (n = 118, 33.4%), followed by road accidents (n = 90, 25.5%), assaults (n = 60, 17%) and sports trauma (n = 37, 10.5%). Fifty-five subjects (15.60%) had dental injuries associated with facial fractures. Of the 145 teeth involved, 48 (33.1%) were diagnosed with luxation, 22 teeth (15.2%) were avulsed, 11 teeth (7.5%) suffered a concussion and there were 10 (6.8%) alveolar wall fractures.Uncomplicated enamel-dentin fracture was the more frequent hard tissue injury (n = 21, 14.5%), followed by complicated crown-root fracture (n = 10, 6.9%), infraction (n = 8, 5.5%), enamel fracture (n = 3, 2%) and complicated enamel-dentin fracture (n = 3, 2%). There was a peak in incidence between 21 and 40 years (42%). Males had a significantly higher risk of facial fractures with dental injury (75%). Maxillary incisors and canines (62.8%) were the most affected teeth. CONCLUSIONS: There was a high prevalence of dental injuries associated with facial fractures. Maxillary incisors were the most injured teeth, with a higher prevalence in males.

Evidence-Based Medicine for Midface/Orbit/Upper Facial Fracture Repair.

The face is one of the most common areas of traumatic injury, making up approximately 25% of all injuries in 2016. Assault, motor vehicle collision (MVC), fall, sports, occupational, and gunshot wounds (GSW) are all common causes of facial fractures, with MVC and GSW leading to significantly higher severity of injuries. Most facial fractures occur in the upper two-thirds of the face. Most facial fractures require timely assessment, diagnosis, and treatment for optimal restoration of facial structures and functions. Without proper initial management, significant complications including immediate complications such as airway compromise, massive bleeding, infection, intracranial hemorrhages, or even death, and long-term complications such as poor functional outcomes and aesthetic setbacks can occur. The goal of this review is to summarize the management of fractures of the upper face, orbit, and midface and provide an update about complications and their management.

Reducing Systemic Risks in a Traumatic Panfacial Injury Patient.

Panfacial trauma refers to injuries caused by high-energy mechanisms to two or more regions of the craniofacial skeleton, including the frontal bone, the midface, and the occlusal unit. As with any trauma, Advanced Trauma Life Support protocols should be followed in unstable patients. For the patient with panfacial traumatic injury, advanced perioperative care or critical care is frequently required. This article describes surgical critical care for panfacial injuries, a component of the acute-care surgery model, to reduce systemic risks, improve the patient's condition, and enable a successful surgical outcome.

Facial Fractures in Indigenous and Non-indigenous Populations of South Australia.

INTRODUCTION: Maxillofacial trauma in indigenous populations is complex with sociocultural factors, access to health care, and poorer general health issues that impact outcomes. Assaults and road traffic accidents are disproportionately experienced by indigenous persons compared with non-indigenous. METHODS: A retrospective review was conducted from January 2012 to January 2017 at the Women and Children's Hospital and Royal Adelaide Hospital, Adelaide. All maxillofacial fractures that attended or were referred to the unit were included in this study. The primary objective was to analyze epidemiological trends of facial fractures and clinical outcomes in the South Australian indigenous and non-indigenous populations. RESULTS: Maxillofacial fractures in indigenous persons were less than in non-indigenous (31.2 versus 38.2 y, P < 0.001) with 3.8 odds of a facial fracture. Assault was 2.9 times more likely to result in a facial fracture, falls 40.9% less likely, and sports 29.4% less likely compared with non-indigenous ( P < 0.001). Alcohol-related facial fractures had significantly higher rates [odds ratio (OR = 3.8)] compared with non-indigenous. Indigenous from most disadvantaged areas and very remote areas also had significantly higher odds of a facial fracture. Indigenous persons had higher operative rates (OR = 2.8), postoperative complications (OR = 3.1), and a 3.7-day mean difference for the length of stay (6.6 versus 2.9 d, P < 0.001). CONCLUSIONS: Indigenous people are more likely to experience facial fractures from assault resulting in mandibular fractures, whereas non-indigenous people are likely to have sport or fall-related midface fractures. Young indigenous women from outer regional and very remote areas have greater odds of facial fractures caused by assault and alcohol with higher operative rates, postoperative complications, and extended length of stay.

Interfacility Emergency Department Transfer for Midface Fractures in the United States.

PURPOSE: Interfacility hospital transfer for isolated midfacial fractures is common but rarely clinically necessary. The purpose of this study was to generate nationally representative estimates regarding the incidence, risk factors, and cost of transfer for isolated midface fractures. METHODS: This was a retrospective cohort study using the Nationwide Emergency Department Sample 2018 to identify patients with isolated midface fractures. The primary predictor variable was hospital trauma center designation (Level I, Level II, Level III, and nontrauma center). The primary outcome variable was hospital transfer. Total emergency department (ED) charges were also assessed. Covariates were demographic, medical, injury-related, and hospital characteristics. Descriptive, bivariate, and multiple logistic regression statistics were used to evaluate the incidence and predictors of interfacility transfer. RESULTS: During the study period, there were 161,022 ED encounters with a midface fracture as primary diagnosis, of which 5,680 were transferred (3.53%). In an unadjusted analysis, evaluation at a nontrauma center, level III trauma center, nonteaching hospital, and numerous demographic, medical, and injury-related variables were associated with transfer (P ≤ .001). In the adjusted model, the strongest independent predictors for hospital transfer were evaluation at a nontrauma center (odds ratio [OR] = 16.2, 95% confidence interval [CI] = 13.6-19.4), level III trauma center (OR = 13.4, 95% CI = 11.1-16.1) or level II trauma center (OR = 3.25, 95% CI = 2.66-3.98), any Le Fort fracture (OR = 12.0, 95% CI = 10.4-14.0), orbital floor fracture (OR = 3.73, 95% CI = 3.48-4.00), history of cerebrovascular event (OR = 2.74, 95% CI = 2.18-3.45), and cervical spine injury (OR = 5.87, 95% CI = 4.79-7.20) (P ≤ .001). The average ED charge per encounter was $7,206 ± 9,294 for a total nationwide charge of approximately 1.16 billion dollars. Transferred subjects had total ED charges of $97 million, not including additional charges at the recipient hospital. CONCLUSION: Isolated midface fractures are transferred infrequently, but given the high incidence have substantial healthcare costs. Predictors of transfer were mixed rather than clustered within one variable type, although it is likely that transfers are driven in part by lack of access to maxillofacial specialists given the predominance of hospital covariates. Programs evaluating necessity of transfer and facilitating specialist evaluation in the outpatient setting may reduce healthcare expenditures for these injuries.

Are Facial Soft Tissue Injury Patterns Associated With Facial Bone Fractures Following Motorcycle-Related Accident?

PURPOSE: The unprotected nature of motorcycle riding exposes motorcyclists to an elevated risk of sustaining facial soft tissue injuries (STIs); however, its link with underlying facial bone fractures remains unexplored. The purpose of this study is to determine whether the type and site of STI sustained by motorcyclists were associated with the presence of underlying facial bone fractures. MATERIALS AND METHODS: This was a retrospective cohort study of patients identified from the Oral and Maxillofacial Surgery Department of Universiti Kebangsaan Malaysia Medical Center trauma census who had motorcycle-related injury and met the inclusion criteria. The primary predictor variable was the type (laceration, contusion, abrasion, and no injuries) and site of STIs sustained. The site of the facial STI was categorized as per 17 different zones based upon the modified MCFONTZL classification. The primary outcome variable was the presence or absence of facial bone fractures as determined from the computed tomography scan. Descriptive and bivariate statistics were computed to measure the association between sustaining facial bone fractures and type/site of STI. RESULTS: Seventy three patients (65 men and 8 women) were included in this study. The average age was 31.9 years (standard deviation ± 13.6) with a range of 18 to 70 years. There were 1,241 facial zones being assessed with 285 (23%) and 214 (17%) zones having STI and fractures, respectively. Laceration (124/285, 43%) and the orbital zone (53/285, 19%) were the most common type and site of STI, respectively, among motorcyclists. Facial bone fractures are more commonly seen following STI in the midface (71% of STI had fractures) compared to upper face (53%) and lower face (31%). Sustaining laceration type of STI was not associated with a higher rate of facial bone fracture when compared with other type of STI (54.8% vs 55.9%, P = .858) with the exception of laceration in the frontal zone (42.9% vs 10.5%, P = .022). CONCLUSIONS: The different types of STI in the facial area cannot be used as a predictor for sustaining underlying facial bone fractures.

Manejo de las fracturas maxilofaciales y sus complicaciones / Management of maxillofacial fractures and its complications

RESUMEN Antecedentes: el trauma maxilofacial corresponde a toda lesión traumática del macizo facial. Actualmente representa uno de los problemas de salud más importantes en el mundo. Nuestro objetivo es realizar un análisis de nuestra experiencia en las intervenciones realizadas en pacientes internados y sus complicaciones. Material y métodos: se realizó un estudio descriptivo, retrospectivo y observacional de 205 pacientes con fracturas maxilofaciales desde el año 2011 hasta el año 2019. Resultados: el 81,46% fueron hombres (n: 167) y el rango etario más afectado osciló entre los 21 y 30 años con el 38,54% (n:79). El accidente de tránsito 56,1% (n:115) fue el mecanismo de trauma más frecuente. Los tipos de fracturas faciales fueron: panfaciales 12,2% (n: 25), tercio superior 1,46% (n:3), tercio medio 72,2% (n:148) y tercio inferior 14,15% (n:29). Dentro del tercio superior, el 66,67% (n:2) fueron fracturas del seno frontal asociadas al hueso frontal, en el tercio medio las combinadas en un 54,73% (n:81) y en el tercio inferior, las complejas en el 34,48% (n:10). Fueron intervenidos 199 pacientes (97,07%). Solo el 11,56% (n:23) presentó alguna complicación. No se observaron complicaciones graves. Discusión: según nuestra serie, la mayoría de los pacientes fueron hombres jóvenes; la causa más frecuente, el accidente de tránsito, y el tercio medio, el más afectado, resultados estos similares a los de otros estudios publicados. El tratamiento quirúrgico fue principalmente reducción abierta y fijación con material de osteosíntesis de titanio, un procedimiento seguro y fiable, que permite restablecer la funcionalidad previa al traumatismo, con un índice muy bajo de complicaciones posoperatorias.

ABSTRACT Background: Maxillofacial trauma corresponds to all traumatic injuries affecting the facial bones. Nowadays, it represents one of the main healthcare issues worldwide. The aim of this study is to analyze our experience in the interventions performed in hospitalized and their complications. Material and methods: We performed a retrospective and observational study of 205 patients with maxillofacial fractures from 2011 to 2019. Results: 81.46% were men (n = 167) and 38.54% (n = 79) of the patients were between 21 and 30 years of age. Traffic collision was the most common mechanism of trauma (56,1%, n = 115). The types of facial fractures were panfacial (12.2%; n = 25), of the upper-third (1.43%; n = 3), of the middle-third (72.2%; n = 148) and of the lower third (14.15%; n = 29). In the upper third of the face frontal sinus fractures associated with the frontal bone were the most common (66.67%; n =2); in the middle-third combined fractures were most prevalent (54.73%; n = 81) while complex fractures were most frequent in the lower third (34,48%; n = 10). One-hundred and ninety-one patients were operated on (97.07%). Complications occurred in only 11.56% (n = 23) and were not serious. Discusion: In our series, most patients were young men, traffic collisions were the most common cause of trauma, and the middle third of the face was the most affected region. These results are similar to our publications. Surgical management, mostly by open reduction and fixation with titanium-based osteosynthesis material, is an effective, safe and reliable procedure, which allows the restoration of pre-trauma function, with very low rate of postoperative complications.