An innovative reconstruction procedure for fractures extending to the posterior orbital floor: utilizing the inferior margin of the greater wing of the sphenoid bone for reconstruction.

PURPOSE: No definitive procedures have been proposed for orbital floor fractures extending to the slope of the posterior end, which is a challenging problem. This study demonstrates the effectiveness of an orbital reconstruction procedure based on anatomical landmarks that we developed, called the three landmarks procedure (TLP). METHODS: This study is a single-center retrospective cohort study conducted by the Department of Otorhinolaryngology, Japanese Red Cross Asahikawa Hospital. Data were collected from April 2000 to December 2023. The effect of TLP and the balloon procedure (BP) on ocular movement was compared. The prevalence of postoperative enophthalmos after TLP was examined. RESULTS: The study included 17 patients who underwent TLP and 25 patients who underwent BP. Postoperative mean Hess area ratio (HAR%) was 98.3 (95% confidence interval (CI), 97.0-99.6) in the TLP group and 88.6 (95% CI 83.2-94.0) in the BP group. Among study patients with fractures extending to the posterior slope, 14 underwent TLP and 16 underwent BP. Postoperative mean HAR% was 98.5 (95% CI 97.3-99.7) in the TLP group and 89.2 (95% CI 82.4-95.8) in the BP group. Among all patients who underwent TLP, mean postoperative enophthalmos was 0.06 mm (95% CI - 0.32 to 0.44). It was 0.14 mm (95% CI - 0.31 to 0.59) among patients with fractures extending to the posterior slope. CONCLUSION: TLP resulted in better postoperative ocular movements than BP. Furthermore, TLP is an effective technique for treating fractures extending to the posterior slope, which are challenging to reconstruct.

Patient-Specific Implant Customization for Treatment of Internal Orbital Fractures Using Office-Based Three-Dimensional Printing.

OBJECTIVE: Three-dimensional (3D) modeling technology aids the reconstructive surgeon in designing and tailoring individualized implants for the reconstruction of complex craniofacial fractures. Three-dimensional modeling and printing have traditionally been outsourced to commercial vendors but can now be incorporated into both private and academic craniomaxillofacial practices. The goal of this report is to present a low-cost, standardized office-based workflow for restoring bony orbital volume in traumatic orbital fractures. METHODS: Patients with internal orbital fractures requiring open repair were identified. After the virtual 3D models were created by iPlan 3.0 Cranial CMF software (Brainlab), the models were printed using an office-based 3D printer to shape and modify orbital plates to correctly fit the fracture defect. The accuracy of the anatomic reduction and the restored bony orbital volume measurements were determined using postoperative computed tomography images and iPlan software. RESULTS: Nine patients fulfilled the inclusion criteria: 8 patients had unilateral fractures and 1 patient had bilateral fractures. Average image processing and print time were 1.5 hours and 3 hours, respectively. The cost of the 3D printer was $2500 and the average material cost to print a single orbital model was $2. When compared with the uninjured side, the mean preoperative orbital volume increase and percent difference were 2.7 ± 1.3 mL and 10.9 ± 5.3%, respectively. Postoperative absolute volume and percent volume difference between the orbits were -0.2 ± 0.4 mL and -0.8 ± 1.7%, respectively. CONCLUSIONS: Office-based 3D printing can be routinely used in the repair of internal orbital fractures in an efficient and cost-effective manner to design the implant with satisfactory patient outcomes.

Biomechanical Study on the Comparison of Synthetic Materials for Cranio-Orbital Fracture Repair.

OBJECTIVE: For analyzing the mechanical properties of 2 cranio-orbital repair materials under distinct external impacts by finite element analysis and evaluating the stability of various repair materials. METHODS: Based on the computed tomography images of the patients with cranio-orbital fractures, three-dimensional models of the normal craniomaxillofacial models were established by segmenting them with Mimics 19.0, Geomagic Studio 12.0, and UG 12.0, respectively, to build the finite element models of titanium repair fixation and the poly-ether-ether-ketone repair fixation. The models were then simulated by Ansys 19.2, with divergent impact forces to analyze the stresses and displacements of the repair materials, as well as the internal fixation system, and to make a comparison on the stability of the distinct repair materials. RESULTS: The titanium mesh is stable at impact forces ≤1500 N. Furthermore, the poly-ether-ether-ketone mesh and the internal fixation system are resistant to fracture and displacement at impact forces of up to 3000 N. CONCLUSION: By simulating distinct mechanical environments, the biomechanical finite element analysis method can digitally assess the mechanical properties of cranio-orbital repair materials and objectively evaluate the stability of the repair materials and the internal fixation system.

A New Approach in Management of Orbital Adherence Syndrome.

Orbital walls are one of the most common sites of midface fractures and account for ~40% of traumatic injuries in this region. These fractures are often associated with changes in the anatomy of the orbital cavity and frequently affect the orbital inferior wall, infraorbital groove and canal, and medial orbital wall, which leads to changes in its pattern and volume as well. Generally, the forces required for brake superior and lateral walls are greater than those required for thin medial and inferior walls. Disruption of any of these structures leads to the expansion of orbital volume that brings to the appearance of enophthalmos, diplopia, and impaired ocular mobility. The gold standard in the treatment of orbital wall fractures is surgical reconstruction, that includes fracture site exposure, freeing tissue prolapsed into the fracture site, and re-approximating the orbital wall support, usually with an orbital implant. It usually could be achieved by the usage of such as transconjunctival, subciliary, and coronal approaches and implementation of graft and reconstructive materials, including bones, cartilage, titanium, and resorbable mesh. Today, the gold standard in orbital floor reconstruction is the application of titanium mesh orbital plates. However, their implementation could be associated with a number of postoperative complications, such as mispositioning and orbital adherence syndrome. Orbital adherence syndrome is a poorly described and understood phenomenon and appears to occur after the use of large-pored titanium mesh for orbital reconstruction. It usually appears as limited eye movement that appears 1 to 2 weeks after reconstructive procedure. Prevention is possible through careful patient selection and the placement of a smooth interface medium in the initial surgery. The aim of the current study is to present the outcomes of orbital reconstruction done by both orbital mesh and customized ​​smooth-surfaced titanium orbital implants.

Intraoral Approach for Zygomaticomaxillary Complex and Orbital Floor Fracture With a Customized Ballooning Technique.

The zygomaticomaxillary complex and the orbital floor are commonly affected by mid-face fractures; their fractures pose challenges in reconstruction and can result in complications, such as enophthalmos. This study explores an intraoral approach with the help of a customized balloon technique and a contrast agent as an alternative to the conventional methods. A case report of a 67-year-old man with complex midfacial trauma is presented. The surgical process involved open reduction through an intraoral approach along with a transantral approach with the customized balloon technique. The procedure aimed to achieve reduction, fixation, and reconstruction of a complex mid-face fracture.

Is Gillies Temporal Incision Necessary to Successfully Reduce Zygomaticomaxillary Fracture Combined With Orbital Wall Fracture?

Gillies temporal approach has been widely used to reduce zygoma fractures. Traditionally, it is the preferred method to reduce the isolated zygomatic arch fracture. It can be combined with other approaches, such as subciliary and intraoral incisions for more complex zygomatic fractures, so-called tripod fractures. In this study, the author hypothesized that complex zygomaticomaxillary bone fracture reduction can successfully be achieved without Gillies temporal incision. The author retrospectively analyzed the medical records and 3D facial Computed Tomography (CT) scans of 80 patients who had orbitozygomaticomaxillary fractures that affected >3 sites among the frontozygomatic suture, zygomaticomaxillary buttress, zygomatic arch, and orbital walls from May 2021 to August 2023. A single surgeon performed all surgical operations. All fractures were reduced with 2 incisions, lower eyelid incisions (subciliary or subconjunctival) and intraoral incisions (gingivobuccal approach), within a week of the initial traumatic event. After sufficient exposure to fractured sites using 2 incisions, the author reduced the fracture with a bony hook at the inferior orbital rim, lateral wall, or Boise elevator at the intraoral incision. All cases were successfully corrected without any complications. In conclusion, the author can successfully reduce complex zygomaticomaxillary fracture combined with orbital wall fractures without temporal Gillies approach.

[Growing skull fracture of the orbital roof: case report and literature review]. / Rastushchii perelom verkhnei stenki orbity. Klinicheskii sluchai i obzor literatury.

BACKGROUND: Growing skull fracture (GSF) of the orbital roof is a rare complication of head injury in infancy and early childhood. Analysis of the Medline database between 1983 and 2023 identified 17 articles describing 63 children after surgical treatment of GSF of the orbital roof. MATERIAL AND METHODS: We present a 2-year-old child with moderate traumatic brain injury (TBI) complicated by GSF of the orbital roof. Neuroimaging and literature data are described. RESULTS: Severe ophthalmological symptoms in acute period of TBI subsequently partially regressed with persistent swelling of the upper eyelid and hypophthalmos. CT and MRI revealed a linear fracture of the frontal bone extending to superior orbital wall and intraorbital collection of cerebrospinal fluid (pseudomeningocele) mixed with blood. MR signs of GSF of the orbital roof with pseudomeningocele shrinkage were found in 5 weeks after injury. After 6 months, CT and MRI revealed signs of more severe GSF. Surgical treatment implied craniotomy, excision of scars, arachnoid membrane and abnormal brain matter, resection of deformed fracture edges, dura mater sealing and orbital roof reconstruction with bone autograft. Ophthalmological symptoms regressed after 6 months. The follow-up period was 6 years. There were no signs of fracture recurrence. CONCLUSION: In this case, acute intraorbital pseudomeningocele led to GSF of the orbital roof in 5 weeks after injury. Incomplete regression of ophthalmological symptoms, their aggravation or delayed appearance in children with orbital roof fracture requires a thorough examination including high-resolution CT and MRI, and orbital roof GSF should be considered in the differential diagnosis.

Association of Absent or Trace Fluid in the Maxillary Sinus and Inferior Rectus Muscle Entrapment in Patients With Orbital Floor Fracture.

Inferior rectus (IR) entrapment requires urgent surgical intervention in patients with traumatic orbital floor fracture (OFF). We evaluated 47 patients who underwent CT showing acute OFF, 10 of whom had surgically confirmed entrapment. Absent or trace dependent fluid in the ipsilateral maxillary sinus had sensitivity of 40% and specificity of 95% for entrapment. In comparison, sensitivity and specificity were 80% and 78% for IR thickening and 70% and 59% for sinus herniation of orbital contents.

The Statistical Fragility of Orbital Fractures: A Systematic Review of Randomized Controlled Trials.

BACKGROUND: The P value has often been used as a tool to determine the statistical significance and evaluate the statistical robustness of study findings in orthopedic literature. The purpose of this study is to apply both the fragility index (FI) and the fragility quotient (FQ) to evaluate the degree of statistical fragility in orbital fracture literature. We hypothesized that the dichotomous outcomes within the orbital fracture literature will be vulnerable to a small number of outcome event reversals and will be statistically fragile. METHODS: Using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA), the authors identified all dichotomous data for randomized controlled trials (RCTs) in orbital fracture literature and performed a PubMed search from 2000 to 2022. The FI of each outcome was calculated through the reversal of a single outcome event until significance was reversed. The FQ was calculated by dividing each FI by study sample size. The interquartile range (IQR) was also calculated for the FI and FQ. RESULTS: Of the 3,329 studies screened, 28 met the criteria with 10 RCTs evaluating orbital fractures included for analysis. A total of 58 outcome events with 22 significant (P < .05) outcomes and 36 nonsignificant (P ≥ .05) outcomes were identified. The overall FI and FQ for all 58 outcomes was 5 (IQR: 4 to 5) and 0.140 (IQR: 0.075 to 0.250), respectively. Fragility analysis of statistical significant outcomes and nonsignificant outcomes had an FI of 3.5 with no IQR and 5 (IQR 4-5), respectively. All of the studies reported a loss to follow-up data, where 20% (2) was greater than the overall FI of 5. CONCLUSION: The orbital fracture literature provides treatment guidance by relying on statistical significant results from RCTs. However, the RCTs in the orbital fracture peer-reviewed literature may not be statistically stable as previously thought. The sole reliance of the P value may depict misleading results. Thus, we recommend standardizing the reporting of the P value, FI, and FQ in the orbital fracture literature to aid readers in reliably drawing conclusions based on fragility outcome measures impacting clinical decision-making.

Virtual Surgical Planning of Superior Orbital Rim Fractures in Calvarial and Maxillofacial Trauma.

BACKGROUND: Superior orbital rim fractures are challenging fractures as they often concomitantly occur with additional calvaria fractures. Virtual surgical planning (VSP) has been underutilized in this area of craniomaxillofacial trauma for reconstruction. PURPOSE: The purpose of this study is to qualitatively describe the use of VSP and anatomically perfected stereolithic models in treatment of superior orbital rim fractures in combined neurosurgery/oral and maxillofacial surgery cases. STUDY DESIGN, SETTING, SAMPLE: This study is a retrospective case series of subjects who were treated at the Massachusetts General Hospital (July 2022 to November 2022). Inclusion criteria include subjects who had both calvaria and maxillofacial injuries requiring concurrent operative intervention on their superior orbital rim fractures and the use of VSP. PREDICTOR/EXPOSURE/INDEPENDENT VARIABLE: Not applicable. MAIN OUTCOME VARIABLE: The outcome variable of interest is the difference in the planned position of the orbital rim repair compared to the actual position achieved. COVARIATES: None. ANALYSES: Heat map analysis was used to compare the difference in the planned position versus the actual position achieved. RESULTS: There were six orbits (five subjects, mean age 33.8 ± 21.49 years) that met the criteria. The mean difference in planned versus actual orbital volume achieved was 2.52 ± 2.48 cm3. The superimposition of the postoperative scan to the planned simulation revealed 84% ± 3.27% of the voxel surface was within +2 and -2 millimeters of its planned position. CONCLUSION AND RELEVANCE: This study has demonstrated the use of VSP in combined neurosurgery and oral and maxillofacial surgery procedures in the fixation of superior orbital rim fractures. This case series highlights that the postoperative position achieved in the six orbits was within 84% of the planned position.

Predictors of Intraoperative Difficulty and Postoperative Examination Abnormalities in 164 Orbital Operations.

BACKGROUND: Although orbital fractures are common, prediction of outcomes in orbital surgery can be quite challenging. PURPOSE: We aim to identify predictors of intraoperative difficulty, operating time, and postoperative examination abnormalities in subjects undergoing post-traumatic orbital reconstructions. STUDY DESIGN, SETTING, AND SAMPLE: This is a retrospective cohort study of all consecutive orbital operations performed at a private, Level 1 trauma center in Portland, Oregon, USA over an 82-month period. All subjects that underwent exploration of the internal orbit for traumatic indications during the study period were included in the cohort. PREDICTOR VARIABLES: Four plating styles, surgical approach (transorbital vs transantral), days from injury to first surgery, fracture size (approximated as a rectangle using linear measurements from computed tomography scans), anteroposterior fracture position, and medial wall involvement were examined. OUTCOME VARIABLES: The primary outcome variable was intraoperative difficulty (defined as requiring revision after intraoperative imaging or return to the operating room). Secondary outcome variables included operating time and postoperative examination abnormalities. COVARIATES: Age and sex were included. ANALYSES: χ2 and Regression analyses were performed using a significance level of P < .05. RESULTS: One hundred and sixty four orbital operations were performed (90 isolated injuries and 74 combined orbital/midface injuries) on 155 subjects (73% male, mean age 39.8 years, standard deviation 16.7). In subjects with isolated orbital fractures, medial wall involvement was associated with intraoperative difficulty (P = .01). When using a transantral approach, intraoperative difficulty was more likely in more anterior fractures (P = .02). Plating style was associated with operating time (P = .03), with median times from 81 to 105 minutes (range 21 to 248 minutes). Postoperative examination abnormalities were more likely in the transorbital approach group (P = .01). Neither days to first surgery nor intraoperative difficulty were associated with postoperative examination abnormalities. Postoperative eyelid changes were seen in 13.6% of transorbital approaches and 0% of transantral approaches. Correction of gaze restriction and enophthalmos were more likely than correction of diplopia (P < .01). CONCLUSIONS AND RELEVANCE: Medial wall involvement is associated with intraoperative difficulty in orbital surgery. Anteriorly positioned fractures are better treated transorbitally, while posterior fractures may be amenable to transantral repair, thus avoiding risk of lower eyelid changes.

Are Magnetic Resonance Imaging-Generated 3Dimensional Models Comparable to Computed Tomography-Generated 3Dimensional Models for Orbital Fracture Reconstruction? An In-Vitro Volumetric Analysis.

BACKGROUND: Magnetic resonance imaging (MRI) is being increasingly considered as an alternative for the evaluation and reconstruction of orbital fractures. No previous research has compared the orbital volume of an MRI-imaged, three-dimensional (3D), reconstructed, and virtually restored bony orbit to the gold standard of computed tomography (CT). PURPOSE: To measure the orbital volumes generated from MRI-based 3D models of fractured bony orbits with virtually positioned prebent fan plates in situ and compare them to the volumes of CT-based virtually reconstructed orbital models. STUDY DESIGN: This retrospective in-vitro study used CT and MRI data from adult patients with orbital trauma assessed at the Royal Brisbane and Women's Hospital Outpatient Maxillofacial Clinic from 2011 to 2012. Only those with orbital blowout fractures were included in the study. PREDICTOR VARIABLE: The primary predictor variable was imaging modality, with CT- and MRI-based 3D models used for plate bending and placement. MAIN OUTCOME VARIABLE: The primary outcome variable was the orbital volume of the enclosed 3D models. COVARIATES: Additional data collected was age, sex, and side of fractured orbit. The effect of operator variability on plate contouring and orbital volume was quantified. ANALYSES: The Wilcoxon signed rank test was used to assess differences between orbital volumes with a significance level P < .05. RESULTS: Of 11 eligible participants, six patients (four male and two female; mean age 31 ± 8.6 years) were enrolled. Two sets of six CT-based virtually restored orbits were smaller than the intact contralateral CT models by an average of 1.02 cm3 (95% CI -0.07 to 2.11 cm3; P = .028) and 0.99 cm3 (95% CI 0.07 to 1.91 cm3; P = .028), respectively. The average volume difference between the MRI-based virtually restored orbit and the intact contralateral MRI model was 0.97 cm3 (95% CI -1.08 to 1.94 cm3; P = .75). Imaging modality did affect orbital volume difference for 1 set of CT and MRI models (0.63 cm3; 95% CI -0.11 to 1.29 cm3; P = .046) but not the other (0.69 cm3; 95% CI -0.11 to 1.23 cm3; P = .075). Single operator variability in plate bending did not result in significant (P = .75) volume differences. CONCLUSIONS: MRI can be used to reconstruct orbital volume with a clinically acceptable level of accuracy.

Orbital floor fractures-a comparison between CT images and findings at surgery.

PURPOSE: The present study aims to investigate how well CT images correlate to surgical findings in orbital floor fractures and to the presence of diplopia. METHODS: In this cross-sectional study, 27 consecutive patients already selected for surgery due to an orbital floor fracture underwent a routine CT scan (axial, coronal, sagittal). An ophthalmologist established any presence of diplopia. Extent of fracture/injury seen on CT was compared to that discovered during surgery. RESULTS: In the surgeons´ opinions CT-images were in concordance with surgical findings in 71% of the cases. Agreement for pure blow out fractures was high (92%). Tetrapod fractures as a cause of an orbital floor fracture was only identified as such by surgeons in three of 11 cases, all subjected to orbital exploration, not only a closed reduction. Diplopia showed a significant correlation to rounding of the inferior rectus muscle at coronal CT. "Rounding" significantly correlated with the presence of a floor defect, to herniation of soft tissues and to the volume of displaced tissue. CONCLUSIONS: The results imply that the joint professional interaction between neuroradiology and surgery is important and would benefit from the use of an easy and well-defined classification system of orbital floor fractures. In Sweden a national record to collect data on all zygomaticomaxillary complex fractures assessed is to be started aiming at making general statements possible by time.

Revisiting bilateral bony orbital volumes comparison using 3D reconstruction in Korean adults: a reference study for orbital wall reconstruction, 3D printing, and navigation by mirroring.

BACKGROUND: Orbital wall fractures can result in changes to the bony orbital volume and soft tissue. Restoring the bony orbital and intraconal fat volumes is crucial to prevent posttraumatic enophthalmos and hypoglobus. We aimed to establish an evidence-based medical reference point for "mirroring" in orbital wall reconstruction, which incorporates three-dimensional (3D)-printing and navigation-assisted surgery, by comparing bilateral bony orbital volumes. METHODS: We retrospectively analyzed the data obtained from 100 Korean adults who did not have orbital wall fractures, categorized by age groups. The AVIEW Research software (Coreline Soft Inc., Seoul, South Korea) was used to generate 3D reformations of the bony orbital cavity, and bony orbital volumes were automatically calculated after selecting the region of interest on consecutive computed tomography slices. RESULTS: The mean left and right orbital volume of males in their 20 s was 24.67 ± 2.58 mL and 24.70 ± 2.59 mL, respectively, with no significant difference in size (p = 0.98) and Pearson's correlation coefficient of 0.977 (p < 0.001). No significant differences were found in orbital volumes in other age groups without fractures or in patients with nasal bone fractures (p = 0.84, Pearson's correlation coefficient 0.970, p < 0.001). The interclass correlation coefficients (2,1) for inter- and intrarater reliability were 0.97 (p < 0.001) and 0.99 (p < 0.001), respectively. CONCLUSIONS: No significant differences were found in the bilateral bony orbital volumes among males of any age. Thus, the uninjured orbit can be used as a volumetric reference point for the contralateral injured orbit during orbital wall reconstruction.

Using three-dimensional printed models for trainee orbital fracture education.

BACKGROUND: Three-dimensional printing is an underutilized technology in ophthalmology training; its use must be explored in complex educational scenarios. This study described a novel approach to trainee education of orbital fracture repair utilizing three-dimensional (3D) printed models as a teaching tool. METHODS: Ophthalmology residents and oculoplastic fellows from multiple training institutions underwent an educational session on orbital fractures, learning through four different models. Participants analyzed orbital fractures through computerized tomography (CT) imaging alone and then utilizing CT imaging with the aid of a 3D printed model. Participants completed a questionnaire assessing their understanding of the fracture pattern and surgical approach. After the training, participants were surveyed on the impact of the educational session. Components of the training were rated by participants on a 5-point Likert scale. RESULTS: A statistically significant difference (p < .05) was found in participant confidence conceptualizing the anatomic boundaries of the fracture and planning the orbital fracture approach for repair of three out of four models on pre-test post-test analysis. On exit questionnaire, 84.3% of participants thought the models were a useful tool for surgical planning, 94.8% of participants thought the models were a useful tool for conceptualizing the anatomic boundaries of the fracture, 94.8% of participants thought the models were a useful tool for orbital fracture training, and 89.5% of participants thought the exercise was helpful. CONCLUSION: This study supports the value of 3D printed models of orbital fractures as an effective tool for ophthalmology trainee education to improve understanding and visualization of complex anatomical space and pathology. Given the limited opportunities trainees may have for hands-on orbital fracture practice, 3D printed models provide an accessible way to enhance training.

Orbitalization of Ethmoidal Sinus With Stacked Cross-linked Acellular Dermal Matrix: A New Strategy to Reconstruct Medial Orbital Wall Fracture.

BACKGROUND: The use of an acellular dermal matrix (ADM) has not been reported in medial orbital wall fracture reconstruction previously. This study aimed to share our early experience with the cross-linked ADM as an allograft material for medial orbital wall reconstruction. METHODS: In this study, the author evaluated the medical records and serial facial computed tomography scans of 27 patients with pure medial orbital wall fractures reconstructed by a single surgeon between May 2021 and March 2023. The author routinely approached the medial orbital wall with a retrocaruncular incision. Five out of 27 patients were reconstructed with trimmed, multiple folded, 1.0-mm-thick cross-linked ADM (MegaDerm; L&C Bio, South Korea). RESULTS: All cases reconstructed with cross-linked ADM improved clinically and radiologically without complications. The serial computed tomography findings revealed that implanted cross-linked ADM successfully covered the defect while providing a significant volumizing effect. CONCLUSIONS: This is the first study to show the efficacy of cross-linked ADM for orbital medial wall fracture reconstruction. Our strategy of orbitalization of ethmoidal sinus with stacked cross-linked ADM would be an excellent surgical option.

Anatomical Reconstruction of Extensive Inferomedial Blow-Out Fractures Involving the Inferomedial Orbital Strut Using a Single Fan-shaped Titanium-Reinforced Porous Polyethylene Plate.

Extensive inferomedial blow-out fractures involving the inferomedial orbit strut frequently result in severe ophthalmic complications. Therefore, anatomical reconstruction is essential but is still technically challenging. Thus, the authors have used a novel technique using a combination of single fan-shaped titanium-reinforced porous polyethylene (TR-PPE) implants and a bidirectionally extended transconjunctival approach. Herein, the authors describe our surgical technique and discuss its effectiveness. First, the transconjunctival approach was performed and was subsequently extended medially using the transcaruncular approach and laterally using lateral blepharotomy. After the origin of the inferior oblique muscle was identified, a trimmed fan-shaped TR-PPE implant was inserted into the orbital floor. It was subsequently rotated and bent at the site of origin of the IO muscle and moved upward to cover the superior bony ledge of the medial wall. Finally, the implant was fixed to the orbital rim. Anatomical orbital reconstruction was confirmed by a computed tomographic scan. The preoperative diplopia in 19 patients, resolved within 1 week in 16 patients and in 3 to 6 months in the remaining 3 patients. Preoperative enophthalmos >2 mm in all patients improved to <2 mm in 67 patients and 3 mm in 2 patients (>7 mm preoperatively). The postoperative course was uneventful, and no severe complications were observed. The authors believe that the placement of a fan-shaped TR-PEE implant into the orbit through the bidirectionally extended transconjunctival approach could be a viable option for the anatomical reconstruction of extensive inferomedial blow-out fractures involving the inferomedial orbital strut.

Long-Term Aesthetic Cicatrization Analysis of Lower Eyelid Incision for Orbital Floor Fracture Approach.

Orbital fractures are among the most frequent facial injuries. Of the 3 most widely described approaches in the literature, the lower eyelid approach is the authors' preference. This study retrospectively analyzed the patients treated at the Trauma Center of the Umberto I Hospital, Sapienza University of Rome from January 2010 to December 2020. Inclusion criteria were as follows: diagnosis of pure/impure orbital bone fracture, complete clinical and radiological documentation, and a minimum of 12 months follow-up. Sex, age, etiology, treatment, and associated complications were analyzed using IBM SPSS Statistics. Two internationally validated scales were used for the functional and esthetic long-term evaluation: the Patient and Observer Scar Assessment Scale (POSAS) and the Vancouver one. The scales were compiled by the patient himself and by 3 independent expert observers. Of the 543 patients who underwent surgery in the specified period, 208 fully met the inclusion criteria. One hundred forty-two (68.2%) were males and 66 (31.8%) were females, with a mean age of 40.68 years. The main cause was represented by assaults (33.1%). One hundred seventy-nine patients had a pure orbital fracture (83.8%) and 29 an impure one (16.2%). The most frequent symptoms at the time of diagnosis were diplopia (31.2%), followed by anesthesia of the second trigeminal branch (24.3%). Open reduction with internal fixation was the preferred treatment and proved to be effective in reducing the main signs and symptoms of the fracture in a statistically significant way ( P < 0.05). Long-term esthetic results of the lower eyelid, using the Vancouver and POSASs, were respectively as follows: Vancouver Scar Scale mean total score was 2.41 (range: 0-8), observer POSAS mean total score was 1.83 (range: 1.2-3.9), observer general opinion mean score was 1.66, patient POSAS mean total score was 2.23 (range: 1.33-3.7), and patient general opinion mean score was 2.87. The lower eyelid approach has proven to be reproducible, with a fast-learning curve and a low complication rate. The analysis conducted highlighted an excellent long-term esthetic-functional result. Further studies will be needed to statistically compare the results obtained with other orbital floor surgical approaches.

Pressure Onto the Orbital Walls and Orbital Morphology in Orbital Floor or Medial Wall Fracture: A 3-Dimensional Printer Study.

The purposes of this study were to compare the pressure onto the orbital floor and medial orbital wall between 3-dimensional printer skull models with unilateral orbital floor and medial orbital wall fractures and to compare the morphology of the orbital floor and medial orbital wall between patients with unilateral orbital floor and medial orbital wall fractures. The skull models were created based on computed tomographic (CT) data obtained from every 10 patients with unilateral orbital floor and medial orbital wall fractures. The orbital spaces of these models were filled with silicone, the silicone surface was pushed down, and pressures onto the orbital floor and the medial orbital wall were measured. On preoperative computed tomographic images taken in the same 20 patients, the superior and lateral bulges of the orbital floor and medial orbital wall were measured, respectively. The measurements were done on the unaffected sides. Consequently, the pressure onto the orbital floor was significantly higher in the orbital floor fracture models than in the medial orbital wall fracture models, although the pressure onto the medial orbital wall was not significantly different between the models. As for the morphologic study, the superior bulge of the orbital floor was higher in the orbital floor fracture group than in the medial orbital wall fracture group. The results of this study indicate that since the orbital floor with a high superior bulge receives high hydraulic pressure, patients with a high superior bulge have a greater risk of orbital floor fracture.

Post-traumatic Telecanthus Induced by a Missed Diagnosis of Avulsion Fracture of the Medial Canthal Tendon.

Telecanthus is commonly accompanied by severe naso-orbito-ethmoid fractures. If there is only an avulsion fracture of the medial canthal tendon (MCT), the initial diagnosis may be missed, and post-traumatic telecanthus may follow. To avoid misdiagnosis of post-traumatic telecanthus, the following should be considered: avulsion fracture of the MCT should be suspected in the presence of an injury or edema of the medial canthal area; the facial computed tomography images should be carefully analyzed to confirm the presence of bone segment caused by the avulsion fracture of the MCT; physical examinations, such as the bowstring test and bimanual palpation, also provide essential data for early diagnosis. And even if early diagnosis is delayed, post-traumatic telecanthus can be improved through aggressive surgical correction.