The Effect of Supine Versus Upright Positioning on Eyelid Height in the Nonsurgical Patient.

PURPOSE: To directly compare margin-reflex distance 1, margin-reflex distance 2, and palpebral fissure in the upright versus supine positions in nonsurgical patients. METHODS: A total of 43 patients (31 female, 12 male, and age range 26-96) were enrolled. Photos were taken in the clinic in the upright and supine position with a ruler placed vertically in the same plane as the eyelid, and the above computer-analyzed measurements were obtained. RESULTS: Among the 86 eyes observed, the average upright margin-reflex distance 1 was 2.97 mm (95% confidence interval [CI], 2.70-3.24), while the average supine margin-reflex distance 1 was 2.38 mm (95% CI, 2.13-2.63). These differences were statistically significant (p < 0.001). Similarly, statistically significant differences were seen with margin-reflex distance 2 (p < 0.001), where upright measurements averaged 5.57 mm (95% CI, 5.33-5.81), and supine measurements averaged 5.01 mm (95% CI, 4.73-5.28). Finally, palpebral fissure showed similar significance (p < 0.001). Upright measurements averaged 8.54 mm (95% CI, 8.19-8.90), while supine measurements averaged 7.38 mm (95% CI, 7.00-7.76). CONCLUSIONS: Supine positioning provides a decrease in margin-reflex distance 1, margin-reflex distance 2, and palpebral fissure when compared with upright positioning in nonsurgical patients. This contradicts a previous study on intraoperative patients when lidocaine with epinephrine was used. This study helps us better understand the normal physiologic response to position changes with regard to eyelid height in the nonsurgical patient. As such, this study may function as a control for future studies comparing anesthetic/surgical parameter effects on intra- and post-operative eyelid heights.

Demographic Differences Among Patients Undergoing Blepharoplasty Based on Surgeon Training in New York State.

PURPOSE: To evaluate whether patient demographics and surgical metrics varied among differently trained surgeons performing blepharoplasty. METHODS: The Statewide Planning and Research Cooperative System database was used to identify patients who underwent blepharoplasty in New York State. Surgeons were grouped based on residency training as listed in the New York State Physician Profile. Multivariate regression analysis was used to determine predictors of patient characteristics based on surgeon training. RESULTS: There were 361 surgeons who performed 39,932 cases of blepharoplasty in New York State from 2008 to 2016. When aggregated by surgeon training, there were significant differences among procedure times and total charges for blepharoplasty. On average, cases performed by ophthalmologists took 66.7 minutes and patients were charged $6,860; cases performed by otolaryngologists took 158.2 minutes and patients were charged $9,084; and cases performed by plastic surgeons took 131.8 minutes and patients were charged $11,028. Unlike plastic surgeons or otolaryngologists, ophthalmologists tended to have older patients and more male patients. Ophthalmologists were more likely to operate on patients with comorbidities as well as non-white patients (p < 0.0001). They were also significantly more likely to have patients with insurance coverage than self-pay (p < 0.0001). CONCLUSIONS: Demographic and surgical metrics of blepharoplasty cases performed by surgeons trained in otolaryngology and plastic surgery are similar. Ophthalmology-trained surgeons performed blepharoplasty on patients that were more likely to be older, male, non-white, and had insurance coverage. Ophthalmologist procedure time for blepharoplasty was also less than half of the procedure time of otolaryngologists and plastic surgeons.Blepharoplasty is a surgical procedure commonly performed by ophthalmologists, otolaryngologists, and plastic surgeons to address cosmetic concerns or visual impairment related to the eyelids.

Considerations in Orbital Reconstruction for the Oncologic Surgeon: Critical versus Optimal Objectives.

Background Orbital reconstruction following oncologic midface resection is uniquely challenging, and makes critical contributions to patient aesthetics, function, and identity. Approach is largely dependent on surgeon and patient preferences, and there exists no consensus on defect characterization. Objective The goal of the study is to provide a mental framework for the reconstructive oncologic surgeon to use as a foundation during his or her approach to the orbit. Design The design of the study is based on the review of current literature and expert opinion. Conclusions Critical versus optimal objectives must be set in orbital reconstruction, and a systematic approach should be followed. We approach orbital reconstruction by first deciding whether globe-sparing surgery is possible, or if orbital exenteration will be necessary. We then set critical and optimal objectives for our chosen pathway. Critical goals in globe-sparing reconstruction include maintaining orbital volume and preserving visual function, and an optimal goal includes preservation of the nasolacrimal system. Critical goals in orbital exenteration include obliterating the defect, sealing the skull base and nasal cavities, and allowing eye protection to be worn over the contralateral eye postoperatively. Optimal goals in exenteration include preparation for prosthetics, volume and bony replacement, eyelid-sparing technique, and consideration of postoperative radiation.

Fishing for Trouble: A Novel Surgical Technique for Penetrating Fishhook Injuries of the Eyelid.

Fishhook injuries commonly occur and may present as ophthalmic surgical emergencies. Choosing the appropriate removal technique is critical and depends on the involved extra- and intra-ocular structures and hook characteristics. We describe the case of a challenging fishhook removal where a novel surgical technique was developed. An eight-year-old boy presented with a full-thickness fishhook injury to the eyelid. During removal surgery, the thickness and density of the fishhook prevented surgical tools from transecting the shank. A novel approach was deemed necessary for safe removal, termed the clamp and retract technique. To our knowledge, this is its first documented use in the literature.

Semi-Automated Analysis of Foveal Maturity in Premature and Full-Term Infants Using Handheld Swept-Source Optical Coherence Tomography.

Purpose: To develop a semi-automated method of measuring foveal maturity using investigational handheld swept source-optical coherence tomography (SS-OCT). Methods: In this prospective, observational study, full-term newborns and preterm infants undergoing routine retinopathy of prematurity screening were imaged. Semi-automated analysis measured foveal angle and chorioretinal thicknesses at the central fovea and average two-sided parafovea by three-grader consensus, correlating with OCT features and demographics. Results: One hundred ninety-four imaging sessions from 70 infants were included (47.8% girls, 37.6 ± 3.4 weeks postmenstrual age, 26 preterm infants with birth weight 1057 ± 325.0, gestational age 29.0 ± 3.0 weeks). Foveal angle (96.1 ± 22.0 degrees) steepened with increasing birth weight (P = 0.003), decreasing inner retinal layer thickness, and increasing gestational age, postmenstrual age, and foveal and parafoveal choroidal thickness (all P < 0.001). Inner retinal fovea/parafovea ratio (0.4 ± 0.2) correlated with increasing inner foveal layers, decreasing postmenstrual age, gestational age, and birth weight (all P < 0.001). Outer retinal F/P ratio (0.7 ± 0.2) correlated with ellipsoid zone presence (P < 0.001), increased gestational age (P = 0.002), and birth weight (P = 0.003). Foveal (447.8 ± 120.6 microns) and parafoveal (420.9 ± 109.2) choroidal thicknesses correlated with foveal ellipsoid zone presence (P = 0.007 and P = 0.01, respectively), postmenstrual age, birth weight, gestational age, and decreasing inner retinal layers (all P < 0.001). Conclusions: Foveal development is dynamic and partially observed through semi-automated analysis of handheld SS-OCT imaging. Translational Relevance: Semi-automated analysis of SS-OCT images can identify measures of foveal maturity.

Multivariate Models to Diagnose Early Referral-Warranted Retinopathy of Prematurity With Handheld Optical Coherence Tomography.

Purpose: The purpose of this study was to create multivariate models predicting early referral-warranted retinopathy of prematurity (ROP) using non-contact handheld spectral-domain optical coherence tomography (OCT) and demographic data. Methods: Between July 2015 and February 2018, infants ≤1500 grams birth weight or ≤30 weeks gestational age from 2 academic neonatal intensive care units were eligible for this study. Infants were excluded if they were too unstable to participate in ophthalmologic examination (2), had inadequate image quality (20), or received prior ROP treatment (2). Multivariate models were created using demographic variables and imaging findings to identify early referral-warranted ROP (referral-warranted ROP and/or pre-plus disease) by routine indirect ophthalmoscopy. Results: A total of 167 imaging sessions of 71 infants (45% male infants, gestational age 28.2+/-2.8 weeks, and birth weight 995.6+/-292.0 grams) were included. Twelve of 71 infants (17%) developed early referral-warranted ROP. The area under the receiver operating characteristic curve (AUC) was 0.94 for the generalized linear mixed model (sensitivity = 95.5% and specificity = 80.7%) and 0.83 for the machine learning model (sensitivity = 91.7% and specificity = 77.8%). The strongest variables in both models were birth weight, image-based Vitreous Opacity Ratio (an estimate of opacity density), vessel elevation, and hyporeflective vessels. A model using only birth weight and gestational age yielded an AUC of 0.68 (sensitivity = 77.3% and specificity = 63.4%), and a model using only imaging biomarkers yielded 0.88 (sensitivity = 81.8% and specificity = 84.8%). Conclusions: A generalized linear mixed model containing handheld OCT biomarkers can identify early referral-warranted ROP. Machine learning produced a less optimal model. Translational Relevance: With further validation, this work may lead to a better-tolerated ROP screening tool.

Vitreous opacities in infants born full-term and preterm by handheld swept-source optical coherence tomography.

PURPOSE: To compare vitreous opacity density in infants born at term and in infants born prematurely using an investigational handheld swept-source optical coherence tomography (SS-OCT). METHODS: Infants born at term underwent imaging once between 12 and 48 hours after birth; infants born prematurely were imaged at each routine retinopathy of prematurity (ROP) examination. Three masked, trained graders analyzed images. Semiautomated methods were used to quantify vitreous opacity density, which was correlated with ROP severity based on indirect ophthalmoscopy, other SS-OCT findings, and medical comorbidities. RESULTS: Between April 2018 and June 2019, 251 SS-OCT imaging sessions were performed on 78 infants (49% female; 36% preterm, with mean birth weight of 1018 ± 338 g and gestational age of 28.6 ± 3.2 weeks). All SS-OCT sessions produced images of adequate quality. Punctate vitreous opacities were present in 25 of 28 term infants (89%) and 41 of 50 premature infants (82%). Dice coefficient and F1 scores for intergrader agreement were 0.99 ± 0.03 and 0.77 ± 0.31, respectively. Vitreous opacity density was 0.118 ± 0.187 in prematurely born infants and 0.031 ± 0.118 in infants born at term (P = 0.009). In the former, vitreous opacity density was associated with ROP zone (P = 0.044) and stage (P = 0.031), intraventricular hemorrhage (P = 0.028), subchorionic hemorrhage (P = 0.026), and African American race (P = 0.023). In the latter, vitreous opacity density was associated with maternal diabetes (P = 0.049). CONCLUSIONS: Our investigational handheld SS-OCT achieved high-quality vitreoretinal images. In our study cohort, punctate vitreous opacities were a frequent finding in infants born at term and those born prematurely, with increased density in those born prematurely, particularly those with severe ROP.

Choroidal Thickness by Handheld Swept-Source Optical Coherence Tomography in Term Newborns.

Purpose: To describe normative values for choroidal thickness in newborns and characterize their relationship to vitreoretinal features. Methods: Term newborns underwent awake, handheld swept-source optical coherence tomography (SS-OCT) in this prospective cohort study. An automated segmentation algorithm followed by manual adjustments measured choroidal thickness at the fovea and five perifoveal locations. Two masked, trained graders, with a third mediating disagreements, analyzed scans for vitreoretinal findings. OCT vitreoretinal findings, including dome-shaped macula, subretinal fluid, punctate hyperreflective vitreous opacities, persistent inner retinal layers, foveal ellipsoid zone, tractional and non-tractional vitreous bands, epiretinal membrane, cystoid macular edema, vessel elevation, scalloped retinal layers, hyporeflective vessels, and retinal spaces, were assessed and correlated with foveal choroidal thickness using a generalized linear mixed model. Results: Fifty-nine eyes of 39 infants (mean gestational age, 39.5 weeks; 18 male, 46%) were included. Mean foveal choroidal thickness was 455.5 ± 93.9 µm. Choroid was thinner inferonasally (343.6 ± 106.2 µm) compared to superonasally (368.4 ± 92.9 µm; P = 0.03) and superotemporally (369.6 ± 100.6 µm; P = 0.02). Thinner foveal choroidal thickness was associated with absence of a foveal ellipsoid zone (437.1 ± 78.5 µm vs. 553.7 ± 93.9 µm; P = 0.02). Choroidal thickness was not significantly associated with other OCT findings. Conclusions: We identified an association between thinner choroid and foveal immaturity. Additional study is needed to determine whether choroidal development impacts visual outcomes. Translational Relevance: Handheld SS-OCT achieved normative measurements for choroidal thickness across the macula in term newborns, providing a foundation for future investigations into the role of choroidal development in infancy.

Automated Quantification of Choriocapillaris Lesion Area in Patients With Posterior Uveitis.

PURPOSE: To validate a custom algorithm for automated identification and quantification of clinically relevant inflammatory choriocapillaris (CC) lesions from en face swept-source optical coherence tomography (SS-OCTA) images. DESIGN: Observational case series. METHODS: Twenty eyes of 14 patients with posterior uveitis were imaged. The machine-generated en face OCTA CC slabs were exported to a computing platform, where a custom algorithm performed unsupervised lesion boundary delineation and area quantification. Lesions identified by the algorithm (AG) were compared to those identified by 2 masked human graders (HG1 and HG2), using the Sørensen-Dice coefficient (DSC) and intraclass correlation coefficient (ICC). Intragrader and intravisit reliability were determined by coefficient of variation (CV) and DSC. RESULTS: The AG demonstrated excellent agreement with both HGs in determination of lesion area (HG1 vs AG ICC 0.92, 95% CI 0.81-0.97, HG2 vs AG ICC 0.91, 95% CI 0.78-0.97). The AG demonstrated good spatial overlap (DSC ≥0.70) with both HGs in 14 of 20 (70%) eyes and at least 1 HG in 16 of 20 (80%) eyes. Poor spatial overlap (DSC between 0.31 and 0.69) was associated with the presence of a choroidal neovascular membrane and low-contrast lesion boundaries. Intravisit repeatability for the AG was superior to both HGs (CV 2.6% vs >5%). CONCLUSION: This custom algorithm demonstrated a high degree of agreement with HGs in identification of inflammatory CC lesions and outperformed HGs in reproducibility. Automated CC lesion delineation will support the development of objective and quantitative biomarker of disease activity in patients with posterior uveitis.

Dome-shaped macula in premature infants visualized by handheld spectral-domain optical coherence tomography.

PURPOSE: To describe dome-shaped macula and associated clinical findings in premature infants. METHODS: This prospective, observational cohort study included a consecutive sample of premature infants screened for retinopathy of prematurity (ROP) with 9-month follow-up. Handheld spectral domain optical coherence tomography (SD-OCT) was performed at the time of ROP screening. Images were assessed for dome-shaped macula, cystoid macular edema, epiretinal membrane, vitreous bands, and punctate hyperreflective vitreous opacities. Dome height measurements were performed in a subset of images. Teller visual acuity and cycloplegic refraction were performed at an adjusted age of 8-10 months. RESULTS: Of 37 infants (74 eyes; 49% male; mean gestational age 27.8 ± 3.2 weeks; mean birth weight 949 ± 284 g), 24/37 (65%) demonstrated dome-shaped macula in at least one eye (13 both eyes, 5 right eye only, and 6 left eye only). Of the 74 eyes, 26 (35%) could be reliably measured, with a mean dome height of 139.0 ± 72.3 µm (range, 54-369 µm). Presence of dome-shaped macula was associated with a diagnosis of ROP (P = 0.02; OR, 3.03; 95% CI, 1.18-7.82) and pre-plus or plus disease (P = 0.02; OR, 4.20; 95% CI, 1.05-16.78). Infants with dome-shaped macula had lower birth weight compared with those without (877 vs 1081 g; P = 0.04). No associations with other demographics, OCT findings, and 9-month refractive outcomes were found. CONCLUSIONS: Dome-shaped macula was frequently identified by handheld SD-OCT in premature infants, especially those with lower birth weight and severe ROP. The long-term clinical significance of this finding is unknown.

Quantitative Handheld Swept-Source Optical Coherence Tomography Angiography in Awake Preterm and Full-Term Infants.

Purpose: To compare retinal vascular parameters acquired by handheld swept-source optical coherence tomography angiography (SS-OCTA) between nonsedated preterm and full-term infants. Methods: Preterm and full-term infants at the University of Washington Medical Center were enrolled. Retinal angiograms (nominal size ∼7 × 7 mm2) were obtained at each routine retinopathy of prematurity (ROP) screening session for preterms and once during the first 72 hours of life for full-terms. Macular vessel area density and nonperfusion area were evaluated on the binarized vasculature map in both small (1.5 × 1.5 mm) and large (3 × 3 mm) quadrants. Average vessel diameter and tortuosity values were obtained from each large vessel branch (length >200 µm). All vascular analyses used previously published algorithms. Results: Handheld SS-OCTA captured 31 of 55 (56%) high-quality volumes on 8 awake preterm infants (gestational age 28 ± 4 weeks, birth weight 891 ± 314 g, postmenstrual age at first imaging session 37 ± 2 weeks) and 48 of 54 (89%) volumes on 12 awake full-term infants (gestational age 39 ± 1 weeks, birth weight 3405 ± 329 g). Signal-to-noise ratio was 5.08 ± 1.52 dB in preterm and 4.90 ± 1.12 dB in full-term infants. Preterm infants had higher mean large vessel tortuosity compared to full-term infants (P = 0.004). The large nasal quadrant vessel area density of infants with stage 3 and/or pre-plus or worse ROP was higher than other preterm infants (P = 0.007). Conclusions: Although inadequate image quality limited usable imaging sessions, handheld SS-OCTA achieved adequate signal-to-noise ratio in nonsedated infants for quantitative retinal vascular parameter analysis. Translational Relevance: Large- and small-vessel parameters were associated with prematurity and ROP severity, respectively.

Vitreous Findings by Handheld Spectral-Domain OCT Correlate with Retinopathy of Prematurity Severity.

PURPOSE: To evaluate the association between retinopathy of prematurity (ROP) and vitreous findings in premature infants detected by handheld spectral-domain (SD) OCT. DESIGN: Prospective, observational cohort study. PARTICIPANTS: Consecutive sample of 92 premature infants requiring ROP screening at 2 academic neonatal intensive care units between July 2015 and March 2018. METHODS: Infants underwent handheld SD OCT at the time of routine ROP examinations. Two masked, trained graders analyzed right-eye vitreoretinal findings, including semiautomated quantification of punctate hyperreflective vitreous opacities within 5 foveal or parafoveal B-scans (vitreous opacity ratio). MAIN OUTCOME MEASURES: Excluding posttreatment data, vitreous findings were compared with clinical ROP diagnoses. RESULTS: Agreement between image graders for all vitreoretinal findings was 91% (κ = 0.86; 95% confidence interval, 0.82-0.90; P < 0.001). Among 92 infants undergoing 280 imaging sessions (52% male; mean gestational age, 28.3 ± 2.8 weeks; mean birthweight, 1014.5 ± 285.0 g), 36 of 92 (39%) demonstrated ROP. Punctate hyperreflective vitreous opacities were identified in 61 of 92 infants (66%). The presence of punctate hyperreflective vitreous opacities at least once was associated with a diagnosis of ROP (62% vs. 29% without opacities; P = 0.003), maximum ROP stage (P = 0.001), preplus or plus disease (24% vs. 5%; P = 0.005), and type 1 disease (14% vs. 2%; P = 0.03). Among 29 infants (45 imaging sessions) with right-eye punctate hyperreflective vitreous opacities, the vitreous opacity ratio from 2 graders (F1 score, 0.82 ± 0.36; Dice coefficient, 0.97 ± 0.04) correlated with ROP stage (P = 0.02). Tractional vitreous bands on imaging correlated with plus disease status (29% vs. 5% without bands; P = 0.05). CONCLUSIONS: Punctate hyperreflective vitreous opacities and tractional vitreous bands predict the presence and severity of ROP. Further studies should explore handheld OCT as a noninvasive ROP screening tool.

Handheld swept-source optical coherence tomography with angiography in awake premature neonates.

BACKGROUND: Retinopathy of prematurity (ROP) can lead to retinal detachment and severe vision loss and is a common cause of childhood blindness. Optical coherence tomography angiography (OCTA) is a non-invasive imaging modality that can be used to detect potential abnormalities in the microvasculature in this population. The objective of this study is to assess the feasibility of a newly developed handheld swept source OCT (SS-OCT) device to successfully acquire structural vitreoretinal and retinal microvascular images in awake premature infants. METHODS: OCT and OCTA images were acquired at the time of routine ROP examinations from awake, unsedated preterm infants in the Neonatal Intensive Care Unit using a clinical research prototype handheld probe integrated with an SS-OCT system working at 1,060 nm wavelength and an imaging speed of 200,000 A-scans per second (200 kHz), enabling volume OCT and OCTA scans. Each volume was acquired with approximately 36˚ field of view (~6.3×6.3 mm in infants) in 4.8 s. Quality of acquired OCT and OCTA volume images, microvascular information, and vitreoretinal features were determined by 3-masked grader consensus. RESULTS: Twelve infants (5 females, mean gestational age 28.3 weeks, median birth weight 901 g, stages 0 to 3 ROP) underwent a total of 73 individual eye imaging sessions. High-quality OCT images of the fovea and the optic nerve were present in 69/73 (94.5%) and 56/73 (76.7%) scans, respectively. Vitreous bands were observed in 10/73 (13.7%); punctate hyperreflective vitreous opacities in 47/73 (64.4%); epiretinal membrane (ERM) in 6/73 (8.2%); and cystoid macular edema (CME) in 12/73 (16.4%) scans. Mild vessel elevation was noted in 3/73 (4.1%) images, and severe vessel elevation in 4/73 (5.5%) scans. OCTA images obtained in 8 awake infants revealed good quality images of the foveal microvasculature in 11/19 (58%) eye imaging sessions for 6/8 (75%) infants; and peripapillary microvasculature in 14/19 (74%) eye imaging sessions for 5/8 (63%) infants. CONCLUSIONS: The SS-OCTA handheld device can capture important vitreoretinal characteristics such as peripapillary and foveal microvasculature, as well as hyperreflective punctate vitreous opacities and tractional vitreous bands, which may predict ROP severity. These images were captured in awake, premature infants without the use of direct ocular contact, an eyelid speculum, or sedation.

Benefits and Limitations of Entry-Level 3-Dimensional Printing of Maxillofacial Skeletal Models.

Importance: A protocol for creating exceptionally low-cost 3-dimensional (3-D) maxillofacial skeletal models does not require proficiency with computer software or intensive labor. Small and less affluent centers can produce models with little loss in accuracy and clinical utility. Objectives: To highlight the feasibility and methods of introducing in-house, entry-level additive manufacturing (3-D printing) technology to otolaryngologic craniofacial reconstruction and to describe its clinical applications and limitations, including a comparison with available vendor models. Design, Setting, and Participants: This case series of 6 models (3 pairs) compared cost, side-by-side anatomical model fidelity, and clinical versatility using entry-level, in-house 3-D pediatric mandible model production vs high-end, third-party vendor modeling, including a review of the literature. Comparisons were made at an urban pediatric otolaryngology practice among patients who had previously undergone pediatric craniofacial reconstruction with use of a commercially produced medical model for surgical planning. Each vendor model had been produced using computed tomographic imaging data. With the use of this same data source, in-house models were printed in polylactic acid using a commercially available printer. Data were collected from November 1 to December 30, 2015. Main Outcomes and Measures: Models created from these 2 methods of production were assessed for fidelity of surface anatomy, resilience to manipulation and plate bending, cost of production, speed of production, sterilizability, virtual surgical planning options, and alveolar nerve canal and tooth root visibility in mandibles. Results: For the quantitative comparisons between in-house models (1 neonatal, 1 pediatric, and 1 adult model) and their commercial counterparts, the mean value of 7 independent measurements was analyzed from each of 3 model pairs. Caliper measurements from models produced through entry-level, in-house manufacturing were comparable to those taken from commercially produced counterparts, suggesting an acceptable degree of accuracy (0.54 mm; 95% CI, 0.36-0.72 mm). Fixed costs for in-house production included acquiring an entry-level printer (retail $2899) and an annual software subscription ($699 per year). After purchase of these initial assets, the printing cost for an in-house mandible was approximately $90, with 98% of that cost related to labor. Physical qualities of entry-level, in-house models such as nerve canal visibility, tooth root visibility, and sterilizability were inferior compared with commercially-produced stereolithic renderings. Conclusions and Relevance: This low-cost method of in-house, entry-level 3-D printing of straightforward, skeletal models may suit a general otolaryngology practice that performs maxillofacial reconstruction. Although commercial modeling offers several unique features, such as sterilizable materials and advanced virtual planning, in-house modeling also produces renderings with high fidelity, which may be used as tools for education and surgical planning, including preoperative plate bending. Level of Evidence: 4.

Choroidal Morphology and Vascular Analysis in Eyes With Neovascular Age-Related Macular Degeneration Using Spectral-Domain Optical Coherence Tomography.

BACKGROUND AND OBJECTIVE: To describe morphology and vascular layer thickness of the choroid in eyes with neovascular age-related macular degeneration (AMD) using spectral-domain optical coherence tomography (SD-OCT). PATIENTS AND METHODS: Cross-sectional, retrospective analysis of 15 eyes with neovascular AMD and 11 healthy age-matched eyes that underwent single horizontal, high-definition raster line imaging using high-definition SD-OCT. Two independent graders assessed choroid morphology and measured the thickness of individual vascular layers of the choroid beneath the fovea. RESULTS: Normal concave choroidal contour was found in 13.3% of eyes with neovascular AMD and 100% of healthy eyes. The thickest point of the choroid was located beneath the foveal center in 20% of eyes and focal thinning was observed in 40% of eyes with neovascular AMD, compared to 91% and 0% of healthy eyes, respectively. Subfoveal total choroidal thickness, large choroidal vessel layer thickness, and the medium choroidal vessel/choriocapillaris layer thickness were reduced in eyes with neovascular AMD compared to healthy eyes (205.7 µm ± 17.08 µm versus 281.3 µm ± 19.29 µm, P = .007; 174.1 µm ± 16.34 µm versus 244.5 µm ± 19.51 µm, P = .01; and 31.53 µm ± 3.67 µm verus 51.9 µm ± 1.94 µm, P = .0002, respectively). CONCLUSION: Choroidal morphology is altered in eyes with neovascular AMD as assessed on SDOCT. Choroidal thinning in neovascular AMD involves all its vascular layers. These morphological and vascular changes may have clinical implications in the diagnosis and monitoring of eyes with neovascular AMD. [Ophthalmic Surg Lasers Imaging Retina. 2016;47:618-625.].

Nasal fractures in children and adolescents: Mechanisms of injury and efficacy of closed reduction.

OBJECTIVES: To determine the most common mechanisms of traumatic nasal deformity referred to pediatric otolaryngology. To examine the efficacy of closed reduction of nasal fractures in children and adolescents based on the parents' and surgeons' ratings of post-reduction nasal symmetry. METHODS: Case series and chart review within an urban, tertiary pediatric otolaryngology practice. RESULTS: 100 cases of traumatic nasal deformity met inclusion criteria over a 3-year study period. The mean age at presentation was 13 years (4 weeks-18 years); 55% were male and 70% were over the age of 12 years. The most common mechanism of injury was sports-related trauma (28%), followed by accidental trauma (21%), interpersonal violence (10%), motor vehicle collision (6%) and alcohol-related (2%). Of these 100 cases, 22% underwent closed reduction within a 14-day period following injury. All patients achieved symmetry in the operating room immediately following reduction. 21 of 22 post-reduction patients were assessed for nasal symmetry at the postoperative visit (7-10 days following surgery). The operating surgeon was satisfied with nasal symmetry in 43% of cases and the parent(s) satisfied in 81% of cases. Both parent and surgeon were satisfied with post-reduction symmetry 33% of the time. CONCLUSION: The most common sources of traumatic nasal deformity in children and adolescents vary by age. In cases meriting operative intervention, parents appear to be satisfied with early postoperative results following closed reduction in approximately 80% of cases, however a result in which both parent and surgeon agree with successful re-establishment of symmetry occurs in only one-third of cases.