O TM-J, Ceisler E, Broude C, Chan K, Pacicco L, Fay A, Waner M.
Distribution and Clinical Characteristics of Periorbital Infantile Hemangiomas. Facial Plast Surg Aesthet Med 2023;25(2):172-178.
AbstractBackground: Periorbital infantile hemangiomas (POIHs) are associated with a high incidence of visual complications. Objective(s): To analyze the sites of predilection of POIHs and to determine whether certain sites require earlier intervention due to their higher rate of visual complications. Methods: A retrospective case series study was conducted on patients from two tertiary care centers for 25 years. The location of POIHs was determined from clinical photographs, medical records, and radiological studies. The presence or absence of anisometropic astigmatism (anisoastigmatism) and amblyopia was recorded. Data were analyzed using a chi-square test. Results: There were 486 patients, of which 302 patients had ophthalmology evaluations and 245 patients had refractive error data. At presentation, 10% of patients already had amblyopia and 44% had anisoastigmatism. Medial eyelid lesions had the highest risk of developing anisoastigmatism (anisoastigmatism correlates with eyelid position, p = 0.0001). Segmental and upper medial lesions had the highest risk of amblyopia at initial evaluation. Conclusion: The site of POIH is an important indicator for developing clinically significant anisoastigmatism and amblyopia, underlining the need for early ophthalmologic assessment and management.
Oke I, Reshef ER, Elze T, Miller JW, Lorch AC, Hunter DG, Freitag SK, Freitag SK.
Smoking Is Associated With a Higher Risk of Surgical Intervention for Thyroid Eye Disease in the IRIS Registry. Am J Ophthalmol 2023;249:174-182.
AbstractPURPOSE: To describe the association of smoking status with surgical intervention for thyroid eye disease (TED) at the population-level. DESIGN: Retrospective cohort study. METHODS: This study included all adults (aged ≥18 years) with Graves disease in the Intelligent Research in Sight (IRIS) Registry (January 1, 2013, to December 31, 2020). The primary outcome was surgical intervention for TED, stratified into orbital decompression, strabismus surgery, and eyelid recession surgery. The Kaplan-Meier estimated 5-year cumulative probability for each surgical intervention was calculated. Multivariable Cox regression was used to evaluate the association between smoking status and each surgical intervention, adjusting for age, sex, race, ethnicity, and geographic region. RESULTS: This study included 87,774 patients. Median age was 59 years (IQR, 48-68 years); 81% were female patients. Current smokers had a greater 5-year cumulative probability of orbital decompression (3.7% vs 1.9%; P < .001), strabismus surgery (4.6% vs 2.2%; P < .001), and eyelid recession (4.1% vs 2.6%; P < .001) compared to never smokers. After adjusting for demographic factors, current smokers were at greater risk for orbital decompression (hazard ratio [HR], 2.1; 95% CI, 1.8-2.4; P < .001), strabismus surgery (HR, 2.0; 95% CI, 1.8-2.3; P < .001), and eyelid recession (HR, 1.7; 95% CI, 1.5-1.9; P < .001) than never smokers. Former smokers were at higher risk for each type of surgery for TED, albeit at lower levels than current smokers. CONCLUSIONS: Smoking was associated with increased risk of surgical intervention for TED in the IRIS Registry. Former smokers were at a lower risk than current smokers, supporting the role of smoking cessation on lowering the burden of surgical disease at the population-level.
Osaki TH, Jakobiec FA, Mendoza PR, Lee Y, Fay AM.
Immunohistochemical investigations of orbital infantile hemangiomas and adult encapsulated cavernous venous lesions (malformation versus hemangioma). Ophthalmic Plast Reconstr Surg 2013;29(3):183-95.
AbstractPURPOSE: Immunohistochemical studies have begun to advance knowledge regarding the pathogenesis of vascular anomalies in many anatomical regions. However, the immunohistochemical features of most orbital tumors have been overlooked. Therefore, a comparative immunohistochemical study of a series of the 2 most common orbital vascular lesions- infantile hemangioma (IH) and encapsulated cavernous venous lesion (ECVL), the latter also termed cavernous hemangioma or venous malformation-was undertaken. METHODS: Twenty surgically excised orbital tumors diagnosed clinically and histopathologically as IHs (10 cases) or "cavernous hemangioma" (10 cases) were evaluated pathologically and immunohistochemically using hematoxylin and eosin, Alcian blue, Masson trichrome, GLUT-1, CD31, CD34, D2-40, smooth muscle actin (SMA), desmin, and Ki-67 probes. RESULTS: All cases reacted strongly with the traditional blood vessel endothelial markers CD31 and CD34 and were negative for D2-40, a selective marker for lymphatic endothelium. All IH were positive for GLUT-1, and all ECVL were negative for GLUT-1. In IH, SMA (but not desmin) stained a monolayer of pericytes and in ECVL multilaminar smooth muscle vascular mural cells and intravascular (interstitial) stromal cells. Nuclear Ki-67 immunostaining was strongly positive in IH (average of 16.3%) and close to zero in ECVL. CONCLUSIONS: Immunophenotypic results for ECVL and IH demonstrated no overlapping staining patterns. Infantile hemangioma had the classical architecture of capillaries. Because of the constant presence of mural smooth muscle, it was concluded that ECVL is an accurate and descriptive term. However, desmin negativity in ECVL indicates myofibroblastic differentiation rather than full-fledged smooth muscle differentiation. Infantile hemangioma may display ectatic channels as the lesion ages but does not acquire multilaminar smooth muscle walls. Its pericytes lack cytoplasmic filaments and desmin reactivity but are SMA-positive because of the presence of poorly polymerized actin in the cytosol. In IH, Ki-67 positivity was observed in the endothelial cells of the solid and more ectatic regions. In contrast, the virtual absence of Ki-67 positivity in ECVL lends further support for the interpretation that it is more closely related to a malformation than a benign neoplasm.
Osaki TH, Fay A, Mehta M, Nallasamy N, Waner M, De Castro DK.
Orbital development as a function of age in indigenous North American skeletons. Ophthalmic Plast Reconstr Surg 2013;29(2):131-6.
AbstractPURPOSE: Infants with orbital hemangiomas and vascular malformations often develop expanded orbits or regional hyperostosis. Treatment in these cases depends, in part, on the stage of orbital development at the time of intervention; yet, orbital development with respect to age is not well-known. The authors sought to determine the rate of orbital development and the age of orbital maturation in a single ethnic population. METHODS: Skeletons recovered in North America and housed at the Peabody Museum of Archaeology and Ethnology, Harvard University, were inspected. The age of specimen was determined by dentition. Orbital volume was measured using 1-mm glass beads and a graduated cylinder. Linear measurements were taken with calipers and paper rulers. The measurements were plotted against age, and statistical analysis was performed. Relevant literature was reviewed. RESULTS: Of the hundreds of skeletons examined, 42 were sufficiently intact for orbital measurement. The specimens represented a period of up to 1000 years. Thirty-two were pediatric (defined prenatal to 18 years) and 10 were adults. Mean adult orbital volume was 26.2 ml. Based on the regression analysis, 60% of adult orbital volume was achieved at 4.35 years, 75% at 9.36 years, and 90% at 17.13 years of age. Linear dimensions progressively increased with age. CONCLUSIONS: This largest direct-measure study of pediatric orbital volume suggests that orbital growth continually decelerates from birth until maturity at 22 years. With 50% of orbital growth occurring by 16 months of age, surgeons removing periocular vascular anomalies after that age should consider concurrent skeletal management.
Osaki TH, De Castro DK, Yabumoto C, Mingkwansook V, Ting E, Nallasamy N, Curtin H, Fay A.
Comparison of methodologies in volumetric orbitometry. Ophthalmic Plast Reconstr Surg 2013;29(6):431-6.
AbstractPURPOSE: The rate at which the orbit matures is not well-documented. Limiting this pursuit are the difficulties inherent in measuring orbital volumes accurately. This study compared 3 common methods of determining orbital volume and sought to identify an accurate, practical manner for doing so. METHODS: The volume of 1 orbit of 8 human cadaver heads was independently measured using 3 different methods: 1) CT was performed, and images were analyzed with 3-dimensional (3D) volumetric software; 2) The same orbits were then exenterated and a silicone cast was taken. The cast volumes were measured by water displacement; 3) The orbits were then filled with 1-mm glass beads that were transferred to a graduated cylinder where their volume was determined. The data were analyzed statistically. RESULTS: Intraobserver agreements were good for both beads and casts. Interobserver agreements were good for both beads and CT (p > 0.05). Values obtained using the bead method were equal to values obtained using the cast method (p > 0.05). However, agreement between direct (orbital fillers and casts) and indirect measurements (radiographic techniques) was not satisfactory (p < 0.05). CONCLUSIONS: Independent of method, determining orbital volume is inherently difficult owing to the hyperbolic parabola that is the orbit entrance; all methods require estimation. Glass beads and casts yielded more reproducible values but can only be used in cadavers. CT measurement is prone to error due to the variability of methodologies used but allows access to enormous testing populations. Interstudy comparison is currently not possible. CT volumetric software with strict universal standards for estimating the anterior limit of the orbit appears to be the best method of studying human orbital volumes.