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Xing S, Gibbon V, Clarke R, Liu W. Geometric morphometric analyses of orbit shape in Asian, African and European human populations. Anthropological Science 2013; 121(1): 1-11Search in Google Scholar
Pires LAS, Teixeira AR, Leite TFO, Babinski MA, Chagas CAA. Morphometric aspects of the foramen magnum and the orbit in Brazilian dry skulls. International Journal of Medical Research & Health Sciences 2016; 5(4):34-42Search in Google Scholar
Őzer CM, Őz II, Şerifoğlu I, Bűyűkuysal MC and Barut C. Evaluation of eyeball and orbit in relation to gender and age. The Journal of Craniofacial Surgery 2016; 27 (8): e793-e800Search in Google Scholar
Felding UA, Bloch SL and von Buchwald C. The dimensions of the orbital cavity based on high-resolution computed tomography of human cadavers. J Craniofac Surg 2016; 27: 1090-1093Search in Google Scholar
Singh J, Rahman RA, Rajion ZA, Abdullah J, Mohamad I. Orbital morphometry: A computed tomography analysis. The Journal of Craniofacial Surgery 2017: 28(1): e64-e70Search in Google Scholar
Ji I, Lai C, Gu L, Fan X. Measurement of intra-orbital structures in normal Chinese adults based on a three-dimensional coordinate system. Curr Eye Res 2018; 43(12):1477-1483Search in Google Scholar
Khademi Z, Bayat P. Computed tomographic measurements of orbital entrance dimensions in relation to age and gender in a sample of healthy Iranian population. Journal of Current Ophthalmology 2016; 28: 81-84Search in Google Scholar
Andrades PR, Cuevas PE, Hernández R, Danilla SV, Rodrigo Villalobos R. Characterization of the Orbital Volume in Normal Population. Journal of Cranio-Maxillo- Facial Surgery 2018; 46(4): 594-599Search in Google Scholar
Kang HS, Han JJ, Oh HK, Kook MS, Jung S, Park HJ. Anatomical studies of the orbital cavity using three-dimensional computed tomography. J Craniofac Surg 2016; 27: 1583-1588Search in Google Scholar
Ji Y, Qian Z, Dong Y, Zhou H, Fan X. Quantitative morphometry of the orbit in Chinese adults based on a threedimensional reconstruction method. J Anat 2010; 217: 501-506.Search in Google Scholar
Fetouh FA, Mandour D. Morphometric analysis of the orbit in adult Egyptian skulls and its surgical relevance. Eur J Anat 2014; 18 (4): 303-315Search in Google Scholar
Kwon J, Barrera JE, Most SP. Comparative computation of orbital volume from axial and coronal CT using threedimensional image analysis. Ophthal Plast Reconstr Surg. 2010; 26(1): 26-29Search in Google Scholar
Anibor E, Ighodae W. Orbital index of adult Binis in Edo state, Nigeria. Int. J of Forensic Med Inves, 2106; 2(1): 17-19Search in Google Scholar
Jansen J, Schreurs R, Dubois L, Mall TJJ, Gooris PJJ, Becking AG. Orbital volume analysis: validation of a semi-automatic software segmentation method. Int J CARS 2016; 11:11-18Search in Google Scholar
Mottini M, Wolf CA, Jafari MS, Katsoulis K, Schaller B. Stereographic measurement of orbital volume, a digital reproducible evaluation method. Br J Ophthalmol 2017; 101: 1431-1435Search in Google Scholar
Kaplanoglu V, Kaplanoglu H, Toprak U, Parlak IS, Tatar IG, Deveer M et al. Anthropometric measurements of the orbita and gender prediction with three-dimensional computed tomography images. Folia Morphlogica 2014; 73; 2: 149-152Search in Google Scholar
Botwe BO, Sule DS, Ismael AM. Radiologic evaluation of orbital index among Ghanaians using CT scan. Journal of Physiological Anthropology 2017; 36:29Search in Google Scholar
Jeremić D, Živanović-Mačužić I, Vulović M. Sex differences in anatomical parameters of acetabulum among asymptomatic Serbian population. Vojnosanit Pregl 2011; 68:935-939.Search in Google Scholar
Burnham R and Bridle C. Adult orbital wall fracture repair. In: Idle M and Monaghan AM editors. Challenging Concepts in Oral and Maxillofacial Surgery Cases with Expert Commentary. Oxford, Oxford university press; 2016; p. 52-60.Search in Google Scholar
Gupta V, Prabhakar A, Yadav M, Khandelwal N. Computed tomography imaging-based normative orbital measurement in Indian population. Indian J Ophthalmol 2019; 67: 659-63Search in Google Scholar
Marinescu M, Panaitescu V, Rosu M, Maru N, Punga A. Sexual dimorphism of crania in a Romanian population: Discriminant function analysis approach for sex estimation. Romanian Journal of Legal Medicine 2014; 22:21-26Search in Google Scholar
Mekala D, Shubha R, Rohini Devi M. Orbital dimensions and orbital index: a measurement study on south Indian dry skulls. Int J Anat Res 2015; 3(3): 1387-91.Search in Google Scholar
Lepich T, Dabek J, Witkowska M, Jura-Szoltys, Bajor G. Female and male orbit asymmetry: Digital analysis. Adv Clin Exp Med 2017; 26(1) :69-76Search in Google Scholar