Morphometric evaluation, locational relationship, and surgical significance of the maxillofacial region landmarks / Evaluación morfométrica, relación de ubicación e importancia quirúrgica de los puntos de referencia de la región maxilofacial

SUMMARY: The aim of this study was to examine the localization of the landmarks in the maxillofacial region and their relations with each other and to evaluate them morphologically and clinically. Our study included 41 dry adult human skulls of unknown age and sex of Anatolian population. Statistical analysis of the data obtained in our study was performed with SPSS v.20.0 software (IBM Corp., Armonk, NY, USA). Statistical significance was accepted as P ? 0.05. Whereas the mean right supraorbital depth (SOD) value was significantly greater than the mean left SOD value (p 0.05). Correlation values in our study varied between -0.156 and 0.612. The highest correlation value was obtained in the positive direction between the orbital height (OH) and supraorbital foramen-infraorbital foramen (SOF-IOF) measurements (r = 0.612, p < 0.001). We believe that measurements of the orbit, SOF, and IOF and our data on their localizations, along with the relationships that we observed in our study will allow surgeons to avoid damaging the neurovascular bundles during surgical interventions and local anesthesia procedures in the frontal, periorbital, and maxillofacial regions.

RESUMEN: El objetivo de este estudio fue examinar la localización de los hitos en la región maxilofacial y sus relaciones entre sí y evaluarlos morfológica y clínicamente. Nuestro estudio incluyó 41 cráneos humanos adultos secos de edad y sexo desconocidos de la población de Anatolia. El análisis estadístico de los datos obtenidos en nuestro estudio se realizó con el software SPSS v.20.0 (IBM Corp., Armonk, NY, EE. UU.). La significación estadística se aceptó como P ? 0,05. Mientras que el valor medio de la profundidad supraorbitaria derecha (SOD) fue significativamente mayor que el valor medio de la SOD izquierda (p 0,05). Los valores de correlación en nuestro estudio variaron entre -0,156 y 0,612. El mayor valor de correlación se obtuvo en la dirección positiva entre las medidas de altura orbitaria (OH) y foramen supraorbitario-foramen infraorbitario (SOF-IOF) (r = 0,612, p <0,001). Creemos que las mediciones de la órbita, SOF e IOF y nuestros datos sobre sus localizaciones, junto con las relaciones que observamos en nuestro estudio, permitirán a los cirujanos evitar dañar los haces neurovasculares durante las intervenciones quirúrgicas y los procedimientos de anestesia local en la zona frontal, periorbitaria. y regiones maxilofaciales.

A Metric Scrutiny Of The Orbital Margins

Background: The anatomical boundaries of the orbit are defined and the contribution of various bones in makingup the orbital margins is determined .Associated with this, orbital dimensions like length, breadth and theorbital index are determined along with the associated dimorphic and bilateral variations. The findings of theseterritorial specimens are analyzed and compared with similar findings from other vernacular territories. Thebilateral craniofacial structures are studied and they are dimensionally classified and characterized.Comprehensive documentation thus promulgated functions to prove vital in the conquest of dexterity in the fieldof surgery and forensic anthropometry alike. The evaluated parameters also serve as an empirical guide indiscerning tenuous sites that are susceptible to impaction and in defining the safe limits of orbital explorationResults: The study has returned an average value of 81.47 as the orbital index of the scrutinized dry skullspecimens thus placing them under the category of microseme. The average values of orbital length and breadthwere found to be 31.26mm and 38.37mm respectively. The superior margin formed exclusively by the frontalbone measured 32.7mm on average with the supraorbital notch/foramen being displaced 5.92mm from themedial limit of the superior margin. For 25.88mm, which was the average length of medial margin, maxilla stoodthe dominant contributor (13.81mm) with the frontal bone chipping in to contribute to the rest. The inferiormargin paints a contrary picture of maxilla being the secondary contributor (16.13mm) whilst here it is thezygoma which makes a greater contribution (17.29mm).Conclusion: This study hereby establishes Microseme to be the predominant orbital index of the scrutinized skullspecimens in addition to quantifying the contributions of various bones towards making up the margins.Comparative analysis with confluent such studies from other provinces of the Indian subcontinent has confirmedthe latitude variation associated with orbital index. The results thus established will be unerringly essential inthe field of surgery and forensic anthropometry

Supraorbital notch/foramen in Sri Lankan skulls: morphometry and surgical relevance / Escotadura/foramen supraorbitario en cráneos de Sri Lanka: morfometría y relevancia quirúrgica

Evidence supports the ethnic and sex variation in the form and position of the supraorbital foramen. Therefore, detailed knowledge of the population specific data on biometric features of the supraorbital foramen will facilitate diagnostic, local anesthetic and surgical manipulations in the maxillo-facial region. The goal of this study was to elucidate the morphological features and precise anatomical position of the supraorbital foramen with reference to surrounding surgically encountered anatomical landmarks in an adult Sri Lankan population. A total of one hundred and eight adult dry skulls of known sex were assessed to determine the number, shape, orientation, vertical and transverse diameters of the supraorbital foramen, transverse distance from the supraorbital foramen to the nasal midline and the zygomatico-maxillary suture and the vertical distance from the supraorbital foramen to the supraorbital rim and infraorbital foramen. The position of the supraorbital foramen was determined in relation to the infraorbital foramen. Data were evaluated between sides and sex. The supraorbital notch (64.81%) was found more frequently than the supraorbital foramen (35.19%). Of the skulls investigated, 55.56% displayed bilateral supraorbital notches, whereas 20.37% had bilateral supraorbital foramina and 24.07% had a notch on one side and a foramen on the contralateral side. The incidence of multiple supraorbital foramina was 6.48%. Sex variations were observed in the relative position of supraorbital notch/foramen from nasal midline (male: 26.12±3.89; female: 24.40±2.76), temporal crest of the frontal bone (male: 32.74±3.94; female: 30.87±4.18) and infraorbital foramen (male: 44.86±3.35; female: 43.26±3.63). The modal position for the infraorbital foramen was lateral to the lateral margin of the supraorbital notch/foramen (68.52%) and supraorbital and infraorbital foramina were lying in the same sagittal plane only in 24.07% of the skulls. The results of this study highlight the racial and sex differences and emphasize the need for meticulous preoperative evaluation of the supraorbital foramen to define the optimal locations in patients who are candidates for maxillo-facial surgeries and regional block anesthesia.

La evidencia señala que existe dimorfismo étnico y sexual en la forma y posición del foramen supraorbitario. Por lo tanto, el conocimiento detallado de los datos específicos de una población sobre las características biométricas del foramen supraorbitario facilitará el diagnóstico, anestesia local y procedimientos quirúrgicos en la región maxilofacial. El objetivo fue determinar las características morfológicas y posición anatómica exacta del foramen supraorbitario con referencia a los referencias anatómicas circundantes encontradas quirúrgicamente en una población adulta de Sri Lanka. Ciento ocho cráneos adultos secos de sexo conocido se evaluaron para determinar el número, forma, orientación, diámetros vertical y transversal del foramen supraorbitario, distancia transversal desde el foramen supraorbitario a la línea mediana nasal y sutura cigomático-maxilar y distancia vertical desde el foramen supraorbitario hasta el margen supraorbitario y foramen infraorbitario. La posición del foramen supraorbitario se determinó en relación al foramen infraorbitario. Los datos fueron evaluados según lado y sexo. La incisura supraorbitaria (64,81%) se encontró con mayor frecuencia que el foramen supraorbitario (35,19%). El 55,56% de las incisuras supraorbitarias y 20,37% de los forámenes supraorbitarios fueron bilaterales; mientras que el 24,07% de las incisuras fueron unilaterales con un foramen en el lado contralateral. La incidencia de los forámenes supraorbitarios múltiples fue del 6,48%. Se observaron variaciones sexuales en la posición relativa de la incisura/foramen supraorbitario respecto a la línea mediana nasal (hombres= 26,12±3,89; mujeres: 24,40±2,76), cresta temporal del hueso frontal (hombres= 32,74±3,94; mujeres: 30,87±4,18) y foramen infraorbitario (hombres= 44,86±3,35; mujeres= 43,26±3,63). La posición modal para el foramen infraorbitario fue lateral al margen lateral de la incisura/foramen supraorbitario (68,52 %), y los forámenes supraorbitario e infraorbitario se ubicaron en el mismo plano sagital sólo en el 24,07% de los cráneos. Los resultados muestran las diferencias raciales y sexuales y enfatizan la necesidad de una evaluación preoperatoria minuciosa del foramen supraorbitario para definir su posición en pacientes que son candidatos a cirugías maxilofaciales y bloqueo anestésico regional.

Prenatal Morphometric Analysis Of Supraorbital, Infraorbital And Mental Foramina In Human Foetuses And Their Clinical Correlations To Anaesthesia And Surgical Procedure.

Modern surgical procedures, anesthesia, acupuncture and other invasive procedures on the face require a more precise understanding of the anatomy of important landmarks to prevent subsequent neurovascular complications in the frontal region, upper jaw and lower jaw. Studies on bilateral locational relationship of SOF, IOF and mental foramen in foetal skull are still lacking, so aim of our study was 1) to examine the various morphometric variations (the location and shape) of SOF, IOF and mental foramina of the facial skeleton in human foetuses at different age of gestation 2) to establish whether or not, the location of these foramina get changed as the foetus matures and 3) to establish the pattern of growth of aforesaid foramina. For these 40 formalin-fixed foetuses between 17 and 32 weeks of gestation were studied for SOF, IOF and mental foramina. Foetuses were divided into two groups according to age. It was interesting to note that supra-orbital and mental foramina were placed in the same sagittal plane on both sides of the midline. Infra-orbital foramen was located lateral to sagittal plane for supra-orbital and mental foramina. The shape of SOF was recorded as a notch or rarely a foramen, whereas the shape of IOF and mental foramen were determined as a circular and an oval opening respectively.