Morphometric studies of supraorbital foramen, infraorbital foramen and mental foramen in a thai population related with nerve blocks / Estudios morfométricos del foramen supraorbitario, foramen infraorbitario y foramen mental en una población tailandesa relacionados con bloqueos nerviosos

SUMMARY: The aim of this study was to study the anatomical landmarks and variations of supraorbital, infraorbital, and mental foramina. One hundred and sixty Thai dry skulls were randomly selected from the Forensic Osteology Research Center. The distances of the parameters were measured by using Vernier caliper. The supraorbital foramen could be found in a notch form 13.8 %, single supraorbital foramen accounted for 82.5 %, and supraorbital foramen with an accessory foramen represented 3.8 %. Single infraorbital foramen was found 90.0 %, and infraorbital foramen with an accessory foramen represented 10.0 %. Single mental foramen was observed 96.6 %, and the frequency of mental foramen with an accessory foramen was determined 3.4%. The majority of infraorbital foramina (48.0 %) was detected above the second premolar area. 19.0 % of the infraorbital foramina was seen in the region between the first premolar and the second premolar, and 22.8 % of the infraorbital foramina was located between the second premolar and the first molar. The infraorbital foramen is anatomically positioned above the first molar (10.2 %). The majority of mental foramina (53.5 %) can be identified below second premolar area. The region between the first premolar and the second premolar is the site for the mental foramen 26.0 % of the total variations. The region between the second premolar and the first molar is the site for the mental foramen 16.9 % of the total variations. The mental foramen is approximately situated below the first molar (3.6 %). The present study of anatomical variations of various foramina demonstrates a useful application in cosmetic and ophthalmic plastic surgery. The findings could improve the efficacy of the surgeons and accuracy for the indicated localization of these foramina during maxillofacial operations and local anesthetic procedures.

RESUMEN: El objetivo de este estudio fue estudiar los puntos de referencia anatómicos y las variaciones de los forámenes supraorbitario, infraorbitario y mental. Ciento sesenta cráneos secos tailandeses fueron seleccionados al azar del Centro de Investigación de Osteología Forense. Las distancias de los parámetros se midieron utilizando un calibre Vernier. El foramen supraorbitario se pudo encontrar en forma de muesca el 13,8 %, el foramen supraorbitario único representó el 82,5 % y el foramen supraorbitario con un foramen accesorio representó el 3,8 %. El foramen infraorbitario único se encontró en un 90,0 % y el foramen infraorbitario con un foramen accesorio representó el 10,0 %. Se observó foramen mental único 96,6 % y se determinó la frecuencia de foramen mental con foramen accesorio 3,4 %. La mayoría de los forámenes infraorbitarios (48,0 %) se detectaron por encima del área del segundo premolar. El 19,0 % de los forámenes infraorbitarios se observó en la región entre el primer premolar y el segundo premolar, y el 22,8 % de los forámenes infraorbitarios se ubicó entre el segundo premolar y el primer molar. El foramen infraorbitario se ubica anatómicamente por encima del primer molar (10,2 %). La mayoría de los forámenes mentales (53,5 %) se pudieron identificar inferior al área del segundo premolar. La región entre el primer premolar y el segundo premolar es el sitio del foramen mental 26,0 % de las variaciones totales. La región entre el segundo premolar y el primer molar es el sitio del foramen mental 16,9 % del total de variaciones. El foramen mental se sitúa aproximadamente por debajo del primer molar (3,6 %). El presente estudio de variaciones anatómicas de estos forámenes demuestra una aplicación útil en la cirugía plástica y oftálmica. Los hallazgos podrían mejorar la eficacia de los cirujanos y la precisión para la localización de estos forámenes durante las operaciones maxilofaciales y los procedimientos anestésicos locales.

Topographic Study Of Supraorbital Margins, And Notches In North Indian Human Dry Skulls And Its Clinical Applications

Introduction: The supraorbital notch (SON) is present at the junction of sharp lateral two-thirds and roundedmedial third of supraorbital margin. The neurovascular bundle exit via this notch/foramen. The morphometricvariations of the supraorbital ridge, notch, or foramen are not uncommon. The knowledge of these parameters isimportant to preserve the neurovascular bundle during surgery in this area.Materials and Methods: This study included seventy skulls obtained from department of Anatomy, Doon governmentmedical college Dehradun and Sri Guru Ram Rai Institute of medical and health sciences Dehradun followingstandard guidelines. All the parameters were observed and measured with the help of vernier caliper andreported in the tabulated form.Results: Out of seventy skulls, bilateral supraorbital notch and supraorbital foramen were found in 37.14% and14.28% respectively. Unilateral notch and contralateral foramen was found in eight skulls i.e. 11.42%. notch orforamen was absent in 5.71% skulls. The distance from SON/F to the midline (nasion) and frontozygomaticsuture were 25.86±3.11 and 29.89±2.19 mm. respectively . The mean distance between supraorbital notch orforamen to infraorbital foramen was 42.33 ±3.11 mm.Conclusion: Topographical anatomy of supraorbital ridge, notch and foramen and its variation is important toprevent the complications after surgical procedure in this area.

Supraorbital nerve exits: positional variations and localization relative to surgical landmarks / 대한해부학회지

Significant variations exist in the occurrence, form, and position of supraorbital nerve exits through the frontal bone. Detailed knowledge of the positional variations of supraorbital exits is important to ensure safe and successful regional anesthesia, and to avoid iatrogenic nerve injuries during surgery of the orbitofacial region. Supraorbital nerve exits from 116 sides of 58 dry intact adult skulls (37 male and 21 female) in a Sri Lankan population were examined to determine the morphological features and the precise position in relation to the facial midline, temporal crest of frontal bone, and frontozygomatic suture. A majority of supraorbital nerve exits existed as notches (73.8%) and the rest as foramina (26.2%). Accessory exits were seen in 18.9% skulls. Of the skulls examined, 55.1% displayed bilateral supraorbital notches, 8.6% had bilateral supraorbital foramina, and 36.3% had a notch on one side and a foramen on the contralateral side. In males, the supraorbital nerve exit was located 23.64±3.49 mm laterally from the facial midline, 27.86±2.76 mm medially from the temporal crest of the frontal bone, 28.66±2.56 mm from the frontozygomatic suture, and 2.12±1.07 mm above the supraorbital margin in the case of a foramen, and in females 22.69±3.28 mm laterally from the facial midline, 26.32±3.02 medially from temporal crest of frontal bone, 27.29±3.05 from the frontozygomatic suture, and 2.99±1.49 mm above the supraorbital margin when it existed as a foramen. The observations made in this study will be useful when planning a supraorbital nerve block and surgery in the supraorbital region.

A comparison of the relationship between the golden ratio and anatomical characteristics of the supraorbital foramen in bare skulls belonging to the Byzantine era and modern era / Comparación de la relación entre la proporción áurea y las características anatómicas del foramen supraorbitario en cráneos de la época bizantina y la edad moderna

The aim of the present study is to determine the frequency of the occurrence of supraorbital foramen/notch (SOF/N) in the skulls of the people who lived in the modern era and the late Byzantine era, to determine the symmetry and the asymmetry between the two halves of the skulls by measuring the linear distance to various landmarks, to check the consistency between the location of the SOF/N and the golden ratio by calculating the ratio between linear distances and to evaluate the differences between the skulls from both historical periods. In the study, the frequency of the occurrence of the supraorbital notch in the skulls from the Byzantine era was found to be 26.60 % on the right and 13.30 % on the left while it was 14.30 % on the right and 9.52 % on the left in the skulls belonging to modern humans. In the skulls belonging to the Byzantine era, the average distance between SOF/N and the sagittal axis passing along the lateral orbital wall was found to be 34.81±2.51 mm and 32.99±2.81 mm respectively on the right and the left while it was 33.14±2.19 mm and 33.39±2.06 mm in the skulls belonging to modern era. The average distance between the SOF/N and the sagittal plane passing along the midline of the skull was found to be 24.55±2.79 mm and 21.57±2.44 mm on the right and the left respectively in the skulls belonging to the Byzantine era while it was 0.04±3.30 mm and 20.96±2.37 mm in the skulls belonging to the modern era. The average distance between the SOF/N and sagittal plane passing along the medial orbital wall was found to be 23.78±3.60 mm and 23.81±3.20 mm on the right and the left respectively in the skulls belonging to the Byzantine era while it was found to be 22.23±3.29 mm and 23.97±1.93 mm in the skulls belonging to the modern era. The average value of the distance between the sagittal planes passing along the lateral and medial sides of the orbit and the ratios between the distance from SOF/N to the sagittal plane passing along the lateral side of the orbit was found to be 1.47±0.21 mm and 1.60±0.08 mm respectively in the skulls belonging to the Byzantine era and the modern era. No significant difference was found between this ratio and the golden ratio; the average value of the ratios between the distance from the SOF/N to the sagittal plane passing along the midline of the skull and the distance from the SOF/N to the sagittal plane passing along the lateral side of the orbit was found to be 0.98±0.26 mm and 1.04±0.36 mm respectively in the skulls belonging to the Byzantine era and the modern era. A significant difference was found between this ratio and the golden ratio for both historical periods (modern society and late Byzantine period) (p <0.005). The comparison of the relevant anatomic characteristics of the SOF/N is very important for anthropologists while a broad knowledge on proportional calculations regarding morphometric values and the location are important for reconstructive surgeons and the experts in forensics and pain control.

El objetivo fue determinar la frecuencia del foramen y incisura supraorbitaria (FSO/E) en cráneos de individuos de la era moderna y aquellos de la era bizantina, para determinar la simetría y asimetría entre las dos mitades de cráneos, mediante la medición de la distancia lineal a varios puntos de referencia, para comprobar la coherencia entre la ubicación del FSO/ y la proporción áurea, a través del cálculo de la relación entre las distancias lineales. Además, se evaluaron las diferencias entre los cráneos de periodos históricos. En el estudio, se determinó que la frecuencia registrada de la incisura supraorbitaria en los cráneos de la época bizantina fue del 26,60% en el lado derecho y 13,30 % en el izquierdo; mientras que en cráneos humanos modernos fue de 14,30% en el lado derecho y 9,52 % en el izquierdo. En los cráneos pertenecientes a la época bizantina, la distancia media entre FSO/E y el eje sagital a lo largo de la pared lateral de la órbita fue de 34,81±2,51 mm y 32,99±2,81 mm, a la derecha e izquierda, respectivamente; mientras que en cráneos de la era moderna fue de 33,14±2,19 mm y 33,39±2,06 mm, a la derecha e izquierda, respectivamente. La distancia media entre la FSO/E y el plano sagital que pasa a lo largo de la línea mediana del cráneo, en los cráneos de la época bizantina, fue de 24,55±2,79 mm y 21,57±2,44 mm a la derecha e izquierda, respectivamente; mientras que fue de 0,04±3,30 mm y 20,96±2,37 mm en los cráneos de la era moderna. La distancia media entre la FSO/E y el plano sagital que pasa a lo largo de la pared medial de la órbita, en los cráneos pertenecientes a la época bizantina fue de 23,78±3,60 mm y 23,81±3,20 mm, a la derecha e izquierda, respectivamente; mientras que en los cráneos pertenecientes a la era moderna fue de 22,23±3,29 mm y 23,97±1,93 mm, a la derecha e izquierda, respectivamente. Se determinó que el valor medio de la distancia entre los planos sagitales a lo largo de los márgenes lateral y medial de la órbita y las proporciones entre la distancia desde FSO/E al plano sagital a lo largo del lado lateral de la órbita fueron de 1,47±0,21 mm y 1,60±0,08, respectivamente, en los cráneos pertenecientes a la época bizantina y la era moderna. No encontramos diferencias significativas entre esta relación y la proporción áurea. El valor medio de las relaciones entre la distancia de la FSO/E al plano a lo largo de la línea mediana del cráneo y la distancia de la FSO/E al plano sagital a lo largo de la pared lateral de la órbita fueron de 0,98±0,26 mm y 1,04±0,36 mm, respectivamente, en los cráneos pertenecientes a la era bizantina y la era moderna. No se encontró una diferencia significativa entre esta relación y la proporción áurea en ambos períodos históricos (la sociedad moderna y el periodo bizantino tardío) (p <0,005). La comparación de características anatómicas relevantes para el FSO/E son importantes para los antropólogos, donde un conocimiento integro de cálculos proporcionales con respecto a los valores morfométricos, mientras que para los cirujanos reconstructivos y los expertos en medicina forense es importante su ubicación.

Supraorbital Foramen - Morphometric Study and Clinical Implications in Adult Indian Skulls.

Introduction: Supraorbital foramen is an important site for various surgical and anesthetic procedures. Accurate localization of the foramen holds the key to success, although racial variations exist in various population groups. Th e study included the morphometry of supraorbital foramen and its location with respect to nearby anatomical landmarks. Methods: A total of 100 dry skulls (60 male and 40 female) were collected and observed for the study. Various parameters in the sagittal and transverse planes were noted from supraorbital foramen on both sides, together with its vertical and horizontal dimensions. In addition, the location of supraorbital foramen with respect to midline and frontozygomatic suture were noted. Results: Th e study of 100 adult skulls revealed that the SON (71% on right and 70% on left) was found more frequently than the SOF (29% on right and 30% on left).Th e distance between centre of SOF/SON and midline was found to be statistically signifi cant on right and left sides. Conclusions: Th is study makes possible the identifi cation of exact position of supraorbital foramen and also discuss its racial variation.

Anatomical Location and Distribution of Supraorbital Notch and Foramen Evaluations Using Facial 3D Computed Tomography

PURPOSE: To evaluate anatomical locations and distributions of supraorbital notch and foramen using facial 3D computed tomography in the Korean adult population. METHODS: The study sample was composed of 87 adult patients with no history of trauma or ocular disease. The horizontal position of the supraorbital foramen or notch was recorded in relation to a vertical line defined by a reproducible hypothetical point, such as the nasion and mid-maxilla and the midpoint of the horizontal supraorbital plane. The distance and angle for each supraorbital foramen and notch were calculated from the defined vertical line. Furthermore, vertical distance from supraorbital plane, which was established using the highest points of both supraorbital rims, was obtained from the supraorbital foramen. RESULTS: The mean age of the 87 patients was 45.44 +/- 8.34 years (range, 30-59 years). There were 66 eyes in the supraorbital notch and 108 eyes in the supraorbital foramen. There were no distributional differences between the 2 sides. The mean horizontal distance of both types was 23.95 +/- 3.93 mm (range, 16.41-38.94 mm). The horizontal distance of male patients was longer than the female patients (25.18 +/- 4.16 mm vs. 22.63 +/- 3.19 mm, p < 0.001, based on independent t-test) and the horizontal distance of supraorbital notch was shorter than the supraorbital foramen (22.59 +/- 3.18 mm vs. 26.18 +/- 4.04 mm, respectively, p < 0.001, based on independent t-test). The mean vertical distance and mean angles of the supraorbital foramen were 3.02 +/- 1.119 mm and 6.81 +/- 2.31 degrees (degrees), respectively. CONCLUSIONS: The present study described the anatomical location of each supraorbital opening type in Korean adults. According to horizontal distance, a surgeon can avoid iatrogenic injury of the supraorbital neurovascular complex, especially during brow surgery. In addition, the anatomy can aid in targeting supraorbital neurovascular complex in cases of nerve block.

Anatomic Characteristics of Supraorbital Foramina in Korean Using Three-Dimensional Model

BACKGROUND: The aims of this study were to analyze the anatomic variations of supraorbital foramina/notches in Koreans and to compare the results with those of previous studies examining other races. We evaluated the three-dimensional computed tomography (3D-CT) images of human faces using multidetector computed tomography (MDCT). METHODS: A total of 395 adults (232 men and 163 women) were enrolled and the 3D-CT images of their faces were reviewed in this study. In this study, the data from the images included the presence, shape, width and distance from the nasion to the supraorbital foramina/notches. ANOVA was used to assess the main effects of gender and side (right or left foramen/notch), and comparisons of the means were done by paired t-test. RESULTS: The most common shapes in Koreans were a single notch (39.5%) on the right hand side and a single foramen (42.3%) on the left hand side. The incidence of a single foramen in Koreans was high compared to other races. The mean foramen diameter was 2.34 +/- 0.78 mm, and the mean distance from the nasion was 27.19 +/- 4.03 mm. The mean notch diameter was 3.37 +/- 1.71 mm, and the mean distance from the nasion was 23.42 +/- 2.45 mm. CONCLUSIONS: This is the first study on the variations of supraorbital foramina/notches in Koreans using 3D-CT images of faces. The anatomic characteristics of the supraorbital foramina/notch will help in performing nerve blocks and maxillofacial surgery.

Morphometric Analysis of the Supraorbital and Infraorbital Foramina Based on the Medial Canthus in Koreans / 체질인류학회지

Knowledge of the location of the maxillo-facial foramina is essential for regional nerve blocks and endoscopic surgical procedures to avoid nerve injury passing through these foramina. The purposes of this study were to determine the locations of the supraorbital foramen (SOF) and the infraorbital foramen (IOF) related to medial canthus (MC), and to analyze the morphology of these foramina. Thirty-two embalmed cadavers (64 sides, mean age: 64.1 years) and 33 dry skulls (66 sides) were used. The distances from the SOF, IOF, and MC to facial midline were directly measured on the cadavers using digital Vernier caliper. The vertical and horizontal distances of the SOF and IOF relative to the medial canthus were indirectly measured on the digital photographs using image analyzer software. The vertical and horizontal diameters of the IOF, and its location in relation to maxillary tooth were evaluated on the dry skull. Statistical analysis was performed using one-way ANOVA with declaration of significant difference when P<0.05. The mean distances of SOF, MC, and IOF to the facial midline were 24.13 mm, 15.00 mm, and 29.11 mm, respectively. The SOF was located 18.99 mm superior and 9.05 mm lateral to the medial canthus. The distance between the medial canthus and the SOF was 22.67 mm, and the vertical angle (Angle 1) between these structures was 24.36degrees superolaterally. The IOF was located 26.69 mm inferior and 13.53 mm lateral to the medial canthus. The distance between the medial canthus and IOF was 30.82 mm and the vertical angle (Angle 2) between these structures was 26.59degrees inferolaterally. In the this study, spraorbital notch (SON) was found more frequently than the SOF. The mean vertical and horizontal diameters of IOF were 3.36 mm, 3.45 mm, respectively. IOF was most commonly found in the same vertical plane with the second upper premolar. In conclusion, these results are important for performing local anesthetic, facial plastic surgery, and other invasive procedures in the forehead and periorbital region to prevent injury of neurovascular bundles passing through these foramina.

A study of supraorbital notches and foramina in Gujarati human skulls.

The anatomy of the supraorbital notches and foramina has been studied in 249 human skulls. Of 233 skulls, 35.62% had bilateral supraorbital notches, 21.45% had bilateral supraorbital foramina and 16.73% had a notch on one side and a foramen on other side. In present study, total 13 types of combinations were found. The average distance from the nasion to the supraorbital notch/ foramen was 24.30 mm( 16.74-31.86) on right side and 23.73 mm (15.78-31.86) on left side. The exit point can be significantly cephaled to the orbital rim. Knowledge of the anatomy of the region is important for those doing forehead and brow lift surgeries in order to avoid injuring the neuro-vascular bundle passing through these notches/foramina.