Morphometric Sex Identification Based on Paranasal Sinus Dimensions in the Indian Population: A CBCT Based Study
Correspondence Address :
Dr. Jijin Mekkadath Jayakrishnan,
PhD Scholar, Department of Oral Medicine and Radiology, Sri Balaji Vidyapeeth University, Puducherry, India.
E-mail: drjijin@gmail.com
Introduction: The creation of technologies using anatomical components like the maxillary sinus and frontal sinus that might preserve their stability yet after extreme events, are helpful for forensic investigations because sex determination is a crucial component of determining the profile of an individual.
Aim: To determine the sex using Cone Beam Computed Tomography (CBCT) scans, in a South Indian community by measuring the frontal and maxillary sinuses.
Materials and Methods: The present cross-sectional study was conducted in the Department of Oral Medicine and Radiology, Sri Balaji Vidyapeeth University, IGIDS, Puducherry, India, from 1st March 2021 to 31st March 2022. Analysis included 45 CBCT scans from 22 males and 23 females were subjected to volumetric measures in the maxillary sinus and frontal sinus. Applying NNT software, the volume measurement was carried out. The data was used to feed into a sex identification mathematical model. For evaluation, the student’s t-test has been used.
Results: In the total study subjects, the mean age of males was 36.909 years and of females was 36.304 years. Only the volume of the frontal sinus varied significantly among males and females (p-value <0.001). The discriminant function analysis equation showed that 50% of males and 91.3% of females correctly identified their gender. According to the cross-validated categorisation, 71.1% of the people were accurately categorised altogether.
Conclusion: Segregation identification, which was validated with evaluations in the frontal and maxillary sinuses with CBCT scans, is another technique for identifying individuals who identify as Indian. The present study shows that paranasal sinus morphologic evaluation is a useful method for identifying a person’s gender.
Cone beam computed tomography, Forensic anthropology, Forensic dentistry, Frontal sinus, Maxillary sinus
Forensic odontology has evolved alongside technological and data capture approaches throughout the growth of civilisation (1). Forensic odontology has gained recognition as a crucial discipline in medicolegal cases and the authentication of the deceased over time. In order to evaluate and examine injuries to the jaws, oral tissues, and teeth brought on by a variety of events, to recognise or rule out a suspect as a predator by examining bite marks, and eventually to examine fragments or complete dental remains in order to potentially identify an individual particularly in situations involving large-scale disasters, forensic odontology expertise is being used (2).
The skull can be the sole section of the skeleton that is still accessible for forensic analysis because it is the portion of the human body that is most frequently preserved after life. The amount of criminal cases has increased recently, particularly those involving murder and body burning. In cases where facial features are fully distorted, then identification of the deceased possesses a challenge to the forensic experts. In such cases, the identification is established based on possible age, gender, race, stature, any injury marks, certain distinctive features including polydactyly, callus of old fracture or the presence of an extra rib. Even though these features are useful in identifying a deceased, they may not be completely successful in identification based on a human skull (3).
Determining a person’s gender is vital in medicolegal proceedings, particularly when the body is fractured and degraded, as in natural calamities, large-scale tragedies, or crime scenes. Some of the bodily parts utilised in sexual identity include the skull, pelvis, long bones, foramen magnum, sella turcica, mandibular ramus and paranasal sinuses. Unfortunately, it can be difficult to determine the gender of these bones because they are frequently found either fractured or fragmentary. Because they are frequently retrieved whole, denser bones like the maxilla can be used (4).
Males and females in diverse populations have varied maxillary sinuses in terms of shape and dimensions, according to evidence from numerous research [4-6]. When teeth are lost in maturity, the maxillary sinus may grow or shrink in size. Also, all genders experience a decrease in maxillary sinus size following the peak of their development because of the depletion of nutrients in the bone (4). The frontal sinus is yet another craniometric characteristic of significance in forensic identification owing to its uneven form (7). A study examining the relationship between the frontal sinus and gender found that females have smaller frontal sinuses than males (8). In forensic odontology, radiography has been employed, particularly when the body is charred, degraded, or shattered (9). Radiographic examinations are frequently used to determine age, gender, the location of gunshots and the wound tracks they left behind, and to evaluate the fragmentary remnants of the skull as well as other body parts. Computed Tomography (CT), which can show anatomical structures in three dimensions, has proven use in less invasive postmortem procedures like virtopsies [10,11]. The imaging technique of the next generation, CBCT, has a number of functional and technological advantages over traditional CT. CBCT images have less metallic artefacts than CT images. Moreover, CBCT image reconstruction is quicker and reduces radiation exposure by 96% compared to traditional CT (12). CBCT has been shown to be useful in determining gender using a variety of anatomical features in numerous investigations (13),(14),(15).
In the current study authors identified gender, based on measures of the frontal and maxillary sinuses taken using CBCT images. This study’s main aim was to identify the sex using paranasal sinus measures from CBCT pictures. Before proceeding with the volumetric analysis of the paranasal sinuses using New Net Technologies (NNT) software, authors did the present pilot study to determine the feasibility of the study.
The present cross-sectional study was conducted in the Department of Oral Medicine and Radiology, Sri Balaji Vidyapeeth University, IGIDS, Puducherry, India, from 1st March, 2021 to 31st March 2022. This research examined CBCT scans of 45 patients gathered from all over India. The ethical approval was obtained from Institutional Ethical Committee (IECSHST-03/MDC/2020). A convenient sample of 45 patients was considered. Images from different centres were procured. This study included a mixed cohort of North and south Indian population.
Inclusion criteria: CBCT scans of people above the age of 18 years, who were recommended for a head and neck CBCT examination, with both the maxillary and frontal sinuses fully visible in the pictures were included in the study.
Exclusion criteria: CBCT images having deformed or artifactual images, scans showing symptoms of sinus diseases and imaging with surgical defects were excluded from the study.
Study Procedure
The scan settings for the images (axial and coronal images) were 90 kV (peak), 6 mAs, and matrix size of 16#18 fov on a Newton Machine CBCT scanner with New Net Technologies (NNT) software. The homogeneity of all the characteristics related to CBCT scanning was maintained while choosing the CBCT images for the investigation. Based on the predetermined selection and exclusion criteria, a radiologist with expertise in CBCT image analysis chose the research images.
All study participants had their frontal sinuses and right and left maxilla volumetric measurements obtained. Radiologists with past knowledge analysing CBCT pictures and education in the NMT programme carried out all of the assessments (Table/Fig 1),(Table/Fig 2).
Statsitical Analysis
The obtained data were presented using descriptive analysis using the mean, standard deviation, and percentage values. The student’s t-test was used to compare the two groups based on sex, with a p-value of 0.05 being considered significant. The next step was doing a discriminant functional analysis to determine the sex 2according to the findings of measures of the frontal and maxillary sinus dimensions. SPSS software version 15.0 was used for the data analysis.
Out of total 45 participants enrolled in the trial, 23 were females and 22 were males with a mean age of 36.909 years and 36.304 years in males and females, respectively. The mean, standard deviation, and p-value of each predictor value for both men and women are shown in (Table/Fig 3). The volume of the frontal sinus differed significantly between boys and females based on the student’s t-test (p-value <0.001) (Table/Fig 3).
Discriminant function was calculated using the formula, Discriminant function=-1.289-0.021 (Maxillary sinus)+0.473 (Frontal sinus). A cut-off value of 0.025 was obtained for the formula used. The score above the cut-off was to be classified as males and below the cut-off as females.
Based on discriminant function analysis, gender assessment was achieved accurately in 50% males and 91.3% females. The overall classification accuracy was 71.1%, according to the cross-validated classification (Table/Fig 4).
Sexual dimorphism is an important part of forensic sciences for the accurate identification of the deceased individual. Evidence from literature has reported the anatomic variations of maxillary sinus among males and females (16),(17). The maxillary sinus dimensions among males and females in the current study differed significantly. According to a study by Kim HJ et al., using 33 hemisectioned reconstructed CT images of the maxillary sinus in the Korean population, men had a larger maxillary sinus than women do in terms of anteroposterior length, height, width and volume of the sinus (18). In a similar manner, Tambawala SS et al., study revealed that males had considerably higher maxillary sinus total values than females did, with the strongest indicators of sexual dimorphism having right height (90.0%) and left height (83.3%) (17).
The frontal sinus, which is particular to every person, is another significant paranasal sinus that is examined for sexual dimorphism. In investigation process, the frontal sinus is considered because it is a constant anatomical site across human existence (15). The frontal sinus also has an arched morphometry and an internal skeletal structure, which accounts for its full preservation in skeletal bones (19),(20).
In the present investigation, males frontal sinuses were noticeably bigger than females. The present study findings are consistent with those made public by Soman BA et al., and Shireen A et al., (21),(22). In contrast to what was shown in the investigation, Soman BA et al., study found a substantial difference seen between genders, with males having larger frontal sinuses than females (21). Shireen A et al., study found that the Saudi population’s morphology varied significantly by age and gender (22). The majority of investigations on sexual dimorphism have been carried out utilising CT scan images and regular plain images, despite the fact that the majority of previous research have found higher frontal and maxillary sinus measurements in males. The present work was unique, since authors used CBCT pictures to ensure a 1:1 depiction of the images with no amplification and less metallic artefacts.
Limitation(s)
The limited sample size of this study is one of its weaknesses, which highlights the need to carry out these studies on a wider population. Secondly, authors used CBCT scans for assessing gender and CBCT machines are available only in major cities of India and hence there is limited access to the general population. Further, there might be interpopulation variations affecting morphological features of the sinuses. As a result, the results need to be read carefully. The findings of the present investigation demonstrate the reliability and precision of employing a limited set of morphological traits to identify unknown skeletal remains and to ascertain the sex.
The paranasal sinus morphologic evaluation is a useful method for identifying a person’s gender. An excellent way to image the maxillofacial areas is with CBCT. Authors conclude that gender dimorphism can be detected using the maxillary and frontal sinus dimensions from the findings of the current investigation.
DOI: 10.7860/JCDR/2023/61745.18023
Date of Submission: Nov 22, 2022
Date of Peer Review: Dec 28, 2022
Date of Acceptance: Mar 14, 2023
Date of Publishing: Jun 01, 2023
AUTHOR DECLARATION:
• Financial or Other Competing Interests: None
• Was Ethics Committee Approval obtained for this study? Yes
• Was informed consent obtained from the subjects involved in the study? Yes
• For any images presented appropriate consent has been obtained from the subjects. Yes
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