Sexual dimorphism from skeletal remains a crucial step towards biological profile reconstruction since these are some of the last structures to remain after death. Paranasal sinuses remain intact even in extreme situations and are able to resist adverse environmental conditions due to their unique properties. The maxillary sinus is the largest of all paranasal sinuses and is considered as characteristic entity like human fingerprints for each person. Also, sphenoid air sinus is located deeply in the skull and is enveloped by different structures inside the sphenoid body. It is the least possibly affected by external deteriorating factors. Owing to limited research on the Egyptian population on the role of 3D volumetric assessment of paranasal sinuses in forensics, this study will be designed to investigate the significance of the volume of both sphenoid and maxillary sinuses in sexual discrimination.
Sexual dimorphism from skeletal remains a crucial step towards biological profile reconstruction since these are some of the last structures to remain after death. Paranasal sinuses remain intact even in extreme situations and are able to resist adverse environmental conditions due to their unique properties. The maxillary sinus is the largest of all paranasal sinuses and is considered as characteristic entity like human fingerprints for each person. Also, sphenoid air sinus is located deeply in the skull and is enveloped by different structures inside the sphenoid body. It is the least possibly affected by external deteriorating factors. Owing to limited research on the Egyptian population on the role of 3D volumetric assessment of paranasal sinuses in forensics, this study will be designed to investigate the significance of the volume of both sphenoid and maxillary sinuses in sexual discrimination. * CBCT Scans included in this study performed using CBCT machine (Planmeca Promax 3D MID (Planmeca OY, Helsinki, Finlan. * Exposure parameters of the scans will vary depending on patients' sizes (according to the manufacturer's recommendations). * Full maxillofacial scans with 0.4 voxel sizes will be reviewed. * DICOM files of CBCT images will be analysed using Mimics software (version 21.0; Materialize, Leuven, Belgium). * To measure volumes of the sphenoid and maxillary sinuses, Semiautomatic segmentation will be done using the new mask tool in Mimics software, thresholding will be applied to optimize sinus segmentation. * The region-growing tool will be used on the previous mask to exclude any data not related to the sinuses and ensure the segmentation precision. Mask calculation will be done and the segmented sinus will be calculated as 3D Volume. * The volume will be measured in cubic millimeters (mm3) by the software itself. * The segmentation process will be carried out by one radiologist with 10 years of experience. For inter-observer agreement 50 cases will be segmented again by another radiologist with 15 years of experience in a separate session. Also, the analysis of data will be reviewed by both of them separately. * CBCT images will be coded and radiologists will be blinded from the age and sex of patients and from the other observers' readings. * Interpretation will be based mainly on software's segmentation capabilities minimizing the operator's skill dependence.
Study Type
OBSERVATIONAL
Enrollment
204
Cone Beam CT Radiation
Sexual dimorphism of maxillary air sinuses via volumetric segmentation
Time frame: 1 year
Sexual dimorphism of Sphenoid sinuses via volumetric segmentation
Time frame: 1 year
Determination of age via sphenoid and maxillary air sinuses volumetric segmentation
Time frame: 1 year
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