Maxillary Sinus Clinical Trial
Official title:
Correlation Between Maxillary Sinus (Linear and Volumetric Measurements) and Midface Width Using CBCT A Cross Sectional Study
The objective of this study will be To assess the correlation of the 2-D and volumetric maxillary sinus dimensions with the linear measurement of the mid-face width in adult Egyptian individuals. The data collection will be obtained from the data base available at the department of Oral and Maxillofacial Radiology, Faculty of Dentistry, Cairo University. CBCT images will be obtained from Egyptian patients who were referred to the CBCT unit in oral and maxillofacial radiology department for different purposes. The following radiographic examination will be done in Oral and Maxillofacial Radiology Department, Faculty Dentistry, Cairo University. semiautomated segmentation will be performed for the maxillary sinus in both side and then linear and volumetric measurements will be assessed for each sinus. Also the width of midface will be assessed.
The objective of this study will be To assess the correlation of the 2-D and volumetric maxillary sinus dimensions with the linear measurement of the mid-face width in adult Egyptian individuals. The data collection will be obtained from the data base available at the department of Oral and Maxillofacial Radiology, Faculty of Dentistry, Cairo University. CBCT images will be obtained from Egyptian patients who were referred to the CBCT unit in oral and maxillofacial radiology department for different purposes. The following radiographic examination will be done in Oral and Maxillofacial Radiology Department, Faculty Dentistry, Cairo University. semiautomated segmentation will be performed for the maxillary sinus in both side and then linear and volumetric measurements will be assessed for each sinus. Also the width of midface will be assessed. CBCT images will be analysed using Mimics software (version 21.0; Materialise, Leuven, Belgium). To measure volumes of the maxillary sinuses, thresholding will be applied with minimum and maximum limits of - 1024 HU and - 526 HU, respectively. The maxillary sinus will be cropped using the software's "edit masks" tool along the following borders: around the bone structure and narrowest space of the ostium between the infundibulum and the uncinate process After this, three-dimensional (3D) models of the sinuses will be created and the volumes of the right and left sinuses will be calculated separately by giving different colors to the sinuses of the same patient. Slice thickness will be maintained at 0.4 mm as a standard for further 2-D and 3-D reconstruction. All maxillary sinus measurements will be performed separately on the left and right sides. For the maxillary sinus linear 2D measurements, each scan will be assessed for: Maximal vertical diameter (maximal height) of the maxillary sinus (MSH) involves the longest distance from the lowest point of the inferior wall to the highest point of the superior wall in the adjusted sagittal image. Maximal horizontal diameter (maximal width) of the maxillary sinus (MSW) involves the longest distance perpendicular from the most prominent point of the medial wall to the most prominent point of the lateral wall on the adjusted axial image. Maximal anteroposterior diameter (maximal length) of the maxillary sinus (MSL) involves the longest distance from the most anterior point of the anterior wall to the most posterior point of the posterior wall on the adjusted the axial image. To measure the midface width on CBCT adjusted coronal image, the most lateral and inferior point of the maxillozygomatic suture (zm point) on both sides will be detected and measure the distance between them. To measure one side maxillary width, the distance between (zm point) of one side to mid palatine will be recorded. ;
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