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[Virtual endoscopy of the nasal cavity and the paranasal sinuses with computerized tomography. Anatomical study].
Radiol Med. 1998 Jul-Aug; 96(1-2):29-34.RM

Abstract

INTRODUCTION

Virtual endoscopy is a new 3D technique which permits to depict the inner surface of anatomic cavities. We report our experience in the study of the nasal cavity and paranasal sinuses.

MATERIAL AND METHODS

CT examinations of the maxillofacial region were obtained using 1.5 or 3.0 mm slices, 1.5 or 3.0 mm table feed, 120 kV, 140 mA, 2 s scan time, standard and high resolution algorithms for bony structures and a field of view of 14-16 cm. The images were transferred on a workstation and processed with the Navigator virtual endoscopy software (General Electric). A threshold value ranging -300 to -550 UH was applied.

RESULTS

We report a series of virtual images of the nasal cavity which includes rhinopharynx vault, torius tubarius, choanae, turbinates, tubal orifice and osteomeatal complex. Moreover, images of frontal sinus and tear duct, of polyps and fracture of maxillary sinus are also presented. 3D virtual endoscopy provides a clear visualization of the anatomic structures of the nasal cavity and sinuses. The images are similar to those of conventional endoscopy. Moreover virtual endoscopy visualizes the paranasal sinuses, which are not accessible at conventional endoscopy. The main limitations of this new technique are the arbitrary choice of the threshold value and the homogenization of different tissue densities, which reduces the contrast resolution.

CONCLUSIONS

Virtual endoscopy can presently be considered a complementary technique of the standard axial and coronal CT examination. It provides an effective demonstration of the anatomy of these structures and shows areas which are difficult to visualize with conventional endoscopy. This technique could be of help in didactical activity; its clinical application has to be verified.

Authors+Show Affiliations

Morra A
Istituto di Radiologia dell'Università, Trieste.
Calgaro A
No affiliation info available
Cioffi V
No affiliation info available
Pravato M
No affiliation info available
Cova M
No affiliation info available
Pozzi Mucelli R
No affiliation info available

MeSH

HumansNasal CavityParanasal SinusesTomography, X-Ray Computed

Pub Type(s)

Journal Article

Language

ita

PubMed ID

9819615

Citation

Morra, A, et al. "[Virtual Endoscopy of the Nasal Cavity and the Paranasal Sinuses With Computerized Tomography. Anatomical Study]." La Radiologia Medica, vol. 96, no. 1-2, 1998, pp. 29-34.
Morra A, Calgaro A, Cioffi V, et al. [Virtual endoscopy of the nasal cavity and the paranasal sinuses with computerized tomography. Anatomical study]. Radiol Med. 1998;96(1-2):29-34.
Morra, A., Calgaro, A., Cioffi, V., Pravato, M., Cova, M., & Pozzi Mucelli, R. (1998). [Virtual endoscopy of the nasal cavity and the paranasal sinuses with computerized tomography. Anatomical study]. La Radiologia Medica, 96(1-2), 29-34.
Morra A, et al. [Virtual Endoscopy of the Nasal Cavity and the Paranasal Sinuses With Computerized Tomography. Anatomical Study]. Radiol Med. 1998 Jul-Aug;96(1-2):29-34. PubMed PMID: 9819615.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - [Virtual endoscopy of the nasal cavity and the paranasal sinuses with computerized tomography. Anatomical study]. AU - Morra,A, AU - Calgaro,A, AU - Cioffi,V, AU - Pravato,M, AU - Cova,M, AU - Pozzi Mucelli,R, PY - 1998/11/20/pubmed PY - 1998/11/20/medline PY - 1998/11/20/entrez SP - 29 EP - 34 JF - La Radiologia medica JO - Radiol Med VL - 96 IS - 1-2 N2 - INTRODUCTION: Virtual endoscopy is a new 3D technique which permits to depict the inner surface of anatomic cavities. We report our experience in the study of the nasal cavity and paranasal sinuses. MATERIAL AND METHODS: CT examinations of the maxillofacial region were obtained using 1.5 or 3.0 mm slices, 1.5 or 3.0 mm table feed, 120 kV, 140 mA, 2 s scan time, standard and high resolution algorithms for bony structures and a field of view of 14-16 cm. The images were transferred on a workstation and processed with the Navigator virtual endoscopy software (General Electric). A threshold value ranging -300 to -550 UH was applied. RESULTS: We report a series of virtual images of the nasal cavity which includes rhinopharynx vault, torius tubarius, choanae, turbinates, tubal orifice and osteomeatal complex. Moreover, images of frontal sinus and tear duct, of polyps and fracture of maxillary sinus are also presented. 3D virtual endoscopy provides a clear visualization of the anatomic structures of the nasal cavity and sinuses. The images are similar to those of conventional endoscopy. Moreover virtual endoscopy visualizes the paranasal sinuses, which are not accessible at conventional endoscopy. The main limitations of this new technique are the arbitrary choice of the threshold value and the homogenization of different tissue densities, which reduces the contrast resolution. CONCLUSIONS: Virtual endoscopy can presently be considered a complementary technique of the standard axial and coronal CT examination. It provides an effective demonstration of the anatomy of these structures and shows areas which are difficult to visualize with conventional endoscopy. This technique could be of help in didactical activity; its clinical application has to be verified. SN - 0033-8362 UR - https://www.unboundmedicine.com/medline/citation/9819615/[Virtual_endoscopy_of_the_nasal_cavity_and_the_paranasal_sinuses_with_computerized_tomography__Anatomical_study]_ L2 - https://medlineplus.gov/ctscans.html DB - PRIME DP - Unbound Medicine ER -