The Egyptian Journal of Otolaryngology

ORIGINAL ARTICLE
Year
: 2018  |  Volume : 34  |  Issue : 1  |  Page : 9--14

Endoscopic endonasal bony landmarks of vertical petrous internal carotid: anatomic study


Sameh M Amin, Hesham Fathy 
 Department of Otorhinolaryngology, Fayoum University, Faiyum, Egypt

Correspondence Address:
Sameh M Amin
Department of Otorhinolaryngology Head and Neck Surgery, Fayoum University, Faiyum, 128 Gisr El Suis, Heliopolis, 11321
Egypt

Background Endoscopic endonasal direct exposure or vascular control of basal internal carotid artery (ICA) is difficult among soft tissue of infratemporal fossa. Objective The aim of this work was to develop surgical instructional model for direct exposure of vertical petrous (Vp) ICA relatively dependent on bony fixed landmarks. Materials and methods Endoscopic endonasal drilling of 14 sides of dry skull models was presented. Different bony landmarks and measurements of Vp ICA canal were obtained. Results Endoscopic endonasal transpterygoid approach was performed. The medial pterygoid process and base were drilled to expose the vidian canal and foramen rotundum. The lateral pterygoid process was drilled following the slope of skull base to medial and lateral ends of foramen oval (FO). The spine of the sphenoid was drilled to obscure the tensor tympani canal and the bony Eustachian tube (ET). The bony end of ET was identified lateral to FO. The Vp ICA was exposed retrogradely by drilling the tubal process of tympanic bone (bone between FO and bony ET) downward, backward, and medially toward carotid foramen, forming an acute angle with horizontal petrous (Hp) ICA. The carotid foramen lies medial to styloid process. Three processes are identified sequentially from endonasal perspective; spine of sphenoid, tubal process of tympanic bone, and vaginal process of tympanic bone enclosing the styloid process laterally. The mean length of Vp ICA canal was 12.93±2.23 mm, mean width of FO was 5.04±0.8 mm, and distance between FO and bony ET was 6.68±1.42 mm, representing surgical width of Vp ICA ∼10 mm. The surgical corridor was ∼10 mm wide and 15 mm long. Conclusion Endoscopic endonasal systematic orientation of bony fixed landmarks of Vp ICA exposure is described. The proposed endonasal bony pathway relatively bypasses the muscular compartment of infratemporal fossa. This model can help to obtain vascular control of basal ICA and retrograde identification of parapharyngeal ICA.


How to cite this article:
Amin SM, Fathy H. Endoscopic endonasal bony landmarks of vertical petrous internal carotid: anatomic study.Egypt J Otolaryngol 2018;34:9-14


How to cite this URL:
Amin SM, Fathy H. Endoscopic endonasal bony landmarks of vertical petrous internal carotid: anatomic study. Egypt J Otolaryngol [serial online] 2018 [cited 2018 Aug 21 ];34:9-14
Available from: http://www.ejo.eg.net/article.asp?issn=1012-5574;year=2018;volume=34;issue=1;spage=9;epage=14;aulast=Amin;type=0