1.Study of demonstrating main operative section of facial recess approach using double oblique multiplanar reconstruction on multislice CT
Zhihai LI ; Jingyao Lü ; Jianmin SHEN ; Guobing ZHANG ; Xi WEN ; Zhiyi CAI ; Yeqing LIN
Chinese Journal of Radiology 2012;46(1):13-18
Objective To explore the method of demonstrating main operative section of facial recess approach with multi-slice CT by using double oblique muttiplanar reconstruction.MethodsSimilarly as surgical procedure of facial recess approach,30 (60 eras) normal temporal bones in cadavers were reconstructed to observe main operative sections and anatomical marks.Main images of operative section of facial recess approach were reconstructed using double oblique multiplanar reconstruction on multislice CT.With the reference of operative anatomical marks,the ratios of visibility of anatomical marks on the transverse plane,coronal plane,sagittal plane and double oblique were calculated and compared.The degree,of which major anatomical landmarks were displayed on the same plane ( axial,coronal,sagittal,or doubleoblique sagittal plane),was classified using the following criteria: level 4: 100% of anatomical landmarks were presented in the same plane; level 3: 90% to 99% of anatomical landmarks were presented in the same plane; level 2: 80% to 89% of anatomical landmarks were presented in the same plane; level 1: 70% to 79% of anatomical landmarks were presented in the same plane ; level 0: < 70% of anatomical landmarks were presented in the same plane.Classification data were tested by chi-square test.Results Four key operative section were involved in facial recess approach,which were of oblique sagittal orientation.The central mark of the first key operative section was semicircular canal by using double oblique multi-planar reformation.On reconstructed images of the first key operative section,horizontal reference line was short process of incus,and the angle adjusting the reference line on the transverse plane was 22.15° ±5.22°.On the reconstructed images of the first key operative section,coronal reference line was tympanic segment of facial canal,and the angle adjusting the reference line on the coronal plane was 14.35° ± 4.02°.On the reconstructed images of the second key operative section,the central mark was fossa incudis,the horizontal reference line was short process of incus and the angle was 20.15° ± 5.52°,while the coronal reference line was tympanic segment of facial cana,and the angle was 13.15° ± 3.33°.On the reconstructed operative images of the third key section,the central mark was pyramidal eminence,the horizontal reference line was the horizontal portion of the facial nerve and the angle was 32.53° ±5.22°,while the coronal reference line was the tympanic segment of facial nerve,and the angle was 15.05° ± 4.43°.On the fourth reconstructed images of the key operative section,the central mark was the posterior border of round window,the horizontal reference line was the superior border of oval window,and the angle was 50.15° ± 8.02°,while the coronal reference line was the tympanic segment of facial nerve,and the angle was 15.25° ± 4.12°.For the four planes (double-oblique sagittal,axial,coronal,or sagittal plane),the results of the degree to which they could include the major anatomical landmarks in the same layer of the first section were: level 4 in 60 sides,level 2 in 12 sides and level 3 in 48 sides,level 2 in 15 sides and level 3 in 45 sides,level 3 in 10 sides and level 4 in 50 sides,respectively.The results of the second section were: level 4 in 60 sides,level 2 in 11 sides and level 3 in 49 sides,level 2 in 13 sides and level 3 in 47 sides,level 3 in 11 sides and level 4 in 49 sides,respectively.The results of the third section were: level 4 in 60 sides,level 2 in 10 sides and level 3 in 50 sides,level 2 in 11 sides and level 3 in 49 sides,level 3 in 9 sides and level 4 in 51 sides,respectively.The results of the fourth section were: level 4 in 60 sides,level 2 in 9 sides and level 3 in 51 sides,level 2 in 8 sides and level 3 in 52 sides,level 3 in 5 sides and level 4 in 55 sides,respectively.The four planes differed significantly in the degree to which they could include the major anatomical landmarks in the same layer ( x2 =123.3200,121.4231,122.4011,125.4213,all,P < 0.05 ).The visibility ratio of every section is 100% (60/60).Conclusion Double oblique multi-planar reformation is a new method to demonstrate landmarks of operative section of facial recess approach in one slice.The reconstructive images of operative section with double oblique multi-planer reconstruction may provide valuable information for operation.
2.Three dimensional reconstruction study of multi-slice helical CT imaging on optic canal area.
Zhihai LI ; Qixue GAO ; Zhiyi CAL ; Baohong TAO ; Jingyao LÜ
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2007;21(1):7-9
OBJECTIVE:
To investigate the accuracy and clinical application of multi-slice spiral CT imaging on optic canal area.
METHOD:
Forty intact specimens of human corpse head were tested with three dimensional reconstruction of multi-slice spiral CT imaging. The results of radiology and anatomy were compared on adjacent structures of optic canal interior wall and its developmental relationship with sphenoid sinus.
RESULT:
(1) The high spatial resolution of integrity could be obtained with dimensional processing technique. The anatomical structure of optic canal and its surrounding area could be demonstrated clearly. (2) With the technique of virtual endoscopy, the interior reconstruction of optic canal could demonstrate the inner topography of optic canal, the reconstruction image of which was identical to that of the control subjects. (3) There was no significant difference between the data of multi-slice spiral CT imaging and that of anatomy (P > 0.05).
CONCLUSION
Associated application of dimensional processing technique and virtual endoscopy, not only can the subtle structures of optic canal be demonstrated and measured, but also the detailed information on spatial relationships of optic canal area can be provided for operation.
Adult
;
Asian Continental Ancestry Group
;
Female
;
Humans
;
Imaging, Three-Dimensional
;
Male
;
Optic Nerve
;
anatomy & histology
;
diagnostic imaging
;
Tomography, Spiral Computed
3.The value of induced hypotension in nasal endoscopic surgery.
Zhiyi CAI ; Xiaofei WANG ; Baohong TAO ; Jingyao LÜ ; Ying WANG
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2008;22(8):349-351
OBJECTIVE:
To observe the value of induced hypotension in nasal endoscopic surgery with local anesthesia.
METHOD:
Sixty Patients were randomly divided into two groups. Group I : induced hypotension group; Group II: control group. MAP, HR, SaO2 amount of blood loss, clear visual field of operation and the operation time were observed and compared between two groups.
RESULT:
The difference of MAP, HR, SaO2 data between two groups showed no statistic difference with anatomical measurement (P >0.05). The difference of amount of blood loss, the operation time and clear visual field of operation between two groups was significant (P <0.05).
CONCLUSION
The induced hypotension with local anesthesia can produce time of operation and amount of blood loss decreased. It can safely applied to the in clinical practice.
Adolescent
;
Adult
;
Anesthesia, Local
;
Endoscopy
;
methods
;
Female
;
Humans
;
Hypotension, Controlled
;
Male
;
Middle Aged
;
Nose
;
surgery
;
Young Adult
4.Study of demonstrating main operative mark of transmastoid-epitympanum approach of the facial nerve using double oblique multi-planar reconstruction in multi-slice CT.
Zhihai LI ; Jingyao LÜ ; Baohong TAO ; Jianmin SHEN ; Guobing ZHANG ; Xi WEN ; Zhiyi CAI
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2011;25(19):865-868
OBJECTIVE:
To explore a method of demonstrating the facial nerve anatomical landmarks under transmastoid and epitympanum approach with multi-slice CT using double oblique multi-planar reconstruction (MPR).
METHOD:
Two temporal bone of a corpse were dissected, under transmastoid and epitympanum approach, to observe the anatomical landmarks of facial nerve. Based on that, the anatomical landmarks of facial nerve under transmastoid and epitympanum approach in 30 (60 ears) normal temporal bones of adult corpses were reconstructed using double oblique MPR in multi-slice CT. The achievement ratio was calculated and the differences among transverse plane, coronal plane, sagittal plane and double oblique were compared.
RESULT:
The different part of facial nerve, such as mastoid segment, tympanum segment, pyramid segment, geniculate ganglion and the outer labyrinthine segment could be exposed clearly with the main anatomical landmarks, such as horizontal semicircular canal, epitympanic recess and cochleariform process through transmastoid and epitympanum approach. The image of anatomical landmarks could be showed in the same sections by double oblique multi-planar reconstruction. The double oblique multi-planar reconstruction to show the landmarks of facial nerve displaying on the same imaging is better than transverse plane, coronal plane and sagittal plane. The achievement ratio of every section is 100%.
CONCLUSION
Double oblique MPR is a new method to demonstrate anatomical landmarks through transmastoid and epitympanum approach in one slice. Combined with the operative approach and purpose, the reconstructive images with double oblique MPR can provide valuable information for operation.
Adult
;
Ear, Middle
;
diagnostic imaging
;
surgery
;
Facial Nerve
;
diagnostic imaging
;
surgery
;
Female
;
Humans
;
Image Processing, Computer-Assisted
;
Male
;
Mastoid
;
diagnostic imaging
;
surgery
;
Tomography, Spiral Computed