5[1]Green JD Jr,Marion MS,Hinojosa R.Labyrinthitis ossificans:histopathologic consideration for cochlear implantation.Otolaryngol Head Neck Surg,1991,140(3):320 ~ 326
6[2]Lenarz T,attmer RD,Lesinski A,et al.Nucleus double electrode array:a new approach for ossified cochleae AM J Otol,1997,18(6):S39 ~ 41
7[3]Wysocki,Skarzynski H.Cochleostomy during the intracochlear implantation:Anatomical conditions in children and adults.Otolaryngol Pol,1998,52(6)689 ~ 694
8[7]Isida K,Kakoto S,Lida M,et al.Cochlear implantation in children with inner ear malformation and postoperative performance.Nippon Jibiinkoka Gakkai Kaiho,1990,102(12):1302 ~ 1310
9[8]Hamamoto M,Murakami G,Kataura A.Topographical relationships among the facial nerve,chorda tympani nerve and round window with special reference to the approach route for cochlear implant surgery.Clin Anat,2000,13(4):251 ~ 256
10[9]Ebersold MJ,Harner SG,Beatty CW,et al.Current results of the retrosigmoid approach to acoustic neurinoma.J Neurosurg,1992,76 (6):901~909
5Ryan MW, Quinn FB Jr. Advancing otolaryngology educa- tion in the new millennium [J]. Otolaryngol Clin North Am, 2007,40(6) : 1191-1194.
6Bland. Teaching statistics to medical students using prob- lem-based learning:the Australian experience [J]. BMC Med Educ,2004,4:31.
7Hochman JB, Rhodes C, Kraut J, et al. End user comparison of anatomically matched 3- dimensional printed and virtual haptic temporal bone simulation:a pilot study[J]. Otolaryngol Head Neck Surg,2015,153-263.
8Hochman JB, Rhodes S, Wong D. Comparison of cadaveric and isomorphic three-dimensional printed models in temporal bone educationEJ]. Laryngoscope, 2015,125 : 2353.
9Hoehman JB, Sepehri N, Rampersad V, et al. Mixed reality temporal bone surgical dissector:mechanical design[J]. J Oto laryngol Head Neck Surg, 2014,8 .. 23.
10Fang T,Wang P,Liu C,et al.Evaluation of a haptics-based virtual reality temporal bone simulator for anatomy and surgery training[J].Computer Methods and Programs in Biomedicine,2014,113(2):674-681.
