http://orcid.org/0000-0002-3194-5811
References
- Colebatch JG, Halmagyi GM, Skuse NF. Myogenic potentials generated by a click-evoked vestibulocollic reflex. J Neurol Neurosurg Psychiatry. 1994;57:190–197.
- Rosengren SM, Todd NP, Colebatch JG. Vestibular-evoked extraocular potentials produced by stimulation with bone-conducted sound. Clin Neurophysiol. 2005;116:1938–1948.
- Curthoys IS, Kim J, McPhedran SK, et al. Bone conducted vibration selectively activates irregular primary otolithic vestibular neurons in the guinea pig. Exp Brain Res. 2006;175:256–267.
- Yang TH, Young YH. Click-evoked myogenic potentials recorded on alert guinea pigs. Hear Res. 2005;205:277–283.
- Yang TH, Liu SH, Wang SJ, et al. An animal model of ocular vestibular-evoked myogenic potential in guinea pigs. Exp Brain Res. 2010;205:145–152.
- Yang TH, Liu SH, Young YH. EGb 761 (Ginkgo biloba) protects cochlear hair cells against ototoxicity induced by gentamicin via reducing reactive oxygen species and nitric oxide-related apoptosis. J Nutr Biochem. 2011;22:886–894.
- Henderson D, Bielefeld EC, Harris KC, et al. The role of oxidative stress in noise-induced hearing loss. Ear Hear. 2006;27:1–19.
- Hsu WC, Wang JD, Lue JH, et al. Physiological and morphological assessment of the saccule in guinea pigs after noise exposure. Arch Otolaryngol Head Neck Surg. 2008;134:1099–1106.
- Kopke RD, Coleman JK, Liu J, et al. Enhancing intrinsic cochlear stress defenses to reduce noise-induced hearing loss. Laryngoscope. 2002;112:1515–1532.
- Young YH, Nomura Y, Hara M. Vestibular pathophysiologic changes in experimental perilymphatic fistula. Ann Otol Rhinol Laryngol. 1992;101:612–616.
- Sakakura K, Miyashita M, Chikamatsu K, et al. Tone burst-evoked myogenic potentials in rat neck extensor and flexor muscles. Hear Res. 1991;185:57–64.
- Day AS, Lue JH, Yang TH, et al. Effect of intratympanic application of aminoglycosides on click-evoked myogenic potentials in guinea pigs. Ear Hear. 2007;28:18–25.
- Shojaku H, Zang RL, Tsubota M, et al. Effects of selective cochlear toxicity and vestibular deafferentation on vestibular evoked myogenic potentials in guinea pigs. Acta Otolaryngol. 2007;127:430–455.
- Lue JH, Day AS, Cheng PW, et al. Vestibular evoked myogenic potentials are heavily dependent on type I hair cell activity of the saccular macula in guinea pigs. Audiol Neurotol. 2009;14:59–66.
- Lang H, Liu C. Apoptosis and hair cell degeneration in the vestibular sensory epithelia of the guinea pig following a gentamicin insult. Hear Res. 1997;111:177–184.
- Mason S, Garnham C, Hudson B. Electric response audiometry in young children before cochlear implantation: a short latency component. Ear Hear. 1996;17:537–543.
- Nakashima T, Pyykkö I, Arroll MA, et al. Meniere’s disease. Nat Rev Dis Primers. 2016;2:16028.
- Cheng PW, Lue JH, Lin CT, et al. Assessment of gentamicin-induced vestibulotoxicity by click and galvanic vestibular-evoked myogenic potentials: a guinea pig investigation. Neurotoxicology. 2010;31:121–125.
- Hirvonen TP, Minor LB, Hullar TE, et al. Effects of intratympanic gentamicin on vestibular afferents and hair cells in the chinchilla. J Neurophysiol. 2005;93:643–655.
- Schreyer DJ, Skene JH. Injury-associated induction of GAP-43 expression displays axon branch specificity in rat dorsal root ganglion neurons. J Neurobiol. 1993;24:959–970.