Ozdamar, Ozcan - University of Miami - Biomedical Engineering

个人简介

Dr. Özcan Özdamar is a professor of the University’s Department of Biomedical Engineering. He has secondary appointments in otolaryngology, pediatrics and neuroscience at the University of Miami Miller School of Medicine. He regularly serves as a consultant and board member for various medical diagnostic companies and health care institutions. He received his Bachelor of Science in electrical engineering in 1971 from the Middle East Technical University in Ankara, Turkey, and earned master’s and doctorate degrees in biomedical engineering from Northwestern University, Evanston, Ill., in 1973 and 1976, respectively. Özdamar joined the University’s biomedical engineering faculty in 1983 and become department chair in 1997. Prior to coming to Miami, he was director of the Electrophysiology Laboratory at Michael Reese Hospital and Medical Center in Chicago, with secondary appointments in the Department of Otolaryngology at the University of Chicago. During his tenure as chair, the BME department has become one of the best-known medically oriented research and education centers in the United States. Özdamar’s research interests include sensory/neural dynamics; acquisition and processing of sensory/brain waves and auditory/visual evoked potentials; automated screening and testing; otoacoustic emissions; neurophysiological computer instrumentation; and intraoperative and awareness/anesthesia monitoring. Özdamar has published more than 100 articles in national and international medical and engineering journals, books and proceedings. Early in his career he was involved in the electrophysiology of the sensory-brain systems and worked on the single unit and compound action potentials and brain responses of auditory system in animals. Later he developed auditory and visual instrumentation and signal processing methods for human clinical and research applications. He has received several technology transfer awards from the National Institutes of Health for the development of sensory diagnostic systems. Some of the methods and instruments he helped develop are in use in clinical and research systems. These techniques include efficient, cost effective and innovative methods for vision and hearing testing/screening and neuromonitoring. Northwestern University, Evanston, Illinois, PhD in Biomedical Engineering. (1976) Northwestern University, Evanston, Illinois, MS in Biomedical Engineering. (1973) Middle East Technical University, Ankara, Turkey, BS in Electrical Engineering. (1971) University of Miami, Chair. (1997 - Present) University of Miami, Professor. (1991 - Present) University of Miami, Professor (Secondary). (1991 - Present) University of Miami, Associate Professor. (1986 - 1991) University of Miami, Associate Professor (Secondary). (1986 - 1991) University of Miami, Assistant Professor (Secondary). (1984 - 1986) University of Miami, Assistant Professor. (1983 - 1986) University of Chicago, Assistant Professor (Secondary). (1982 - 1983) Michael Reese Hosp. & Medical Center, Director. (1978 - 1983) Middle East Technical University, Instructor. (1976 - 1978)

研究领域

Neurosensory Instrumentation and Engineering, Neurophysiological Signal Processing, Auditory / Visual Evoked Responses, Electrophysiological Brain Monitoring, Auditory / Audiological Instrumentation, Electrocochleography and Electroretinography

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Monsalve, P., Triolo, J., Toft-Nielsen, J., Bohorquez, J. E., Henderson, A., Delgado, R., Miskiel, E., Ozdamar, O., Feuer, w., Porciatti, V. (2017). Next Generation PERG Method: Expanding the Response Dynamic Range and Capturing Response Adaptation . Translational Vision Science & Technology, 6. Holt, F., Ozdamar, O. (2016). Effects of rate (0.3-40/s) on simultaneously recorded auditory brainstem, middle and late responses using deconvolution. Clin. Neurophysiol., 127, 1589-1602. Bennett, C. L., Mihajloski, T., Ozdamar, O. (2016). signal to noise ratio improvement of swept-tone generated transient otoacoustic emissions. Med. Biol. Engr. Comput., in press. Ozdamar, O., Toft-Nielsen, J., Bohorquez, J., Porciatti, V. (2014). Relationship between transient and steady-state pattern electroretinograms: Theoretical and experimental assessment. Investigative Ophthalmology and Visual Science, 55, 8560-8570. Chou, T., Bohorquez, J., Toft-Nielson, J., Ozdamar, O., Bohorquez, V. (2014). Robust mouse pattern electroretinograms derived simultaneously from each eye using a common snout electrode. Invest. Ophthalmol. Vis. Sci., 55, 2469-2475. Toft-Nielson, J., Bohorquez, J., Ozdamar, O. (2014). Unwrapping of transient responses from high rate overlapping pattern electroretinograms by deconvolution. Clin. Neurophysiol., 125, 2079-2089. Toft-Nielsen, J., Bohorquez, J., Ozdamar, O. (2014). Unwrapping of transient responses from high rate overlapping pattern electroretinograms by deconvolution. Clinical Neurophysiology, 125, 2079-2089. Wang, T., Zhan, C., Yan, G., Bohorquez, J., Ozdamar, O. (2013). A preliminary investigation of the deconvolution of auditory evoked potentials using a session jittering program. Journal of Neural Engineering, 10(2), 026023 - 14p. Eshraghi, A. A., Gupta, C., Ozdamar, O., Balkany, T. J., Truy, E., Nazarian, R. (2012). Biomedical engineering principles of modern cochlear implants and recent surgical innovations. Anat. Rec., 295, 1957-1966. Lachowska, M., Bohorquez, J., Ozdamar, O. (2012). Simultaneous acquisition of 80Hz ASSRs from quasi ASSRs for threshold estimation. Ear and Hearing, 33, 660-671. Presacco, A., Bohorquez, J., Yavuz, E., Ozdamar, O. (2010). Auditory steady-state responses to 40-Hz click trains: relationship to middle latency, gamma band and beta band responses studied with deconvolution. Clinical Neurophysiology, 121, 1540-1550. Bennett, C. L., Ozdamar, O. (2010). High-frequency TEOAE acquisition with auditory canal compensated clicks using. J. Acoust. Soc. Am., 127, 2410-2419. Bennett, C. L., Ozdamar, O. (2010). Swept-tone transient-evoked otoacoustic emissions. J. Acoust. Soc. Am.,, 128:00:00, 1833-1844. McNeer, R., BohÌ_rquez, J., Ozdamar, O. (2009). Forty-Hz auditory steady-state response is a composite of the auditory middle latency response in patients under general anesthesia,. Anesthesiology, 110, 1026-1035. BohÌ_rquez, J., Ozdamar, O. (2008). Generation of the 40Hz auditory steady state response (ASSR) explained by convolution. Clin. Neurophysiol., 119, 2598-2607. Ozdamar, O., BohÌ_rquez, J. (2008). Suppression of the Pb (P1) Component of the auditory middle latency response with contralateral masking. Clin Neurophysiol.,, 119, 11870-1880. McNeer, R., BohÌ_rquez, J., Ozdamar, O., Varon, A., Barach, P. (2007). A new paradigm for the design of audible alarms that convey urgency information. J. Clin. Mon. Comput., 21, 353-363. Morawski, K., Niemczyk, K., BohÌ_rquez, J., Marchel, A., Delgado, R., Ozdamar, O., Telischi, F. (2007). Intraoperative monitoring of hearing during cerebellopontine angle tumor surgery using transtympanic electrocochleography. Otol. Neurotol., 28, 541-545. Ozdamar, O., BohÌ_rquez, J., Sinha Ray,, S. (2007). Pb (P1) resonance at 40 Hz: Effects of high stimulus rate on auditory middle latency responses (MLRs) explored using deconvolution,. Clin. Neurophysiol., 118, 1261-1273. Acir, N., Ozdamar, O., Guzelis, C. (2006). Automatic classification of auditory brainstem responses using SVM-based feature selection algorithm for threshold detection. Engr. App. Artif. Intel., 19, 209-218. BohÌ_rquez, J., Ozdamar, O. (2006). Signal to Noise Ratio (SNR) Analysis of Maximum Length Sequence (MLS) Deconvolution of Overlapping Evoked Potentials. J. Acoust. Soc. Am., 119, 2881-2888. Ozdamar, O., BohÌ_rquez, J. (2006). Signal to Noise Ratio and frequency analysis of continuous loop averaging deconvolution (CLAD) of overlapping evoked potentials. J. Acoust. Soc. Am., 119, 429-438. Wang, T., Ozdamar, O., BohÌ_rquez, J., Shen, Q., Cheour, M. (2006). Wiener Filter Deconvolution of Overlapping Evoked Potentials. J. Neuroscience Methods, 158, 260-270. BohÌ_rquez, J., Ozdamar, O., Morawski, K., Telischi, F., Delgado, R., Yavuz, E. (2005). Neuromonitoring of cochlea and auditory nerve with multiple extracted parameters during induced hypoxia and nerve manipulation. J. Neural Engineering, 1, 10-Jan. Yavuz, E., Morawski, K., Telischi, F., Ozdamar, O., Delgado, R., Manns, F. (2005). Simultaneous electrocochleography and cochlear blood flow measurements during cochlear hypoxia in rabbits. J. Neuroscience Methods,, 147, 55-64.