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 Odontocete salvage, necropsy, ear extraction, and imaging protocols.. Young NM, editor. Seattle: Office of Naval Research (ONR) / National Oceanic and Atmospheric Administration (NOAA); 2007.
 3D visualization of the odontocete melon using computerized tomography. Quebec, Canada; 2009.
 Centralizing marine mammal stranding data: a web-based content management system. In: 20th Biennial Conference on the Biology of Marine Mammals. Dunedin, New Zealand: Society for Marine Mammology; 2013. 51.
 Computed tomography (CT): a non-invasive technique for assessing trauma and disease in stranded marine mammals. Quebec, Canada: Society for Marine Mammology; 2009.
 In vivo imaging correlated with otoacoustic emissions as a metric for ear disease in seals. The Journal of the Acoustical Society of America. 2004;116:2532.
 Great Ears: Functional comparisons of land and marine leviathan ears. Journal of the Acoustical Society of America. 2006;120(5):3265.
 Biomechanical evidence of low to infrasonic hearing in Mysticetes: implications for impacts. Erice, Sicily; 2013.
 Great ears: Low frequency sensitivity correlates in land and marine leviathans. In: Popper AN, Hawkins A, editors. The Effects of Noise on Aquatic Life II. Springer-Verlag; In Press.
 Great ears: functional comparisons of land and marine leviathan ears. San Diego, CA; 2011.
 Non anthropogenic deafness in marine mammals: Hearing that is going, going, gone. Journal of the Acoustical Society of America. 2008;124(4):2505.
 A Manual for the Removal, Fixation and Preservation of Cetacean Ears. Woods Hole: Woods Hole Oceanographic Institution; 2007.
 Auditory Structures that Impact Sensitivity and Acuity in Cetaceans:Location, Location, Location. In: 20th Biennial Conference on the Biology of Marine Mammals. Dunedin, New Zealand: Society for Marine Mammology; 2013. 113.
 Critical Cranial and Cochlear Structures in Echolocators. Vol 34. Pt. 3 ed. Institute of Acoustics; 2012. (Proceedings of the Institute of Acoustics; vol 34).
 Mature mammal hearing loss: a natural experiment in Presbycusis. In: 18th Conference on the Biology of Marine Mammals. Quebec, Canada; 2009.
 Great ears: functional comparisons of land and marine leviathan auditory systems. In: International Mammalogical Congress. Sapporo, Japan; 2005.
 Hearing Loss in Harbor Seals: Differential Diagnoses of Conductive and Sensorineural Losses via Auditory Evoked Potentials (AEP), Otoacoustic Emissions (OAE), and Computerized Tomography (CT). In: 19th Biennial Conference on the Biology of Marine Mammals. Tampa, FL: Society for Marine Mammology; 2011. 156.
 The influence of cochlear shape on low-frequency hearing. Proceedings of the National Academy of Sciences. 2008;105(16):6162-6.
 Anatomy, three-dimensional reconstructions, and volume estimation of the brain of the Atlantic White-sided Dolphin (Lagenorhynchus acutus) from magnetic resonance images. In: New England Stranding Conference.; 2004.
 Using Magnetic Resonance Imaging (MRI) to obtain shapes and sizes of Pinniped and Cetacean brain regions that depend on thyroid hormones for maturation. In: EPA STAR Graduate Fellowship Conference.; 2004.
 Hyperbaric computed tomography: a novel tool to quantify the behavior of air-filled structures and gas emboli in cetacean and pinniped carcasses under a range of pressures. In: 18th Biennial Conference on the Biology of Marine Mammals. Quebec, Canada: Society for Marine Mammology; 2009.
 Anatomical predictions of hearing in the North Atlantic Right Whale. The Anatomical Record. 2007;290(6):734-44.
 Diagnosis and management of intestinal partial obstruction in a loggerhead turtle (Caretta caretta). Journal of Zoo and Wildlife Medicine. 2013;44(2):457-61.