CSI Computerized Scanning and Imaging Facility - Imaging http://csi.whoi.edu/taxonomy/term/89/all en The auditory anatomy of the minke whale (<i>Balaenoptera acutorostrata</i>): a potential fatty sound reception pathway in a baleen whale http://csi.whoi.edu/biblio/auditory-anatomy-minke-whale-balaenoptera-acutorostrata-potential-fatty-sound-reception-pathw <a href="http://csi.whoi.edu/biblio/auditory-anatomy-minke-whale-balaenoptera-acutorostrata-potential-fatty-sound-reception-pathw" class="sharethis-link" title="The auditory anatomy of the minke whale (Balaenoptera acutorostrata): a potential fatty sound reception pathway in a baleen whale" rel="nofollow">ShareThis</a>[1518] <span class="biblio-authors"><a href="/biblio/author/6">Yamato, M.</a>, <a href="/biblio/author/4">D. R. Ketten</a>, <a href="/biblio/author/9">J. J. Arruda</a>, <a href="/biblio/author/8">S. R. Cramer</a>, and <a href="/biblio/author/311">K. Moore</a>, </span> <span class="biblio-title">&quot;<a href="/biblio/auditory-anatomy-minke-whale-balaenoptera-acutorostrata-potential-fatty-sound-reception-pathw">The auditory anatomy of the minke whale (<i>Balaenoptera acutorostrata</i>): a potential fatty sound reception pathway in a baleen whale</a>&quot;, </span> <i>The Anatomical Record</i>, Wiley Online Library, Wiley Periodicals, Inc., pp. 1-8, 04/2012. <span class="Z3988" title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.atitle=The+auditory+anatomy+of+the+minke+whale+%28%26lt%3Bi%26gt%3BBalaenoptera+acutorostrata%26lt%3B%2Fi%26gt%3B%29%3A+a+potential+fatty+sound+reception+pathway+in+a+baleen+whale&amp;rft.title=The+Anatomical+Record&amp;rft.date=2012&amp;rft.spage=1&amp;rft.epage=8&amp;rft.aulast=Yamato&amp;rft.aufirst=Maya&amp;rft.pub=Wiley+Periodicals%2C+Inc.&amp;rft.place=Wiley+Online+Library&amp;rft_id=info%3Adoi%2F10.1002%2Far.22459"></span><div class="field field-pdf"> <div class="field-items"> <div class="field-item odd"> <div class="field-label-inline-first"> Get PDF:&nbsp;</div> <div class="filefield-file"><img class="filefield-icon field-icon-application-pdf" alt="application/pdf icon" src="http://csi.whoi.edu/sites/all/modules/filefield/icons/application-pdf.png" /><a href="http://csi.whoi.edu/sites/default/files/literature/Yamato_2012.pdf" type="application/pdf; length=1239978" title="Yamato_2012.pdf">Full Text.pdf</a></div> </div> </div> </div> acoustic fat acutorostrata anatomy Antarctic Minke Whale auditory auditory anatomy auditory structure auditory system balaenoptera balaenoptera acutorostrata Baleen baleen whale Baleen whales Biology cetacea Common Minke Whale ear fatty hearing Imaging inner ear marine mammal hearing Megafauna middle ear minke minke whale minke whale ear mysticete pathway reception sound sound reception sound reception pethway underwater hearing whale Zoology Wed, 18 Apr 2012 13:29:25 +0000 csiadmin 1518 at http://csi.whoi.edu Using Magnetic Resonance Imaging (MRI) to obtain shapes and sizes of Pinniped and Cetacean brain regions that depend on thyroid hormones for maturation http://csi.whoi.edu/content/using-magnetic-resonance-imaging-mri-obtain-shapes-and-sizes-pinniped-and-cetacean-brain-reg <a href="http://csi.whoi.edu/content/using-magnetic-resonance-imaging-mri-obtain-shapes-and-sizes-pinniped-and-cetacean-brain-reg" class="sharethis-link" title="Using Magnetic Resonance Imaging (MRI) to obtain shapes and sizes of Pinniped and Cetacean brain regions that depend on thyroid hormones for maturation" rel="nofollow">ShareThis</a>[53] <span class="biblio-authors"><a href="/biblio/author/48">Montie, E. W.</a>, <a href="/biblio/author/13">M. Moore</a>, <a href="/biblio/author/4">D. R. Ketten</a>, <a href="/biblio/author/9">J. J. Arruda</a>, <a href="/biblio/author/81">A. Bogomolni</a>, and <a href="/biblio/author/51">M. Hahn</a>, </span> <span class="biblio-title">&quot;<a href="/content/using-magnetic-resonance-imaging-mri-obtain-shapes-and-sizes-pinniped-and-cetacean-brain-reg">Using Magnetic Resonance Imaging (MRI) to obtain shapes and sizes of Pinniped and Cetacean brain regions that depend on thyroid hormones for maturation</a>&quot;, </span> <i>EPA STAR Graduate Fellowship Conference</i>, 2004. <span class="Z3988" title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&amp;rft.title=Using+Magnetic+Resonance+Imaging+%28MRI%29+to+obtain+shapes+and+sizes+of+Pinniped+and+Cetacean+brain+regions+that+depend+on+thyroid+hormones+for+maturation&amp;rft.date=2004&amp;rft.aulast=Montie&amp;rft.aufirst=Eric"></span><div class="field field-pdf"> <div class="field-items"> <div class="field-item odd"> <div class="field-label-inline-first"> Get PDF:&nbsp;</div> <div class="filefield-file"><img class="filefield-icon field-icon-application-pdf" alt="application/pdf icon" src="http://csi.whoi.edu/sites/all/modules/filefield/icons/application-pdf.png" /><a href="http://csi.whoi.edu/sites/default/files/montie_2004_star.pdf" type="application/pdf; length=229430">montie_2004_star.pdf</a></div> </div> </div> </div> brain brain regions Centre for Magnetic Resonance Investigations cetacean cetaceans hormones Imaging magnetic resonance imaging marine mammals maturation medical imaging Medical physics MRI pinniped pinnipeds radiology resonance shapes and sizes Technology Internet thyroid thyroid hormone thyroid hormones using magnetic resonance imaging Whole-body nuclear scanning Mon, 22 Mar 2010 19:55:32 +0000 53 at http://csi.whoi.edu Anatomy, three-dimensional reconstructions, and volume estimation of the brain of the Atlantic White-sided Dolphin (Lagenorhynchus acutus) from magnetic resonance images http://csi.whoi.edu/content/anatomy-three-dimensional-reconstructions-and-volume-estimation-brain-atlantic-white-sided-d <a href="http://csi.whoi.edu/content/anatomy-three-dimensional-reconstructions-and-volume-estimation-brain-atlantic-white-sided-d" class="sharethis-link" title="Anatomy, three-dimensional reconstructions, and volume estimation of the brain of the Atlantic White-sided Dolphin (Lagenorhynchus acutus) from magnetic resonance images" rel="nofollow">ShareThis</a>[52] <span class="biblio-authors"><a href="/biblio/author/48">Montie, E. W.</a>, <a href="/biblio/author/13">M. Moore</a>, <a href="/biblio/author/4">D. R. Ketten</a>, <a href="/biblio/author/9">J. J. Arruda</a>, <a href="/biblio/author/8">S. R. Cramer</a>, <a href="/biblio/author/99">I. Fischer</a>, <a href="/biblio/author/12">K. E. Touhey</a>, <a href="/biblio/author/100">K. Patchett</a>, <a href="/biblio/author/81">A. Bogomolni</a>, <a href="/biblio/author/101">B. Lentell</a>, et al., </span> <span class="biblio-title">&quot;<a href="/content/anatomy-three-dimensional-reconstructions-and-volume-estimation-brain-atlantic-white-sided-d">Anatomy, three-dimensional reconstructions, and volume estimation of the brain of the Atlantic White-sided Dolphin (Lagenorhynchus acutus) from magnetic resonance images</a>&quot;, </span> <i>New England Stranding Conference</i>, 2004. <span class="Z3988" title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&amp;rft.title=Anatomy%2C+three-dimensional+reconstructions%2C+and+volume+estimation+of+the+brain+of+the+Atlantic+White-sided+Dolphin+%28Lagenorhynchus+acutus%29+from+magnetic+resonance+images&amp;rft.date=2004&amp;rft.aulast=Montie&amp;rft.aufirst=Eric"></span><p>Thyroid hormones (TH) play an integral role in neuro-development, particularly in the maturation of the corpus callosum, cerebellum, hippocampus, and inner ear. In rodents, it has been shown that persistent organic pollutants (POPs), particularly polychlorinated biphenyls (PCBs), interfere with TH signaling. These pollutants are widespread in the marine environment and biomagnify in marine mammals to very high levels. Brominated flame-retardants have also recently been shown to interfere with the TH system in experimental animals.</p> <p><a href="http://csi.whoi.edu/content/anatomy-three-dimensional-reconstructions-and-volume-estimation-brain-atlantic-white-sided-d" target="_blank">read more</a></p> anatomy Atlantic atlantic white sided dolphin Atlantic white-sided dolphin beluga whale biomagnify bottlenose dolphin brain brain chemical brain hippocampus brain size brain volume central nervous system cerebellum cerebral cortex chemical data common dolphin dolphin Environment estimation Flame retardants Harbour Porpoise hippocampus Imaging internal brain Lagenorhynchus acutus magnetic resonance images magnetic resonance imaging marine mammals MRI necropsy procedure neuroanatomy Neurology odontocetes Persistent organic pollutants Polychlorinated biphenyl resonance thyroid thyroid hormone thyroid hormone disrupting chemicals thyroid hormones volume volume estimation white sided dolphin Mon, 22 Mar 2010 19:55:31 +0000 52 at http://csi.whoi.edu