Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism"

Computed tomography (CT) and microcomputed tomography (microCT) were used to examine the structures involved in cochlear stimulation in odontocetes and terrestrial mammals. Cranial CT examined the osseous attachment of the skull to the tympanoperiotic complex (TPC) and the path of the endocranial fo...

Full description

Bibliographic Details
Published in:Marine Mammal Science
Main Authors: March, D., Brown, Daniel, Gray, R., Curthoys, I., Wong, C., Higgins, D.
Format: Article in Journal/Newspaper
Language:unknown
Published: Wiley-Blackwell Publishing 2016
Subjects:
Physeter macrocephalus
Online Access:https://hdl.handle.net/20.500.11937/74640
https://doi.org/10.1111/mms.12287
id ftcurtin:oai:espace.curtin.edu.au:20.500.11937/74640
record_format openpolar
spelling ftcurtin:oai:espace.curtin.edu.au:20.500.11937/74640 2023-06-11T04:16:01+02:00 Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism" March, D. Brown, Daniel Gray, R. Curthoys, I. Wong, C. Higgins, D. 2016 restricted https://hdl.handle.net/20.500.11937/74640 https://doi.org/10.1111/mms.12287 unknown Wiley-Blackwell Publishing http://hdl.handle.net/20.500.11937/74640 doi:10.1111/mms.12287 Journal Article 2016 ftcurtin https://doi.org/20.500.11937/7464010.1111/mms.12287 2023-05-30T19:56:13Z Computed tomography (CT) and microcomputed tomography (microCT) were used to examine the structures involved in cochlear stimulation in odontocetes and terrestrial mammals. Cranial CT examined the osseous attachment of the skull to the tympanoperiotic complex (TPC) and the path of the endocranial foramen of the vestibulocochlear nerve (EFVN), which was assumed to contain the perilymphatic duct. Additional CTs of TPC were taken postextraction to examine the gross morphology of this structure. MicroCT was used to examine the acoustic windows of the cochlea, including the round and oval windows and the apertures of the cochlear and vestibular aqueducts. Cranial CT scans demonstrated an osseous connection between the skull and TPC in beaked whales and Physeter macrocephalus. EFVN traveled through a greater length of cranial bone and communicated more closely with the periotic bone in beaked whales than in other species. Ziphius cavirostris was observed to have a reduced medial sulcus of the mallear ridge (MSMR) and tympanic plate and an enlarged aperture of the cochlear aqueduct, respectively. The potential significance of these findings, including the role of the perilymphatic duct as a novel route of cochlear stimulation referred to as the "vibroacoustic duct mechanism," are discussed. Article in Journal/Newspaper Physeter macrocephalus Curtin University: espace Marine Mammal Science 32 2 552 567
institution Open Polar
collection Curtin University: espace
op_collection_id ftcurtin
language unknown
description Computed tomography (CT) and microcomputed tomography (microCT) were used to examine the structures involved in cochlear stimulation in odontocetes and terrestrial mammals. Cranial CT examined the osseous attachment of the skull to the tympanoperiotic complex (TPC) and the path of the endocranial foramen of the vestibulocochlear nerve (EFVN), which was assumed to contain the perilymphatic duct. Additional CTs of TPC were taken postextraction to examine the gross morphology of this structure. MicroCT was used to examine the acoustic windows of the cochlea, including the round and oval windows and the apertures of the cochlear and vestibular aqueducts. Cranial CT scans demonstrated an osseous connection between the skull and TPC in beaked whales and Physeter macrocephalus. EFVN traveled through a greater length of cranial bone and communicated more closely with the periotic bone in beaked whales than in other species. Ziphius cavirostris was observed to have a reduced medial sulcus of the mallear ridge (MSMR) and tympanic plate and an enlarged aperture of the cochlear aqueduct, respectively. The potential significance of these findings, including the role of the perilymphatic duct as a novel route of cochlear stimulation referred to as the "vibroacoustic duct mechanism," are discussed.
format Article in Journal/Newspaper
author March, D.
Brown, Daniel
Gray, R.
Curthoys, I.
Wong, C.
Higgins, D.
spellingShingle March, D.
Brown, Daniel
Gray, R.
Curthoys, I.
Wong, C.
Higgins, D.
Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism"
author_facet March, D.
Brown, Daniel
Gray, R.
Curthoys, I.
Wong, C.
Higgins, D.
author_sort March, D.
title Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism"
title_short Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism"
title_full Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism"
title_fullStr Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism"
title_full_unstemmed Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism"
title_sort auditory anatomy of beaked whales and other odontocetes: potential for cochlear stimulation via a "vibroacoustic duct mechanism"
publisher Wiley-Blackwell Publishing
publishDate 2016
url https://hdl.handle.net/20.500.11937/74640
https://doi.org/10.1111/mms.12287
genre Physeter macrocephalus
genre_facet Physeter macrocephalus
op_relation http://hdl.handle.net/20.500.11937/74640
doi:10.1111/mms.12287
op_doi https://doi.org/20.500.11937/7464010.1111/mms.12287
container_title Marine Mammal Science
container_volume 32
container_issue 2
container_start_page 552
op_container_end_page 567
_version_ 1768373370130268160

Similar Items