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Hearing Loss, Sensorineural: Hearing loss resulting from damage to the Cochlea and the sensorineural elements which lie internally beyond the oval and round windows. These elements include the Auditory nerve and its connections in the Brainstem.
 JoVE Behavior

Neuro-rehabilitation Approach for Sudden Sensorineural Hearing Loss

1Department of Integrative Physiology, National Institute for Physiological Sciences, 2Department of Otolaryngology, Head and Neck Surgery, Nagoya City University Graduate School of Medical Sciences and Medical School, 3Department of Otorhinolaryngology, Kansai Rosai Hospital, 4Institute for Biomagnetism and Biosignalanalysis, University of Muenster, 5Institute for Epidemiology and Social Medicine, University of Muenster, 6Sokendai Graduate University for Advanced Studies


JoVE 53264

 JoVE In-Press

A Comparative Study of Drug Delivery Methods Targeted to the Mouse Inner Ear: Bullostomy Versus Transtympanic Injection

1Instituto de Investigaciones Biomédicas (IIBm) Alberto Sols CSIC-UAM, 2Centro de Investigación Biomédica en Red de Enfermedades Raras (CIBERER), Instituto de Salud Carlos III (ISCIII), 3Instituto de Investigación Sanitaria La Paz (IdiPAZ), 4Facultad de Veterinaria, Universidad Complutense de Madrid, 5Departmento de Otorrino laringología, Hospital Universitario La Paz

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JoVE 54951

 Science Education: Essentials of Physical Examinations II

Ear Exam

JoVE Science Education

Source: Richard Glickman-Simon, MD, Assistant Professor, Department of Public Health and Community Medicine, Tufts University School of Medicine, MA

This video describes the examination of the ear, beginning with a review of its surface and interior anatomy (Figure 1). The cartilaginous auricle consists of the helix, antihelix, earlobe, and tragus. The mastoid process is positioned just behind the earlobe. The slightly curving auditory canal ends at the tympanic membrane, which transmits sound waves collected by the external ear to the air-filled middle ear. The Eustachian tube connects to the middle ear with the nasopharynx. Vibrations of the tympanic membrane transmit to the three connected ossicles of the middle ear (the malleus, incus, and stapes). The vibrations are transformed into electrical signals in the inner ear, and then carried to the brain by the cochlear nerve. Hearing, therefore, comprises a conductive phase that involves the external and middle ear, and a sensorineural phase that involves the inner ear and cochlear nerve. The auditory canal and the tympanic membrane are examined with the otoscope, a handheld instrument with a light source, a magnifier, and a disposable cone-shaped speculum. It is important to be familiar with the tympanic membrane landmarks (

 Science Education: Essentials of Physical Examinations III

Cranial Nerves Exam II (VII-XII)

JoVE Science Education

Source: Tracey A. Milligan, MD; Tamara B. Kaplan, MD; Neurology, Brigham and Women's/Massachusetts General Hospital, Boston, Massachusetts, USA

The cranial nerve (CN) examination follows the mental status evaluation in a neurological exam. However, the examination of the cranial nerves begins with observations made upon greeting the patient. For example, weakness of the facial muscles that are innervated by the cranial nerve VII can be readily apparent during the first encounter with the patient. Cranial nerve VII, the Facial nerve, also has sensory branches, which innervate the taste buds on the anterior two-thirds of the tongue and the medial aspect of the external auditory canal. Therefore, finding ipsilateral taste dysfunction in the patient with facial weakness confirms the involvement of CN VII. In addition, knowledge of the neuroanatomy helps the clinician to localize level of the lesion: unilateral weakness of the lower facial muscles suggests a supranuclear lesion on the opposite side, while lesions involving the nuclear or infranuclear portion of the facial nerve, manifest with an ipsilateral paralysis of all the facial muscles on the involved side. Cranial nerve VIII, the Acoustic nerve, has two divisions: the hearing (cochlear) division, and the vestibular division, which innervates

 JoVE Neuroscience

Isolating Nasal Olfactory Stem Cells from Rodents or Humans

1NICN, Aix Marseille University, 2LNPM, Aix Marseille University, 3ENT Department, Aix Marseille University, 4Gene expression Laboratory, The Salk Institute for Biological Studies, 5Laboratory of Speech and Language, Aix Marseille University, 6Centre d'Investigations Cliniques en Biothérapie, Aix Marseille University


JoVE 2762

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 Science Education: Essentials of Sensation and Perception

The Staircase Procedure for Finding a Perceptual Threshold

JoVE Science Education

Source: Laboratory of Jonathan Flombaum—Johns Hopkins University

Psychophysics is the name for a set of methods in perceptual psychology designed in order to relate the actual intensity of stimuli to their perceptual intensity. One important aspect of psychophysics involves the measurement of perceptual thresholds: How bright does a light need to be for a person to be able to detect it? How little pressure applied to the skin is detectable? How soft can a sound be and still be heard? Put another way, what are the smallest amounts of stimulation that humans can sense? The staircase procedure is an efficient technique for identifying a person's perceptual threshold. This video will demonstrate standard methods for applying the staircase procedure in order to identify a person's auditory threshold, that is, the minimal volume necessary for a tone to be perceived.

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 JoVE Neuroscience

Optogenetic Stimulation of the Auditory Nerve

1InnerEarLab, Department of Otolaryngology, University Medical Center Goettingen, 2Bernstein Focus for Neurotechnology, University of Goettingen, 3Auditory Systems Physiology Group, Department of Otolaryngology, University Medical Center Goettingen, 4Center for Nanoscale Microscopy and Molecular Physiology of the Brain, University of Goettingen, 5Department of Chemical, Electronic, and Biomedical Engineering, University of Guanajuato


JoVE 52069

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 JoVE Neuroscience

Functional Imaging of Auditory Cortex in Adult Cats using High-field fMRI

1Department of Physiology and Pharmacology, University of Western Ontario, 2Department of Psychology, University of Western Ontario, 3Department of Medical Biophysics, University of Western Ontario, 4Brain and Mind Institute, University of Western Ontario, 5Centre for Functional and Metabolic Mapping, Robarts Research Institute, University of Western Ontario, 6Cerebral Systems Laboratory, University of Western Ontario, 7National Centre for Audiology, University of Western Ontario


JoVE 50872

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 JoVE Behavior

Measurement of Vibration Detection Threshold and Tactile Spatial Acuity in Human Subjects

1Department of Anesthesiology and Intensive Care Medicine, Charite Universitätsmedzin, Campus Virchow Klinikum und Campus Charite Mitte, 2Department of Neuroscience, Molecular Physiology of Somatic Sensation, Max Delbrück Center for Molecular Medicine, 3Institute of Pharmacology, University of Heidelberg


JoVE 52966

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 JoVE In-Press

Ultrasound Images of the Tongue: A Tutorial for Assessment and Remediation of Speech Sound Errors

1Department of Communication Sciences and Disorders, Syracuse University, 2Haskins Laboratories, 3Department of Communicative Sciences and Disorders, New York University, 4Department of Communication Sciences and Disorders, University of Cincinnati, 5Program in Speech-Language-Hearing Sciences, City University of New York Graduate Center, 6Department of Linguistics, Yale University

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JoVE 55123

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 JoVE Neuroscience

A Behavioral Assay for Mechanosensation of MARCM-based Clones in Drosophila melanogaster

1Department of Biology, College of the Holy Cross, 2School of Medicine, Georgetown University, 3Department of Biochemistry, Giesel School of Medicine, Dartmouth College, 4School of Medicine, Tufts University, 5Transgenomic Inc., 6Department of Molecular, Cell and Cancer Biology, UMass Medical School


JoVE 53537

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 Science Education: Essentials of Physical Examinations I

Proper Adjustment of Patient Attire during the Physical Exam

JoVE Science Education

Source: Jaideep S. Talwalkar, MD, and Joseph Donroe, MD, Internal Medicine and Pediatrics, Yale School of Medicine, New Haven, CT

In order to optimize the predictive value of the physical examination, the provider must perform maneuvers correctly. The proper use of drapes is an important component of correctly performing physical examination maneuvers. Skin lesions are missed when "inspection" occurs through clothing, crackles are erroneously reported when the lungs are examined through a t-shirt, and subtle findings on the heart exam go undetected when auscultation is performed over clothing. Accordingly, the best practice standards call for examining with one's hands or equipment in direct contact with the patient's skin (i.e., do not examine through a gown, drape, or clothing). In addition to its clinical value, the correct draping technique is important for improving the patient's comfort level during the encounter. Like all other aspects of the physical exam, it takes deliberate thought and practice to find the right balance between draping, which is done to preserve patient modesty, and exposure, which is necessary to optimize access to the parts that need examination. Individual provider styles in the use of gowns and drapes vary consider

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 Science Education: Essentials of Sensation and Perception

The McGurk Effect

JoVE Science Education

Source: Laboratory of Jonathan Flombaum—Johns Hopkins University

Spoken language, a singular human achievement, relies heavily on specialized perceptual mechanisms. One important feature of language perception mechanisms is that they simultaneously rely on auditory and visual information. This makes sense, because until modern times, a person could expect that most language would be heard in face-to-face interactions. And because producing specific speech sounds requires precise articulation, the mouth can supply good visual information about what someone is saying. In fact, with an up-close and unobstructed view of someone's face, the mouth can often supply better visual signals than speech supplies auditory signals. The result is that the human brain favors visual input, and uses it to disambiguate inherent ambiguity in spoken language. This reliance on visual input to interpret sound was described by Harry McGurk and John Macdonald in a paper in 1976 called Hearing lips and seeing voices.1 In that paper, they described an illusion that arises through a mismatch between a sound recording and a video recording. That illusion has become known as the McGurk effect. This video will demonstrate how to produce and interpret the McGurk effect.

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 JoVE In-Press

Quantitative Magnetic Resonance Imaging of Skeletal Muscle Disease

1Institute of Imaging Science, Vanderbilt University, 2Department of Radiology and Radiological Sciences, Vanderbilt University, 3Department of Biomedical Engineering, Vanderbilt University, 4Department of Molecular Physiology and Biophysics, Vanderbilt University, 5Department of Physical Medicine and Rehabilitation, Vanderbilt University, 6Department of Physics and Astronomy, Vanderbilt University

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JoVE 52352

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 JoVE Behavior

Recording Mouse Ultrasonic Vocalizations to Evaluate Social Communication

1Human Genetics and Cognitive Functions, University Paris Diderot, CNRS UMR 3571, Institut Pasteur, 2Neurophysiology and Behavior, University Pierre et Marie Curie Paris 6, CNRS UMR 7102, 3Bio Image Analysis, CNRS URA 2582, Institut Pasteur


JoVE 53871

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