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Hearing and the Ears The Anatomy of the Ear The ear consists of 3 different sections 1. The External Ear 2. The Middle Ear - The Auditory Ossicles 3. The Inner Ear Anatomy of the Ear EXTERNAL EAR MIDDLE EAR Auditory ossicles INNER EAR Semicircular canals Auricle Petrous part of temporal bone Facial nerve (VII) Vestibulocochlear nerve (VIII) External acoustic canal Bony labyrinth of inner ear Tympanic membrane Oval window Cartilage Round window Vestibule To pharynx Auditory tube Cochlea The External Ear The External Ear • Made up of fleshy and cartilaginous auricle, which surrounds the external acoustic canal • Sounds coming from the back of the head are blocked by auricle, and sounds coming from the sides of the head are collected and channeled into the external acoustic canal. • The external acoustic canal ends where the tympanic membrane is located. The External Ear • Tympanic Membrane - separates the external ear from the middle ear -is very delicate, and is protected by external acoustic canal and the auricle • Foreign objects are denied access by the ceruminous glands which secrete a waxy secretion, cerumen. The Middle Ear The Middle Ear • Air filled chamber • Communicates with the nasopharynx through the auditory tube and mastoid air cells • The auditory tube permits the equalization of pressures on either side of the tympanic membrane -On the down side, the auditory tube can also let in microorganisms causing an unpleasant middle ear infection, aka otitis media. Video!!!!!! • http://www.youtube.com/watch?v=M3znkf_O Et8 • *Warning*real ear endoscopy! Don’t get grossed out! The Auditory Ossicles The Auditory Ossicles • The collection of the three tiny bones in the middle ear. The malleus, the incus, and the stapes Temporal bone Connections to mastoid Malleus air cells Tendon of tensor tympani muscle Incus Footplate of stapes in oval window Tensor tympani muscle Branch of cranial nerve VII (cut) Stapes Tympanic membrane Stapedius muscle Round window External acoustic canal Auditory tube (a) Incus Footplate of stapes at oval window Malleus Malleus attached to tympanic membrane Stapes Inner surface of tympanic membrane Stapedius muscle (b) •Vibration of the tympanic membrane converts arriving sound waves into mechanical movements, the auditory ossicles acts as a lever for these vibrations to arrive to the inner ear. The Auditory Ossicles • There are two muscles located in the middle ear that protect the tympanic membrane and ossicles from violent movements under noisy conditions. 1. Tensor tympani muscle, stiffens the tympanic membrane, this increased stiffness reduces the amount of movement possible. 2. Stapedius muscle, contraction of the stapedius pulls the stapes, reducing movement of the stapes at the oval window The Inner Ear The Inner Ear • Provides senses of equilibrium and hearing • The superficial contours are made up of a dense bone layer called the bony labyrinth, which can be subdivided into the vestibule, three semicircular canals and the cochlea. The Inner Ear • The Vestibule - Consists of two membranous sacs: the uricle and the saccule - The receptors in the uricle and the saccule provide sensations of gravity and linear acceleration The Inner Ear • • - Semicircular canals Enclose semicircular ducts Are stimulated by the rotation of the head The cochlea Senses within the cochlear duct provide the sense of hearing - Looks like a snail shell The Inner Ear KEY Semicircular canal Membranous labyrinth Anterior Semicircular ducts Bony labyrinth Lateral Posterior Vestibule Cristae within ampullae Maculae Endolymphatic sac Cochlea Perilymph (a) Utricle Bony labyrinth Saccule Endolymph Vestibular duct Membranous labyrinth Cochlear duct (b) Tympanic duct Organ of Corti Equilibrium The state of physical balance Equilibrium • Equilibrium sensations are provided by receptors of the vestibular complex • Semicircular ducts convey information about rotational movements of the head • The saccule and utricle convey information about your position with respect to gravity, this also stimulated by rapid acceleration Equilibrium • The anterior, posterior, and lateral semicircular ducts are continuous with the utricle • Each semicircular duct contains – an ampulla: the expanded region that contains the receptors – Crista: area where receptors are located in the ampulla. Each crista is bound to a cupula – A cupula being a gelantinous structure that extends the entire ampulla • Semicircular Ducts: – Contain sensory receptors and hair cells – Active during movement – Are quite when motionless Semicircular ducts Endolymphatic duct Anterior Endolymphatic sac Vestibular branch (VIII) Posterior Cochlea Lateral Ampulla Utricle (a) Right semicircular ducts, anterior view Saccule Maculae Displacement in this direction stimulates hair cell Ampulla Displacement in this direction inhibits hair cell Cupula Kinocilium Stereocilia Hair cells Crista Supporting cells Hair cell Sensory nerve (b) Cross section through the ampulla Direction of duct rotation Direction of relative endolymph movement Direction of duct rotation Sensory nerve ending Supporting cell Semicircular duct Ampulla At rest (c) (d) Hair cell Introduction to Sound Introduction to Sound • The sound we hear consists of pressure waves through the air • Each pressure wave consists of a certain wavelength and each wavelength has a certain frequency (# of waves that pass a fixed reference point in given time) Sound • Sound is measures in hertz (Hz) • Amplitude of sounds determines how loud something seems to be. –Greater the energy = Greater the amplitude Sound • When sounds waves strike an object, their energy is a physical pressure • For you to be able to hear any sound, your thin tympanic membrane must vibrate in resonance – Resonance is the phenomenon that with the right combination of frequencies and amplitudes, objects will vibrate at the same frequency. The Hearing Process The Hearing Process 1. Sound waves arrive at the tympanic membrane – Sound waves have direct access to the tympanic membrane on the side of the head they enter The Hearing Process 2. Movement of the tympanic membrane causes displacement of the auditory ossicles – the tympanic membrane provides a surface to collect sound – It vibrates in resonance to sound waves with frequencies between 20 and 20,000 Hz The Hearing Process 3. Movement of the stapes at the oval window establishes pressure waves in the perilymph of the vestibular ducts – When the stapes moves inward, the round window bulges outward into the middle ear – Stapes move in and out, vibrating at the frequency of sound arriving at the tympanic membrane – This creates pressure waves within the perilymph The Hearing Process 4. The pressure waves distort the basilar membrane on their way to the round window of the tympanic duct – The louder the sound = the more the basilar membrane moves The Hearing Process 5. Vibration of basilar membrane causes vibration of hair cells against the tectorial membrane – Movement of hair cells causes there to be a rush of ions to be sent to neurotransmitters causing the simulation of neurons – More intense sound= hair cells become more active – Hair cells are located on the organ of Corti The Hearing Process 6. Information about the region and intensity of stimulation is relayed to the CNS over the cochlear branch of the vestibulocochlear nerve (VIII) – bipolar sensory neurons that monitor cochlear hair cells are located at the center of the bony cochlea, the spiral ganglion – From there information is carried to the cochlear nuclei of the medulla oblongata for distribution to other centers of the brain The Hearing Process Cochlear branch of cranial nerve VIII External acoustic canal Malleus Incus Stapes Oval window 6 Vestibular duct (perilymph) 3 Movement of sound waves Vestibular membrane 2 Cochlear duct (endolymph) 1 Basilar membrane 4 5 Tympanic membrane Round window Tympanic duct (perilymph) Professions • Audiologist- Help people with hearing or balance problems • Otolaryngologists (ENT)- treat anything wrong with the ears, nose, or throat • Pediatrician- treat children with ear infections. Children are more likely to contract an ear infection Diseases • Middle Ear Infection- In the pocket of air behind the eardrum, if germs get into the middle ear, it fills with germ-fighting fluid called pus. The build up this fluid is what causes pain. Diseases • Nystagmus- The inner part of the ear senses movement and position helps control eye movements, if injured it can cause eyes to shake. If the shaking is so bad, then it can prevent the person from having 20/20 vision. Diseases • Deafness- occurs when sound vibrations don't go from the air around a person to the moving bones of the inner ear as well as they should. Causes: hereditary disorders, genetic disorders, prenatal exposure to disease, prolonged exposure to loud noises, trauma • Swimmers Ear- Germs get into the outer part of the ear and cause an outer ear infection. Can often be brought on by water sitting in the outer ear, allowing for bacteria to grow.