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The Special Senses

The Special Senses. The Special Senses. Smell, taste, vision, hearing and equilibrium Housed in complex sensory organs Ophthalmology is science of the eye Otolaryngology is science of the ear. Chemical Senses. Interaction of molecules with receptor cells

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The Special Senses

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  1. The Special Senses

  2. The Special Senses • Smell, taste, vision, hearing and equilibrium • Housed in complex sensory organs • Ophthalmology is science of the eye • Otolaryngology is science of the ear

  3. Chemical Senses • Interaction of molecules with receptor cells • Olfaction (smell) and gustation (taste) • Both project to cerebral cortex & limbic system • evokes strong emotional reactions

  4. The Eyes

  5. Accessory Structures of Eye • Eyelids or palpebrae • protect & lubricate • epidermis, dermis, CT, orbicularis oculi muscle, tarsal plate, tarsal glands & conjunctiva • Tarsal glands • oily secretions keep lids from sticking together • Conjunctiva • palpebral • stops at corneal edge • dilated BV--bloodshot

  6. Eyelashes & Eyebrows Eyeball = 1 inch diameter 5/6 of Eyeball inside orbit & protected • Eyelashes & eyebrows help protect from foreign objects, perspiration & sunlight • Sebaceous glands are found at base of eyelashes (sty) • Palpebral fissure is gap between the eyelids

  7. Lacrimal Apparatus • About 1 ml of tears produced per day. Spread over eye by blinking. Contains bactericidal enzyme called lysozyme.

  8. Description of Cornea • Transparent • Helps focus light(refraction) • astigmatism • 3 layers • nonkeratinized stratified squamous • collagen fibers & fibroblasts • simple squamous epithelium • Transplants • common & successful • no blood vessels so no antibodies to cause rejection • Nourished by tears & aqueous humor

  9. Description of Sclera • “White” of the eye • Dense irregular connective tissue layer -- collagen & fibroblasts • Provides shape & support • At the junction of the sclera and cornea is an opening (scleral venous sinus) • Posteriorly pierced by Optic Nerve (CNII)

  10. Iris & Pupil • Colored portion of eye • Shape of flat donut suspended between cornea & lens • Hole in center is pupil • Function is to regulate amount of light entering eye • Autonomic reflexes • circular muscle fibers contract in bright light to shrink pupil • radial muscle fibers contract in dim light to enlarge pupil

  11. Description of lens • Avascular • Crystallin proteins arranged like layers in onion • Clear capsule & perfectly transparent • Lens held in place by suspensory ligaments • Focuses light on fovea

  12. Retina • Posterior 3/4 of eyeball • Optic disc • optic nerve exiting back of eyeball • Central retina BV • fan out to supply nourishment to retina • visible for inspection • hypertension & diabetes • Detached retina • trauma • fluid between layers • distortion or blindness View with Ophthalmoscope

  13. Correction for Refraction Problems • Emmetropic eye (normal) • can refract light from 20 ft away • Myopia (nearsighted) • eyeball is too long from front to back • glasses concave • Hypermetropic (farsighted) • eyeball is too short • glasses convex (coke-bottle) • Astigmatism • corneal surface wavy • parts of image out of focus

  14. Color Blindness & Night Blindness • Color blindness • inability to distinguish between certain colors • absence of certain cone photopigments • red-green color blind person can not tell red from green • Night blindness (nyctalopia) • difficulty seeing in low light • inability to make normal amount of rhodopsin • possibly due to deficiency of vitamin A

  15. Light and Dark Adaptation • Light adaptation • adjustments when emerge from the dark into the light • Dark adaptation • adjustments when enter the dark from a bright situation • light sensitivity increases as photopigments regenerate • during first 8 minutes of dark adaptation, only cone pigments are regenerated, so threshold burst of light is seen as color • after sufficient time, sensitivity will increase so that a flash of a single photon of light will be seen as gray-white

  16. Processing of Image Data in the Brain • Visual information in optic nerve travels to • occipital lobe for vision • midbrain for controlling pupil size & coordination of head and eye movements • hypothalamus to establish sleep patterns based upon circadian rhythms of light and darkness

  17. The Nose

  18. Olfactory Epithelium • 1 square inch of membrane holding 10-100 million receptors • Covers superior nasal cavity and cribriform plate • 3 types of receptor cells

  19. Olfaction: Sense of Smell • Odorants bind to receptors • Na+ channels open • Depolarization occurs • Nerve impulse is triggered

  20. Adaptation & Odor Thresholds • Adaptation = decreasing sensitivity • Olfactory adaptation is rapid • 50% in 1 second • complete in 1 minute • Low threshold • only a few molecules need to be present • methyl mercaptan added to natural gas as warning

  21. Gustatory Sensation: Taste • Taste requires dissolving of substances • Four classes of stimuli--sour, bitter, sweet, and salty • 10,000 taste buds found on tongue, soft palate & larynx

  22. The EAR

  23. Anatomy of the Ear Region

  24. External Ear • Function = collect sounds • Structures • auricle or pinna • elastic cartilage covered with skin • external auditory canal • curved 1” tube of cartilage & bone leading into temporal bone • ceruminous glands produce cerumen = ear wax • tympanic membrane or eardrum • epidermis, collagen & elastic fibers, simple cuboidal epith. • Perforated eardrum (hole is present) • at time of injury (pain, ringing, hearing loss, dizziness) • caused by explosion, scuba diving, or ear infection

  25. Middle Ear Cavity

  26. Middle Ear Cavity • Air filled cavity in the temporal bone • Separated from external ear by eardrum and from internal ear by oval & round window • 3 ear ossicles connected by synovial joints • malleus attached to eardrum, incus & stapes attached by foot plate to membrane of oval window • Auditory tube leads to nasopharynx • helps to equalize pressure on both sides of eardrum

  27. Vibrating object causes compression of air around it = sound waves audible range is 20 to 20,000 Hz hear best within 500 to 5000 cycles/sec or Hz speech is 100 to 3000 Hz Frequency of a sound vibration is pitch higher frequency is higher pitch Greater intensity (size) of vibration, the louder the sound measured in decibels (dB) Conversation is 60 dB; pain above 140dB OSA requires ear protection above 90dB Sound Waves

  28. Deafness • Nerve deafness • damage to hair cells from antibiotics, high pitched sounds, anticancer drugs • the louder the sound the quicker the hearing loss • fail to notice until difficulty with speech • Conduction deafness • perforated eardrum • otosclerosis

  29. Physiology of Hearing • Auricle collects sound waves • Eardrum vibrates • slow vibration in response to low-pitched sounds • rapid vibration in response to high-pitched sounds • Ossicles vibrate since malleus attached to eardrum • Stapes pushes on oval window producing fluid pressure waves in scala vestibuli & tympani • oval window vibration 20X more vigorous than eardrum • Pressure fluctuations inside cochlear duct move the hair cells against the tectorial membrane • Microvilli are bent producing receptor potentials

  30. Physiology of Equilibrium (Balance) • Static equilibrium • maintain the position of the body (head) relative to the force of gravity • Dynamic equilibrium • maintain body position (head) during sudden movement of any type--rotation, deceleration or acceleration

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