2. Special Senses

3. Senses General Senses include temperature, pain, touch, pressure, vibration, and proprioception. Special Senses include olfaction, gustation, equilibrium, and hearing.

4. Types of Receptors Mechanoreceptors—stretching, touch, pressure in autonomic NS structures (barorecpetors) and body position (proprioceptors) Mechanoreceptors—stretching, touch, pressure in autonomic NS structures (barorecpetors) and body position (proprioceptors) Chemoreceptors--chemical—gustation, olfaction, and autonomic NS chemicals Chemoreceptors--chemical—gustation, olfaction, and autonomic NS chemicals Nociceptors--pain Nociceptors--pain Thermoreceptors--temperature Thermoreceptors--temperature Photorecptors--light--70% of all receptors Photorecptors--light--70% of all receptors

5. Taste (Gustation) closely associated with smell Gustatory Organs (Taste Buds) located along the surface in elevations called Papillae (10,000 or more)

6. Taste Buds Respond to dissolved chemicals 6 types of taste sensations Sweet Sour Bitter Salty Umami Water

7. Smell (Olfaction) Detect to 50 or more specific scents Detect to 50 or more specific scents Olfactory Organs in the upper wall of the Nasal Cavity Olfactory Organs in the upper wall of the Nasal Cavity Bipolar neurons -- Receptor Cells --Olfactory Hair Cells Bipolar neurons -- Receptor Cells --Olfactory Hair Cells Mucous membranes trap particles Mucous membranes trap particles

8. Smell (Olfaction) LowThreshold: amount needed for detection LowThreshold: amount needed for detection Adaptation: time for decrease in sensitivity Adaptation: time for decrease in sensitivity First second or so about 50% gone First second or so about 50% gone FYI: Usually in one minute even strong scents are no longer smelled FYI: Usually in one minute even strong scents are no longer smelled

9. Sight (Vision) most complex of –over 70% of the sensory receptors in the body are photoreceptors for sight Includes eye, and accessory structures

10. Accessory structures of the eye Eyelid, eyelashes = protects Exocrine glands Conjunctiva=mucous membrane of the eyelid and eye Helps moisten and lubricate the eyeball

11. Accessory Structures of the Eye Lacrimal apparatus Produces tears to keep eye moist Drains through the nasal cavity

12. Accessory structures of the eye Extrinsic muscle of the eye Extrinsic muscle of the eye 6 muscles that move eyes 6 muscles that move eyes

13. Tunics (layers) of the Eye Fibrous Tunic = outermost layer Sclera--forms most of the fibrous tunic--the white of the eye

14. Fibrous layer of the Eye (cont) Cornea--transparent coat of iris--slightly bulged by aqueous humor Cornea--transparent coat of iris--slightly bulged by aqueous humor Most common transplant Most common transplant

15. Vascular Tunic Blood supply Blood supply Choroid--thin posterior portion Choroid--thin posterior portion Ciliary Body-thick anterior portion, attaches to lens with ligaments Ciliary Body-thick anterior portion, attaches to lens with ligaments Iris--colored portion Iris--colored portion

16. Pupil dilation and constriction Iris = anterior, colored portion Pupil= hole in iris

17. Vascular Tunic (cont) Lens--changes shape for close-up or long range—lens accommodation Lens--changes shape for close-up or long range—lens accommodation Ligaments attached to ciliary body Ligaments attached to ciliary body

18. Nervous Tunic the inner layer of the eye Retina = thin fragile layer of neurons

19. Rods and Cones Rods = elongated dendrites-- black and white and night vision Rods = elongated dendrites-- black and white and night vision Cones = dendrites with tapered ends Cones = dendrites with tapered ends –color sensitive –Sharpens vision

20. Outer Ear direct sound waves toward the eardrum Auricle = the outer portion Auditory Canal = extends into temporal bone

21. Middle Ear an air filled space Aka Tympanic Cavity Auditory Ossicles smallest bones in the body Malleus (hammer) Incus (anvil) Stapes (stirrup)

22. Middle Ear (cont) Eustachian Tube = Middle Ear to the Pharynx (throat) for pressure equalization between the middle ear and the atmosphere Tympanic Membrane (Eardrum) = thin, semitransparent, barrier, separates outer and middle ear vibrates in response to sound waves striking it

23. The Inner Ear hearing and equilibrium Cochlea (hearing) Vestibule (balance) Semicircular Canals (balance)

24. Cochlea The Cochlea shape resembles a snail shell contains the Organs of Corti for hearing

25. Cochlea (cont) winding passageways or canals winding passageways or canals Contains perilymph and endolymph separated by membranes Contains perilymph and endolymph separated by membranes Fluids aid in transmission of vibration Fluids aid in transmission of vibration

26. Hearing Organs--Organs of Corti move in response to endolymph motion Release neurotransmitters

27. Steps of Hearing 1. Sound waves into auditory canal 2. Tympanic membrane vibrates 3. Ossicles vibrate and magnify sound

28. Steps of Hearing 4. Oval window vibrates causes movement of perilymph and endolymph

29. Steps of Hearing 5. Endolymph causes hair cells of organs of Corti to vibrate 6. Vibration transferred by neurotransmitter to auditory nerve to brain for interpretation

30. Equilibrium (Balance) detected by receptor cells in the Inner Ear detected by receptor cells in the Inner Ear Determined by body position and movement of head Determined by body position and movement of head Uses sight and neurotransmitters sent by semicircular canals and vestibule Uses sight and neurotransmitters sent by semicircular canals and vestibule

31. Semicircular canals The Semicircular Canals = three loops Ampulla at entrance of loops contain Cristae Hair cells in Cristae release neurotransmitters brain interprets these & responds appropriately

32. Vestibule Vestibule: chamber between the cochlea and the semicircular canals contains perilymph and endolymph

33. Vestibule cont Maculae =contain hair-like cells, Maculae =contain hair-like cells, Otoliths on surface, move Otoliths on surface, move Otoliths respond to gravity Otoliths respond to gravity

34. DISEASES AND DISORDERS OF THE SPECIAL SENSES

35. Presbyopia Lens looses ability to change shape Lens looses ability to change shape Usually caused by age Usually caused by age

36. Myopia (near sighted) Caused by eye shape being too long Causes light to focus in front of retina Corrected with glasses or contacts

37. Hyperopia (far-sighted) Caused by eye shape being shorter than normal Caused by eye shape being shorter than normal Causes light to focus behind the retina Causes light to focus behind the retina Corrected with glasses or contacts Corrected with glasses or contacts

38. Cataracts Caused by clouding of the lens Caused by clouding of the lens Can be replaced with artificial lens Can be replaced with artificial lens

39. Conjunctivitis Caused by an infection of the conjuctiva More commonly called “pink eye”

40. Conjunctivitis

41. Deafness Two types: Two types: Conductive: caused by blockages in the auditory canal Conductive: caused by blockages in the auditory canal Caused by middle ear infections Caused by middle ear infections Eardrum damage Eardrum damage

42. Sensorineural deafness Damage to auditory nerves Cochlear malformation or damaged by infection Brain damage in temporal lobe

43. Glaucoma Aqueous humor build up puts pressure on the retina Aqueous humor build up puts pressure on the retina Can damage retina if not treated Can damage retina if not treated

44. Macular Degeneration Section of the retina called the macula (large concentration of blood vessels) is damaged causing tunnel vision until vision is gone

45. Middle Ear Infection Usually involves the eardrum being infection by bacteria or virus Bacterial treated with antibiotics Common in children

46. Strabismus Caused by weak eye muscles Caused by weak eye muscles Can be surgically corrected or by patching the good eye to encourage other eye to work properly Can be surgically corrected or by patching the good eye to encourage other eye to work properly

47. Tinnitis Caused by improper discharge of electrical impulses of the Organs of Corti Hair cells Caused by improper discharge of electrical impulses of the Organs of Corti Hair cells

48. Vertigo Caused by otoliths improperly aligning with membranes Caused by otoliths improperly aligning with membranes Causes dizziness and nausea Causes dizziness and nausea