Chapter 16 THE SPECIAL SENSES Outline and Objectives INTRODUCTION 1. Briefly describe the receptors for the special senses. OLFACTION: SENSE OF SMELL 2. Discuss the interconnection of the senses of smell and taste. Anatomy of Olfactory Receptors 3. Discuss the anatomic relation of cells in the olfactory mucosa and describe the cellular parts with respect to function. Physiology of Olfaction 4. Describe the sequence of events in which a molecule that comes in contact with mucus of the epithelium initiates an action potential. Odor Thresholds and Adaptation 5. Explain the result of olfactory nerve adaptation on sensory nerve output and how it is useful in discriminative sensory sensitivity. Olfactory Pathway 6. Describe the neural links from the bipolar olfactory receptor to their destinations in specific functional areas of the brain. GUSTATION: SENSE OF TASTE 7. Discuss the general similarities and differences in operation of the gustatory and olfactory systems, then relate how they work together. Anatomy of Gustatory Receptors 8. Describe the organization and functional parts of the cells within the various taste buds, indicating the differing cellular duties and etiological transformations. Physiology of Gustation 9. Describe the means by which the binding of a dissolved molecule in saliva generates a postsynaptic potential in the primary sensory neuron. 10. Describe how the gustatory system discriminates among hundreds of different tastes with only four types of taste receptors. Taste Thresholds and Adaptation 11. Discuss how the taste threshold changes with adaptation. Gustatory Pathway 12. Indicate which cranial nerves conduct taste impulses from separate regions of the tongue to specific areas of the brain. VISION Accessory Structures of the Eye Eyelids 13. Describe the structures of the eyelids and their functions. Eyelashes and Eyebrows 14. Describe the eyelashes and eyebrows and their functions. Lacrimal Apparatus 15. Describe the structures of the lacrimal apparatus and their functions. Extrinsic Eye Muscles 16. Identify the extrinsic eye muscles and their functions. Anatomy of the Eyeball Fibrous Tunic 17. Describe the tissue configurations and related jobs of the components of the fibrous tunic. 18. Discuss why there are relatively few medical problems with transplantation of a cornea compared with other body tissues. Vascular Tunic 19. Describe the structural constituents of the three regions of the vascular tunic, while emphasizing how these allow performance of their distinct duties. Retina 20. Describe the major features and layers of the nervous tunic. 21. Discuss the positions of extensions and soma of two types of photo-receptor cells and three varieties of retinal neurons that compose the numerous layers within the retina. 22. Discuss the general purpose of the different retinal cells. Lens 23. Describe a cataract, its effect on image clarity, and options for treatment. Interior of the Eyeball 24. Describe the materials that occupy the cavities and chambers of the inner eye, and state how the materials support the operation of the eye. Image Formation 25. Discuss how components of the eyeball mimic the parts of a camera to perform the three basic processes in properly focusing light on the retina. Refraction of Light Rays 26. Discuss how the bending of light as it passes through the differing densities of transparent materials of the eye is used to direct the rays from objects of varying distance to focus on the retina. Accommodation and the Near Point of Vision 27. Demonstrate how the iris, lens, and extrinsic eye muscles operate in order to converge the light from a near object onto the retina. 28. Describe changes in the processes of near point vision as the lens grows thicker with age. 29. Examine the effect on image formation when there are abnormal changes in the structure of the cornea and lens. Refraction Abnormalities 30. List and discuss the refraction abnormalities. Constriction of the Pupil 31. Outline the components of the iris control mechanism, and their operation and purpose in altering the diameter of the pupil. Convergence 32. Illustrate how and why the relative forward angle of the eyes varies as an object of interest changes distance. Physiology of Vision Photoreceptors and Photopigments 33. Describe the definitive structures and operations of rod and cone photoreceptors as well as the location and differences between photopigments. 34. List the steps of the configuration changes that occur to the photopigments upon absorption of a photon. Light and Dark Adaptation 35. Indicate how the timing of photopigment regeneration leads to different capacities in rods and cones to adapt to changes in light intensity. Release of Neurotransmitters by Photoreceptors 36. Discuss the sequence of interactions between photopigments, enzymes, sodium channels, photoreceptor membrane potential, glutamate release, and changes in the membrane potential of connected bipolar cells. Visual Pathway 37. Mention that the signal produced by the photoreceptors is progressively integrated as it moves through the circuits leading to the brain. Retinal Processing and Visual Fields 38. Discuss how the type of circuit connections of rods and cones to other retinal neurons dictates differences in light sensitivity and clarity of the image invoked by the two types of photoreceptors. Brain Pathway and Visual Fields 39. Diagram the relationship that results in stereoscopic vision from light originating from specific visual fields with the area of the retina that receives it and the alternate pathways of the associated neurons. HEARING AND EQUILIBRIUM Anatomy of the Ear External (Outer) Ear 40. Describe the tissue structures and functions of the auricle and auditory canal. Middle Ear 41. Discuss the anatomy, operations, and functions of middle ear structures from the tempanic membrane to the oval window. 42. Explain why the ossicles amplify the force of vibrations by a factor of thirty from the eardrum to the stapes. 43. State some functional responsibilities of internal auditory tube. Internal (Inner) Ear 44. Illustrate how the bony and membranous labyrinths fit together to form the modules of the semicircular canals, vestibule, and cochlear apparatus. 45. Examine the specialized structures of the sensory mechanisms of the semicircular canals, vestibule, and cochlear apparatus. Sound Waves 46. Establish the physical relations of sound wave length to frequency and pitch, and amplitude to loudness measured in decibels. 47. Describe how loud sounds damage hair cells. Physiology of Hearing 48. Discuss the principal structures and events that transform differing sound vibration frequencies into impulses traveling along separate cochlear neurons, which are involved with the physiology of hearing. Auditory Pathway 49. Describe the components of the auditory pathway. 50. Discuss how cochlear implants can be used for people with deafness due to injury to hair cells. Physiology of Equilibrium 51. Distinguish between the two kinds of equilibrium. Otolithic Organs: Saccule and Utricle 52. Describe the cellular and extracellular constituents of the maculae, and the relative spacial position of these otoliths organs with the saccule and utricle. 53. Discuss how the otoliths work with the cilia of the macular hair cells to indicate relative orientation to gravity and direction of acceleration. Membranous Semicircular Ducts 54. Describe how the fluid of the semicircular canals temporarily moves against the cupula of the ampula to incite impulses that indicate three dimensions of rotational movement. Equilibrium Pathways 55. Define the distribution of the cochlear and vestibular components of cranial nerve VI to the nuclei for vision and head orientation, and to the cerebellum for integration with information on movement control. DISORDERS: HOMEOSTATIC IMBALANCES 56. Describe the causes and symptoms of cataracts, glaucoma, macula degeneration, deafness, Menier’s disease, and otitis media. MEDICAL TERMINOLOGY 57. Define medical terminology associated with sense organs.