1 / 65

Somatic Senses & Special Senses

Somatic Senses & Special Senses. Chapter 12. Special Senses special location. Smell (olfaction) taste (gustation) vision balance hearing. General Senses Somatic & Visceral. Temperature Touch Pressure Vibration Proprioception Pain Internal organ conditions. Definition of Sensation.

erna
Download Presentation

Somatic Senses & Special Senses

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Somatic Senses & Special Senses Chapter 12

  2. Special Sensesspecial location • Smell (olfaction) • taste (gustation) • vision • balance • hearing

  3. General SensesSomatic & Visceral • Temperature • Touch • Pressure • Vibration • Proprioception • Pain • Internal organ conditions

  4. Definition of Sensation • Conscious or subconscious awareness of change in external or internal environment • Requires: • Stimulus • Sensory receptor • Neural pathway • Brain region for integration

  5. Characteristics • Perception- conscious awareness • Cerebral cortex function • Adaptation- decreased receptor response with prolonged stimulation • decreased perception Adaptation speed varies with receptor

  6. Structural Types • Free nerve endings- • pain, thermal, tickle, itch & some touch receptors • Encapsulated nerve endings • Touch pressure & vibration • Specialized cells: • e.g. hair cells in inner ear

  7. Receptor Mechanisms • Mechanoreceptors- • cell deformation, stretching or bending • Thermoreceptors- temperature • Nociceptors – pain • Photoreceptors- light • Chemoreceptors- chemicals • Taste, smell, body fluid content

  8. Somatic Senses • Receptors- distributed unevenly • In skin, mucous membranes, muscles, tendons,& joints • Dense receptors concentration in fingertips, lips & tip of tongue

  9. Tactile sensations • Touch, pressure, vibration, itch & tickle • Itch & tickle – free nerve endings • encapsulated mechanoreceptors

  10. Touch • Rapidly adapting receptors: • Meisner corpuscles • Hair root plexuses • Slowly adapting receptors: • Type I mechanoreceptors= Merkel discs- • surface receptors- stratum basale • Type II mechanoreceptors= Ruffini corpuscles- deep in dermis & tendons

  11. Pressure & Vibration • Sensation over large area • Lamellated or Pacinian corpuscles • Rapid adapting & widely distributed • Vibration = rapidly repetitive stimuli • Corpuscles of touch- low frequency • Lamellated corpuscles- higher frequency

  12. Figure 12.1

  13. Itch & tickle • Itch- chemical stimulation of free nerve endings • Bradykinin from inflammation response • Tickle- from free nerve endings & lamellated corpuscles • Requires someone else- blocked by signals from cerebellum

  14. Thermal Sensations • Two kinds of thermoreceptors- • Between 10o & 40o C - cold • Located in epidermis • Between 32o & 48o C – warm • located in dermis • Outside these ranges – nociceptors • Both adapt rapidly but continue slow signals during prolonged stimulus

  15. Pain Sensations • Nociceptors- free nerve endings • Found in every tissue but brain • Very little adaptation • Fast pain= acute, sharp pain (0.1 sec) • not felt in deep tissues and well localized • Slow pain- slow starting & increases • Chronic, burning, aching or throbbing sensation • Visceral pain location displaced to surface = referred pain

  16. Figure 12.2

  17. Proprioception • Head and limb position & motion • Located in muscles (muscle spindles), tendons (tendon organs), in & around synovial joints (joint kinesthetic receptors) • Kinesthesia= perception of movements • Inner ear (hair ceils)- head position • Tracts to primary sensory area of cerebral cortex & cerebellum • Slow & slight adaptation

  18. Figure 10.13

  19. Smell- Olfaction • In upper surface of superior concha, below cribiform plate • Olfactory receptors- • first order neurons of olfactory pathway • Connect to olfactory bulb • Have olfactory hairs containing chemoreceptors • Supporting cells- • epithelial cells – support & electrical insulation • Basal cells- stem cells for receptors

  20. Figure 12.3a

  21. Stimulation of Receptors • Genetic evidence- 100’s of primary odors • Binding of chemical stimulates nerve • Recognition of 10,000 odors from combination of primary receptor input • Rapid adaptation by ~50% in 1 sec.

  22. Olfactory Pathway • Olfactory receptor’s axons = Olfactory nerves • through cribiform plate  olfactory bulbs • Olfactory tract • To primary olfactory area of temporal lobe • And limbic system - emotional response to smells, e.g. nausea or arousal

  23. Figure 12.3 b

  24. Taste- Gustatory Sensation • 5 primary tastes: salt, sweet, sour, bitter & umami • Perception of what we call taste includes olfactory input • Receptors in taste buds (~10,000) • Located on tongue & pharynx & epiglottis • In structures called papillae • Vallate (back), fungiform (all over) • filiform- touch receptors only

  25. Figure 12.4a

  26. Figure 12.4b

  27. Structure of Taste Bud • Epithelial cells: • Supporting cells surrounding • Gustatory receptor cells • Gustatory hair projects from receptor through taste pore • Basal cells= stem cells • Produce supporting cells that develop into receptor cells (10 day life span)

  28. Figure 12.4c

  29. Stimulation • Tastant- dissolved in saliva • Receptors respond to more than one tastant • Release neural transmitter to primary gustatory neuron • Tastes arise from mix of input form various areas

  30. Gustatory Pathway • Facial & glossopharyngeal-tongue • vagus- pharynx & epiglottis • to medulla oblongata •  thalamus •  primary gustatory area- • consciousness • Also medulla  limbic system

  31. Vision- Eyes • Accessory structures- • eye brows, eyelashes- protection • eye lids- protection & lubrication (blinking) • extrinsic muscles- moving eyeball • Superior Rectus, inferior rectus, lateral rectus, medial rectus, superior oblique, inferior oblique • Lacrimal apparatus- • Gland lacrimal duct surface of upper eyelid  lacrimal canal & nasolacrimal duct  nasal cavity

  32. Figure 12.5

  33. Layers of Eyeball • Fibrous tunic – Anterior clear cornea • Sclera- white of eye • Vascular tunic- contains: • Choroid- Lines most of internal surface • carries blood vessels • Ciliary body- focuses the lens and secretes aqueous humor • Iris- opens & closes pupil- • contains pigment of eye color. • Pupil = hole for light passage • Adjusted by iris to control amount of light through the lens

  34. Figure 12.6

  35. Figure 12.7

  36. Layers of Eyeball (Cont.) • Retina- two layers • neural layer- outgrowth of brain • Photoreceptor layer • Bipolar cell layer • Ganglion cell layer • pigmented layer- helps absorb stray light • between choroid & neural layer

  37. Photoreceptors • Rods very sensitive, black & white • Cones- color sensitive, • 3 types-blue, green & red • Color vision results from combined input • Cones mostly in central fovea in center of macula lutea • Area of highest visual resolution • Information  bipolar layer ganglion cells axons = optic nerve

  38. Figure 12.8

  39. Interior of Eyeball • Two cavities- Anterior cavity & Vitreous Chamber divided by lens • Anterior filled with aqueous humor • Drains into canal of schlemm.- replaced ~90 min. • Maintains eye shape & nourishes lens & cornea • Responsible for intraocular pressure • Vitreous chamber- filled with vitreous body • Gel-like - holds retina against choroid

  40. Refraction of Light • Light rays bend on passing from medium of one density to another of different density = refraction • 75% occurs at cornea • Lens- focuses light on the retina • Image is inverted but brain adjusts & interprets distance and size

  41. Figure 12.9a

  42. Figure 12.9b

  43. Figure 12.9c

  44. Accommodation • Lens adjusts for distance to keep image focused on retina • With distant objects ciliary muscle is relaxed • Contracts as the object becomes closer • Myopia= can’t accommodate distant objects- Eyeball is too long • Hyperopia = can’t accommodate far objects- Eyeball is too short • Astigmatism= irregular curvature of cornea or lens

  45. Figure 12.10

  46. Other visual controls • Constriction of pupil- • autonomic reflex to center light on lens • Convergence- eyes rotate toward midline • as object nears it is necessary to maintain focus on single object for binocular vision • Photoreceptors: light  neural signal • light is absorbed by a photopigment (rhodpsin) which splits into opsin & retinal

  47. Visual Pathway • Optic nerve through optic chiasm • About 1/2 cross over into optic tract •  hypothalamus occipital lobes • Right brain sees left side of object • Left brain sees right side of object

  48. Figure 12.11

  49. Structures • Outer ear- Auricle, external auditory canal & tympanic membrane (ear drum) • Canal contains hairs & ceruminous glands • Middle ear- auditory tube (eustachian tube) & ossicles • Ossicles = Malleus, incus, & stapes-attached to oval window • Inner ear- Bony labyrinth & membranous labyrinth filled with endolymph • Cochlea- sense organ of hearing , • vestibule & semicircular canals- organs of balance

  50. Figure 12.12

More Related