Special Senses Chapter 17. The Special Senses and their modalities Olfaction (Smell) - chemical Taste (Gustation) – chemical Vision (Sight) – photo Hearing.

Special Senses

Chapter 17

The Special Senses and their modalities

• Olfaction (Smell) - chemical

• Taste (Gustation) – chemical

• Vision (Sight) – photo

• Hearing – mechanical

• Equilibrium - mechanical

Olfaction• 10 – 100 million receptors on the roof of the

nasal cavity. (about 5 square cm)

• Three types of cells:– Olfactory receptors (bipolar neurons)– Supporting cells (pseudostratified columnar)– Basal stem cells (mitotic cells producing new

receptors)

• Just about the only nuerons that replace themselves in mature humans!

• Olfactory (Bowman’s) glands – secrete mucus

Olfactory receptors

Olfactory epithelium

Olfactory physiology

• 7 primary odors

– Floral

– Musky

– Camphorous

– Pepperminty

– Etheraeal

– Pungent

– Putrid

• About 10,000 different odors are recognizable

• Much depends upon experience and synthetic processing in the brain

• Dogs have about 30,000 times the acuity for smell

Olfactory pathway

Gustation• About 80% of taste is dependent upon smell

• 5 primary tastes– Sweet– Salty– Sour– Bitter – Umami (savory)

• Lowest threshold is for bitter, highest is for sweet

• Lowest adaptation is for bitter, highest for sweet

Taste & the tongue

Four types of Papillae

• Circumvallate – at the back of the tongue

• Fungiform – all over

• Foliate – lateral margins of tongue, taste buds gone after childhood

• Filiform – all over tongue but not for taste, for friction

Different receptors

respond to different stimuli

Neural pathways

• Anterior tongue innervated by the facial nerve (CN VII)

• Posterior tongue innervated by the glossopharyngeal (CN IX)

• Lead to the solitary nucleus in the medulla and then to the thalamus and gustatory cortex (perception) or limbic system via the hypothalamus

Vision• Accessory structures

– Eyelids (palpabrae)– Eyelashes– Eyebrows– Lacrimal apparatus– Extrinsic eye muscles

• Superior & inferior rectus

• Lateral & medial rectus

• Superior & inferior obliques

The eye

Fig. 16.05

The Eyeball

The eyeball

The Tunics of the eye

The iris

Fig. 16.08

The retina

Fig. 16.09

Photoreceptors

Circulation of aqueous humor

The Optics of vision:Refraction

Fig. 16.12

Common vision defects and their

correction

Rods & Cones

~ 125 million rods

~ 6 million cones

Physiology of photoreception

Physiology of photoreception

Fig. 16.15

Figure 17–16

Color Sensitivity

• Integration of information from red, green, and blue cones

Color Blindness

• Inability to detect certain colors

• Normal color vision– 16% blue

– 10% green

– 74% red

• Red-green color-blindness– Missing red cones leads to an

inability to distinguish re from green.

– Can be variable

– Most common form is X-linked, leading to more male than females

Figure 17–17

Visual peception and neural pathways

Off-Center Neurons

• Inhibited by light in central zone

• Stimulated by illumination at edges

• Aids in “Acuity”• Cones are for precise vision• Rods are for contrast & low

light and peripheral visionFigure 17–18

Visual pathways

Contralateral & ipsilateral paths

The EarFigure 17–20

Middle Ear

Figure 17–21

Inner Ear Figure 17–22

Anterior, Posterior,

and Lateral

Semicircular Ducts

Figure 17–23

Fig. 16.23

Utricle and Saccule

Figure 17–23

Otolith

• Gelatinous matrix and statoconia Figure 17–24

Peripheral Muscle Tone, Head, and Neck Movements

• Instructions descend in vestibulospinal tracts of spinal cord

Figure 17–26

The Cochlea

Fig. 16.20d

Fig. 16.21

Sound

• Consists of waves of pressure through air or water

Pressure Wave

Figure 17–28

Pressure Wave

• Consists of region where air molecules are crowded together

• Adjacent zone where molecules are farther apart

• Sine waves: – S-shaped curves

Wavelength

• Distance between 2 adjacent wave troughs

Frequency

• Number of waves that pass fixed reference point at given time

• Physicists use term cycles instead of waves

Hertz (Hz)

• Number of cycles per second (cps)

Pitch

• Our sensory response to frequency

Figure 17–28

Amplitude

Amplitude

• Intensity of sound wave

• Sound energy is reported in decibels

The Power of Sounds

Table 17–1

Hearing Process• 6 basic steps

Figure 17–29

Frequency Discrimination

Figure 17–30

Hearing Range

• From softest to loudest represents trillionfold increase in power

• Never use full potential

• Young children have greatest range

Aging Effects

• Tympanic membrane gets less flexible

• Articulations between ossicles stiffen

• Round window may begin to ossify

Deafness

• Conduction deafness – something hampers sound conduction to the fluids of the inner ear (e.g., impacted earwax, perforated eardrum, osteosclerosis of the ossicles)

• Sensorineural deafness – results from damage to the neural structures at any point from the cochlear hair cells to the auditory cortical cells

Other issues

• Tinnitus – ringing or clicking sound in the ears in the absence of auditory stimuli

• Meniere’s syndrome – labyrinth disorder that affects the cochlea and the semicircular canals, causing vertigo, nausea, and vomiting

Is that all?

Yes, we are finally through the nervous system!