The Senses

The Senses Anatomy & Physiology II Chapter 11

The Senses Sensory receptors detect and respond to stimuli (environmental change) Activation of receptors initiates nerve impulse (signal) Signal interpreted by cerebral cortex Sensation experienced

Sensory Receptors Distribution of sense receptors Special senses in sense organ Vision Hearing Equilibrium Taste Smell General senses throughout body Pressure, temperature, pain, touch Sense of position

Sensory Receptors Sensory receptors Nociceptors – respond to tissue damage (painful stimuli) Chemoreceptors - respond to chemicals Photoreceptors - respond to light Thermoreceptors - respond to heat Mechanoreceptors - respond to movement

The Eye and Vision Eye protection structures Eye cavity bones Eyelids Eyelashes and eyebrow Conjunctiva Lacrimal glands

Coats of the Eyeball Eyeball has three separate coats (tunics) Sclera Choroid Retina

Note the three tunics, the refractive parts of the eye (cornea, aqueous humor, lens, vitreous body), and other structures involved in vision. The Eye

Pathway of Light Rays and Refraction Transparent parts of the eye that refract light Cornea Aqueous humor Lens Vitreous body

Function of the Retina Pigmented layer Sensitive to light Rods Function in dim light Shades of gray Blurred images Cones Function in bright light Color sensitive Sharp images Connecting neurons

Rods and cones form a deep layer of the retina, near the choroid. Connecting neurons carry visual impulses toward the optic nerve. Structure of the Retina

Muscles of the Eye Two muscle groups adjust eye so retina can receive clear image

The Extrinsic Muscles Outer surface of eyeball Voluntary Control convergence for three-dimensional vision

The medial rectus is not shown. ZOOMING IN • What characteristics are used in naming the extrinsic eye muscles? Extrinsic Muscles of the Eye

The Intrinsic Muscles Within eyeball Iris regulates amount of light entering eye Ciliary muscle shapes lens for near and far vision

Contraction of the ciliary muscle relaxes tension on the suspensory ligaments, allowing the lens to become more round for near vision. Ciliary Muscle and Lens

Nerve Supply to the Eye Optic nerve (cranial nerve II) Oculomotor nerve (cranial nerve III) Trigeminal nerve (cranial nerve V) Trochlear (cranial nerve IV) Abducens (cranial nerve VI)

ZOOMING IN • Which of the nerves shown moves the eye? Nerve Supply to the Eye

Errors of Refraction Hyperopia (farsightedness) – difficulty focusing on objects near the face. Myopia (nearsightedness) – difficulty focusing on distant objects. Astigmatism - An irregular shaped cornea or lens prevents light from focusing properly on the retina. Images focus at muliple points on retina

Eye Disorders Strabismus – inability to align both eyes simultaneously due to a lack of muscle coordination Convergent (cross-eyed) – affected eye deviates toward nose Divergent – affected eye deviates laterally Amblyopia (lazy eye) – loss of vision in a healthy eye due to inadequate muscle balance not correctable by glasses or contact lenses The brain, for some reason, does not fully acknowledge the images seen by the amblyopic eye.

Other Eye Disorders Infections Conjunctivitis Inclusion conjunctivitis Ophthalmia neonatorum Injuries Cataract Glaucoma Disorders involving the retina Diabetic retinopathy Macular degeneration

The Ear Sense organ for hearing and equilibrium Outer ear Middle ear Inner ear

The ear. Structures in the outer, middle, and inner divisions are shown

The Outer Ear Pinna (auricle) Directs sound waves into ear External auditory canal (meatus) Ceruminous glands Tympanic membrane Vibrates as sound waves enter ear

The Middle Ear and Ossicles Middle ear cavity contains ossicles (small bones) that amplify sound waves and transmit sounds to inner ear Malleus (hammer) Incus (anvil) Stapes (stirrup)

Eustachian Tube Connects middle ear cavity with throat (pharynx) Allows pressure to equalize on both sides of tympanic membrane Continuous mucous membrane from pharynx to middle ear cavity

The Inner Ear Bony labyrinth Vestibule Semicircular canals Cochlea Perilymph fluid Membranous labyrinth Vestibule Semicircular canals Cochlea Endolymph fluid

The vestibule, semicircular canals, and cochlea are made of a bony shell (labyrinth) with an interior membranous labyrinth. Endolymph fills the membranous labyrinth and perilymph is around it in the bony labyrinth. The Inner Ear

Hearing Organ of Corti Located in membranous cochlea (cochlear duct) Ciliated receptor cells Tectorial membrane

Cochlea and the organ of Corti. The arrows show the direction of sound waves in the cochlea.

Equilibrium Ciliated equilibrium sensory receptors are located in vestibule and semicircular canals Types of equilibrium Static Maculae receptors Otoliths fluid Dynamic Cristae receptors

Action of the receptors (maculae) for static equilibrium. As the head moves, the thick fluid above the receptor cells, weighted with otoliths, pulls on the cilia of the cells, generating a nerve impulse.

Action of the receptors (cristae) for dynamic equilibrium. As the body spins or moves in different directions, the cilia bend as the head changes position, generating nerve impulses.

Otitis and Other Disorders of the Ear Otitis media Otitis externa Hearing loss Conductive hearing loss Sensorineural hearing loss Presbycusis

Other Special Sense Organs Taste and smell sense organs respond to chemical stimuli

Sense of Taste Taste receptors (buds) on tongue Stimulated by substance in solution Basic tastes Sweet Salty Sour Bitter Other tastes Water Alkaline Metallic Umami Cranial nerves Facial (VII) Glossopharyngeal (IX)

Special senses that respond to chemicals. Organs of taste (gustation) and smell (olfaction). (B) A taste map of the tongue.

Sense of Smell Smell receptors in nasal cavity Stimulated by substances in solution in nasal fluids Smells stimulate appetite and flow of digestive juices Olfactory nerve (cranial nerve I)

The General Senses Receptors scattered throughout the body sense Touch Pressure Heat Cold Position Pain

Sense of Touch Tactile corpuscles Found mostly in dermis of skin and around hair follicles Sensitivity varies with the number of receptors Baroreceptors in walls of large arteries monitor blood pressure and trigger responses that control BP as vessels stretch. Sense of Pressure Receptors for deep touch located • In subcutaneous tissues • Near joints, muscles, and other deep tissues

Sense of Temperature Temperature receptors Are free nerve endings Are widely distributed in the skin Are separate for heat and cold Occur in hypothalamus of brain Help to adjust body temperature according to temperature of circulating blood

Sense of Position Proprioceptors (position receptors) Are located in muscles, tendons, joints Relay impulses of body parts in relation to each other Send impulses to the cerebellum for coordination

Sense of Pain Pain receptors Are free nerve endings Are found in skin, muscles, joints and (to a lesser extent) in most internal organs Pain relief Analgesic drugs Anesthetics Endorphins Heat or cold Relaxation or distraction techniques

Sensory Adaptation Occurs when receptors are exposed to continuous stimulus Some receptors can adjust themselves so sensation becomes less acute Receptors adapt at different rates Pain receptors do not adapt

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The Senses

The Senses

Presentation Transcript

The Senses

The Senses

The Senses

The Senses

The Senses

THE SENSES

The Senses

The Senses

The Senses

The Senses

The Senses

The Senses

The Senses

The Senses

The Senses

The Senses

The senses

The Senses

The Senses

The Senses

The Senses

The Senses