HUMAN BIOLOGY

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266 Chapter 14

Sensory neuron
(to CNS)

Sensory neuron

Action potential

Action potential

Action potential

Stimulus

Stimulus

Stimulus

A Sensory receptor consisting of free nerve endings—dendrites of a sensory neuron

B Sense organ—sensory receptor involving nerve endings of an afferent neuron
enclosed in a specialized structure

C Sensory receptor formed by a cell that synapses with a sensory neuron
Sensory
receptor cell

Synapse

Free
nerve
endings

Nerve ending

sensory receptors and pathways


n    Sensory systems notify the brain and spinal cord of specific
changes inside and outside the body.
n Links to Action potentials 13.2, Information pathways 13.4,
Sensory areas of the brain 13.8

In a sensory system, a stimulus activates receptors, which
then convert the stimulus to a nerve impulse—that is, an
action potential—that travels to the brain. There the action
potential may trigger a sensation or perception:

the brain produces a perception—an understanding of
what the sensation means.
There are three basic forms of sensory receptors (Figure
14.1). Those called free nerve endings are present in the
epidermis and many connective tissues. They detect touch,
pressure, heat, cold, or pain. An encapsulated receptor
is an organ in which a capsule of epithelial or connective
tissue encloses nerve endings of a sensory neuron. The
third basic type of sensory receptor is formed by a cell that
synapses with a sensory neuron.
We organize sensory receptors based on the type of
stimulus each detects. Photoreceptors detect visible light.
Chemoreceptors detect chemicals dissolved in the fluid
around them. Mechanoreceptors detect changes in pres-
sure, position, or acceleration. Thermoreceptors respond
to heat or cold. Receptors for pain, called nociceptors,
detect damage to tissues. Osmoreceptors detect changes
in water volume (solute concentration) in a body fluid.
Regardless of their differences, all sensory receptors con-
vert the stimulus to nerve impulses (action potentials).
Nerve impulses that move along sensory neurons are all
the same. So how does the brain know what sort of sensory

stimulus
energy
received

stimulus energy
converted to
nerve impulse
(action potential)

brain response
(sensation or
perception)

A stimulus (plural: stimuli) is a form of energy that
activates receptor endings of a sensory neuron. That
energy is converted to the electrochemical energy of action
potentials—the nerve impulses by which the brain receives
information and sends out commands in response. This
basic response in the brain is a sensation, which is con-
scious awareness of a stimulus. Higher-level processing in

F i g u r e 14.1 There are three main forms of sensory receptors. (© Cengage Learning)

14.1


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