2.  Sensory input — gathering information  To monitor changes occurring inside and outside the body  Changes = stimuli  Integration  To process and interpret sensory input and decide if action is needed  Motor output  A response to integrated stimuli  The response activates muscles or glands

3. Figure 7.1 Affector

4.  Central nervous system (CNS) Central nervous system  Brain  Spinal cord  Peripheral nervous system (PNS)  Nerves outside the brain and spinal cord ▪ Spinal nerves ▪ Cranial nerves

6.  Sensory (afferent) division  Nerve fibers that carry information to the central nervous system (Sensory Neurons)  Motor (efferent) division  Nerve fibers that carry impulses away from the central nervous system (Motor Neurons)  Two subdivisions ▪ Somatic nervous system = voluntary ▪ Autonomic nervous system = involuntary

7. Figure 7.2

8.  Support cells in the CNS are grouped together as “neuroglia”  Function: to support, insulate, and protect neurons

9.  Astrocytes  Abundant, star-shaped cells  Brace neurons  Form barrier between capillaries and neurons  Control the chemical environment of the brain

10.  Microglia  Spiderlike phagocytes  Dispose of debris

11.  Ependymal cells  Line cavities of the brain and spinal cord  Circulate cerebrospinal fluid

12.  Oligodendrocytes  Wrap around nerve fibers in the central nervous system  Produce myelin sheaths

13.  Satellite cells  Protect neuron cell bodies  Schwann cells  Form myelin sheath in the peripheral nervous system

14.  Neurons = nerve cells  Cells specialized to transmit messages  Major regions of neurons ▪ Cell body — nucleus and metabolic center of the cell ▪ Processes — fibers that extend from the cell body

15.  Cell body  Nissl substance ▪ Specialized rough endoplasmic reticulum  Neurofibrils ▪ Intermediate cytoskeleton ▪ Maintains cell shape

16.  Processes  Dendrites — conduct impulses toward the cell body  Axons — conduct impulses away from the cell body ▪ Axons end in axonal terminals ▪ Axonal terminals contain vesicles with neurotransmitters ▪ Axonal terminals are separated from the next neuron by a gap ▪ Synaptic cleft — gap between adjacent neurons ▪ Synapse —j unction between nerves

17. Figure 7.4

18.  Myelin sheath — whitish, fatty material covering axons  Schwann cells — produce myelin sheaths in jelly roll–like fashion  Nodes of Ranvier — gaps in myelin sheath along the axon

19.  CNS Terminology  Gray matter — cell bodies and unmyelinated fibers  White matter – dense collections of myelinated fibers  Nuclei — clusters of cell bodies within the white matter of the central nervous system  PNS Terminology  Ganglia — collections of cell bodies outside the central nervous system

20.  Sensory (afferent) neurons  Carry impulses from the sensory receptors to the CNS ▪ Cutaneous sense organs – found in the skin ▪ Pain & Temperature Receptors, Meissner’s corpuscle (touch), Pacinian corpuscle (deep pressure) ▪ Proprioceptors — detect stretch or tension – found in muscle and tendon ▪ Golgi tendon organ, muscle spindle  Motor (efferent) neurons  Carry impulses from the CNS to viscera, muscles, or glands

21. Figure 7.7 Pain & Temperature Receptors Meissner’s corpuscle Pacinian corpuscle Proprioceptors

22. Figure 7.6

23. Figure 7.8a  Multipolar neurons — many extensions from the cell body  Bipolar neurons — one axon and one dendrite  Unipolar neurons —have a short single process leaving the cell body

24.  Irritability  Ability to respond to stimuli  Conductivity  Ability to transmit an impulse

25.  Resting neuron  The plasma membrane at rest is polarized  Fewer positive ions are inside the cell than outside the cell  Depolarization  A stimulus depolarizes the neuron’s membrane  A depolarized membrane allows sodium (Na+) to flow inside the membrane  The exchange of ions initiates an action potential in the neuron

26. Figure 7.9a–b

27.  Action potential  If the action potential (nerve impulse) starts, it is propagated over the entire axon  Known as “All or Nothing response”  Impulses travel faster when fibers have a myelin sheath

28. Figure 7.9c–d

29.  Repolarization  Potassium ions rush out of the neuron after sodium ions rush in, which repolarizes the membrane  The sodium-potassium pump, using ATP, restores the original configuration

30. Figure 7.9e–f

32.  Impulses are able to cross the synapse to another nerve  Neurotransmitter is released from a nerve’s axon terminal  The dendrite of the next neuron has receptors that are stimulated by the neurotransmitter  An action potential is started in the dendrite

33.  Reflex — rapid, predictable, and involuntary response to a stimulus  Occurs over pathways called reflex arcs  Reflex arc — direct route from a sensory neuron, to an interneuron, to an effector

34. Figure 7.11b–c Spinal cord Inter- neuron Motor (efferent) neuron Sensory (afferent) neuron Sensory receptors (stretch receptors in the quadriceps muscle) Sensory (afferent) neuron Sensory receptors (pain receptors in the skin) Effector (quadriceps muscle of thigh) Effector (biceps brachii muscle) Synapse in ventral horn gray matter (c) (b)

35.  Somatic reflexes  Activation of skeletal muscles  Example: When you move your hand away from a hot stove  Autonomic reflexes  Smooth muscle regulation  Heart and blood pressure regulation  Regulation of glands  Digestive system regulation