1. The Nervous System: Integration and Control11
The Nervous System: Integration and Control 1

2. Nervous System Overview
Characteristics of the nervous system
Receives information from many sources
Integrates information (processes, compiles, makes sense of this information)
Initiate specific responses such as muscle contraction, glandular secretion, conscious control over movement
Extremely fast—can receive, integrate, and respond in tenths of a second

3. Nervous System Has Two Principal Parts
Central nervous system (CNS)
Components: brain and spinal cord
Functions: receives, processes, and transfers information
Peripheral nervous system (PNS)
Components: nerves outside CNS
Sensory division: carries information toward the CNS
Motor division: carries information away from CNS
Somatic and autonomic divisions

4. Nervous System Has Two Principal Parts
CNS
Brain
Sensory (input)
Spinal
cord
Motor (output)
PNS
Signals
from external
environment
Signals
from skin,
tendons, and
muscles
Signals
from internal
organs
Somatic division
(control of
skeletal muscle)
Autonomic division
(autonomic control of
smooth muscle, cardiac
muscle, and glands)
Figure 11.1 Components of the nervous system.
Parasympathetic
Sympathetic 4

5. Neurons Are the Communication Cells of the Nervous System
Neurons are specialized cells for communication
Generate and conduct electrical impulses
Types of neurons
Sensory neurons: neurons found in the PNS that receive stimuli and transmit information to the CNS
Interneurons: transmit information between motor & sensory
Motor neurons: neurons found in the PNS that transmit information away from the CNS

6. Neurons Are the Communication Cells of the Nervous System
Three parts of the neuron
Cell body: main part of the cell, has the nucleus and most of the cytoplasm and organelles
Dendrites: small extensions of the cell body, receive incoming information
Axon: long slender extension, conducts electrical impulses away from the cell body

7. Skin Muscle Sensory neuron Motor neuron Brain and spinal cord Receptor
Figure 11.2
Skin
Receptor
Dendrite
Axon
Muscle
Axon
bulb
Sensory
neuron
Axon
terminals
Cell body
Axon
Motor
neuron
Impulse direction
Figure 11.2 Types of neurons in the nervous system.
Axon hillock
Dendrites
Interneuron
Cell
body
Dendrites
Axon
Cell body
Brain and spinal cord 7

8. Neurons Initiate Action Potentials
Neurons generate and transmit action potentials
An action potential is basically an electrical impulse
Action potentials are the primary means of communication throughout the nervous system

9. Anmation: The Nerve Impulse Right-click and select Play

10. Neuroglial Cells Support and Protect Neurons
Neuroglial cells make up 80% of nervous system cells
Function
Support
Protection
Glial cells do NOT transmit action potentials
Two types
Schwann cells
Oligodendrocytes

11. Neuroglial Cells Support and Protect Neurons
Schwann cells: form myelin sheaths in PNS
Role of myelin sheath:
Speed up the transmission of impulses
Saltatory conduction: leaping pattern of action potential conduction
Help damaged or severed axons regenerate
Oligodendrocytes
Form myelin sheaths in CNS

12. A myelinated motor neuron of the peripheral nervous system
Figure 11.7
In saltatory conduction,
the nerve impulse jumps
from node to node.
A myelinated
motor neuron
of the peripheral
nervous system
Node of Ranvier
Schwann cell
Myelin
sheath
Neuron
axon
Figure 11.7 A myelinated motor neuron of the peripheral nervous system.
TEM cross section
of part of an axon
(yellow) and its
surrounding
myelin sheath
(beige). 12

13. Animation: Myelinated Neurons and Saltatory Conduction Right-click and select Play

14. Information Is Transferred from a Neuron to Its Target
Targets: another neuron, muscle cell, or gland
Synapse: special junction between axon end and target cell
Synaptic transmission
Process of transmission of impulse from sending (presynaptic neuron) across synaptic cleft to receiving (postsynaptic) target
Involves release and diffusion of chemical neurotransmitters

15. Neurotransmitter Is Released
Events that occur during synaptic transmission:
Action potential arrives at axon end, causing Ca2 to diffuse into axon bulb
Ca2 causes release of neurotransmitter from vesicles
Neurotransmitter diffuses across synaptic cleft
Neurotransmitter binds to receptors on target (postsynaptic) membrane and opens gated ion channels
Electric signals result from ion movement through opened channels

16. Animation: The Synapse Right-click and select Play

17. Neurotransmitters Exert Excitatory or Inhibitory Effects
Response of postsynaptic target cell depends on
Type of neurotransmitter (50 types)
Type of receptors
Type of gated ion channels
Examples of some neurotransmitters:
Acetylcholine
Norepinephrine
Dopamine
endorphins

18. Peripheral Nervous System Relays Information Between Tissues and CNS
Nerve
contains axons of many neurons wrapped together in a protective sheath
Carries information to and from the CNS
Cranial nerves
12 pairs
Connect directly to brain
Spinal nerves
31 pairs
Connect to spinal cord

19. Animation: Cranial and Spinal Nerves Right-click and select Play

20. The Somatic Division of PNS Controls Skeletal Muscles
Functions
Voluntary- conscious control of skeletal muscles ( targets)
Involuntary reflexes
Spinal reflexes: Involuntary responses mediated primarily by spinal cord and spinal nerves, with little brain involvement
Example withdrawal reflex

21. The Autonomic Division of PNS controls Automatic Body Functions
Part of the motor division of the PNS
Controls automatic body functions of many internal organs
Consists of two divisions
1. Sympathetic division
2. Parasympathetic division
Targets: smooth muscle, cardiac muscle, internal organs

22. The Sympathetic and Parasympathetic Divisions Oppose Each Other
Norepinephrine is the key neurotransmitter
Produces fight-or-flight response
Increases heart rate and respiration
Raises blood pressure
Dilates pupils
Opposes parasympathetic division

23. The Sympathetic and Parasympathetic Divisions Oppose Each Other
For peacetime activities
Opposes sympathetic division
Acetylcholine is the key neurotransmitter
Actions: lowers heart rate and respiration, increases digestion, permits defecation and urination
Sympathetic and parasympathetic divisions work antagonistically to maintain homeostasis

24. Thoracic nerves Lumbar nerves Sacral nerves Stimulates secretion of
Figure 11.12
SYMPATHETIC DIVISION
PARASYMPATHETIC DIVISION
Dilates
pupil
Constricts
pupil
Decreases
salivation
Increases
salivation
Cranial
nerves
Increases
respiration
rate
Decreases
respiration
rate
Increases
heart rate
Thoracic
nerves
Decreases
heart rate
Constricts
blood
vessels
Dilates
blood
vessels
Inhibits
digestive
processes
Stimulates
digestive
processes
Lumbar
nerves
Figure The sympathetic and parasympathetic divisions of the autonomic nervous system.
Inhibits
digestive
processes
Stimulates
digestive
processes
Sacral
nerves
Relaxes
bladder
muscles
Contracts
bladder
muscles
Stimulates
secretion of
epinephrine and
norepinephrine
Inhibits
defecation
Stimulates
defecation
Causes salt and
water retention
Synapse
between neurons
Ganglion 24

25. Animation: The Autonomic Nervous System Right-click and select Play

26. The Brain and Spinal Cord Constitute the CNS
CNS protection
Bone: skull and vertebrae
Meninges: protective membranes
Dura mater, arachnoid, and pia mater
Cerebrospinal fluid: bathes the brain, spinal cord
Shock absorber
Produced within the ventricles of the brain
Blood-brain barrier: prevents entry of certain chemicals and pathogens

27. Central Nervous System; Brain and Spinal cord
Figure 11.13

28. The Spinal Cord Relays Information
Spinal cord is a superhighway for communication between the brain and the rest of the body
White matter
Outer portion of spinal cord
Consists of ascending (sensory) and descending (motor) nerve tracts
Gray matter
Center portion of spinal cord
Contains neuron cell bodies

29. The Brain Major divisions
Cerebrum (right and left cerebral hemispheres)
Right cerebral hemisphere controls left side of body
Left cerebral hemisphere controls right side of body
Cerebellum
Brainstem: for communication between brain and spinal cord
Consists of: midbrain, pons, medulla oblongata
Thalamus, hypothalamus

30. Brain: command center of the body :processes and acts on information
Figure 11.15
Cerebrum
• controls voluntary movement
•language, thinking, speech
Midbrain
• visual and auditory reflexes
Corpus callosum
• connects the two cerebral hemispheres
Thalamus
• Receives, and transfers information/sensations
Pons
• Connects spinal cord with higher brain centers •
Medulla oblongata
• Has vital centers
Cerebellum
• coordinates movements
Q: Which part of the brain classifies humans as “intelligent” beings?

31. Brain Cerebrum Structure: grey matter outside, white matter inside
Right and left hemispheres
Hemispheres connected by corpus callosum (nerve tracts) allow two hemispheres to share information
Cerebral cortex: gray matter, the outer layer of the cerebrum
Contains areas for motor control (movement), sensation, language, decision making, conscious thought
White matter
Inner region is receiving/sending signals

32. A Closer Look at the Cerebral Cortex
Functions: memory storage, thought, conscious awareness, conscious control of skeletal muscle
Divided into four lobes
Occipital lobe: interprets visual information
Temporal lobe: interprets auditory information, comprehends spoken/written language
Parietal lobe: receives and interprets sensory information from the skin
Frontal lobe: initiates motor activity, responsible for speech, conscious thought
Area for language only in dominant cerebral hemisphere ( left cerebral hemisphere in most people)

33. Outer layer of cerebrum is grey matter ( for processing, etc.)
Cerebral cortex
Outer layer of cerebrum is grey matter ( for processing, etc.)
Parietal lobe
Interprets sensory
information
Occipital lobe
Processes visual
information
Temporal lobe
Interprets auditory
information
Frontal lobe
Initiates motor activity
Responsible for speech
Conscious thought
Figure 11.16b

34. MOTOR SENSORY Leg Trunk Hip Arm Hip Trunk Neck Elbow Arm Wrist Elbow
Figure 11.17
Leg
Trunk
Hip
Arm
Hip
Trunk
MOTOR
Neck
Elbow
SENSORY
Arm
Wrist
Elbow
Fingers
Hand
Forearm
Thumb
Fingers
Neck
Thumb
Brow
Toes
Genitals
Eye
Eye
Face
Primary
somatosensory
area
Nose
Primary
motor
area
Lips
Face
Jaw
Lips
Tongue
Teeth
Thumb
Gums
Swallowing
Frontal
lobe
Tongue
Pharynx
Figure Primary somatosensory and motor areas of the cerebral cortex.
Left
hemisphere
Right
hemisphere
Parietal lobe
Posterior 34

35. Brainstem Midbrain: Pons
Coordinates reflex movements of the head related to vision and hearing
Controls movement of eyes and size of pupils
Pons
Connects higher brain centers and the spinal cord
Aids medulla oblongata in regulating respiration

36. Brainstem Medulla oblongata Connects to spinal cord
Contains vital centers
Cardiovascular center: regulates heart rate and blood pressure
Respiratory center: controls breathing

37. Cerebellum Coordinates body movements Maintains balance and posture
Excessive alcohol consumption disrupts normal cerebellum function

38. Hypothalamus Thalamus Helps regulate homeostasis
Example; has the food, thirst, temperature control centers
Thalamus
Receiving and transfers information to cerebral cortex

39. Limbic System Involved in emotions Fear, anger, sorrow, pleasure...
Figure 11.19

40. Nervous system Disorders
Meningitis
Encephalitis
Epilepsy
Alzheimer’s disease
Parkinson’s disease
Multiple sclerosis
Hemophilia