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The Autonomic Nervous System

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ANS non-skeletal muscle & gland cells. Efferent pathways. SNS ... Upon stimulation, medullary cells secrete norepinephrine & epinephrine into the blood ... – PowerPoint PPT presentation

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Title: The Autonomic Nervous System


1
14
  • The Autonomic Nervous System

2
Autonomic Nervous System (ANS)
  • Motor neurons that
  • Innervate smooth cardiac muscle glands
  • Subconscious control

3
ANS differs from the SNS
  • Effectors
  • SNS skeletal muscle
  • ANS non-skeletal muscle gland cells
  • Efferent pathways
  • SNS single PNS neuron
  • ANS 2 PNS neurons
  • Target organ responses
  • SNS contraction of muscle
  • ANS contraction or relaxation, excretion
  • Neurotransmitters used
  • SNS acetylcholine
  • ANS acetylcholine, norepinephrine epinephrine

4
Distinctions of Efferent Pathways
  • SNS motor neurons
  • Single neuron extends from CNS to effector
  • Heavily myelinated axons
  • ANS motor neurons
  • Two-neuron PNS chain
  • Preganglionic neuron postganglionic neuron
  • Lightly myelinated preganglionic axon from CNS to
    ganglion
  • Unmyelinated postganglionic axon extends to
    effector

5
Neurotransmitter Differences
  • SNS neurons release acetylcholine (ACh), which
    has an excitatory effect
  • In the ANS
  • Preganglionic fibers release ACh
  • Postganglionic fibers
  • release norepinephrine or ACh
  • effect is stimulatory or inhibitory
  • effect depends on neurotransmitter receptor in
    cells of effector tissue

6
Comparison of Somatic Autonomic Systems
Figure 14.2
7
Anatomy of ANS
  • Short preganglionic
  • Long postganglionic
  • Ganglia close to spinal cord
  • Long preganglionic
  • Short postganglionic
  • Ganglia on/in target organ

Figure 14.3
8
Divisions of the ANS
  • Sympathetic (SANS)
  • mobilizes the body during stressfull situations
  • Parasympathetic (PANS)
  • stimulates maintenance activities conserves
    body energy
  • The two divisions counterbalance each others
    activity
  • SANS signals usually override PANS

9
Examples of ANS Effects
  • PANS
  • Lowers BP, heart respiratory rates
  • Increases gastrointestinal tract activity
  • Superficial arterioles open (smooth muscle
    relaxed)
  • Pupils are constricted
  • SANS
  • Blood flow to organs/skin reduced, flow to
    muscles increased
  • Heart respiratory rates increased
  • Iris contracts - Pupils dilate

10
Parasympathetic Division Outflow
11
Parasympathetic Division Outflow
  • Longer preganglionic axons
  • Ganglion near/on target organ
  • Short postganglionic axons
  • Vagus nerve (CN X) innervates all visceral organs

12
Sympathetic Outflow
  • Sympathetic neurons in lateral horns of spinal
    cord segments T1 through L2
  • T1-T4 preganglionic fibers pass through the white
    rami communicantes synapse in sympathetic chain
    ganglia
  • T5-L2 preganglionic fibers pass through the gray
    rami communicantes chain ganglia to form
    splanchnic nerves synapse in collateral ganglia
    around abdominal aorta
  • Postganglionic fibers innervate the numerous
    organs of the body

13
Sympathetic Outflow
  • Sympathetic neurons in lateral horns of spinal
    cord segments T1- L2
  • T1-T4 preganglionic fibers synapse in sympathetic
    chain ganglia
  • T5-L2 preganglionic fibers form splanchnic nerves
    synapse in collateral ganglia on abdominal
    aorta

14
Sympathetic Trunks Pathways
15
Pathways to the Head
  • T1-T4 preganglionic axons synapse in the superior
    cervical ganglion
  • Serve skin blood vessels of the head
  • Stimulate dilator muscles of the iris
  • Inhibit nasal salivary gland secretions

16
Pathways to the Thorax
  • T1-T6 preganglionic axons synapse in cervical
    chain ganglia
  • Postganglionic axons from middle inferior
    cervical ganglia enter spinal nerves C4-C8 to
    innervate the heart, thyroid skin of neck
  • Other T1-T6 preganglionic axons synapse in
    nearest chain ganglia to directly serve the
    heart, aorta, lungs, esophagus

17
Pathways with Synapses in Collateral Ganglia
  • T5-L2 preganglionic axons exit sympathetic chain
    ganglia form splanchnic nerves
  • Splanchnic nerves form aortic plexus numerous
    ganglia
  • Postganglionic axons from abdominal ganglia
    innervate viscera

18
Pathways with Synapses in the Adrenal Medulla
  • Axons of the thoracic splanchnic nerve go
    directly to the adrenal medulla
  • Upon stimulation, medullary cells secrete
    norepinephrine epinephrine into the blood

19
Visceral Reflexes
  • Visceral reflexes have the same elements as
    somatic reflexes
  • Afferent fibers are found in spinal autonomic
    nerves

20
ANS Neurotransmitters
  • PANS
  • Acetylcholine (ACh) released by pre-
    postganglionic axons
  • SANS
  • ACh released by preganglionic axons
  • ACh or norepinephrine (NE) released by
    postganglionic axons
  • Cholinergic fibers ACh-releasing axons
  • Adrenergic fibers NE-releasing postganglionic
    SANS axons
  • Excitatory or inhibitory effects depend upon the
    receptor type

21
Cholinergic Receptors
  • Bind ACh
  • Nicotinic receptors
  • Muscarinic receptors
  • Named distinguished by interaction w/ agonists
  • Nicotine
  • Muscarine
  • Agonist stimulates effect
  • Antagonist blocks effect

22
Cholinergic Receptors
  • Nicotinic Receptors
  • Locations
  • Skeletal muscle motor end plates, CNS neurons
  • SANS PANS ganglionic neurons
  • Adrenal medulla cells
  • Ion channels
  • ACh always stimulatory
  • Muscarinic Receptors
  • Locations
  • Cells stimulated by postganglionic PANS fibers,
    CNS
  • ACh inhibition or excitation depends on receptor
    subtype
  • subtypes M1, M2, M3

23
Adrenergic Receptors
  • Receptors that bind to norepinephrin
    epinephrine
  • In cells innervated by SANS postganglionic axons
  • Alpha
  • subclasses - ?1, ?2,
  • NE is stimulatory
  • Beta
  • Subclasses - ?1, ?2 , ?3
  • NE is generally inhibitory
  • Exception NE binding to ? receptors of the
    heart is stimulatory

24
Drugs that Influence the ANS
Table 14.4.1
25
Levels of ANS Control
Figure 14.9
26
Interactions of the Autonomic Divisions
  • Most visceral organs innervated by both
    sympathetic parasympathetic fibers
  • results in dynamic antagonisms that precisely
    control visceral activity
  • Sympathetic fibers increase heart respiratory
    rates, inhibit digestion elimination
  • Parasympathetic fibers decrease heart
    respiratory rates, allow for digestion the
    discarding of wastes
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