1. The Nervous System Master control unit of the body 1

2. Objectives Describe the structures of the nervous system: central and peripheral. Discuss the functions of the nervous system: central and peripheral State the functions of neuroglia cells in the central nervous system Identify the structural parts of a neuron. Explain how an impulse is transmitted via a neuron, including the role of neurotransmitters and their functions. 2

3. Objectives, cont’d Identify the lobes of the brain and the function(s) of each lobe. Describe a reflex arc. List the names and functions of the 12 cranial nerves. Apply knowledge of anatomy and principles of physiology, chemistry, microbiology and physics to nursing situations related to the coordination. 3

4. 4 Nervous System Central Nervous System Peripheral Nervous System BrainSpinal Cord Motor (Efferent) Neuron Sensory (Afferent) Neuron Autonomic Nervous System Somatic Nervous System Sympathetic Nervous System Parasympathetic Nervous System

5. 5 The Nervous System  Structural divisions Central (CNS) Peripheral (PNS)

6. 6 Action Potential: a) A stimulus is received by the dendrites of a nerve cell. This causes the Na+ channels to open. If the opening is sufficient to drive the interior potential from -70 mV up to -55 mV, the process continues. b) As depolarization reaches threshold of -55mV, the action potential is triggered and Na+ rushes into cell. Membrane potential reaches +30mV on action potential c) Propagation of the action potential at 110 m/sec (which is 225 mph) d) Repolarization occurs with K+ exiting the cell to return to - 70mV RMP e) Return of ions (Na+ and K+) to their extracellular and intracellular sites by the sodium potassium (Na+K+) pump

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8. Neurotransmission 8

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10. 10 NameType Postsynaptic Effect Location(s)Function(s) Dopamine AmineExcitatoryCNS, PNS Controls movement and arousal levels, creates sense of feeling good Serotonin Amine Inhibitory CNS, intestine regulates appetite, sleep, memory and learning, temperature, mood Noradrenaline (norepinephrine) AmineExcitatoryCNS, PNS Induce arousal, heighten mood, low levels may lead to depression GABA Amino acidInhibitoryCNSControl anxiety level Endorphins Enkephalin (opiate) NeuropeptidInhibitoryCNS Reduce stress, promote calm, natural painkiller (inhibits substance P Substance P NeuropeptidExcitatory PNS Transmission of pain Acetylcholine (ACH) Acetic acid Excitatory & Inhibitory CNS, PNS Role in memory, vasodilation Controls skeletal muscle actions

11. The Brain 11  The Brain is made up of more than 10 billion nerves  Divided into three parts: Cerebrum, Cerebellum and Brain Stem  Protected by: Skull mainly but the Meninges/Cerebral-spinal fluid act as shock absorbers

12. The Brain 12

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14. The Brain - Protection 14

15. BRAIN The Cerebrum Largest part of the brain Medulla Connects the brain and the spinal cord 15

16. The Cerebellum 16  The cerebellum is below and to the back of the cerebrum  The cerebellum controls: 1.Balance 2.Coordination

17. Spinal Cord 17

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23. 23 Spinal Nerves

24. 31 pairs Each pair arise from a spinal segment - 8 pairs of cervical nerves - 12 pairs of thoracic nerves - 5 pairs of lumbar nerves - 5 pairs of sacral nerves - 1 pair of coccygeal nerves 24

25. Cranial Nerves 25

26. Cranial Nerves "On Old Olympic Towering Top A Famous Vocal German Viewed Some Hops“... standing for: Olfactory, Optic, Oculomotor, Trochlear, Trigeminal, Abducens, Facial, Vestibulocochlear, Glossopharyngeal, Vagus, Spinal accessory, Hypoglossal. 26

27. 27 Autonomic Nervous System

28. Peripheral Nervous System Somatic nervous system – voluntary control over skeletal muscle Autonomic nervous system – involuntary control over the contraction of smooth muscle, cardiac muscle, gland secretion 28

29. Autonomic Nervous System (ANS) Sympathetic – “flight or fight” Ready for immediate stress Increase of body systems Parasympathetic – “rest and digest” Nonstressful conditions Decrease body systems Digestion increased 29

30. Parasympathomimetics AKA – cholinergic agents Cholinergic = parasympathetic Classic – acetylcholine Does not stay long in body, rapidly destroyed after receptor binding Direct acting – bind to cholinergic receptors to produce rest/digest response – AKA muscarinic agonist Indirect acting – avoids destruction of Ach and allow to remain on cholinergic receptors for longer time – AKA cholinesterase inhibitors 30

31. Autonomic Drug Classes Adrenergic antagonists or adrenergic blockers – inhibit SNS Anticholinergics or parasympatholytics or muscarinic blockers – inhibit PNS 31

32. Baroreceptor Reflex The baroreceptor reflex regulates BP The receptors are located in the carotid sinus and aortic arch The brain sends impulses to the ANS When there is a decrease in BP there is vasoconstriction and an increase in CO When there is an increase in BP vasodilation and a decrease in BP 32

33. Neurotransmitter Disintegration Ach Destroyed by acetylcholinesterase Norepinephrine (NE) Reuptake of NE into nerve terminals for reuse Inactivation by monoamine oxidase (MAO) 33

34. ANS Transmitters Norepinephrine (NE) – catecholamine Alpha receptors – alpha1 and alpha 2 Beta receptors – beta 1 and beta 2 34

35. ANS Neurotransmitters Acetylcholine (Ach) – released by cholinergic nerves Nicotinic receptors – Ach receptors in the preganglionic ganglia, effects similar to effects of nicotine Muscarinic receptors – Ach receptors in postganglionic ending in target tissues, similar to effects of amanita muscaria 35

36. Drug Effects Affect synthesis of neurotransmitters Prevent storage of neurotransmittters Influence the release of neurotransmitters Bind to the receptor site of postsynaptic neuron – increase autonomic function 36

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