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Nervous System Central Nervous System (CNS): brain and spinal cord. CNS contains tracts Peripheral Nervous System (PNS): nerves of the body PNS contains nerves -- Includes 31 pairs of spinal nerves -- And 12 pairs of cranial nerves Basic Divisions of the Nervous System Figure 12.2 THREE BASIC FUNCTIONS OF THE NERVOUS SYSTEM • Sensory - gathers info • Integrative - information is brought together • Motor - responds to signals, homeostasis Peripheral Nervous System Afferent - transmits action potentials from sensory organs to the CNS Efferent - transmits action potentials from the CNS to effector organs such as muscles - glands Peripheral Nervous System Efferent divided further SOMATIC NERVOUS SYSTEM skeletal muscles, under voluntary control AUTONOMIC NERVOUS SYSTEM smooth muscles, glands, involuntary Peripheral Nervous System Autonomic divided further Sympathetic – Fight or Flight Parasympathetic – Rest and Digest Common Neurotransmitters • Epinephrine/Adrenaline • NorEpinephrine/Noradrenaline • Acetylcholine Neurons Factors Affecting Nerve Impulse Velocity • Diameter of the neuron • Temperature • Myelinated or Unmyelinated Neuroglial Cells - support cells for the neurons 1. Microglial : scattered throughout, digest debris or bacteria 2. Oligodendrocytes: provide insulation around the axons 3. Astrocytes: connect blood vessels to neurons 4. Ependymal Cells: form a membrane that covers brain-like parts 5. Schwann cells: form the insulating sheath around the neurons within the PERIPHERAL nervous system Neurilemma = thin, membranous covering over Schwann cells that allows cells to slowly repair/regenerate themselves if injured *Myelin Sheaths - necessary for insulation of neurons Supporting Cells in the CNS Microglial cells respond to immunological alarms Supporting Cells in the CNS Creates the myelin sheath that insulates axons Supporting Cells in the CNS Astrocytes connect neurons to blood vessels Supporting Cells in the CNS Figure 12.12a Supporting Cells in the CNS Supporting Cells in the CNS Supporting Cells Neuron Structure • Neurofibril - fibers • Chromatophilic substance (rough ER) transport system • Myelin -insulation surrounding axons • Nodes of Ranvier - gaps in the insulation White vs Grey Matter Myelinated (white matter) – myelinated axons Unmyelinated (grey matter) - unmyelinated Label NEURON (main cell of the nervous system) • All neurons do three things: • Receive a signal. Can be any type of stimulus (change in environment, signal from another neuron, etc). • Transmit a signal to another location. E.g. finger touching something • signal to spinal cord or brain. • Stimulate another cell o o o Another neuron • transmit signal Muscle • contraction Gland • secretion The Neuron • Other special characteristics Longevity – can live and function for a lifetime Do not divide – fetal neurons lose their ability to undergo mitosis; neural stem cells are an exception o High metabolic rate – require abundant oxygen and glucose o o Types of Neurons Functional: Sensory, Motor, Interneurons Structural: (A) Bipolar (B) Unipolar (C) Multipolar Nerve Impulses Nerve Impulses At rest, the inside of a neuron's membrane has a negative charge. As the figure shows, a Na+ / K+ pump in the cell membrane pumps sodium out of the cell and potassium into it. However, because the cell membrane is a bit leakier to potassium than it is to sodium, more potassium ions leak out of the cell. As a result, the inside of the membrane builds up a net negative charge relative to the outside. Animations of Nerve Impulses http://highered.mcgrawhill.com/sites/0072495855/student_view0/chapter14/anim ation__the_nerve_impulse.html http://outreach.mcb.harvard.edu/animations/actionpotenti al.swf The Synapse Synapse - junction between two communicating neurons Nerve pathway - nerve impulse travels from neuron to neuron Synaptic Transmission Dendrite ' cell body ' along axon ' synapse (gap) To complete the signal, a NEUROTRANSMITTER is released at the gap to signal the next neuron Structure of a Synapses Figure 12.8a, b Neurotransmitters Excitatory - increase membrane permeability, increases chance for threshold to be achieved Inhibitory - decrease membrane permeability, decrease chance for threshold to be achieved Types of Neurotransmitters • Acetylcholine - stimulates muscle contraction • Monoamines - Norepinephrine & Dopamine (sense of feeling good, low levels = depression) • Serotonin (sleepiness) • Endorphins (reduce pain, inhibit receptors) Drugs that Affect Synapses and Neurotransmitters • • • • • Curare Strychnine Cocaine, morphine, alcohol, ether and chloroform Mescaline and LSD Ecstasy Antidepressants • Zoloft is part of a class of drugs called selective serotonin reuptake inhibitors, or • SSRIs for short. SSRIs act on a specific chemical within the brain known as serotonin. This is one of several chemicals used to send messages from one nerve cell to another. Impulse Processing Neuronal pool - groups of neurons that make hundreds of synaptic connections and work together to perform a common function Types of Nerves Dorsal Root/Sensory Nerves - conduct impulses into the brain or spinal cord Ventral Root/Motor Nerves - carry impulses to muscles of glands Mixed Nerves - contain both sensory and motor nerves Problem • If Mary has a spinal cord injury to just her ventral portion of the spinal cord what would happen to her? • HINT** Will she lose feeling, movement or both? Neurons Classified by Function: Sensory vs. Motor Neurons Figure 12.11 Nerve Pathways • • • • Reflex arc - only includes a few neurons Reflex Behavior - automatic, subconscious responses Knee-jerk reflex - maintains uprightedness Withdrawal reflex - avoidance of painful stimuli