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Human Anatomy & Physiology Ninth Edition C H A P T E R © 2013 Pearson Education, Inc.© Annie Leibovitz/Contact Press Images The Central Nervous System.

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Presentation on theme: "Human Anatomy & Physiology Ninth Edition C H A P T E R © 2013 Pearson Education, Inc.© Annie Leibovitz/Contact Press Images The Central Nervous System."— Presentation transcript:

1 Human Anatomy & Physiology Ninth Edition C H A P T E R © 2013 Pearson Education, Inc.© Annie Leibovitz/Contact Press Images The Central Nervous System 2: Sleep and Memory 12 7/2/20121MDufilho

2 Sleep and Sleep-Wake Cycles State of partial unconsciousness from which person can be aroused by stimulation Two major types of sleep (defined by EEG patterns) –Non-rapid eye movement (NREM) sleep –Rapid eye movement (REM) sleep 7/2/20122

3 MDufilho Figure 12.19a Types and stages of sleep. Awake REM: Skeletal muscles (except ocular muscles and diaphragm) are actively inhibited; most dreaming occurs. NREM stage 1: Relaxation begins; EEG shows alpha waves; arousal is easy. NREM stage 2: Irregular EEG with sleep spindles (short high- amplitude bursts); arousal is more difficult. NREM stage 3: Sleep deepens; theta and delta waves appear; vital signs decline. NREM stage 4: EEG is dominated by delta waves; arousal is difficult; bed-wetting, night terrors, and sleepwalking may occur. Typical EEG patterns 7/2/20123

4 MDufilho Sleep Patterns Alternating cycles of sleep and wakefulness reflect natural circadian (24- hour) rhythm RAS activity inhibited during, but RAS also mediates sleep stages Suprachiasmatic and preoptic nuclei of hypothalamus time sleep cycle Typical sleep pattern alternates between REM and NREM sleep 7/2/20124

5 MDufilho Figure 12.19b Types and stages of sleep. Awake REM Stage 1 Stage 2 Stage 3 Stage 4 NREM 1 Typical progression of an adult through one night’s sleep stages 23 45 6 7 Time (hrs) 7/2/20125

6 MDufilho Sleep Disorders Narcolepsy - Abrupt lapse into sleep from awake state –Treatment Insomnia - Chronic inability to obtain amount or quality of sleep needed –Treatment Sleep apnea - Temporary cessation of breathing during sleep –Causes hypoxia 7/2/20126

7 MDufilho Memory Storage and retrieval of information Two stages of storage –Short-term memory (STM, or working memory)—temporary holding of information; limited to seven or eight pieces of information –Long-term memory (LTM) has limitless capacity 7/2/20127

8 MDufilho Figure 12.20 Memory processing. Outside stimuli General and special sensory receptors Afferent inputs Temporary storage (buffer) in cerebral cortex Data permanently lost Automatic memory Data selected for transfer Forget Short-term memory (STM) Retrieval Data transfer influenced by: Excitement Rehearsal Associating new data with stored data Long-term memory (LTM) Data unretrievable 7/2/20128

9 MDufilho Transfer from STM to LTM Factors affecting transfer from STM to LTM –Emotional state—best if alert, motivated, surprised, and aroused –Rehearsal—repetition and practice –Association—tying new information with old memories –Automatic memory—subconscious information stored in LTM 7/2/20129

10 MDufilho10 Brain Video Shows role of hippocampus in short-term and long-term memory Shows physiology of chemical synapse

11 MDufilho Categories of Memory 1.Declarative (fact) memory –Explicit information –Related to conscious thoughts and language ability –Stored in LTM with context in which learned 7/2/201211

12 MDufilho Categories of Memory 2.Nondeclarative memory –Less conscious or unconscious –Acquired through experience and repetition –Best remembered by doing; hard to unlearn –Includes procedural (skills) memory, motor memory, and emotional memory 7/2/201212

13 MDufilho Figure 12.21a Proposed memory circuits. Thalamus Basal forebrain Prefrontal cortex Smell Touch Hearing Vision Hippocampus Taste Sensory input Association cortex Thalamus Medial temporal lobe (hippocampus, etc.) Prefrontal cortex ACh released by basal forebrain Declarative memory circuits 7/2/201213

14 MDufilho Figure 12.21b Proposed memory circuits. Sensory and motor inputs Association cortex Basal nuclei Thalamus Premotor cortex Dopamine released by substantia nigra Basal nuclei Substantia nigra Thalamus Premotor cortex Procedural (skills) memory circuits 7/2/201214

15 MDufilho Molecular Basis of Memory During learning: –Neuronal RNA altered; newly synthesized mRNA moved to axons and dendrites –Dendritic spines change shape –Extracellular proteins deposited at synapses involved in LTM –Number and size of presynaptic terminals may increase –Presynaptic neurons release more neurotransmitter 7/2/201215

16 MDufilho Molecular Basis of Memory Long-term potentiation (LTP) –Increase in synaptic strength crucial Neurotransmitter (glutamate) binds to NMDA receptors, opening calcium channels in postsynaptic terminal –Calcium influx activates enzymes to Modifies proteins in pre and postsynaptic terminals– this strengthens response to the next stimuli Activate genes in postsynaptic neuron to produce new synaptic proteins 7/2/201216

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