logging in or signing up module 03 cvmogol Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 383 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: November 29, 2008 This Presentation is Public Favorites: 2 Presentation Description Brain's Building Blocks Comments Posting comment... Premium member Presentation Transcript Module 3 : Module 3 Brain’s Building Blocks DEVELOPMENT OF THE BRAIN : DEVELOPMENT OF THE BRAIN fact that your brain does not develop into a nose is because of instructions contained in your genes Genes chains of chemicals that are arranged like rungs on a twisting ladder there are about 20,000-25,000 genes that contain chemical instructions that equal about 300,000 pages of written instructions genes program the development of individual parts into a complex body & brain DEVELOPMENT OF THE BRAIN (CONT.) : DEVELOPMENT OF THE BRAIN (CONT.) DEVELOPMENT OF THE BRAIN (CONT.) : DEVELOPMENT OF THE BRAIN (CONT.) STRUCTURE OF THE BRAIN : STRUCTURE OF THE BRAIN Human brain: is shaped like a small wrinkled melon 1,350 grams (less than 3 pounds) pinkish-white color consistency of firm Jell-O Fueled by sugar (glucose) 1 trillion cells divided into glial cells neurons STRUCTURE OF THE BRAIN (CONT.) : STRUCTURE OF THE BRAIN (CONT.) STRUCTURE OF THE BRAIN (CONT.) : STRUCTURE OF THE BRAIN (CONT.) Glial cells 3 Functions: guide the growth of developing neurons wrap around neurons and form an insulation to prevent interference from other electrical signals release chemicals that influence a neuron’s growth and function STRUCTURE OF THE BRAIN (CONT.) : STRUCTURE OF THE BRAIN (CONT.) Neuron a brain cell with 2 specialized extensions one extension is for receiving electrical signals the other extension is for transmitting electrical signals GROWTH OF NEW NEURONS : GROWTH OF NEW NEURONS Can a brain grow new neurons? canary brain can grow about 20,000 neurons a day during the spring (learns new breeding song) primate and human brain researchers conclude that adult monkey and human brains are capable of growing relatively limited numbers of neurons throughout adulthood Some new neurons play important role in continuing to learn and remember new things (hippocampus) GROWTH OF NEW NEURONS (CONT.) : GROWTH OF NEW NEURONS (CONT.) Repairing the Brain advances in stem research suggest the human brain may be able to grow more neurons repair damages: accident disease Alzheimer’s PARTS OF THE NEURON : PARTS OF THE NEURON PARTS OF THE NEURON : PARTS OF THE NEURON Cell Body large egg-shaped structure that provides fuel, manufactures chemicals, and maintains the entire neuron in working order PARTS OF THE NEURON : PARTS OF THE NEURON Dendrite branchlike extensions that arise from the cell body receive signals from other neurons, muscles, or sense organs pass these signals onto the cell body PARTS OF THE NEURON : PARTS OF THE NEURON Axon a single threadlike structure that extends from and carries signals away from the cell body to neighboring neurons, organs, or muscles PARTS OF THE NEURON : PARTS OF THE NEURON Myelin Sheath looks like separate tubelike segments composed of fatty material that wraps around and insulates an axon prevents interference from electrical signals generated in adjacent axons PARTS OF THE NEURON : PARTS OF THE NEURON End bulbs or Terminal bulbs located at extreme ends of the axon’s branches miniature container that stores chemicals called neurotransmitters (used to communicate with neighboring cells) PARTS OF THE NEURON : PARTS OF THE NEURON Synapse infinitely small space (20-30 billionths of a meter) exists between and end bulb and its adjacent body organ (e.g. heart), muscles (e.g. head), or cell body ALZHEIMER’S DISEASE AND NEURONS : ALZHEIMER’S DISEASE AND NEURONS Alzheimer’s disease excessive buildup of gluelike substances gradually destroy neurons Researchers recently discovered an experimental vaccine that may help stop the buildup of these gluelike, killer substances and they continue to search for other interventions ALZHEIMER’S DISEASE AND NEURONS : ALZHEIMER’S DISEASE AND NEURONS PERIPHERAL & CENTRAL NERVOUS SYSTEM : PERIPHERAL & CENTRAL NERVOUS SYSTEM Peripheral Nervous System (PNS) made up of nerves that are located throughout the body, except in the brain & spinal cord Central Nervous System (CNS) made up of neurons located in the brain & spinal cord PERIPHERAL & CENTRAL NERVOUS SYSTEM (CONT.) : PERIPHERAL & CENTRAL NERVOUS SYSTEM (CONT.) Nerves stringlike bundles of axons and dendrites that come from the spinal cord and are held together by connective tissue carry information from the senses, skin, muscles, and the body’s organs to and from the spinal cord nerves in the peripheral nervous system have the ability to grow or reattach if severed or damaged SENDING INFORMATION: ACTION POTENTIAL SEQUENCE : SENDING INFORMATION: ACTION POTENTIAL SEQUENCE axon membrane has chemical gates that can open to allow electrically charged particles to enter or can close to keep out these particles ions are chemical particles that have electrical charges opposite charges attract and like charges repel SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) SENDING INFORMATION: ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION: ACTION POTENTIAL SEQUENCE (CONT.) Resting state the axon has a charge the charge results from the axon membrane separating positive ions on the outside from negative ions on the inside SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) Action potential tiny electric current that is generated when the positive sodium ions rush inside the axon enormous increase of sodium ions inside the axon causes the inside of the axon to reverse its charge inside becomes positive and outside becomes negative SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) SENDING INFORMATION: NERVE IMPULSE : SENDING INFORMATION: NERVE IMPULSE Sending information action potential is a tiny electrical current that is generated when the positive sodium ions rush inside the axon the enormous increase of Na ions inside the axon causes the inside to reverse its charge the inside becomes positive & the outside becomes negative SENDING INFORMATION: NERVE IMPULSE (CONT.) : SENDING INFORMATION: NERVE IMPULSE (CONT.) All-or-None law if an action potential starts at the beginning of the axon, the action potential will continue at the same speed segment to segment to the very end of the axon Nerve impulse nerve impulse is made up of 6 action potentials, with the first occurring at the beginning of the axon TRANSMITTERS : TRANSMITTERS A transmitter is a chemical messenger that transmits information between nerves and body organs, such as muscles and heart Excitatory and Inhibitory excitatory transmitters open chemical locks and turn on neurons inhibitory transmitters block chemical locks and turn off neurons NEUROTRANSMITTER : NEUROTRANSMITTER Neurotransmitters dozens of different chemicals that are made by neurons and then used for communication between neurons during the performance of mental or physical activities ALCOHOL : ALCOHOL Alcohol (ethyl alcohol) A psychoactive drug that is classified as a depressant, which means that it depresses the activity of the central nervous system ALCOHOL : ALCOHOL WHAT DOES ALCOHOL DO? : WHAT DOES ALCOHOL DO? Alcohol affects the brain by imitating a naturally occurring neurotransmitter, GABA GABA Neurons GABA neurons have chemical locks that can be opened by chemical keys in the form of the neurotransmitter GABA GABA Keys alcohol molecules so closely resemble those of the GABA neurotransmitter that alcohol can function like GABA keys and open GABA receptors when GABA neurons are excited, they decrease neural activity WHAT DOES ALCOHOL DO? (CONT.) : WHAT DOES ALCOHOL DO? (CONT.) many people drink alcohol to feel less anxious and more relaxed appears to be a biological link between alcohol and anxiety deficiency in a specific brain protein is associated with high anxiety and excessive alcohol use NEW TRANSMITTERS : NEW TRANSMITTERS Number of well-known neurotransmitters, such as Acetylcholine GABA Norepinephrine Epinephrine Dopamine Serotonin NEW TRANSMITTERS (CONT.) : NEW TRANSMITTERS (CONT.) New Endorphins (1970’s) painkiller similar to morphine decreases effects of pain during great bodily stress Anandamide (1990’s) similar to THC (active ingredient in marijuana) involved with memory motorcoordination emotions NEW TRANSMITTERS (CONT.) : NEW TRANSMITTERS (CONT.) Anandamide may help people regulate emotions, which would help them to better deal with anxiety and stress Nitric oxide (mid-1990’s) may be involved in regulating aggressive and impulsive behaviors REFLEX : REFLEX Reflex unlearned, involuntary reaction to some stimulus neural connections underlying a reflex are prewired by genetic instructions REFLEX (CONT.) : REFLEX (CONT.) Reflex sequence sensors sensors trigger neurons that start the withdrawal effect afferent neurons carry information from the senses to the spinal cord REFLEX (CONT.) : REFLEX (CONT.) Interneuron relatively short neuron whose primary task is making connections between other neurons Efferent neuron carry information away from the spinal cord to produce responses in various muscles and organs throughout the body REFLEX (CONT.) : REFLEX (CONT.) PARKINSON’S DISEASE : PARKINSON’S DISEASE Parkinson’s Disease includes symptoms of tremors and shakes in the limbs, a slowing of voluntary movements, muscle stiffness, problems with balance and coordination and feelings of depression as the disease progresses, patients develop a shuffling walk and may suddenly freeze in space for minutes or hours at a time Michael J. Fox PARKINSON’S DISEASE (CONT.) : PARKINSON’S DISEASE (CONT.) Parkinson’s Disease it is caused by destruction of neurons that produce dopamine L-dopa is a medication that boosts the levels of dopamine in the brain eventually the drug causes involuntary jerky movements after prolonged use, L-dopa’s beneficial effect may be replaced by unwanted jerky movements EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS Sterotaxic procedure fixing a patient’s head in a holder and drilling a small hole through the skull the holder has a syringe that can be precisely guided into a predetermined location in the brain EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS Removing part of the brain Thalamotomy (Michael J. Fox) Brain Stimulation electrodes placed into thalamus patient controls amount of stimulus helps reduce tremors EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS You do not have the permission to view this presentation. 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module 03 cvmogol Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 383 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: November 29, 2008 This Presentation is Public Favorites: 2 Presentation Description Brain's Building Blocks Comments Posting comment... Premium member Presentation Transcript Module 3 : Module 3 Brain’s Building Blocks DEVELOPMENT OF THE BRAIN : DEVELOPMENT OF THE BRAIN fact that your brain does not develop into a nose is because of instructions contained in your genes Genes chains of chemicals that are arranged like rungs on a twisting ladder there are about 20,000-25,000 genes that contain chemical instructions that equal about 300,000 pages of written instructions genes program the development of individual parts into a complex body & brain DEVELOPMENT OF THE BRAIN (CONT.) : DEVELOPMENT OF THE BRAIN (CONT.) DEVELOPMENT OF THE BRAIN (CONT.) : DEVELOPMENT OF THE BRAIN (CONT.) STRUCTURE OF THE BRAIN : STRUCTURE OF THE BRAIN Human brain: is shaped like a small wrinkled melon 1,350 grams (less than 3 pounds) pinkish-white color consistency of firm Jell-O Fueled by sugar (glucose) 1 trillion cells divided into glial cells neurons STRUCTURE OF THE BRAIN (CONT.) : STRUCTURE OF THE BRAIN (CONT.) STRUCTURE OF THE BRAIN (CONT.) : STRUCTURE OF THE BRAIN (CONT.) Glial cells 3 Functions: guide the growth of developing neurons wrap around neurons and form an insulation to prevent interference from other electrical signals release chemicals that influence a neuron’s growth and function STRUCTURE OF THE BRAIN (CONT.) : STRUCTURE OF THE BRAIN (CONT.) Neuron a brain cell with 2 specialized extensions one extension is for receiving electrical signals the other extension is for transmitting electrical signals GROWTH OF NEW NEURONS : GROWTH OF NEW NEURONS Can a brain grow new neurons? canary brain can grow about 20,000 neurons a day during the spring (learns new breeding song) primate and human brain researchers conclude that adult monkey and human brains are capable of growing relatively limited numbers of neurons throughout adulthood Some new neurons play important role in continuing to learn and remember new things (hippocampus) GROWTH OF NEW NEURONS (CONT.) : GROWTH OF NEW NEURONS (CONT.) Repairing the Brain advances in stem research suggest the human brain may be able to grow more neurons repair damages: accident disease Alzheimer’s PARTS OF THE NEURON : PARTS OF THE NEURON PARTS OF THE NEURON : PARTS OF THE NEURON Cell Body large egg-shaped structure that provides fuel, manufactures chemicals, and maintains the entire neuron in working order PARTS OF THE NEURON : PARTS OF THE NEURON Dendrite branchlike extensions that arise from the cell body receive signals from other neurons, muscles, or sense organs pass these signals onto the cell body PARTS OF THE NEURON : PARTS OF THE NEURON Axon a single threadlike structure that extends from and carries signals away from the cell body to neighboring neurons, organs, or muscles PARTS OF THE NEURON : PARTS OF THE NEURON Myelin Sheath looks like separate tubelike segments composed of fatty material that wraps around and insulates an axon prevents interference from electrical signals generated in adjacent axons PARTS OF THE NEURON : PARTS OF THE NEURON End bulbs or Terminal bulbs located at extreme ends of the axon’s branches miniature container that stores chemicals called neurotransmitters (used to communicate with neighboring cells) PARTS OF THE NEURON : PARTS OF THE NEURON Synapse infinitely small space (20-30 billionths of a meter) exists between and end bulb and its adjacent body organ (e.g. heart), muscles (e.g. head), or cell body ALZHEIMER’S DISEASE AND NEURONS : ALZHEIMER’S DISEASE AND NEURONS Alzheimer’s disease excessive buildup of gluelike substances gradually destroy neurons Researchers recently discovered an experimental vaccine that may help stop the buildup of these gluelike, killer substances and they continue to search for other interventions ALZHEIMER’S DISEASE AND NEURONS : ALZHEIMER’S DISEASE AND NEURONS PERIPHERAL & CENTRAL NERVOUS SYSTEM : PERIPHERAL & CENTRAL NERVOUS SYSTEM Peripheral Nervous System (PNS) made up of nerves that are located throughout the body, except in the brain & spinal cord Central Nervous System (CNS) made up of neurons located in the brain & spinal cord PERIPHERAL & CENTRAL NERVOUS SYSTEM (CONT.) : PERIPHERAL & CENTRAL NERVOUS SYSTEM (CONT.) Nerves stringlike bundles of axons and dendrites that come from the spinal cord and are held together by connective tissue carry information from the senses, skin, muscles, and the body’s organs to and from the spinal cord nerves in the peripheral nervous system have the ability to grow or reattach if severed or damaged SENDING INFORMATION: ACTION POTENTIAL SEQUENCE : SENDING INFORMATION: ACTION POTENTIAL SEQUENCE axon membrane has chemical gates that can open to allow electrically charged particles to enter or can close to keep out these particles ions are chemical particles that have electrical charges opposite charges attract and like charges repel SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) SENDING INFORMATION: ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION: ACTION POTENTIAL SEQUENCE (CONT.) Resting state the axon has a charge the charge results from the axon membrane separating positive ions on the outside from negative ions on the inside SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) Action potential tiny electric current that is generated when the positive sodium ions rush inside the axon enormous increase of sodium ions inside the axon causes the inside of the axon to reverse its charge inside becomes positive and outside becomes negative SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) : SENDING INFORMATION:ACTION POTENTIAL SEQUENCE (CONT.) SENDING INFORMATION: NERVE IMPULSE : SENDING INFORMATION: NERVE IMPULSE Sending information action potential is a tiny electrical current that is generated when the positive sodium ions rush inside the axon the enormous increase of Na ions inside the axon causes the inside to reverse its charge the inside becomes positive & the outside becomes negative SENDING INFORMATION: NERVE IMPULSE (CONT.) : SENDING INFORMATION: NERVE IMPULSE (CONT.) All-or-None law if an action potential starts at the beginning of the axon, the action potential will continue at the same speed segment to segment to the very end of the axon Nerve impulse nerve impulse is made up of 6 action potentials, with the first occurring at the beginning of the axon TRANSMITTERS : TRANSMITTERS A transmitter is a chemical messenger that transmits information between nerves and body organs, such as muscles and heart Excitatory and Inhibitory excitatory transmitters open chemical locks and turn on neurons inhibitory transmitters block chemical locks and turn off neurons NEUROTRANSMITTER : NEUROTRANSMITTER Neurotransmitters dozens of different chemicals that are made by neurons and then used for communication between neurons during the performance of mental or physical activities ALCOHOL : ALCOHOL Alcohol (ethyl alcohol) A psychoactive drug that is classified as a depressant, which means that it depresses the activity of the central nervous system ALCOHOL : ALCOHOL WHAT DOES ALCOHOL DO? : WHAT DOES ALCOHOL DO? Alcohol affects the brain by imitating a naturally occurring neurotransmitter, GABA GABA Neurons GABA neurons have chemical locks that can be opened by chemical keys in the form of the neurotransmitter GABA GABA Keys alcohol molecules so closely resemble those of the GABA neurotransmitter that alcohol can function like GABA keys and open GABA receptors when GABA neurons are excited, they decrease neural activity WHAT DOES ALCOHOL DO? (CONT.) : WHAT DOES ALCOHOL DO? (CONT.) many people drink alcohol to feel less anxious and more relaxed appears to be a biological link between alcohol and anxiety deficiency in a specific brain protein is associated with high anxiety and excessive alcohol use NEW TRANSMITTERS : NEW TRANSMITTERS Number of well-known neurotransmitters, such as Acetylcholine GABA Norepinephrine Epinephrine Dopamine Serotonin NEW TRANSMITTERS (CONT.) : NEW TRANSMITTERS (CONT.) New Endorphins (1970’s) painkiller similar to morphine decreases effects of pain during great bodily stress Anandamide (1990’s) similar to THC (active ingredient in marijuana) involved with memory motorcoordination emotions NEW TRANSMITTERS (CONT.) : NEW TRANSMITTERS (CONT.) Anandamide may help people regulate emotions, which would help them to better deal with anxiety and stress Nitric oxide (mid-1990’s) may be involved in regulating aggressive and impulsive behaviors REFLEX : REFLEX Reflex unlearned, involuntary reaction to some stimulus neural connections underlying a reflex are prewired by genetic instructions REFLEX (CONT.) : REFLEX (CONT.) Reflex sequence sensors sensors trigger neurons that start the withdrawal effect afferent neurons carry information from the senses to the spinal cord REFLEX (CONT.) : REFLEX (CONT.) Interneuron relatively short neuron whose primary task is making connections between other neurons Efferent neuron carry information away from the spinal cord to produce responses in various muscles and organs throughout the body REFLEX (CONT.) : REFLEX (CONT.) PARKINSON’S DISEASE : PARKINSON’S DISEASE Parkinson’s Disease includes symptoms of tremors and shakes in the limbs, a slowing of voluntary movements, muscle stiffness, problems with balance and coordination and feelings of depression as the disease progresses, patients develop a shuffling walk and may suddenly freeze in space for minutes or hours at a time Michael J. Fox PARKINSON’S DISEASE (CONT.) : PARKINSON’S DISEASE (CONT.) Parkinson’s Disease it is caused by destruction of neurons that produce dopamine L-dopa is a medication that boosts the levels of dopamine in the brain eventually the drug causes involuntary jerky movements after prolonged use, L-dopa’s beneficial effect may be replaced by unwanted jerky movements EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS Sterotaxic procedure fixing a patient’s head in a holder and drilling a small hole through the skull the holder has a syringe that can be precisely guided into a predetermined location in the brain EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS Removing part of the brain Thalamotomy (Michael J. Fox) Brain Stimulation electrodes placed into thalamus patient controls amount of stimulus helps reduce tremors EXPERIMENTAL TREATMENTS : EXPERIMENTAL TREATMENTS