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Stimulus Response Lab Research… • Each student should pick from the following list of disorders to research & answer the questions on the worksheet. Be prepared to share with the class. o o o o o o o o o o o o Bells Palsy Cerebral Palsy Multiple Sclerosis Parkinson’s Disease Huntington’s Disease Tay-Sach’s Amyotrophic lateral sclerosis (Lou Gherig’s Disease) Epilepsy Meningitis Alzheimer’s Disease Muscular Distrophy Any other nervous disorder you may find on the internet! Do Now • Take out your research on your disease/disorder. • Explain your disorder to a partner. • Each partner is going to share what they learned from each other! The Nervous System Chapter 9 Objectives • To identify the basic structure of a neuron. • To explain the main components of the nervous system. • To compare and contrast the central nervous system and the peripheral nervous system. • To differentiate between the somatic and autonomic nervous systems. Nervous System • Think back to when we talked about nervous tissue. What is it’s function? How does it go about doing this? • General Functions: o Sensory (detect change) o Integrative (make sense of it) o Motor (cause a response) Structure of a Neuron • Neuron= Nerve Cell • Reacts to physical/chemical changes in surroundings • Transmit information through nerve impulses to other neurons and other cells. Structure of a Neuron CNS vs. PNS • CNS (Central Nervous System): o Brain o Spinal Cord • PNS (Peripheral Nervous System): o Cranial nerves o Spinal Nerves PNS • Contains a sensory division and a motor division. • Sensory Division: o Contains sensory receptors that convert info into a nerve impulse and transmit it back to the CNS to make sense of it. o Monitors environmental changes such as light and sound o Detects changes in homeostasis ( ex: temperature, oxygen level) Motor Division • Utilize peripheral neurons to carry impulses from the CNS to an effector which will cause a response o Ex: muscle contraction, gland secretion, etc. Motor Division • Somatic Nervous System: o Controls skeletal muscle and voluntary movement. • Autonomic Nervous System: o Controls effectors that are involuntary • Ex: heart, smooth muscle, certain glands Lets put that all together… Do Now • What are the 2 divisions of the nervous system? • Name as many parts of a neuron that you can remember. • What are the 3 main functions of the nervous system? Objectives • To identify and explain the 3 different structures of neurons. • To compare and contrast sensory, motor, and interneurons and explain a general pathway. • To determine the functions of the 5 types of neuroglia. Lets Review… • General Neuron structure and action potential Types of Neurons Multipolar: o Many processes stemming from cell body. o *most neurons in brain and spinal cord are multipolar Types of Neurons Bipolar: o Only two processes (one at each end. o *found in eyes, nose, ears.. Types of Neurons Unipolar: o One single process extending from cell body. o one side of axon is the peripheral process associated with body part, other side is the central process that enters brain or spinal cord. o Cell bodies create a tissue mass called ganglia. Types of Neurons Neuron Classification • Sensory Neurons (afferent): o Carry impulses from PNS to CNS o Contain “receptor ends” at the tips of dendrites o Changes outside the body stimulate receptor ends triggering an impulse o *Most are unipolar Neuron Classification • Interneurons (association): o Completely in brain or spinal cord. o Link neurons together. o *multipolar Neuron Classification • Motor Neurons (efferent): o carry impulses out of brain or spinal cord to the effector and stimulate response. General Pathway Neuroglial Cells *More numerous than neurons, support neurons in different ways. • Microglial Cells: o Phagocytize bacterial cells and cellular debris • Oligodendrocytes: o Provide insulating layers of myelin • Astrocytes: o o o o Provide structural support join parts (ex: neuroncapillary) help regulate concentrations of nutrients and ions Form scar tissue in the CNS • Ependymal Cells: o Forms membrane that covers specialized brain parts and forms inner linings within the brain and spinal canal • Schwann cells: o Forms myelin sheath around axons. Myelin • A lipid that sometimes coats axons o White matter = myelinated axons in CNS o Gray matter = cell bodies & unmyelinated axons in CNS • Produced by some neuroglial cells • Insulates neurons & increases efficiency of nerve impulses Neuroglial Cells • Oligodendron, astrocytes, and microglial cells Neuroglial Cells Do Now • Which sub-division of the PNS is responsible for your heart beating? • What is the difference between afferent and efferent neurons? • What part of the neuron carries messages to the CNS? • Where are bipolar neurons commonly found? Objectives • To explain how a nerve impulse occurs. • To determine what types of stimuli elicit an action potential. • To explain different things that inhibit an action potential. • To understand components of a neuron that contribute to impulse velocity. Cell Membrane Potential • The membrane is electrically charged, “polarized” due to Na+ and K+ ions o Greater concentration of sodium ions outside and potassium ions inside. o Potassium ions pass through more easily o Active transport (sodium/potassium pump) maintains balance • This is essential in the propagation of a nerve impulse. Resting Potential • When a nerve cell membrane is undisturbed, the membrane remains polarized staying more negative on the inside and positive on the outside. Threshold Potential • If the nerve cell detects a change in light/temp/pressure it effects the resting potential and the membrane begins depolarizing. o Sodium channels open and + ions flow in, making the inside less negative. • Change in potential is proportional to the intensity of the stimulation. • Stimulation + more stimulation before initial stimulation subsides is called summation. • Once the threshold is reached, an action potential occurs. Action Potential Impulse Conduction • Unmyelinated nerve = impulse conducted over the entire surface. • Myelin insulates and prevents ion flow, would prevent conduction if it were continuous and didn’t have the nodes of ranvier. • Myelinated nerve= impulse jumps from node to node and creates a saltatory response and is much faster than unmyelinated. All-or-None • Nerve impulses create an “all or none response”. Once the stimulus reaches threshold, it generates an action potential. Action Potential Animation • http://highered.mcgrawhill.com/sites/0072943696/student_view0/chapter8/ animation__action_potential_propagation_in_an_u nmyelinated_axon__quiz_2_.html PhysioEx Lab • “Neurophysiology of Nerve Impulses” o Complete the physioEx lab. Answer the questions. You DON’T have to print the graphs. o Complete the “review sheet” when you are done with your lab. o You will have a LAB QUIZ next lab day on this material. (Next Wednesday) Do Now • How is an impulse generated? • What are some ways to generate an impulse? • List the different inhibitors that can prevent an action potential and how? Objectives • Identify the different components of a reflex arc. • Explain different autonomic reflexes found throughout the body. Article • Read the article about impulses and answer the questions! Responses • How would you explain how your body responds to a stimulus? (use what you know about neurons) Reflexes • Ordinarily, a receptor sends a signal to the brain where the brain coordinates a response. • What happens when you touch something hot? Reflex Arc • A reflex is a rapid action that happens without thought and does not involve the brain. • Lets take a look… o http://www.bbc.co.uk/schools/gcsebitesize/science/aqa_pre_2011/hum an/thenervoussystemrev3.shtml Reflex Arc 1) Receptor- sense organ in skin, muscle, or other organ 2) Sensory Neuron- carries impulse towards CNS from receptor 3) Interneuron- carries impulse within CNS 4) Motor Neuron- carries impulse away from CNS to effector 5) Effector- structure by which animal responds (muscle, gland, etc). Reflex Arc Types of Reflexes Babinski Reflex • http://vimeo.com/1471 4777 Study Guide • • • • Lab quiz Wednesday Test on Ch. 9 on Friday PhysioEx Lab due Wed Brain dissection lab due Friday