Properties of Nerve Fibres. Dr. Ayisha Qureshi Professor MBBS, MPhil
|
|
- Rosaline Baker
- 5 years ago
- Views:
Transcription
1 Properties of Nerve Fibres Dr. Ayisha Qureshi Professor MBBS, MPhil
2 1. PROPAGATION OF AN ACTION POTENTIAL
3
4 Does the action potential become weak (decremental) as it travels down the nerve fiber?
5 Does the action potential become weak (decremental) as it travels down the nerve fiber? NO, the action potential does NOT become weak as it travels down the nerve fiber. In fact, the AP does NOT travel down the nerve fiber but triggers a NEW AP in every new part of the membrane. It is like a wave at a stadium. Each section of spectators stands up (the rising phase of an action potential), then sits down (the falling phase) in sequence one after another as the wave moves around the stadium. The wave, not individual spectators, travels around the stadium. Thus, the last action potential at the end of the axon is identical to the original one, no matter how long the axon is. In this way, action potentials can serve as long-distance signals without becoming weak or distorted or decremental.
6 2. CONDUCTION OF AP IN A MYELINATED & UNMYELINATED NERVE FIBRE:
7 Which do you think has a faster rate of AP conduction myelinated or unmyelinated axons?
8 Continuous Conduction in Unmyelinated fibers Point to Point Continuous conduction occurs in unmyelinated axons. In this situation, the wave of de- and repolarization simply travels from one patch of membrane to the next adjacent patch.
9 Saltatory Conduction in Myelinated fibres In a Myelinated Nerve Fibre an Action Potential travels by SALTATORY Conduction, which is in a jumping manner from one Node of Ranvier to the next Node of Ranvier. Saltatory conduction is faster because the current leak is minimized. The unmyelinated axon has low resistance to current leak because the entire axon membrane is in contact with the extracellular fluid and has ion channels through which current can leak.
10
11 Which do you think has a faster rate of AP conduction myelinated or unmyelinated axons? Myelinated Axon
12 Myelination increases speed of nerve impusle conduction Action potentials race along myelinated nerve fibres at rates of up to 100 metres/second or more, while in unmyelinated fibers they have a speed of 1 metre/second only. Very, very important!
13 3. CONDUCTION OF AP IN A LARGE & SMALL DIAMETER NERVE FIBER
14 Which do you think would conduct an AP faster: an axon with a large diameter or an axon with a small diameter?
15 Which do you think would conduct an AP faster: an axon with a large diameter or an axon with a small diameter? Axon with a large diameter.
16 4. ALL OR NONE LAW
17 ALL OR NONE LAW (also called the All or Nothing Law) On application of a stimulus, an excitable membrane either responds with a maximal or full-fledged action potential that spreads along the nerve fiber, or it does not respond with an action potential at all. This property is called the all-or-none law. (This is in direct proportion to the strength of the stimulus applied.) e.g: This is similar to firing a gun. Either the trigger is NOT pulled sufficiently to fire the gun (subthreshold stimulus) OR it is pulled hard enough to fire the gun (threshold is reached). Squeezing the trigger harder does not produce a greater explosion, just as pulling the trigger halfway does not cause the gun to fire halfway.
18 Some Action Potential Questions 1. Can you ever have ½ an AP? 2. Will one AP ever be bigger than another? Why or why not? 3. If all action potentials are the same, how does the neuron transmit information about the strength and duration of the stimulus that started the action potential?
19 Because all action potentials are the same, the CNS differentiates between the strength of different stimuli by the frequency of the action potentials. The more the number of action potentials, the stronger the stimulus. Similarly, the duration can be known by the simple fact: as long as the action potentials are firing, the stimulus is still there.
20
21 5. Refractory period: Once an Action Potential has begun, a second action potential cannot be started. It is of 2 main types: - ABSOLUTE REFRACTORY PERIOD - RELATIVE REFRACTORY PERIOD
22 ABSOLUTE REFRACTORY PERIOD Definition: Once an action potential has begun, the time period during which even a suprathreshold stimulus will fail to produce a new action potential is called the Absolute Refractory period. During this time the membrane becomes completely refractory ( unresponsive ) to any further stimulation. It is the entire Depolarization phase & most of the Repolarization phase. ADVANTAGE: Due to Absolute refractory period, one AP must be over before another can be initiated at the same site. A second action potential cannot occur before the first has finished, thus, action potentials moving from trigger zone to axon terminal CANNOT overlap and CANNOT travel backward.
23 BASIS OF AN ABSOLUTE REFRACTORY PERIOD: During the depolarization phase of AP, the voltagegated Sodium channels have still NOT reset to their original position. For the Sodium channels to respond to a stimulus, 2 events are important: 1. Sodium channels be reset to their resting position. i.e: inactivation gates open and activation gates closed. 2. The Resting membrane potential must be reestablished.
24 Relative Refractory Period Definition: During an action potential, there is a short duration of time during which a second action potential CAN be produced, if the triggering event is a suprathreshold stimulus. This period is called the Relative Refractory Period. It corresponds to the last half of the Repolarization phase.
25 Basis of a Relative Refractory Period: An action potential can be produced by a suprathreshold stimulus because of the following reasons: 1. By the end of repolarization phase, some Na channels have reset. These Na channels will respond to a larger than normal stimulus. 2. Thus, a greater than normal triggering event (suprathreshold stimulus) is required to produce an AP.
26
27 In this figure, what do the red and blue box represent? V M TIME
28 What is the significance of the REFRACTORY PERIOD (both absolute & relative): 1. It sets an upper limit on the maximum numbers of APs that can be produced in a nerve fibre in a given period of time. 2. It prevents fatigue in a nerve fibre. This intermittent, (ie. Not continuous) conduction of nerve impulses is one of the reasons why a nerve fibre can respond to continuous stimulation for hours without getting tired. 3. A new AP is produced in each part of the nerve fibre. This ensures that the AP does not die out as it is conducted along the membrane. 4. The absolute refractory period also ensures one-way travel of an action potential from cell body to axon terminal by preventing the action potential from traveling backward.
29 6. COMPOUND ACTION POTENTIAL:
30
31 Compound Action Potential is seen in a nerve trunk & NOT a nerve fibre: An action potential having more than one peak/spike is called a Compound action potential. CAUSE: A nerve trunk contains many nerve fibres differing widely in their excitability & different speeds of conduction of AP. Multiple peaks are recorded with the AP from fastest conducting nerve fibre first to be recorded followed by the slower ones...
32 Strength duration curve is obtained by plotting the voltage (current strength) of the stimulus against the duration of the stimulus. STRENGTH DURATION CURVE
33
34 Rheobase: It is the minimum voltage value of the stimulus which when applied for an adequately prolonged time will give rise to an action potential. Utilization time: It is the time needed by the threshold stimulus (rheobase) to give a response. Chronaxie: It is the minimum duration for which a stimulus equal to twice the Rheobase value has to be applied in order to be effective in obtaining a response. (Chronaxie is a measure of excitability: Tissues which are more excitable will have a shorter chronaxie and vice versa.)
35 PROPERTIES OF AN ACTION POTENTIAL 1. Propagation of an AP 2. Conduction in myelinated & Unmyelinated fibres. 3. Conduction in large and small diameter fibres. 4. All or none Law. 5. Absolute & Relative Refractory period. 6. Compound Action Potential. 7. Strength duration curve
Nerve. (2) Duration of the stimulus A certain period can give response. The Strength - Duration Curve
Nerve Neuron (nerve cell) is the structural unit of nervous system. Nerve is formed of large numbers of nerve fibers. Types of nerve fibers Myelinated nerve fibers Covered by myelin sheath interrupted
More informationNEURONS Chapter Neurons: specialized cells of the nervous system 2. Nerves: bundles of neuron axons 3. Nervous systems
NEURONS Chapter 12 Figure 12.1 Neuronal and hormonal signaling both convey information over long distances 1. Nervous system A. nervous tissue B. conducts electrical impulses C. rapid communication 2.
More informationChapter 7 Nerve Cells and Electrical Signaling
Chapter 7 Nerve Cells and Electrical Signaling 7.1. Overview of the Nervous System (Figure 7.1) 7.2. Cells of the Nervous System o Neurons are excitable cells which can generate action potentials o 90%
More informationPhysiology of the nerve
Physiology of the nerve Objectives Transmembrane potential Action potential Relative and absolute refractory period The all-or-none law Hoorweg Weiss curve Du Bois Reymond principle Types of nerve fibres
More informationAP Biology Unit 6. The Nervous System
AP Biology Unit 6 The Nervous System Branches of the Nervous System There are 2 main branches of the nervous system Central Nervous System Brain Spinal Cord Peripheral Nervous System All nerves leading
More informationOmar Sami. Muhammad Abid. Muhammad khatatbeh
10 Omar Sami Muhammad Abid Muhammad khatatbeh Let s shock the world In this lecture we are going to cover topics said in previous lectures and then start with the nerve cells (neurons) and the synapses
More informationBranches of the Nervous System
The Nervous System Branches of the Nervous System There are 2 main branches of the nervous system Central Nervous System Brain Spinal Cord Peripheral Nervous System All nerves leading to rest of body Anatomy
More informationNeurons. Pyramidal neurons in mouse cerebral cortex expressing green fluorescent protein. The red staining indicates GABAergic interneurons.
Neurons Pyramidal neurons in mouse cerebral cortex expressing green fluorescent protein. The red staining indicates GABAergic interneurons. MBL, Woods Hole R Cheung MSc Bioelectronics: PGEE11106 1 Neuron
More informationThursday, January 22, Nerve impulse
Nerve impulse Transmembrane Potential caused by ions moving through cell membrane at different rates Two main ions of concern Na + - Sodium K + - potassium Cell membrane not freely permeable therefore
More informationNeurons, Synapses, and Signaling
Neurons, Synapses, and Signaling The Neuron is the functional unit of the nervous system. Neurons are composed of a cell body, which contains the nucleus and organelles; Dendrites which are extensions
More informationSTRUCTURAL ELEMENTS OF THE NERVOUS SYSTEM
STRUCTURAL ELEMENTS OF THE NERVOUS SYSTEM STRUCTURE AND MAINTENANCE OF NEURONS (a) (b) Dendrites Cell body Initial segment collateral terminals (a) Diagrammatic representation of a neuron. The break in
More informationAmeen Alsaras. Ameen Alsaras. Mohd.Khatatbeh
9 Ameen Alsaras Ameen Alsaras Mohd.Khatatbeh Nerve Cells (Neurons) *Remember: The neural cell consists of: 1-Cell body 2-Dendrites 3-Axon which ends as axon terminals. The conduction of impulse through
More informationOutline. Neuron Structure. Week 4 - Nervous System. The Nervous System: Neurons and Synapses
Outline Week 4 - The Nervous System: Neurons and Synapses Neurons Neuron structures Types of neurons Electrical activity of neurons Depolarization, repolarization, hyperpolarization Synapses Release of
More informationNeurophysiology scripts. Slide 2
Neurophysiology scripts Slide 2 Nervous system and Endocrine system both maintain homeostasis in the body. Nervous system by nerve impulse and Endocrine system by hormones. Since the nerve impulse is an
More informationChapter 11: Functional Organization of Nervous Tissue
Chapter 11: Functional Organization of Nervous Tissue I. Functions of the Nervous System A. List and describe the five major nervous system functions: 1. 2. 3. 4. 5. II. Divisions of the Nervous System
More informationNeurophysiology. Corresponding textbook pages: ,
Neurophysiology Corresponding textbook pages: 436-440, 442-455 Organization Helps maintain homeostasis in the body Nervous system and endocrine system Nervous system is faster due to nerve impulses 1 Fig.
More informationChapter 4 Neuronal Physiology
Chapter 4 Neuronal Physiology V edit. Pg. 99-131 VI edit. Pg. 85-113 VII edit. Pg. 87-113 Input Zone Dendrites and Cell body Nucleus Trigger Zone Axon hillock Conducting Zone Axon (may be from 1mm to more
More informationPSY 215 Lecture 3 (1/19/2011) (Synapses & Neurotransmitters) Dr. Achtman PSY 215
Corrections: None needed. PSY 215 Lecture 3 Topic: Synapses & Neurotransmitters Chapters 2 & 3, pages 40-57 Lecture Notes: SYNAPSES & NEUROTRANSMITTERS, CHAPTER 3 Action Potential (above diagram found
More informationLECTURE STRUCTURE ASC171 NERVOUS SYSTEM PART 1: BACKGROUND 26/07/2015. Module 5
LECTURE STRUCTURE PART 1: Background / Introduction PART 2: Structure of the NS, how it operates PART 3: CNS PART 4: PNS Why did the action potential cross the synaptic junction? To get to the other side
More informationTHE NERVOUS SYSTEM. Neurons & Impulses
THE NERVOUS SYSTEM Neurons & Impulses Organization of the Nervous System: Two Major Portions: The central nervous system (CNS) and the peripheral nervous system (PNS). CNS = Brain/Spinal Cord PNS = Nerves-provide
More informationA. Subdivisions of the Nervous System: 1. The two major subdivisions of the nervous system:
BIO 211: ANATOMY & PHYSIOLOGY I 1 Ch 10 A Ch 10 B CHAPTER 10 NERVOUS SYSTEM 1 BASIC STRUCTURE and FUNCTION Dr. Lawrence G. Altman www.lawrencegaltman.com Some illustrations are courtesy of McGraw-Hill.
More informationThe Nervous System AP Biology
The Nervous System 2005-2006 Neuron (nerve cell) signal direction dendrites cell body Structure fits function, it have many entry points for signal one path out transmits signal Nodes of Ranvier axon signal
More information35-2 The Nervous System Slide 1 of 38
1 of 38 35-2 The Nervous System The nervous system controls and coordinates functions throughout the body and responds to internal and external stimuli. 2 of 38 Neurons Neurons The messages carried by
More informationNeural Tissue. Chapter 12 Part B
Neural Tissue Chapter 12 Part B CNS Tumors - Neurons stop dividing at age 4 but glial cells retain the capacity to divide. - Primary CNS tumors in adults- division of abnormal neuroglia rather than from
More informationNeurophysiology of Nerve Impulses
M52_MARI0000_00_SE_EX03.qxd 8/22/11 2:47 PM Page 358 3 E X E R C I S E Neurophysiology of Nerve Impulses Advance Preparation/Comments Consider doing a short introductory presentation with the following
More informationQuestions. Question 1!
Questions Question 1 In a laboratory, scientists often study neurons in isolation, outside of a living creature, in a dish. In this setting, one can have a good deal of control over the local ionic environment
More informationBI 232: Human Anatomy & Physiology
BI 232: Human Anatomy & Physiology Roster Business Course Introduction and Syllabus Notecard Name E-mail Why you are taking the course Something interesting you did over break Lecture Tips Use the Study
More informationANATOMY AND PHYSIOLOGY OF NEURONS. AP Biology Chapter 48
ANATOMY AND PHYSIOLOGY OF NEURONS AP Biology Chapter 48 Objectives Describe the different types of neurons Describe the structure and function of dendrites, axons, a synapse, types of ion channels, and
More informationChapter 11: Nervous System and Nervous Tissue
Chapter 11: Nervous System and Nervous Tissue I. Functions and divisions of the nervous system A. Sensory input: monitor changes in internal and external environment B. Integrations: make decisions about
More informationNeurons Chapter 7 2/19/2016. Learning Objectives. Cells of the Nervous System. Cells of the Nervous System. Cells of the Nervous System
Learning Objectives Neurons Chapter 7 Identify and describe the functions of the two main divisions of the nervous system. Differentiate between a neuron and neuroglial cells in terms of structure and
More informationStudy Guide Answer Key Nervous System
Biology 12 Human Biology Textbook: BC Biology 12 Study Guide Answer Key Nervous System 1. Draw a neuron, label 3 parts and give the function of those parts. Dendrite: carry signals to the cell body Cell
More informationWhat is Anatomy and Physiology?
Introduction BI 212 BI 213 BI 211 Ecosystems Organs / organ systems Cells Organelles Communities Tissues Molecules Populations Organisms Campbell et al. Figure 1.4 Introduction What is Anatomy and Physiology?
More informationEE 791 Lecture 2 Jan 19, 2015
EE 791 Lecture 2 Jan 19, 2015 Action Potential Conduction And Neural Organization EE 791-Lecture 2 1 Core-conductor model: In the core-conductor model we approximate an axon or a segment of a dendrite
More informationNERVOUS SYSTEM 1 CHAPTER 10 BIO 211: ANATOMY & PHYSIOLOGY I
BIO 211: ANATOMY & PHYSIOLOGY I 1 Ch 10 A This set Ch 10 B CHAPTER 10 NERVOUS SYSTEM 1 BASIC STRUCTURE and FUNCTION Dr. Lawrence G. Altman www.lawrencegaltman.com Some illustrations are courtesy of McGraw-Hill.
More informationOverview of the Nervous System A. Subdivisions of the Nervous System: 1. The two major subdivisions of the nervous system:
BIO 211: ANATOMY & PHYSIOLOGY I 1 Ch 10 A This set Ch 10 B CHAPTER 10 NERVOUS SYSTEM 1 BASIC STRUCTURE and FUNCTION Dr. Lawrence G. Altman www.lawrencegaltman.com Some illustrations are courtesy of McGraw-Hill.
More informationChapter 7. The Nervous System
Chapter 7 The Nervous System General overview of the nervous system functions Sensory input (info travels in along afferent pathways) Integration (information is processed) Sensory neurons Spinal cord
More informationNervous System. Nervous system cells. Transmission of a signal 2/27/2015. Neuron
Nervous System 2007-2008 signal direction Neuron a nerve cell Nervous system cells dendrites axon cell body Structure fits function many entry points for signal one path out transmits signal signal direction
More informationBIONB/BME/ECE 4910 Neuronal Simulation Assignments 1, Spring 2013
BIONB/BME/ECE 4910 Neuronal Simulation Assignments 1, Spring 2013 Tutorial Assignment Page Due Date Week 1/Assignment 1: Introduction to NIA 1 January 28 The Membrane Tutorial 9 Week 2/Assignment 2: Passive
More informationEndocrine System Nervous System
Cells Endocrine System Nervous System Tissues Controls Organs Nervous System vs Endocrine System Electrical signals (graded potentials and action potentials) and chemical signals (neurotransmitters) Fast
More informationFunctions of the Nervous System. Fundamentals of the Nervous System & Nervous Tissue
Fundamentals of the Nervous System & Nervous Tissue Overview Structure cell types & structures Neurophysiology membrane potential Synapse, neurotransmitters & receptors Functions of the Nervous System
More informationLESSON 2.3 WORKBOOK. How fast do our neurons signal?
Glial cell several classes of non-neuronal cells of the nervous system. LESSON 2.3 WORKBOOK How fast do our neurons signal? Remember that winning goal you scored, that snowball you dodged or the cup of
More informationElectrical Properties of Neurons. Steven McLoon Department of Neuroscience University of Minnesota
Electrical Properties of Neurons Steven McLoon Department of Neuroscience University of Minnesota 1 Neuronal Communication Neurons communicate with other cells, often over long distances. The electrical
More informationUnit Three. I. General Functions of the Nervous System. I. General Functions of the Nervous System
10 Refer to the following URLs. It is a good idea to print them and bring them to class. Be sure to study these along with your book. http://www.sirinet.net/~jgjohnso/nervous.html http://faculty.washington.edu/chudler/ap.html
More informationThe Nervous System -The master controlling and communicating system of the body
The Nervous System -The master controlling and communicating system of the body Functions: -Sensory input -Integration -Motor output Organization of the Nervous System Central nervous system (CNS) -Brain
More informationBIOLOGY 12 NERVOUS SYSTEM PRACTICE
1 Name: BIOLOGY 12 NERVOUS SYSTEM PRACTICE Date: 1) Identify structures X, Y and Z and give one function of each. 2) Which processes are involved in the movement of molecule Y from point X to point Z?
More informationElectrophysiology. General Neurophysiology. Action Potentials
5 Electrophysiology Cochlear implants should aim to reproduce the coding of sound in the auditory system as closely as possible, for best sound perception. The cochlear implant is in part the result of
More informationTest Bank for Human Physiology: From Cells to Systems 8th Edition by Sherwood
Test Bank for Human Physiology: From Cells to Systems 8th Edition by Sherwood Link download full: https://digitalcontentmarket.org/download/test-bankfor-human-physiology-from-cells-to-systems-8thedition-by-sherwood
More informationAxon Nerve impulse. Axoplasm Receptor. Axomembrane Stimuli. Schwann cell Effector. Myelin Cell body
Nervous System Review 1. Explain a reflex arc. 2. Know the structure, function and location of a sensory neuron, interneuron, and motor neuron 3. What is (a) Neuron Axon Nerve impulse Axoplasm Receptor
More informationStation Neurons and synapses
Station 1 6.5 Neurons and synapses Label the neuron below: What is that neuron part? 1. Picks up message from neighboring neurons 2. Cells that cover axon and make myelin sheath 3. Releases neurotransmitter
More informationPortions from Chapter 6 CHAPTER 7. The Nervous System: Neurons and Synapses. Chapter 7 Outline. and Supporting Cells
CHAPTER 7 The Nervous System: Neurons and Synapses Chapter 7 Outline Neurons and Supporting Cells Activity in Axons The Synapse Acetylcholine as a Neurotransmitter Monoamines as Neurotransmitters Other
More informationEndocrine System Nervous System
Cells Endocrine System Nervous System Tissues Controls Organs Nervous System vs Endocrine System Electrical signals (graded potentials and action potentials) and chemical signals (neurotransmitters) Fast
More informationThe action potential travels down both branches because each branch is a typical axon with voltage dependent Na + and K+ channels.
BIO 360 - MIDTERM FALL 2018 This is an open book, open notes exam. PLEASE WRITE YOUR NAME ON EACH SHEET. Read each question carefully and answer as well as you can. Point values are shown at the beginning
More informationMOLECULAR AND CELLULAR NEUROSCIENCE
MOLECULAR AND CELLULAR NEUROSCIENCE BMP-218 November 4, 2014 DIVISIONS OF THE NERVOUS SYSTEM The nervous system is composed of two primary divisions: 1. CNS - Central Nervous System (Brain + Spinal Cord)
More informationConcept 48.1 Neuron organization and structure reflect function in information transfer
Name Chapter 48: Neurons, Synapses, and Signaling Period Chapter 48: Neurons, Synapses, and Signaling Concept 48.1 Neuron organization and structure reflect function in information transfer 1. What is
More informationYou can follow the path of the neural signal. The sensory neurons detect a stimulus in your finger and send that information to the CNS.
1 Nervous system maintains coordination through the use of electrical and chemical processes. There are three aspects: sensory, motor, and integrative, which we will discuss throughout the system. The
More informationBiology 12 Human Biology - The Nervous System Name. Main reference: Biology Concepts and Connects Sixth edition Chapter 28
Biology 12 Human Biology - The Nervous System Name Main reference: Biology Concepts and Connects Sixth edition Chapter 28 Vocabulary acetylcholine (ACh), acetylcholinesterase (AChE), action potential,
More informationGeneral Information about the brain : 1-The brain is considered as one of the most complex structures in the whole body, it contains hundred billions ( thousand of millions) neurons cells only,and if we
More informationChapter 17 Nervous System
Chapter 17 Nervous System 1 The Nervous System Two Anatomical Divisions Central Nervous System (CNS) Brain and Spinal Cord Peripheral Nervous System (PNS) Two Types of Cells Neurons Transmit nerve impulses
More informationThe Nervous System 12/11/2015
The Nervous System Biology 12 Unit 3: Homeostasis December 11, 2015 The nervous system is an elaborate communication system that contains more than 100 billion nerve cells in the brain alone There are
More informationChapter 44 Neurons and Nervous Systems
Nervous System Cells Neuron a cell Chapter 44 Neurons and Nervous Systems signal direction dendrites cell body Structure fits function many entry points for signal one path out transmits signal signal
More informationChapter 45 Neurons and Nervous Systems
Nervous System Cells Neuron a cell Chapter 45 Neurons and Nervous Systems signal direction dendrites cell body Structure fits function many entry points for signal one path out axon signal direction transmits
More informationIntroduction to Neurobiology
Biology 240 General Zoology Introduction to Neurobiology Nervous System functions: communication of information via nerve signals integration and processing of information control of physiological and
More informationFLASH CARDS. Kalat s Book Chapter 2 Alphabetical
FLASH CARDS www.biologicalpsych.com Kalat s Book Chapter 2 Alphabetical absolute refractory period absolute refractory period Time when neuron will not re-fire no matter how much stimulus it gets. action
More information10.1: Introduction. Cell types in neural tissue: Neurons Neuroglial cells (also known as neuroglia, glia, and glial cells) Dendrites.
10.1: Introduction Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Cell types in neural tissue: Neurons Neuroglial cells (also known as neuroglia, glia, and glial
More informationChapter Nervous Systems
The Nervous System Chapter Nervous Systems Which animals have nervous systems? (Which do not) What are the basic components of a NS? What kind of fish performs brain operations? What differentiates one
More informationBIOLOGY 2050 LECTURE NOTES ANATOMY & PHYSIOLOGY I (A. IMHOLTZ) FUNDAMENTALS OF THE NERVOUS SYSTEM AND NERVOUS TISSUE P1 OF 5
P1 OF 5 The nervous system controls/coordinates the activities of cells, tissues, & organs. The endocrine system also plays a role in control/coordination. The nervous system is more dominant. Its mechanisms
More informationCHAPTER 44: Neurons and Nervous Systems
CHAPTER 44: Neurons and Nervous Systems 1. What are the three different types of neurons and what are their functions? a. b. c. 2. Label and list the function of each part of the neuron. 3. How does the
More informationFunctions of Nervous System Neuron Structure
Chapter 10 Nervous System I Divisions of the Nervous System Cell Types of Neural Tissue neurons neuroglial cells Central Nervous System brain spinal cord Peripheral Nervous System nerves cranial nerves
More informationDivision Ave. High School AP Biology. cell body. signal direction
signal direction Nervous system cells Neuron a nerve cell dendrites myelin sheath axon cell body dendrite cell body axon Structure fits function many entry points for signal one path out transmits signal
More informationChapter Six Review Sections 1 and 2
NAME PER DATE Chapter Six Review Sections 1 and 2 Matching: 1. afferent nerves 2. autonomic nervous system 3. cell body 4. central nervous system (CNS) 5. dendrites 6. efferent nerves 7. myelin sheath
More informationHumans make voluntary decisions to talk, walk, stand up, or sit down. The
2 E X E R C I S E Skeletal Muscle Physiology O B J E C T I V E S 1. To define motor unit, twitch, latent period, contraction phase, relaxation phase, threshold, summation, tetanus, fatigue, isometric contraction,
More informationChapter 12 Nervous Tissue. Copyright 2009 John Wiley & Sons, Inc. 1
Chapter 12 Nervous Tissue Copyright 2009 John Wiley & Sons, Inc. 1 Terms to Know CNS PNS Afferent division Efferent division Somatic nervous system Autonomic nervous system Sympathetic nervous system Parasympathetic
More informationNeurons, Synapses, and Signaling
Chapter 48 Neurons, Synapses, and Signaling PowerPoint Lecture Presentations for Biology Eighth Edition Neil Campbell and Jane Reece Lectures by Chris Romero, updated by Erin Barley with contributions
More informationCommunication within a Neuron
Neuronal Communication, Ph.D. Communication within a Neuron Measuring Electrical Potentials of Axons The Membrane Potential The Action Potential Conduction of the Action Potential 1 The withdrawal reflex
More informationChapter 11 Introduction to the Nervous System and Nervous Tissue Chapter Outline
Chapter 11 Introduction to the Nervous System and Nervous Tissue Chapter Outline Module 11.1 Overview of the Nervous System (Figures 11.1-11.3) A. The nervous system controls our perception and experience
More informationPhysiology. FIGURE 7.8 Classification of neurons on the basis of structure. (a) Multipolar. (b) Bipolar. (c) Unipolar.
Chapter 7: The Nervous System 231 Physiology Nerve Impulses Neurons have two major functional properties: irritability, the ability to respond to a stimulus and convert it into a nerve impulse, and conductivity,
More informationH. An electrical signal travel down the dendrite.
Nervous System Group Activity Objectives: To be able to describe the nervous system structure and function To understand how neurons communicate using both electrical and chemical signals To know how the
More informationCELLULAR NEUROPHYSIOLOGY
CELLULAR NEUROPHYSIOLOGY CONSTANCE HAMMOND 2. THE SODIUM ACTION POTENTIAL Video 2-1: Observations and hypotheses Sodium action potential 1 Observations 2 Patch clamp recording whole-cell configuration
More informationThe Nervous System. Nervous System Functions 1. gather sensory input 2. integration- process and interpret sensory input 3. cause motor output
The Nervous System Nervous System Functions 1. gather sensory input 2. integration- process and interpret sensory input 3. cause motor output The Nervous System 2 Parts of the Nervous System 1. central
More informationQuantitative Electrophysiology
ECE 795: Quantitative Electrophysiology Notes for Lecture #10 Wednesday, November 22, 2006 14. FUNDAMENTALS OF FUNCTIONAL ELECTRICAL STIMULATION (FES) We will look at: Design issues for FES Subthreshold
More informationThe nervous system is responsible for most of the functions that characterize
3 E X E R C I S E Neurophysiology of Nerve Impulses O B J E C T I V E S 1. To define the following: irritability, conductivity, resting membrane potential, polarized, sodium-potassium pump, threshold stimulus,
More information3) Most of the organelles in a neuron are located in the A) dendritic region. B) axon hillock. C) axon. D) cell body. E) axon terminals.
Chapter 48 Neurons, Synapses, and Signaling Multiple-Choice Questions 1) A simple nervous system A) must include chemical senses, mechanoreception, and vision. B) includes a minimum of 12 ganglia. C) has
More informationNervous System Communication. Nervous System Communication. The First Nerve Cells 1/2/11
Nervous System Communication Nervous System Communication Process information Transfer information to other neurons Generate behavior and experience The First Nerve Cells Developed in primitive animals
More information2/27/2019. Functions of the Nervous System. Nervous Tissue and Neuron Function. Fundamentals Of The Nervous System And Nervous Tissue
Nervous Tissue and Neuron Function Fundamentals Of The Nervous System And Nervous Tissue Learn and Understand 1. Like muscle cells, neurons use membrane polarity upset (AP) as a signal therefore keeping
More informationFaris Haddad. Dania Alkouz. Mohammad-Khatatbeh
9 Faris Haddad Dania Alkouz Mohammad-Khatatbeh Revision of previous ideas I. The Action potential stages are mainly controlled by Na+ and K+ channels II. These channels can be either pumps (chemical gated)
More informationNervous System. Unit 6.6 (6 th Edition) Chapter 7.6 (7 th Edition)
Nervous System Unit 6.6 (6 th Edition) Chapter 7.6 (7 th Edition) 1 Learning Objectives Identify the main parts (anatomy) of a neuron. Identify the 2 divisions of nervous system. Classify the major types
More informationDO NOW: ANSWER ON PG 73
DO NOW: ANSWER ON PG 73 1. Name 1 neurotransmitter that we have learned about. 2. Draw a basic graph of a neuron action potential. Label resting potential, threshold, depolarization, and repolarization
More informationBiology 3201 Quiz on Nervous System. Total 33 points
Biology 3201 Quiz on Nervous System Total 33 points Name: Circle the best response to the following: (33 points) 1. What do we call the long fibre that carries impulses away from the nerve cell body? A.
More informationD) around, bypassing B) toward
Nervous System Practice Questions 1. Which of the following are the parts of neurons? A) brain, spinal cord, and vertebral column B) dendrite, axon, and cell body C) sensory and motor D) cortex, medulla
More informationNEURAL TISSUE (NEUROPHYSIOLOGY) PART I (A): NEURONS & NEUROGLIA
PART I (A): NEURONS & NEUROGLIA Neural Tissue Contains 2 kinds of cells: neurons: cells that send and receive signals neuroglia (glial cells): cells that support and protect neurons Neuron Types Sensory
More informationCellular Bioelectricity
ELEC ENG 3BB3: Cellular Bioelectricity Notes for Lecture #30 Thursday, March 30, 2006 Nerve excitation: To evaluate the pattern of nerve activation that is produced by a particular electrode configuration,
More informationPeriod: Date: Module 28: Nervous System, Student Learning Guide
Name: Period: Date: Module 28: Nervous System, Student Learning Guide Instructions: Work in pairs (share a computer). Make sure that you log in for the first quiz so that you get credit. Go to www.sciencemusicvideos.com.
More informationChapter 2. The Cellular and Molecular Basis of Cognition Cognitive Neuroscience: The Biology of the Mind, 2 nd Ed.,
Chapter 2. The Cellular and Molecular Basis of Cognition Cognitive Neuroscience: The Biology of the Mind, 2 nd Ed., M. S. Gazzaniga, R. B. Ivry, and G. R. Mangun, Norton, 2002. Summarized by B.-W. Ku,
More informationNeurons, Synapses, and Signaling
Overview: Lines of Communication Chapter 8 Neurons, Synapses, and Signaling Fig. 8- The cone snail kills prey with venom that disables neurons Neurons are nerve s that transfer information within the body
More informationChapter 2. The Cellular and Molecular Basis of Cognition
Chapter 2. The Cellular and Molecular Basis of Cognition Cognitive Neuroscience: The Biology of the Mind, 2 nd Ed., M. S. Gazzaniga,, R. B. Ivry,, and G. R. Mangun,, Norton, 2002. Summarized by B.-W. Ku,
More informationNa + K + pump. The beauty of the Na + K + pump. Cotransport. The setup Cotransport the result. Found along the plasma membrane of all cells.
The beauty of the Na + K + pump Na + K + pump Found along the plasma membrane of all cells. Establishes gradients, controls osmotic effects, allows for cotransport Nerve cells have a Na + K + pump and
More informationNeuroscience: Exploring the Brain, 3e. Chapter 4: The action potential
Neuroscience: Exploring the Brain, 3e Chapter 4: The action potential Introduction Action Potential in the Nervous System Conveys information over long distances Action potential Initiated in the axon
More informationBiology 201-Worksheet on Nervous System (Answers are in your power point outlines-there is no key!)
Bio 201 Tissues and Skin 1 March 21, 2011 Biology 201-Worksheet on Nervous System (Answers are in your power point outlines-there is no key!) 1. The study of the normal functioning and disorders of the
More information