BSC 2085 Lab 9 - Nervous System PDF
Document Details
Uploaded by LawAbidingTonalism
null
Hernan Aviles
Tags
Related
- Essentials of Human Anatomy & Physiology - Chapter 7: The Nervous System PDF
- Nervous System Anatomy & Physiology PDF
- ANIM 1005 Veterinary Anatomy and Physiology Lecture Notes PDF
- Nervous System 1 - Vertebrate Anatomy & Physiology
- Functional Anatomy of Nervous System PDF
- Nervous System Anatomy Notes PDF
Summary
This document is a set of lecture notes on the nervous system. It covers the organization, development, and function of neurons and axons, providing diagrams to further enhance learning. It also discusses aspects such as the myoneural and neuromuscular junctions and their roles in muscle contraction.
Full Transcript
BSC 2085 Lab 9 NERVOUS SYSTEM Hernan Aviles ◼ ORGANIZATION central nervous system (CNS) ◼ brain and spinal cord ◼ integration and command center peripheral nervous system (PNS) ◼ cranial and spinal nerves ◼ somatic and autonomic...
BSC 2085 Lab 9 NERVOUS SYSTEM Hernan Aviles ◼ ORGANIZATION central nervous system (CNS) ◼ brain and spinal cord ◼ integration and command center peripheral nervous system (PNS) ◼ cranial and spinal nerves ◼ somatic and autonomic ◼ carries messages to and from the spinal cord and brain 2 ◼ PERIPHERAL NERVOUS SYSTEM somatic nervous system ◼ spinal and cranial nerves ◼ receives sensory information and respond to skeletal muscles ◼ sensory nerves: transmit the information from sensory receptors located in the periphery to the CNS ◼ motor nerves: transmit the commands from CNS to skeletal muscle autonomic nervous system ◼ autonomic nerves (sensory and motor) ◼ receives sensory information and respond to cardiac muscle, smooth muscle and glands 3 4 ◼ DEVELOPMENT begins as a tube (neural tube) cephalic portion: brain caudal portion: spinal cord Forebrain ◼ telencephalon (olfactory bulbs, cerebrum, ventricles I, II) ◼ diencephalon (thalamus, hypothalamus, pineal and pituitary glands, optic nerves, III ventricle) Midbrain ◼ mesencephalon Hindbrain ◼ metencephalon (cerebellum, IV ventricle) ◼ myelencephalon (medulla oblongata 5 ◼ NEURONS Nerve cells that conduct impulses (~100 billion in brain, ~100 million in spinal cord) cell body or soma: nucleus, Nissl bodies (RER) dendrites: conduct impulses toward the cell body. axon hillock: portion of the axon that connects to the cell body axon: conducts impulses away from the cell body to other neurons or effectors ◼ axoplasm: cytoplasm of axon ◼ axolemma: cell membrane of axon synaptic knobs: terminal ends of axons that form junctions (synapse) with the next cell 6 ◼ AXONS covered by lipid material (myelin), myelin is formed by oligodendrocytes in the CNS and Schwann cells in the PNS Schwann cell spirals repeatedly around a single nerve fiber (100 layers), these layers are the myelin sheath. neurilemma: outermost layer of a Schwann cell endoneurium: thin sleeve ofconnective tissue surrounded the schwann cell nodes of Ranvier: gaps between the segments of axons not covered by myelin 7 Neuron Model 8 Neurons (Nerve Cells) 9 Figure 11.4b MYELINATED AXON NODE OF RANVIER MYELIN 10 ◼ NEURON FUNCTIONAL CATEGORIES sensory (afferent) neurons: conduct impulses from sensory receptors to the CNS. motor (efferent) neurons: conduct impulses from CNS to effectors association neurons (interneurons): conducts impulses from one area of CNS to another Spinal cord (in cross-section) Stimulus 2 Sensory neuron 3 Integration 1 Receptor center 4 Motor neuron 5 Effector Interneuron Skin motor and association are multipolar neurons (one axon and several dendrites) sensory are unipolar (one fiber that serves as axon and dendrite) bipolar (one axon and one dendrite) anaxonic (many dendrites but no axon) 11 ◼ MYELINATED AND UNMYIELINATED NEURONS myelinated: organized into bundles called nerve tracts in the CNS and nerves in the PNS myelinated axons form the white matter (myelin is white) and unmyelinated axons appear gray in color sensory nerves contain sensory neurons, motor nerves contain motor neurons and mixed nerves contain both 12 ◼ MYONEURAL JUNCTION contraction of muscles requires the stimulation by motor neurons cell bodies reside in brain or spinal cord, axons travel to muscles they serve axon branches, each branch serves one single muscle cell motor unit: motor neuron and all muscle cells served by the branches of that motor neuron axon end is separated from the muscle cell (motor end plate) by a small gap (synapse) binding of acetylcholine (released by the axon) to the motor end plate initiates the contraction myoneuronal or neuromuscular junction: junction formed by the axon branch and the motor end plate 13 14 NEUROMUSCULAR JUNCTION MOTOR END PLATE MOTOR END PLATE 15 NEUROMUSCULAR JUNCTION 16 17