Biopsych 2.1

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Created by
Bia Padz

Subdecks (2)

Cards (206)

  • Central Nervous System (CNS)
    Composed of the brain and spinal cord
  • Brain
    An organ roughly half the size of a loaf of bread that constantly controls behavior
  • Spinal cord
    A bundle of nerves that leaves the brain and runs down the length of the back; transmits messages between the brain and the body
  • Peripheral Nervous System (PNS)

    Branches out from the brain and spinal cord and reaches the extremities of the body
  • Somatic Nervous System
    Specializes in the control of voluntary movements and the communication of information to and from the sense organs
  • Sensory (Afferent) Neurons
    Transmit information from the perimeter of the body to the central nervous system and the brain
  • Motor (Efferent) Neurons

    Communicate information in the opposite direction, sending messages from the brain and nervous system to the muscles and glands
  • Autonomic Nervous System
    Concerned with the parts of the body that function involuntarily without our awareness
  • Sympathetic
    Acts to prepare the body in stressful situations, engaging resources to respond to a threat
  • Parasympathetic
    Acts to calm the body after an emergency situation has engaged the sympathetic division; provides a means of the body to maintain storage of energy sources
  • Most of the nerves in the peripheral nervous system project from the spinal cord, but there are 12 pairs of exceptions: the 12 pairs of cranial nerves which project from the brain
  • The 12 Cranial Nerves
    • Olfactory: smell
    • Optic: visual acuity
    • Oculomotor: opening of eyelids, eye movement (upward/medial, upward/lateral, downward/lateral)
    • Trochlear: eye movement (downward/medial)
    • Trigeminal: facial sensation, chewing movements
    • Abducens: eye movement (lateral)
    • Facial: facial muscle movement (except chewing muscles) and eyelid closing
    • Vestibulocochlear: hearing and balance
    • Glossopharyngeal: taste on the posterior third of the tongue
    • Vagus: uvula (palate muscles) and swallowing
    • Accessory: shoulder shrug
    • Hypoglossal: tongue movement
  • Dura Mater
    Outermost meninx (singular of meninges)
  • Arachnoid Mater

    The second layer of meninx and beneath it is the subarachnoid space which contains many blood vessels and cerebrospinal fluid
  • Pia Mater
    Adheres to the surface of the cerebral cortex
  • Cerebrospinal Fluid (CSF)
    Fills the subarachnoid space, the central canal of the spinal cord, and the cerebral ventricles of the brain
  • Central Canal
    A small central channel that runs the length of the spinal cord
  • Cerebral Ventricles
    The four large internal chambers of the brain: the two lateral ventricles, the third ventricle and the fourth ventricle
  • Choroid Plexuses
    Network of capillaries (small blood vessels) that protrude into the ventricles from the pia mater
  • Hydrocephalus
    Condition where the flow of CSF is blocked, resulting in a buildup of fluid in the ventricles and expansion of the entire brain
  • Neurons
    Cells that are specialized for reception, conduction, and transmission of electrochemical signals
  • Glial Cells
    Other cells found in the nervous system, not neurons
  • Types of Glial Cells
    • Oligodendrocytes
    • Schwann Cells
    • Microglia
    • Astrocytes
  • Oligodendrocytes
    Glial cells with extensions that wrap around the axons of some neurons of the CNS, forming myelin sheaths that increase the speed and efficiency of axonal conduction
  • Schwann Cells
    Glial cells that comprise one myelin segment, and can guide axonal regeneration in the PNS
  • Microglia
    Smaller glial cells that respond to injury or disease by multiplying, engulfing cellular debris, and triggering inflammatory responses
  • Astrocytes
    The largest glial cells, star-shaped, that play a role in allowing the passage of some chemicals from the blood into CNS neurons and in blocking their chemicals
  • Astrocytes have been found to control the establishment and maintenance of synapses between neurons, modulate neural activity, maintain the function of axons, and participate in glial circuits
  • Golgi Stain
    A neuroanatomical technique used to study neurons
  • Neurons are so tightly packed and their parts are so intricately intertwined that the key to study neuroanatomy lies in preparing neural tissue in a variety of ways, each of which permits a clear view of a different aspect of neuronal structure, and then combining the knowledge obtained from each of the preparations
  • Neuroanatomical Techniques
    • Neurons are tightly packed and their parts are intricately intertwined
    • Preparing neural tissue in a variety of ways permits a clear view of different aspects of neuronal structure
    • Combining knowledge obtained from each preparation is the key to studying neuroanatomy
  • Golgi Stain

    1. Exposing neural tissue to potassium dichromate and silver nitrate
    2. Chemical reaction (silver chromate) stains and makes neurons visible
  • Golgi Stain
    Allows seeing individual neurons in silhouette, but provides no indication of the number of neurons or the nature of their inner structure
  • Nissl Stain
    1. Cresyl violet dye penetrates all cells and binds effectively only to structures in neuron cell bodies
    2. Used to estimate the number of cell bodies in an area by counting Nissl-stained dots
  • Electron Microscopy
    • Provides information about the details of neuronal structure
    • Limit of magnification in light microscopy is about 1,500 times, insufficient to reveal fine anatomical details
    • Greater detail can be obtained by coating thin slices with an electron-absorbing substance and passing a beam of electrons through the tissue onto a photographic film
  • Anterograde Tracing Methods
    1. Chemicals are injected and taken up by cell bodies, then transported forward along their axons to their terminal buttons
    2. Brain is removed, sliced, and treated to reveal the locations of the injected chemicals
  • Retrograde Tracing Methods
    1. Chemicals are injected and taken up by terminal buttons, then transported backward along their cell bodies
    2. Brain is removed, sliced, and treated to reveal the locations of the injected chemicals
  • Anterior - Posterior
    Anterior: toward the nose<br>Posterior: toward the tail
  • Dorsal - Ventral
    Dorsal: toward the surface of the back or top of the head<br>Ventral: toward the surface of the chest or bottom of the head
  • Medial - Lateral
    Medial: toward the midline of the body<br>Lateral: toward the away from the midline, toward the body's lateral surfaces