Human Physiology BIOL3205 Nervous System 1 PDF

Summary

These lecture notes cover the human nervous system, including its organization, structure, and function. Topics include central nervous system (CNS), peripheral nervous system (PNS), cells in the CNS, protection, the blood-brain barrier, the brain's structure, and different brain parts' interaction.

Full Transcript

Human Physiology
BIOL3205
Nervous system I - Structure

Prof. Chi Bun Chan
School of Biological Sciences
5N10 Kadoorie Biological Sciences
Building
(http://www.buzzle.com/articles/organs-of-the-nervous-system.html) [email protected]
39173823
 Lecture outline

Organization of the central nervous system (CNS) and
peripheral nervous system (PNS)
Cellular components of CNS and PNS
Protection of CNS
Functions of CNS
Regeneration of CNS and PNS
 Organization of the nervous system
3 nervous systems – central,
peripheral and enteric
Central nervous system (CNS) –
brain and spinal cord
Peripheral nervous system (PNS)
– afferent vs efferent
Somatic nervous system
(voluntary actions)
Autonomic nervous system –
sympathetic vs parasympathetic
(involuntary actions)
Enteric nervous system –
digestion (controlled by the
autonomous system)
 Neurons, glial and ependymal cells
Glial cells (90%, half the volume of the
Cells in the CNS
brain) – support the neurons
structurally and metabolically
Astrocytes (star-like shape)
glue of the CNS – proper spatial
relationship
Formation of the Blood-brain barrier (BBB)
Transfer nutrients from the blood
Degrade neurotransmitter
Clearing toxic byproducts from the brain –
“brainwashing”
Oligodendrocyte
Myelin sheath
Microglia
Inactive – release of growth factor
Active – remove foreign invaders or tissue debris
Involved in neurodegenerative diseases

Ependymal cells
Cerebrospinal fluid (CSF)
 Gray and white matters

Grey matter – densely packed cell body (non-myelinated)
White matter – myelinated axons
Brain – superior grey matter and interior white matter
Spinal cord - superior white matter and interior gray matter
Speed of transmission
 Protection of CNS
Bony structure – cranium and vertebral
column
Protective membranes (meninges) - dura
mater, arachnoid mater, pia mater
Cushioning fluid – cerebrospinal fluid (CSF)
Selective entry – blood-brain barrier (BBB)

(http://teachmeanatomy.info/neuro/structures/meninges/) (https://legacy.owensboro.kctcs.edu/gcaplan/anat/Notes/API%20Notes%20L%20Central%20Nervous%20System-Brain.htm)
 The blood brain barrier (BBB) (https://www.reddit.com/r/pics/comments/3vr386/surface_of_a_living_human_brain/)
Astrocytes form the walls of a brain capillary that are
joined by tight junctions
Material exchange: blood → endothelial cells →
astrocyte → neuron
Lipid soluble substances (O2, CO2, alcohol, steroids) are
freely diffused across the BBB
Pituitary and a portion of the hypothalamus are not
protected by BBB
Functions
protects the chemical
frustrations in the blood
Limits access of blood-borne
materials into brain tissue
Limits the drug penetration
Blood brain barrier

(http://hplusmagazine.com/tag/blood-brain-barrier/)
 Protection of CNS
Bony structure – cranium and vertebral
column
Protective membranes (meninges) - dura
mater, arachnoid mater, pia mater
Cushioning fluid – cerebrospinal fluid (CSF)
Selective entry – blood-brain barrier (BBB)

(http://teachmeanatomy.info/neuro/structures/meninges/) (https://legacy.owensboro.kctcs.edu/gcaplan/anat/Notes/API%20Notes%20L%20Central%20Nervous%20System-Brain.htm)
 The brain is hollow
Embryo
CNS begins as a hollow tube
(neural tube) and remains (http://www.lsic.ucla.edu/classes/lifesci/central/ps107/lectures/ns-slide_7.html)

hollow as the brain regions
are formed
Brain contains 4
interconnected ventricles
(Left lateral, right lateral, 3rd,
and 4th)
Continued as a central canal
in spinal cord
Filled with cerebrospinal
fluid (CSF)
 Cerebrospinal fluid (CSF)
Contains ~ 150 ml CSF
Same density of the brain –
Float or suspend in a fluid
environment
Formed by the choroid plexuses
(specialized structure of the wall
of ventricles, ependymal cells)
Flows through the ventricles and
spinal cord
Reabsorbed by the subarachnoid
space
Protect the brain from bumping
against the skull during
sudden/jarring movement
 Brain injury
Car crash

Shaken baby syndrome

(https://sites.google.com/site/brookelindseysped/chapter-2)
 Cerebral spinal fluid (CSF)
Exchange materials with the
interstitial fluid of neural cells
(buffering)
Composition is different from
blood
Lower K+
Trace amount of protein
Facilitate ion transport for
impulse formation

(http://howmed.net/wp-content/uploads/2010/12/human-csf-ws-plasma.bmp)
 Organization of the
brain
Brain stem
(vegetative functions)
Cerebellum
(subconscious coordination of motor
activity)
Forebrain
Diencephalon
Hypothalamus (homeostasis of the
internal environment)
Thalamus (sensory processing)
Cerebrum
Basal nuclei (coordination of movement)
Cerebral cortex (decision making)

https://www.brainfacts.org/3d-brain#intro=false&focus=Brain-basal_ganglia-putamen&zoom=false
 Characteristic of cerebral cortex
Highly convoluted (gyrus and
sulcus) Corpus callosum

Organized into 6 layers based Gyrus
on the distribution of Suclus
distinctive neurons
Different layering patterns
and neural connections define
the functional difference of Left cerebral Right cerebral
various cortical areas (not hemisphere hemisphere

from the presence of a unique
cell type)
Divided into left and right
hemispheres that are
connected by the corpus
callosum Longitudinal fissure
 Types of neurons
Structural classification
Number of the process (axon and
dendrites)
Pseudounipolar (unipolar) neurons –
single axon (dendrite and axon are
fused) Stimuli
Bipolar neuron
Multipolar
Anaxonic
Functional
Motor
Sensory
Inter (99%)
Action
 Functional areas of the cortex

Divided into lobes
Frontal lobe, Parietal lobe, Occipital lobe, Temporal lobe
Further divided according to specific functions
Primary motor cortex
Somatosensory cortex
 Homunculus
Depicts the location and relative
amount of cortex area devoted to
sensation input /motor output
Uneven distribution
Degree of sensitivity and movement
prevision
Unique for each individual
Subject to constant subtle
modification (plasticity of the
brain)
 Interaction of different brain parts
Language involves expression and (?!)
comprehension
Wernicke’s area – language
comprehension
Broca’s area – govern speaking ability
Damage to the specific area caused
aphasia (most were caused by stroke)
Wernicke’s area → cannot understand a
word but speak fluently
Broca’s area → cannot speak the word but
understand the spoken and written word
Dyslexia (reading disorder) - trouble
with reading despite normal “Honorificabilitudinitatibus”
intelligence
 How do we identify the brain region
for specific activity?
Correlation of a
MRI
damaged brain part and
impaired functional
outcome
Functional magnetic
resonance imaging
X-ray
(fMRI) vs MRI
Measures brain activity MRI
by detecting changes
associated with blood
flow
The 2003 Nobel Prize in
fMRI
Physiology or Medicine
 Spinal cord
A long, cylinder of nerve tissue that extends
from the brain stem
Protected by the vertebral column
31 pairs of spinal nerves emerge from the
spinal cord through space
Named according to the region of the spinal
column from which they emerge – Cervical
(neck), thoracic (chest); lumbar (abdominal),
sacral (pelvic), and coccygeal (tailbone)
Functions
Serving as a link for the transmission of
information between the brain and the rest
of the body
Integrating reflex activity without involving
the brain
 Structure of spinal cord

(pseudounipolar neuron)

Ascending tracts (spinal to brain) and descending tracts
(brain to spinal) of spinal nerve
Afferent fibers (from peripheral tissues) enter the spinal
cord through the dorsal root
The cell bodies of the afferent neurons are clustered in
dorsal root ganglion
Efferent fibers carrying outgoing signals to tissues exist
through the ventral root
Ascending and descending tracks
 Nerve vs neuron
Nerve is a bundle of peripheral
neuronal axons enclosed by
connective tissues following the
same pathway
Does not contain complete
neuron

Nerve
Fibers within nerve do not
influence the another
E.g. telephone cable
No nerves in CNS (but called Fiber

tracts)
(http://www.emedmd.com/content/diseases-peripheral-nerves)
 Renewal of neurons
Most of the neurons are produced
during embryonic development
and survive the life of the
individual (irreplaceable)
Ependymal cells serve as neural
stem cells
New neurons are produced in the
hippocampus
New neurons formed actively in
this region, then died, and are
exchanged for new neurons
(neurogenesis)
Neurogenesis vs
neuroregeneration
(https://www.guwsmedical.info/blood-vessels/regeneration-of-nerve-axons.html)
 After the lecture, you should be able
to explain
Organization and structure of CNS and PNS
Cellular composition of CNS and PNS and their functions
Protection mechanism of the nervous system
How does the BBB work?
Definition of brain area and how does it work?
Nerve vs tract
(Re)generation of neuron