Histo of NS

Question 1

What are the most common types of cells in the CNS?

Answer 1

Multipolar cells

* Multipolar neurons have a # of dendrites and they all have one axon, so often they have a faily complicated dendritic tree.

-Multipolar cells are able to communicate with a # of different cells but they all just have one axon

Question 2

Pseudounipolar neuron

Answer 2

• Have cell bodies in the dorsal root ganglion, just outside the spinal cord
• All sensory
• One axon, no dendrites
  
  • Part of axon acts as a functional dendrite

Question 3

Examples of each type of neuron

Answer 3

Pseudounipolar= touch receptors

Bipolar= photorecepetors (retina), olfactory receptors (olfactory epithelium)

Interneurons= neurons that are found between 2 other neurons

Intergrative neurons= Pyrimidal, purkinje cells, and interneurons

Question 4

Pyrimidal cells, purkinje cells, and interneurons are what type of neuron?

Answer 4

Integrative

Question 5

Explain the process of intergrative neurons

Answer 5

• Integrative means that they do not directly receive sensory input and they also do not synapse ona specific target.
• They are basically sitting in the middle and receive input from a lot of sensory neurons and intergrate all of the info and then provides an output to the motor neuron.

Question 6

Neuroendocrine cell

Answer 6

Secretes hormones into bloodstream, so it ends in lots of capillaries

Question 7

What the two types of glia cells?

Answer 7

• Microglia
• Macroglia
  
  • Myelin forming cells
    
    • Shwann cells (PNS)
    • Oligodendrocytes (CNS)
  • Supporting cells
    
    • Astrocytes (CNS)
    • Satellite cells (PNS)

Question 8

When do microglia develop?

Answer 8

Microglia invade the brain during fetal development and maintains residence in the parenchyma

• They typically just sit in the nervous sytem until there is injury

Question 9

Function of microglia

Answer 9

• Responsible for response to injury or trauma in brain by proliferation and phagocytosis of debris

Question 10

Characteristics of microglia

Answer 10

• Small cells with delicate processes, inconspicuous in H&E stained section
• Migrate actively
• Derived from monocytes incorporated into CNS during development
• Mediate response to injury by proliferating, migrating to site of injury, and removing debris by phagocytosis
• Important in neuropathology

Question 11

How is the action of microglia implicated in Alzheimer’s disease?

Answer 11

• During injury, microglia undergo a burst of mitotic activity and then this proliferation is followed by apoptosis, which will reduce the cell numbers back to basline. This puts a bit of toll on the metabolism of the system.
• If there is minor neuronal damage that occurs with normal aging, it can transform microglial cells into enlarged and activated microglia. these chronic increases in microlial activation contribute to an increased risk of conditions like Alzheimer’s disease.
  
  • ​Constant neuronal damage favors plaque formation in susceptible patients.This is a long term effect of microglial activation

Question 12

Microglia are derived from ____________.

Answer 12

Monocytes

Question 13

Schwann cells are derived from the ____________

Answer 13

Neural crest

Question 14

Aside from myelination, what are addition functions of Schwann cells?

Answer 14

• Can act as phagocytes
• Produce cytokines

Question 15

Which types of glia cells are found in the CNS?

Answer 15

Astrocytes

Oligodendrocytes

Microglia

Ependymal cells

Question 16

Which types of glia cells are found in the PNS?

Answer 16

Schwann cells

Satellite cells

Question 17

What are the functions of astrocytes?

Answer 17

• interface between neurons and pia, ependyma, blood vessels
• provide structural support
• take up neurotransmitters
• regulate ionic balance
• guide axons during development (radial glia)
• immune response
• pathology: form glial scars after CNS injury

Question 18

Which type of astrocyte guide axons during development?

Answer 18

Radial glia

Question 19

Astrocytes communicate with each other and with neurons via __________________.

Answer 19

Gap junction

Question 20

What are the two types of astrocytes?

Answer 20

Fibrous and protoplasmic

*Astrocytes line the nervous system. If you were to take a pin and poke into the head and get through the skin, skull, meninges, and everything you would really toucj an astrocyte before you got to a nerve

Question 21

What is unique about satellite cells?

Answer 21

Satellite cells are resticted to ganglia

NOTE: Satellite cells surroung the cell bodies in the dorsal root ganglionn

Question 22

What are the functions of ependymal cells?

Answer 22

• Produce CSF
• Line ventricles in brain and central canal in spine

Question 23

What type of epithelial cells make up ependymal cells?

Answer 23

Cuboudal or columar epithelial cells

Question 24

Ependymal cells are remnants of _______________

Answer 24

Embryonic neuroepithelium

Question 25

Ependemyal cells are made up of what type of filaments?

Answer 25

Microvilli and cilia

• Function to help move CSF

Question 26

If a person has a CNS injury, what action would astrocytes take?

Answer 26

• If a person has a CNS injury, typically what happens is the neuron that has been damged changes its morphology and its form, so a presynaptic terminal may retract from the damaged neuron.
• The astrocytes come in and for a scar around the axon terminal so that the presynaptic neuron cannot form a function synapse to the damaged posynaptic neurons.

Question 27

Astrocytes form end- feet on ____________, __________, and _____________.

Answer 27

Basal lamina

Capillaries

Ependymal (that line the ventricles)

Question 28

Multiple sclerosis

Answer 28

• Demyelination disease
• Affects oligodendrocytes in the CNS and can affect sensory as well as motor neurons and that is reflected in the symptoms that manifest themselves in MS

Question 29

Nissl bodies are found in the _________ and are found in large dendrites.

Answer 29

Perikaryon

Question 30

What is the general course of sensory neurons?

Answer 30

Sensory neurons have cell bodies in the dorsal root ganglion and then they send their axon through the dorsal root and into the spinal cord with the cell bodies and dendrites and synapses of the gray matter.

Question 31

What is the general course of motor neurons?

Answer 31

Motor neurons have their cell bodies in the brainstem or spinal cord. They leave the spinal cord through the ventral root and become a spinal nerve

Question 32

Cluster of cell bodies in CNS=___________

Cluster of cell bodies in PNS=__________

Cluster of axons in CNS=__________

Cluster of axons in PNS=_____________

Answer 32

Nucleus

Ganglion

Tract

Nerve

Question 33

Somatic nervous system

Answer 33

•Voluntary motor and sensory components

Question 34

Autonomic nervous system

Answer 34

Involuntary control of viscera

• Sympathetic system
  
  • “fight-or-flight; thoraco-lumbar
• Parasympathetic system
  
  • “steady-state”; cranio-sacral

Question 35

What is the difference between somatic and autonomic motor neurons?

Answer 35

Somatic motor neuron

• Cell bodies in ventral root and leave the spinal cord and synapse directly on the skeletal muscle

Autonomic Motor Neuron

• Synapses first at an autonomic ganglion
  
  • You have preganglionic neuron that is typically myelinated and then you have a postganglionic neuron and it will synapse on smooth muscle glands or cardiac muscle.

Question 36

Postganglionic neurons synapse on ____________, ____________, and______________.

Answer 36

Cardiac muscle, smooth muscle, and glands

Question 37

How do somatic and autonomic sensory neurons differ?

Answer 37

They don’t. In both cases, they come directly from the receptor and go all the way to the CNS, with NO ganglion in between.

Question 38

What are the two layer of the dura mater? What is the space between the two layers called?

Answer 38

The dura mater, divided into periosteal and meningeal, is found all around the brain and there is a space between the two and is referred to as the dural sinuses.

Question 39

Once the menigeal layer separates from the periosteal layer what happens?

Answer 39

The menigeal layer separates from the periosteal layer and goes down into the longitudinal fissure and forms the falx cerebri

Question 40

Which sinus is the largest dural sinus?

Answer 40

The superior sagittal sinus is the largest dural sinus is is filled with blood

Question 41

Role of the arachnoid villus

Answer 41

Allows the CSF to exit the brain and get into the blood stream

* Normally the pressure of the CSF is higher than that of the venous system, so CSF flows through the villi and granulations into the blood

Question 42

Falx Cerebelli

Answer 42

a small triangular process of dura mater, received into the posterior cerebellar notch and runs along the vermis

Question 43

Tentorium cerebelli

Answer 43

Lies in the transverse fissure and is a horizontally oriented extension of the dura mater. It separates the cerebellum from the inferior portion of the occipital lobe.

Question 44

The straight sinus is found underneath the _____________.

Answer 44

Occipital lobe

Question 45

Pia mater + arachnoid =___________

Answer 45

Leptomeninges

Question 46

What role do astrocytes play in forming the blood-brain barrier?

Answer 46

The astrocyte end-feet encircling endothelial cells of blood vessels

Question 47

Endothelial cells of blood vessels are connect to each by _____________.

Answer 47

Tight junctions

*This means that there is relatively little movement across the endothelial cells for some molecules. The BBB is highly selective

Question 48

___________ are the most abundant glial cells of the CNS.

Answer 48

Astrocytes

Question 49

Types of capillaries

Answer 49

Fenestrated, sinusoidsm continuous

Question 50

What is the difference between capillaries in the brain vs in the rest of the body?

Answer 50

Capillaries (in general)

• Fenestrated
  
  • Intact basal membrane
• Alot of potential for transport across the endothelium, so there are a lot of pinocytic fluid-filled vesicles

Capillaries (brain)

• Astrocytes
• Pericytes
• Basal membrane not intact
• Tight junctions
• Mitochondria

Question 51

What are the 3 components of the BBB?

Answer 51

Endothelium

Pericytes (muscle-like cells)

Astrocytes

Basement membrane of the basal membrane

Question 52

What role do pericytes play in BBB? Where are they found?

Answer 52

Pericytes are found in the basement membrane. They are responsible for:

• Tight junction formation
• Vesicle trafficking among endothelial cells
• Inhibiting the effects of the CNS immune cells (which can damage the barrier)

Question 53

What are the two major types of blood-brain barriers?

Answer 53

• Blood-ECF
• Blood-CSF

Question 54

The blood-ECF barrier is in the ___________ and the blood-CSF barrier is in the ____________.

Answer 54

CNS capillary bed

Choroid plexus

Question 55

The blood-CSF barrier is made up of ______________ covered by __________ and __________.

Answer 55

Capillaries; pia mater; ependyma

Question 56

What is unique about the ependymal cells found in the Blood-CSF barrier?

Answer 56

• Cilia are replaced by microvilli
• They have numerous enzymes specifically involved in the active transport of ions and metabolits
• There is a basement membrane beneath the epithelium
• Tight junctions are present between the ependymal cells at the apices

Question 57

The tight junctions that join the endothelial cells of the BBB are of high _____________.

Answer 57

Electrical resistance

Question 58

Which type of molecules can pass through the BBB?

Answer 58

Fat solube molecules like alcohol, nicotine, and anestetics

Question 59

____________ transports glucose to the brain.

Answer 59

GLUT-1

NOTE: There is decreased expression of these transporters during Alzheimer’s disease. This may be due to lower metabolic requirement of the brain after the brain experiences extensive neuronal loss, so you don’t need as much glucose and you have fewer transporters.

Question 61

Choroid plexus

Answer 61

• Mediates the production of cerebrospinal fluid
• Major source of transferrin secretion that plays a part in iron homeostasis in the brain.
• Consists of higly specialized tissue and villi and is projecting in to 4 ventricles of brain.
  
  • It is found in the roof of ventricles 3 and 4 and in parts of the two lateral ventricles

Question 62

What is the process of transformation of blodd plasma to CSF?

Answer 62

• Blood is converted into CSF via filtrate formation
  
  • ​This transformation occurs in the capillaries
    
    • The filtrate that is formed has glucose, oxygen, vitamins,etc. and is put out into the ventricles

NOTE: Waste and other unwanted material can also move the opposite direction out of the cavity of the ventrical. Ependymal cells absorb waste.

Question 63

What are the layers of the choroid plexus?

Answer 63

The choroid plexus consists:

• A layer of cuboidal epithelial cells surrounding a core of capillaries and loose connective tissue.
• The epithelium of the choroid plexus is continuous with the ependymal cell layer that lines the ventricles.
  
  • The cells of the choroid plexus are non ciliated and has tight junctions between the cells on the side facing the ventricle.
• The choroid plexus folds into many villi around each capillary, creating frond-like processes that project into the ventricles.
  
  • The villi, along with a brush border of microvilli, greatly increases the surface area of the choroid plexus.
• The choroid plexus consists of many capillaries, separated from the ventricles by choroid epithelial cells.

Question 64

What are the major differences between the plasma and the CSF?

Answer 64

• There are virtually NO PROTEIN that makes it into CSF
• pH is lower is CSF

Question 65

What is the BBB permeable to? What is it not permeable to?

Answer 65

Permeable to

• Water
• non-ionised lipid soluble substances
• ethanol
• caffeine

Not permeable to

• protein
• protein-bound substances (Drugs, hormones)
• strongly hydrophilic (water soluble) substances (Na, K)
  
  • use of specialised carrier-mediated transport mechanisms

Question 66

The neurons and neuroglia are surrounded by _______ and __________ is in the ventricles of the brain.

Answer 66

ECF; CSF

Question 67

What is the flow of CSF?

Answer 67

1. Lateral ventricle
2. Interventricular foramine (foramen of Monroe)
3. Third ventricle
4. Supraoptic recess of 3rd ventricle
5. Infundibular recess of 3rd ventricle
6. Cerebral aqueduct
7. Fourth venricle
8. Foramen of Luschka (lateral) & Magendie (medial)
9. Subarachnoid space

Question 68

Circumventricular organs (CVOs)

Answer 68

Structures that permit polypeptide hypothalamic hormones to leave the brain without disrupting the blood-brain barrier (BBB) and permit substances that do not cross the BBB to trigger changes in brain function.

*CVOs are outside of the BBB are are hence expose to blood

Question 69

Circumventricular organs can be classified into __________ organs and ___________ organs.

Answer 69

Sensory; Secretory

Question 70

Sensory organs

Answer 70

• Area postrema (AP)
  
  • Body fluid homeostasis, emetic physiology
• The subfornical organ (SFO)
  
  • Thirst-regulating
• The organum vasculosum of lamina terminalis (OVLT)
  
  • Fluid and electrolyte balance

Question 71

Secretory organs

Answer 71

• Subcommissural organ (SCO)
  
  • Secretes various glycoproteins into CSF
• The posterior pituitary (i.e., neurohypophysis)
  
  • Secretes vasopressin and oxytocin into the blood
• The pineal gland
  
  • Mediates circadian rhythms; melatonin
• The median eminance
  
  • Hypophysiotrophic hormones converge here before they are conveyed to the pituatary gland
• The intermediate lobe of the pituitary