Lecture 14: General Neurophysiology

Question 1

What is the two-stage process in the formation of CSF; conncentrations of what ions are controlled and how does water cross?

Answer 1

Step 1: Passive filtration of serum

Step 2: HCO3, Cl-, and K+ concentrations are controlled by channels on epithelial cells. Aquaporin 1 allows H2O to cross

Question 2

How does the production of CSF change over a wide range of intracranial pressures?

Answer 2

Production of CSF is constant, regardless of ICP

Question 3

What is found in equal concentrations between the CSF and plasma?

Answer 3

HCO₃-

Question 4

What is found in higher concentration in the CSF then in plasma?

Answer 4

• Mg
• Cl-
• CO₂

Question 5

What is found in higher concentration in the plasma than in the CSF?

Answer 5

• K+
• Ca²⁺
• Protein
• Glucose

Question 6

Absoprtion of CSF is proportional to ICP; at what pressure is there no absorption?

Answer 6

Pressures below 68 mm CSF

Question 7

Capillaries in brain have 2 components that limit exhange, what are they?

Answer 7

1. Tight junctions between endothelial cells
2. Glial endfeet come in close contact w/ BV

Question 8

Which molecules are able to passively diffuse across the BBB; what channel for water?

Answer 8

• H₂O via AQP-4
• CO₂
• O₂
• Free steroid hormones (not protein bound)

Question 9

What is the major energy source for neurons and how are they able to acquire it; does this process depend on insulin?

Answer 9

• Glucose
• Glut 1 transporter to cross BBB

- Two forms: 55K on capillaries and 45K on astroglia

• NOT insulin dependent!
• Neurons use Glut-3 to move glucose in

Question 10

What is the purpose of the Na/K/2Cl transporter on the BBB; expression of this transporter is tied to?

Answer 10

• Move all of these ions from CSF —> Blood
• When thinking hard, the [K+] of your CSF will increase and needs to be removed to maintain the RMP of the neurons
• Expression tied to endothelin 1 and 3
• ET production tied to signal from astrocytes
• May be related to [K+]_CSF

Question 11

Many drugs do cross the BBB but many of which are quickly moved back to blood by what?

Answer 11

P-glycoprotein

Question 12

What are the 3 major functions of the BBB?

Answer 12

1. Maintain electrolyte composition, particularly K+ and Vm (membrane potential)
2. Protection from toxins
3. Prevent escape of NTs

Question 13

In the nueronal areas where we don’t want a BBB, what strucutral piece is missing?

Answer 13

Tight junctions

Question 14

What is the name of the organs that are neural tissue not protected by the BBB; how many regions?

Answer 14

• Circumventricular organs
• There are 4 regions

Question 15

What are the 4 circumventricular areas that lack BBB

Answer 15

1. Posterior Pituitary: releases hormones into blood
2. Area Postrema: trigger zone for vomiting
3. Organum Vasculosum of the lamina terminalis (OVLT): involved in control of body water/thirst/blood volume
4. Subfornical organ: involved in control of body water/thirst/blood volume

Question 16

What are the NT’s, receptor, and function of the sympathetic innervation of cerebral circulation?

Answer 16

• NT’s: Norepi and NPY
• Receptor: α-adrenergic
• Function: leads to constriction when systemic cardiac output/BP increases

Question 17

What are the parasympathetic NT’s and function for cerebral circulation?

Answer 17

• ACh, VIP, PHM-27 (derived from pre-pro-VIP)
• Cause vasodilation

Question 18

Which vessels of the cerebral circulation have sensory innervation?

Answer 18

Distal blood vessels

Question 19

What 3 NT’s are released at the blood vessels in cerebral circulation and cause vasodilation?

Answer 19

1. Substance P
2. Neurokinin A
3. CGRP

Question 20

The sensory fibers of the vasculature of cerebral circulation render the vessels extremely sensitive to what?

Answer 20

Torsion/manipulation - lead to pain

Question 21

What is the role of sensory innervation of the cerebral circulation in the presence of reduced CSF volume?

Answer 21

• Brain is effectively heavier w/ reduced CSF and simple motion can cause pain due to torsion of the BV’s
• Causes activation of the afferent fibers, which will cause vasodilation and increase blood flow

Question 22

Cerebral blood flow is under local control; what dictates where in brain blood will go?

Answer 22

Oxgen consumption

Question 23

Cerebral blood flow is under what kind of regulation?

Answer 23

• Auto-regulation
• Held constant over a wide range of system (mean arterial) BP’s

Question 24

In the face of high BP (>140 mmHg) the auto-regulation mechanisms of the brain will not be able to maintain constant blood flow, what system will come into play?

Answer 24

• Sympathetics in brain will VASOCONSTRICT (Norepi and NPY) the vasculature
• This will increase the systemic vascular resistance, but it protects the capillaries in the brain and the blood brain barrier from damage
• Damage may occur within systemic vasculature/organs, but at the end of the day the brain takes precedent

Question 25

Cerebral blood flow is strongly influenced by ICP, what occurs as the ICP goes up?

Answer 25

• Venous outflow is obstructed
• Leading to reduced arterial flow

Question 26

As ICP increases, venous outflow is obstructed, and arterial flow/perfusion of the brain will be decreased, what does this lead to?

Answer 26

• Activation of vasomotor centers and increase systemic BP - sometimes DRASTICALLY (>300 mmHg)
• Brain will do everything it takes to get blood perfusion

Question 27

Which aquaporin is most important in controlling brain-water balance?

Answer 27

AQP4