ECF Volume Regulation 1

Question 1

What organ regulates ECF volume?

Answer 1

Kidneys

Question 2

What is the distribution of of water between cells and ECF determined by?

Answer 2

Number of osmotically active particles in each compartment

Question 3

What are the major ECF osmoles?

Answer 3

Na and Cl

Question 4

What are the major ICF osmokes?

Answer 4

K salts

Question 5

How is water distributed in the body?

Answer 5

Question 6

What volume of water is found in ICF, what is this volume?

Answer 6

66% (28L)

Question 7

What volume of water is found in ECF, what is this volume?

Answer 7

33% (14L)

Question 8

What percentage of total body weight is water?

Answer 8

60%

Question 9

What is the volume of water in the entire body?

Answer 9

42L

Question 10

What is ECF water split into?

Answer 10

Plasma

Interstitial fluid

Question 11

What volume of water is found in plasma?

Answer 11

3L

Question 12

What volume of water is found in interstitial fluid?

Answer 12

11L

Question 13

What is the volume of blood perfusing tissues known as?

Answer 13

Effective circulating volume

Question 14

How does changes in Na content of the ECF impact blood volume and blood pressure?

Answer 14

Changes in Na of the ECF causes changes in ECF volume so affects volume of blood perfusing tissues and blood volume

Question 15

What is regulation of Na dependent on?

Answer 15

High and lower pressure baroreceptors

Question 16

What is the medical term for low blood volume?

Answer 16

Hypovolaemia

Question 17

What can hypovolaemia be caused by?

Answer 17

Salt and water loss (such as in vomiting, diarrhoea or excess sweating)

Question 18

Explain the renal response to hypovolaemia?

Answer 18

Decrease in perfusing volume -> decrease in venous pressure -> decrease in venous return -> decrease in atrial pressure -> decrease in EDV -> decrease in stroke volume -> decrease in cardiac output -> decrease in blood pressure -> decrease in carotid sinus baroreceptor inhibition of sympathetic discharge

Causes increase in sympathetic discharge -> increase vasoconstriction -> increased total peripheral resistance -> increased blood pressure towards normal

Question 19

What is the best way to deal with low volume?

Answer 19

Vasoconstriction

Question 20

What does VC stand for?

Answer 20

Vasoconstriction

Question 21

What impact does hypovolaemia have on the kidney?

Answer 21

Increased sympathetic discharge -> increase renal VC nerve activity -> increase renal arteriolar constriction and increase in renin

Increase in renin -> increases angiotensin II -> decrease in peritubular capillary hydrostatic pressure (and increase in oncotic pressure) -> increased Na reabsorption from proximal tubule and therefore less Na excreted

Increased angiotensin II also increases aldosterone -> increased distal tubule Na reabsorption and therefore less sodium excreted

Question 22

How is Na absorption changes if you have lost NaCl and water, such as in vomiting?

Answer 22

Increase in Na reabsorption, therefore more of the “wet stuff” then increase in oncotic pressure even more so can reabsorb up to 75% of filtrate at the proximal tubule

Question 23

What are the 2 ranges of Na reabsorption in proximal tubule at the 2 extremes of volume excess and volume deficit?

Answer 23

Volume excess - 65%

Volume deficit - 75%

Question 24

How does GFR change with changes in sodium reabsorption due to for example vomiting?

Answer 24

GFR remains largely unaffected:

• Autoregulation maintains GFR and the VC of afferent and efferent means little effect on GFR until volume depletion severe enough to cause considerable ¯ MBP

Question 25

How is GFR maintained even in decreased renal blood flow?

Answer 25

Increased resistance in efferent arteriole due to angiotensin II

Question 26

What is regulation of distal tubule sodium reabsorption under the control of?

Answer 26

Aldosterone

Question 27

What is aldosterone very important for?

Answer 27

Long term regulation of Na and ECF volume

Question 28

What forms the juxtaglomerular apparatus?

Answer 28

Juxtaglomerula cells and macula densa

Question 29

What is renin secreted from?

Answer 29

Juxtaglomerular cells

Question 30

What is renin?

Answer 30

A proteolytic enzyme which acts on a large protein in the a2-globulin fraction of the plasma proteins = angiotensinogen

Question 31

How does renin result in the creation of angiotenin II?

Answer 31

Renin converts angiotensinogen in angiotensin 1, which is converted into angiotensin II by ACE (enzyme)

Question 32

What enzyme is responsible for the conversion of angiotenin I to angiotenin II?

Answer 32

Angiontenin converting enzyme (ACE)

Question 33

Where is angiotenin converting enzyme found?

Answer 33

* Found throughout the vascular endothelium, but greatest proportion of conversion occurs as blood passes through the pulmonary circuit

Question 34

What effects does angiotensin II have?

Answer 34

* Angiotensin II stimulates the aldosterone-secreting cells in the zona glomerulosa of the adrenal cortex * Aldosterone passes in the blood to the kidney where it stimulates distal tubular Na ion reabsorption

Question 35

What is the rate limiting step in RAAS?

Answer 35

Release of renin since angiotensinogen is always present in plasma

Question 36

What effects does angiotenin II have?

Answer 36

Question 37

When is renin release?

Answer 37

JG cells act as “renal baroreceptors”, less distension ® ­ secretion of renin. Intrinsic property, occurs if denervated. Increase in sympathetic innervation increases renin release via B1 effect

Question 38

How does tubuloglomerular feedback contribute to GFR consistancy?

Answer 38

GFR increases -\> flow through tubule increases -\> flow past macular densa increases -\> paracrine from macula densa to afferent arteriole -\> afferent arteriole constricts -\> resistance in afferent arteriole increases -\> hydrostatic pressure in glomerulus declines -\> GFR decreases

Question 39

What is the relationship between rate of renin secretion and rate of delivery of NaCl at the macula densa?

Answer 39

Inversely proportional (decreased NaCl delivery causes increases renin secretion)

Question 40

What inhibits renin release?

Answer 40

Angiotensin II feeds back to inhibit ADH (osmolarity control)

Question 41

Why is angiotenin II fundamentally important in the bodoies response to hypovolaemia?

Answer 41

* It stimulates aldosterone and therefore NaCl and water retention * Is a very potent vasoconstrictor, 4-8x more potent than NE, therefore contributing to TPR * Acts on hypothalamus to stimulate ADH secretion, which increases water reabsorption from CD * Stimulates the thirst mechanism and the salt appetite (in the hypothalamus)

Question 42

In some scenarios there are opposing inputes to ADH secreting cells. Such as a person suffering from severe diarrhoea, who has lost 3l of salt and water (from ECF) and drinks 2L of pure water (decrease in ECF osmolarity inhibits ADH secretion whilst decrease in volume increases ADH secretion). Which takes priority?

Answer 42

Volume considerations have primacy if ECF is compromised so that ADH will be increased, this is an emergency mechanism to save perfusion for the brain Normally, osmolarity is the main determinant of [ADH] but if sufficient volume change to compromise brain perfusion occurs then volume becomes the primary drive, so to conserve volume, tolerate disturbed osmolarity: * Once volume is restored in hypovolaemia then osmolarity will be normalised and again becomes the main determinant of ADH

Question 43

Is volume or osmolarity normally the main determinant of ADH secretion?

Answer 43

Osmolarity, however when volume is so low than brain perfusion is compromised this changes to volume

Question 44

What effect does angiontenin II have on arterioles?

Answer 44

Vasoconstriction to increase blood pressure

Question 45

What effect does angiotenin II have on CV centre in medulla oblongata?

Answer 45

Increases cardiovascular response to increase blood pressure

Question 46

What effect does angiotenin II have on the hypothalamus?

Answer 46

Increases vasopressin secretion and thirst to increase volume and maintain osmolarity which will increase blood pressure

Question 47

What effect does angiotensin II have on the adrenal cortex?

Answer 47

Increases aldosterone, which increases Na reabsorption, increasing volume and maintaining osmolarity which will increase blood pressure

Question 48

Where is angiotensinogen found?

Answer 48

Constantly found in plasma

Question 49

What organ produces angiotensinogen?

Answer 49

Liver

Question 50

Where is ACE enzyme found?

Answer 50

Blood vessel endothelium