7 - Renal Physiology III

Question 1

REVIEW: Which segment of the renal tubules secrets water?

a. The thin descending limb of the loop of Henle
b. The cortical collecting tubule
c. The medullary collecting duct (when ADH is absent)
d. No segment secretes water

Answer 1

No segment secretes water

This is because water is ONLY reabsorbed in the renal tubules

Question 2

REVIEW: If the thick ascending limb of the loop of Henle would stop to re-absorb sodium, then the final urine would be:

a. Iso-osmotic with plasma in all conditions
b. Dilute
c. Concentrated
d. Dilute or concentrated, depending on ADH

Answer 2

a. Iso-osmotic with plasma in all conditions

The ability of the kidney to form urine that is more concentrated than the plasma is essential for survival of mammals that live on land

The basic requirements for forming a concentrated urine are:

• A high osmolarity of the renal medullary interstitial fluid
• A high level of antidiuretic hormone (ADH) also called vasopressin

Question 3

What are the two fluid compartments of the body?

Answer 3

• Intracellular fluid

- Extracellular fluid

Question 4

Describe the intracellular fluid

Answer 4

• Compared with ECF, it has high concentrations of protein, potassium and phosphate and low levels of sodium and chloride
• Most important intracellular cation is K+ (~135 mEq/L)
• Main intracellular anions are phosphates and protein with lesser amounts of SO4-2 and HCO3

Question 5

Describe the extracellular fluid

Answer 5

• Plasma (intravascular fluid which contains serum electrolytes)
• Interstitial fluid (cations and anions)

Question 6

Describe homeostasis

Answer 6

Homeostasis: The tendency of a system to maintain its internal stability, owing to the coordinated response of its parts to any situation or stimulus that would tend to disturb its normal condition or function

Question 7

Describe homeostasis in body fluids

Answer 7

The maintenance of a relative
constant volume and a stable
composition of the body fluid
is essential for homeostasis

Question 8

Which ions reside primarily in the extracellular compartment?

Answer 8

Na+ and Cl- ions reside
primarily in the extracellular
compartment

Question 9

What is the most abundant ion in the extracellular compartment?

Answer 9

Na+ is the most abundant ion

in the extracellular compartment

Question 10

Describe the normal state of the body in terms of intra- and extracellular fluid compartment size and osmolality

Answer 10

Under normal conditions, ICF is 2/3 and ECF is 1/3 of TBW (total body water)

The osmolality of both compartments is 300 mosm/L

Question 11

What happens when we add H20?

Answer 11

If water is added to the plasma (ECF), ECF osmolality would be diluted initially (become hypotonic) compared to ICF

Water would then enter the ICF space (cells would swell) to equilibriate the osmolality between compartments

The overall effect would be to reduce the osmolality of ICF and ECF and expand the compartment size

Question 12

What happens when we add isotonic saline?

Answer 12

If isotonis saline solution (solution with NaCl concentration of 300 mosm/L) was added to the plasma (ECF), the fluid will stay in the ECF because it is isotonic, expanding that compartment

This only happens when there is NOT compensatory mechanisms in place

Question 13

What happens when we add hypertonic saline?

Answer 13

If hypertonic saline was added to the plasma, ECF osmolality would increase greatly initially and fluid would be drawn out of the cells and into the ECF to lower the tonicity of the ECF

This would contract the volume of the ICF compartment (cells would shrink) and increase the volume of the ECF compartment, as well as increase the overall osmolality

This only happens when there is NOT compensatory mechanisms in place

Question 14

What is the effect of ingesting NaCl on ADH and thirst?

example: eat a salty meal

Answer 14

• Brain osmoreceptors shrink and person feels thirsty and drinks water
• Brain increases release of ADH so more water is re-absorbed (concentrated urine)
• Increased water ingestion and concentrated urine result in expansion of ECF and rise in blood pressure
• Increased blood pressure causes decrease in ADH secretion
• Result pressure diuresis (and natriuresis) which causes return to normal ECF volume

Question 15

What is the effect of ingesting NaCl on atrial natriuretic peptide?

(example: eat a salty meal)

Answer 15

• Ingesting NaCl expands plasma volume
• Plasma volume expansion stretches the atria which
  increases secretion of the natriuretic peptides

Question 16

What is the renal response to chages in plasma volume and osmolality?

Answer 16

• Control of extracellular fluid (ECF) volume is a continual process, with changes in plasma osmolality and volume signaling
• Multiple neural and hormonal systems regulate plasma volume and osmolality

Question 17

What is the renal response to volume contraction?

Answer 17

• Renin-angiotensin-aldosterone system is activated
• ADH from the posterior pituitary gland is stimulated
• Sympathetic nerves are stimulated

Question 18

What is the renal response to volume expansion?

Answer 18

• Sodium- and fluid-retaining mechanisms are decreased (RAAS, ADH both decreased )
• The increased stretch on the cardiac right atrium releases atrial natriuretic peptide

Question 19

Describe the distribution of the extracellular fluid between the interstitial space and vascular system

Answer 19

• Ingested fluid initially goes into the blood, but it rapidly becomes distributed between the interstitial spaces and the plasma
• Blood volume and extracellular fluid volume usually are controlled simultaneously
• There are circumstances, however, in which the distribution of extracellular fluid between the interstitial spaces and blood can vary greatly

Question 20

What are the principle factors that can cause accumulation of fluid in the interstitial space?

Answer 20

1. Increased capillary hydrostatic pressure
2. Decreased plasma colloid osmotic pressure
3. Increased permeability of the capillaries

Question 21

Describe increased hydrostatic pressure

Answer 21

• High BP
• Leads to fluid being pushed out of the vasculature
• Causes edema

Question 22

Describe decreased osmotic pressure

Answer 22

• Low protein in blood
• Due to nephrotic syndrome (protein leaking out)
• Also causes edema

Question 23

Give a summary of the key concepts we covered in this lecture

Answer 23

• The maintenance of a relative constant volume and composition of the body fluid is essential for homeostasis
• Total body fluid is distributed mainly between two compartments:
  
  • -> Extracellular fluid
  • -> Intracellular fluid
• Extracellular fluid is divided into the interstitial fluid and blood plasma
• Volume and osmolality of extracellular and intracellular fluid are controlled by a combination of neural and hormonal systems
• Edema refers to the presence of fluid in the body tissue. It occurs mainly in the extracellular fluid