Renal Physiology Lecture Powerpoint

Question 1

Kidney homeostatic functions (6)

Answer 1

• filters blood plasma eliminating waste, free radicals and drugs
• regulates blood volume and pressure
• regulates osmolarity of body fluids
• secretes renin
• secretes erythropoietin
• Activates vitamin D

Question 2

Kidney shares this homeostatic function with the liver and this function with the lungs

Answer 2

Liver: Detoxification (obvi) but also gluconeogenesis (a small amount)
Lungs: regulates acid base balance

Question 3

Renin definition

Answer 3

Major component of the RAAS which allows the kidneys to control the body’s BP by regulating fluid volume

Question 4

Erythropoietin definition

Answer 4

Hormone released in response to low plasma o2, acts on hemocytoblasts to convert them into erythrocytes to increase the number in circulation

Question 5

Vitamin D3 activation by the kidney

Answer 5

Kidney functions to convert vit D3 to active form vit D2

Question 6

Where is the kidney in relationship to the peritoneum?

Answer 6

Retroperitoneal - behind the peritoneum

Question 7

Urine flow pathway from collecting duct to exit

Answer 7

• Collecting duct
• Renal papilla
• Minor calyx
• Major calyx
• Renal pelvis
• ureter
• bladder
• urethra (prostatic, membranous, spongy in men, just urethra in women)

Question 8

Renal pyramids and renal columns definition

Answer 8

Renal pyramids are the triangles pointed toward the center of the kidney that are composed of the renal medulla
Renal columns are the projections that fill the space between the renal pyramids

Question 9

2 types of nephrons and their definition

Answer 9

1) cortical - short nephron loops that have a shorter loop of henle that dips into the outer medulla
2) Juxtamedullary - long nephron loops with longer glomeruli that dip into the deeper medulla and are extremely important in maintaining a salt gradient as well as conserving water

Question 10

How many nephrons are there in a kidney?

Answer 10

Approx 1 million

Question 11

Components of a renal corpuscle (2)

Answer 11

• Glomerulus

- Bowman’s capsule

Question 12

The afferent arteriole entering the glomerulus typically has ___ hydrostatic pressure relative to the efferent and is thus vaso____

Answer 12

higher, vasodilated

Question 13

Portions of the nephron from glomerulus to collecting duct

Answer 13

• Glomerulus
• proximal convoluted tubule
• Descending loop of henle
• ascending loop of henle
• distal convoluted tubule
• collecting duct

Question 14

Glomerulus definition and function

Answer 14

A tuft of blood vessels from the afferent arteriole that allow for fluid filtration of the blood into the proximal convoluted tubule before the capillaries converge and exit as the efferent arteriole

Question 15

Bowman’s capsule definition and function

Answer 15

Visceral and parietal epithelial cell layers surrounding and below a basement membrane of the glomerulus containing podocytes where fluid can pass onward into the proximal convoluted tubule from the glomerulus

Question 16

Podocytes definition and function

Answer 16

Cytoplasmic extensions that wrap around capillaries of the glomerulus from bowman’s capsule, have openings called filtration slits that limit the substances that can be filtered through relaxation and contraction

Question 17

Type of capillaries located in the glomerulus

Answer 17

Fenestrated

Question 18

Filtration membrane of the glomerulus definition, and the 3 layers that make it up

Answer 18

Filtration membrane is the thickness between the endothelium of the capillary to the space of bowman’s capsule, the 3 layers are the 1)fenestrated endothelium, 2)basement membrane, and 3)filtration slits of the podocytes

Question 19

Blood pathway through the kidney from renal artery to renal vein

Answer 19

• renal artery
• interlobar arteries traveling up columns of the kidney
• arcuate arteries that travel across pyramids of the kidney
• interlobular arteries that travel into the cortex
• afferent arterioles
• glomerulus
• efferent arterioles
• peritubular capillaries surround tubular portion of nephron capturing and reabsorbing substances
• interlobular vein
• arcuate veins
• interlobar veins
• renal vein

Question 20

Juxtaglomerular apparatus definition and function

Answer 20

A specialized structure composed of macula densa, juxtaglomerular cells, and mesangial cells that functions to rregulate filtrate formation and systemic BP

Question 21

Macula densa defnition and function

Answer 21

epithelial cells in the distal convoluted tubule adjacent to juxtaglomerular cells part of the juxtaglomerular aparatus. Senses changes in solute content of filtrate (decreased Na+) in lumen and secretes paracrine messenger to sitmulate JG cells

Question 22

Juxtaglomerular cells definition and function

Answer 22

Modified smooth muscle cells that form a cuff around the afferent arteriole as it moves to the glomerulus part of the juxtaglomerular apparatus. Contains renin granules and are stimulated to release by acting as mechanoreceptors that directly sense BP in afferent arterioles

Question 23

Mesangial cells definition and function

Answer 23

Cells between the afferent and efferent arterioles and among capillaries of the glomerulus part of the juxtaglomerular apparatus. Thought to mediate communication between juxtaglomerular cells and macula densa (i.e. macula densa at distal tubule sends paracrine signals thru messangial cells to reach JG cells to release renin)

Question 24

Renal plexus definition and function

Answer 24

sympathetic division ANS nerves that follow the renal artery and function to regulate the rate of bloodflow thru the kidneys by regulating diameter of arterioles, can very quickly adjust blood flow

Question 25

3 general processes in the formation of urine

Answer 25

1) glomerular filtration
2) tubular reabsorption into peritubular capillaries from nephron
3) tubular secretion from renal capillaries to nephron

Question 26

Some drugs such as ___ and ____ are secreted via tubular secretion

Answer 26

NSAIDS, cephalosporins

Question 27

Glomerular filtrate is similar to ___ in content

Answer 27

Plasma

Question 28

How much renal filtrate is reabsorbed into the blood stream?

Answer 28

As much as 99%

Question 29

Net filtration pressure is formed from these three components

Answer 29

• Blood hydrostatic pressure going into the proximal convoluted tubule (largest, variable)
• Colloid osmotic pressure pulling fluid into the efferent arteriole
• Capsular pressure pulling fluid into the efferent arteriole

Question 30

Glomerular filtration rate definition (GFR)

Answer 30

Amount of filtrate formed by kidneys in 1 minute

Question 31

Typical GFR for adults

Answer 31

100-125mL/min

Question 32

In a 24 hr period blood passes thru the kidneys at least ___ times

Answer 32

36

Question 33

How much of the GFR measured in ml/min is voided? What happens to the remaining 100-125mL/min

Answer 33

1ml/min voided, remaining is reabsorbed

Question 34

Increased arterial BP in the kidneys ___ GFR

Answer 34

Increases

Question 35

How much urine is excreted per day

Answer 35

1 to 2 liters

Question 36

Autoregulation of arterial pressure by kidneys definition

Answer 36

Refers to intrinsic ability of kidney to continually adjust to keep GFR constant over a wide range of arterial pressure (90-190mmHg)

Question 37

Blood flow (Q) formula

Answer 37

Q= deltaP/R

deltaP=pressure gradient
R=resistance

Question 38

When there is increased BP, the kidney will ___ afferent arteriole and ___ efferent arteriole

Answer 38

Constrict, dilate

Question 39

When there is decreased BP, the kidney will ___ afferent arteriole and ___ efferent arteriole

Answer 39

Dilate, constrict

Question 40

Constriction of a vessel causes ___ pressure upstream and ___ pressure downstream

Answer 40

Increased, decreased

Question 41

3 mechanisms of renal autoregulation of GFR

Answer 41

1) myogenic mechanism
2) tubuloglomerular feedback
3) RAAS

Question 42

Myogenic mechanism of renal autoregulation of GFR definition

Answer 42

Increased systemic BP causes afferent arteriole constriction due to vascular smooth muscle response to stretch, lowering glomerular BP and preventing it from rising too high and reducing GFR

Question 43

Tubular feedback mechanism of renal autoregulation of GFR definition

Answer 43

JG cells sythesize, store, and release renin stimulated by hypovolemia or decreased renal perfusion
The macula densa detects flow or changes in filtrate at the distal convoluted tubule (decreased Na+) due to decreased GFR and stimulate paracrine messengers causing JG cells to relax dilating and increasing GFR to normal

Question 44

How does angiotensin II cause increase in GFR

Answer 44

It acts as a potent vasoconstrictor of efferent arterioles at low concentrations

Question 45

Autoregulation of renal system is unable to handle extremely ___ BP about ___mmHg, causing GFR to ___

Answer 45

low, <45, stop

Question 46

Nervous overriding of renal autoregulatory mechanisms

Answer 46

During extreme stress when blood must be shunted to heart, brain, and skeletal muscle at expense of kidneys and to conserve water (to maintain BP), the SANS releases epi and NE that strongly constrict afferent arterioles decreasing GFR greatly

Question 47

The SANS can stimulate ___cells under extreme stress which activates the ___ system and causes increased vasoconstriction of both ___ and ____ arterioles. When this happens, there is…

Answer 47

JG, RAAS, afferent, efferent

…no blood coming in or going out of the kidney

Question 48

3 hormones that cause vasoconstriction, decreasing renal blood flow and GFR

Answer 48

1) epi
2) norepi
3) angiotensin II

Question 49

Complete cessation or extremely low flow to kidneys can cause….

Answer 49

…renal failure

Question 50

Prostaglandins (PGE-2 and PGI-2) impact on GFR

Answer 50

Cause vasodilation increasing renal blood flow and GFR

Question 51

Explain how NSAIDS and ASA in high enough dosages can cause renal failure

Answer 51

-Prostaglandins that act as vasodilators are released by endothelium in arterioles, if formation and release inhibited blood flow may become too low due to excessive constriciton of the vasculature

Question 52

Renin angiotensin aldosterone system mechanism of action

Answer 52

• JG cells release renin in response to reduced stretch caused by drop in BP or by macula densa stimulation due to decreased Na+ in filtrate or via sympathetic stimulation
• Liver constantly secretes angiotensinogen into blood stream
• Renin splits angiotensinogen to angiotensin I
• Angiotensin I is converted to Angiotensin II by ACE found primarily in lungs (activated when agiotensin I moves thru pulmonary circulation)
• Angiotensin II causes predominant constriction of efferent arteriole but in high conc can impact afferent as well
• Angiotensin II sitmulates release of aldosterone by adrenal cortex causing Na+ retention at the collecting duct, H2O follows
• BP returns to normal

Question 53

Angiotensin II action on hypothalamus

Answer 53

Increase thirst

Question 54

Atrial natriuretic peptide mech of action (ANP) (Note that it has action on vessels, sodium conc, and other hormonal systems)

Answer 54

• Polypeptide produced by atrial heart muscle
• stimulated for release due to atrial distension (hypervolemia)
• Increases vasoconstriction of efferent arteriole
• Dilation of afferent arteriole
• Increases Na+ loss
• Inhibits aldosterone and renin

Question 55

Reabsorption in the proximal nephron mechanism of action

Answer 55

• In the tubular cells, the luminal side faces toward the nephron has several Na+ energy dependent cotransporters (glucose, AA, etc) to bring in and reabsorb nutrients (as well as water that follows
• This Na+ transport moves down its conc. gradient because of low Na+ conc. in the cell because on the basal side facing toward the interstitial space and thecapillary has many Na+/K+ pumps that actively pump out Na+

Question 56

Aldosterone mech of action

Answer 56

-Increases reabsorption of Na+ ions and excretes K+ ions by increasing Na+ K+ ATPase activity in distal and collecting tubule cells

Question 57

Solvent drag definition

Answer 57

Tendency for water absorbed by osmosis to carry other solutes with it

Question 58

The proximal convoluted tubule reabsorbs the ____ of chemicals

Answer 58

Greatest variety

Question 59

Transport maximum definition

Answer 59

The upper limit to the rate of how much substance a cell can transport across its membrane per unit time due to saturation of the transport proteins, dependent on how many transport proteins are available, varies for each substance

Question 60

ADH/vasopressin mech of action (include where it is produced and stored)

Answer 60

• Produced in hypothalaus
• stored in posterior pituitary
• drop in pressure directed by baroreceptors in aorta and carotids or dehydration stimulate hypothalamus
• hypothalamus stimulates posterior pituitary
• ADH increases water absorption by binding the distal convoluted tuble and collecting duct and allowing aquaporin activation to decrease urine volume

Question 61

Approx __% of urea in filtrate is reabsorbed

Answer 61

50

Question 62

Creatinine reabsorption and why is it useful?

Answer 62

Not reabsorbed so useful measurement of GFR and glomerular function

Question 63

Substances that undergo tubular secretion from blood into renal tubules (3)

Answer 63

-ammonia
H+ ions
-K+ ions

Question 64

Countercurrent mechanism of loop of henle components (2)

Answer 64

• Loop of henle

- Vasa recta (derived from peritubular capillary and surround the loop of henle)

Question 65

Countercurrent multiplier of loop of henle mech of action

Answer 65

• As water moves down descending loop of henle, osmolarity continues to rise from 300 to 1200 mOsm in the interstitial space, drawing out more and more H2O
• The more water that leaves the descending limb, the saltier the remaining fluid in the tubule
• At the ascending limb, the ions are pumped into the interstitial fluid while it remains impermeable to water at this point
• The more salt that is pumped out of the ascending limb, the saltier the interstial space is for the water
• Vasa recta descending capillaries see water diffuse out of blood and NaCl diffuse into blood
• Vassa recta ascending capillaries see water diffusing into blood and NaCl out of blood, encouraging much greater water retention

Question 66

Items absorbed in the proximal tubule, loop of henle, distal tubule, and colelcting duct

Answer 66

Proximal - Na+ maority, gluose, amino acids, K+, urea
Loop of henle descending - H2O reabsorption
Loop of henle ascending - Na+ reabsorption, impermeable to water
Distal - very little
Collecting duct - H2O mainly

Question 67

___% of water is reabsorbed from the proximal tubule and descending loop of henle, this is called ____ reabsorption

Answer 67

75, obligatory

Question 68

Diabetes insipidus is a deficiency of….

What 2 symptoms does this cause?

Answer 68

…ADH

Polyuria, polydipsia

Question 69

Inhibitor of ADH release

Answer 69

alcohol

Question 70

Aldosterone functionally decreases this ion and increases this ion both in blood levels.

It is what kind of hormone?

Answer 70

K+, Na+

Steroid

Question 71

Caffeine mech of action as a diuretic

Answer 71

Dilates afferent arteriole, increases cardiac output driving blood flow to kidney resulting in increased GFR

Question 72

Lasix mech of action as diuretic

Answer 72

get back to me on this one Tav

Question 73

Vit D2 function

Answer 73

Active form of vitamin D that causes increased absorption of Ca2+ and phosphorus in small intestine

Question 74

Simple explanation of kidney acid base balance regulatory function

Answer 74

• Acidic blood causes more H+ secretion into filtrate and more HCO3- ions reabsorbed into blood
• Basic blood causes less H+ reabsortpion into blood and more HCO3- secretion into filtrate

Question 75

Trigone definition, what can inflammation of it cause?

Answer 75

Little space between ureters and urethra on base of bladder that can become inflamed and cause interstitial cystitis

Question 76

Internal urethral sphincter is __ muscle part of the ___ muscle and external is ____ muscle

Answer 76

Smooth, detrusor, skeletal

Question 77

How much urine triggers sensation of need to micturate?

Answer 77

200-300mL

Question 78

How much fluid can a full bladder hold?

Answer 78

800mL

Question 79

The short length of the female urethra can make it easy to have this infection occur

Answer 79

Bacterial cystitis

Question 80

Micturition reflex

Answer 80

• stretch receptors upon 200mL of urine in bladder send signal to spinal cord (S2, S3)
• Parasympathetic reflex arc from spinal cord stimulates contraction of detrusor muscle
• relaxation of internal urethral sphincter
• sensory fibers also go up to brain in pons and allow it to analyze and keep external muscles tight preventing urination