Glomerular- Physiology

Question 1

What is the hormone secreted by the kidneys to stimulate the production of RBC’s by hematopoietic stem cells in bone marrow?

Answer 1

Erythropoietin

Question 2

What does the kidney produce which is essential for normal calcium deposition in bone and calcium reabsorption in the GI tract?

Answer 2

active form of vitamin D (calcitrol, 1,25-dihydroxyvitamin D)

Question 3

Give me all the branches from the renal artery down to the glomerulus.

Answer 3

renal artery –> segmental arteries –> interlobar arteries –> arcuate arteries –> interlobular arteries –> afferent arterioles –> glomerular capillaries

Question 4

The distal ends of the glomerular capillaries combine to form the efferent arterioles which lead to this network which surround the renal tubules.

Answer 4

Peritubular capillaries

Question 5

True or False: glomerular capillaries have a higher hydrostatic pressure than other capillaries.

Answer 5

True!

it’s ~60mmHg

Question 6

What is the thing of the nephron that surrounds the glomerulus?

Answer 6

Bowman’s capsule

Question 7

Is the proximal convoluted tubule (PCT) in the cortex or medulla of the kidney?

Answer 7

Cortex

Question 8

Is the loop of the henle (LH) mainly in the cortex or medulle of the kidney?

Answer 8

medulla

Question 9

Is the distal convoluted tubule in the cortex or medulla?

Answer 9

Cortex

Question 10

These type of nephrons have glomeruli in the outer cortex, have short LH, and the entire tubular system is surrounded by peritubular capillaries.

Answer 10

Cortical nephrons

Question 11

These nephrons are clost to the cortex/medulla border, have long LH, and have the vasa recta.

Answer 11

Juxtamedullary nephrons

Question 12

The long LH in the juxtamedullary nephrons helps concentrate the urine, which is important in which animal, specifically?

Answer 12

Kangaroo mouse

they have extremely long loops of henle cuz it helps concentrate the urine a ton because they live in the desert lol. random fact for today.

Question 13

What is the main nerve supply to the bladder?

Answer 13

Parasympathics from the Pelvic nerves (S2-4)

“P”arasymp from the “P”elvic nn.

Question 14

What is the nerve that innervates the external bladder sphincter?

Answer 14

Pudendal nerve

Question 15

Is the pudendal n voluntary or involuntary?

Answer 15

Voluntary (controls when u pee dawg)

Question 16

What are the sympathetic nevres to the bladder which stimulate blood vessels?

Answer 16

Hypogastric nn (L2)

Question 17

Which nn sense stretch in the bladder wall when it fills with pee to begin the mictruition reflex?

Answer 17

Pelvic splanchnics

Question 18

The pelvic splanchnics tell whcih nerves to cause which nerves to stimulate the detrouser muscle to contract?

Answer 18

They signal themselves. It’s like jerk—

nvm.

Question 19

Which nerve fibers are destroyed to cause an atonic bladder?

Answer 19

Sensory fibers

Question 20

In addition to crush injury to the sacral region or DRG dmg, what infeciton can u get to cause an atonic bladder?

Answer 20

Syphilis (Tabes dorsalis)

Question 21

What are the Sx to an atonic bladder?

Answer 21

ur incontinent but constantly leak pee.

overflow incontinence

Question 22

Where must the damage be to cause an “automatic” bladder?

Answer 22

damange above the sacral region

Question 23

Why does damage above the sacral region cause an automatic bladder?

Answer 23

it allows micruition reflexed to still occur but it is no longer controlled by the brain.

Question 24

What are the Sx to an automatic bladder?

Answer 24

periodic, unnanounced, peeing

bladder has its own brain! lol

Question 25

Where must the damage be to cause an uninhibited neurogenic bladder?

Answer 25

partial dmg to the spinal cord or brainstem that damages the inhibitory signals from the brain

Question 26

What are the Sx to uninhibited neurogenic bladder?

Answer 26

frequent and relatively uncontrolled mictruition

Question 27

Glomerular filtration, Reabsorption of substances from the tubules, and Secretion of substances from the blood all effect what property of a substance?

Answer 27

The rate at which it’s excreted

Question 28

What is 1 substance that is filtered but NEITHER reabsorbed nor secreted?

Answer 28

Creatinine

Question 29

So the excretion rate of creatinine can give us what other value since it’s neither reabsorbed or secreted?

Answer 29

filtration rate

Question 30

What are 2 thing sthat are freely filtered but is not excrete into the urine because of 100% reabsorption?

Answer 30

glucose and amino acids

Question 31

What is the excretion rate of glucose and amino acids then?

Answer 31

0

Question 32

What are some substances that are freely filtered and is NOT absorbed, but additional quantities are secreted?

Answer 32

Organic acids and bases

Question 33

So for organic acids and bases, is excretion rate higher or lower than filtration rate?

Answer 33

HIGHER

Question 34

This is the volue of blood delivered to the kidneys per unit time.

Answer 34

Renal blood flow (RBF)

Question 35

What % of the cardiac output is RBF?

Answer 35

22% (1.1L/min)

Question 36

This is the volume of the blood PLASMA delivered to the kidneys per unit time.

Answer 36

Renal Plasma Flow (RPF)

Question 37

What is the averageRPF?

Answer 37

~650 mL/min

Question 38

This is the voluem of fluid filtered from the glomerular capillaries into Bowmans capsule per unit time.

Answer 38

Glomerular Filtration Rate (GFR)

Question 39

What is the average GFR?

Answer 39

125 mL/min

Question 40

This is the fracton of the RPF that is filtred as it passes through the glomerular capillaries.

Answer 40

Filtration fraction (FF)

Question 41

What is the eqn for the filtration fraction?

Answer 41

FF = GFR/RPF

basically:
% filtered) = (amt actually filtered)/(possible amt to be filtered

Question 42

What is the average FF?

Answer 42

20%

Question 43

These are the small holes in the endothelium of the capillary.

Answer 43

Fenestrae

Question 44

Though the fenestrae are large enough for plasma proteins to flow through them, what keeps them from flowing through?

Answer 44

Fenstrae have a negative charge (repels them bitches)

Question 45

What composes the basement membrane?

Answer 45

Collagen and proteoglycan fibrils

Question 46

Though small susbtances like water and solutes can get through, waht prevents the filtration of plasma protiens through the basement membrane?

Answer 46

strong negative charge

Question 47

What surrounds the outer surface of the capillary basement membrane?

Answer 47

Epithelial cells (podocytes)

Question 48

What separates the podocytes?

Answer 48

Slit pores

Question 49

What prevents the filtration of plasma proteins through the slit pores?

Answer 49

negative charge

basically, the renal corpuscle is a big negative nancy

Question 50

This is the sum of the hydrostatic and colloid osmotic forces across the glomerular membrane.

Answer 50

Net Filtration Pressure (NFP)

Question 51

This is the product of the PERMABILITY and filtering surface area of the capillaries.

Answer 51

Filtration coefficient (Kf)

Question 52

What is a normal Kf?

Answer 52

12.5 mL/min/mmHg

Question 53

Kf and NFP are both factors to what greater entity?

Answer 53

GFR

Question 54

So what’s the eqn for GFR?

Answer 54

GFR = Kf x NFP

Question 55

What is normal NFP?

Answer 55

+10 mmHg

Question 56

Diabetes, renal disease, and HTN ↓ what value to ↓ GFR?

Answer 56

↓ Kf

Question 57

Urinary tract obstruction ↑ what value to ↓ GFR?

Answer 57

↑ bowmans hydrostatic pressure (Pb)

Question 58

↓ RBF and increased plasma proteins ↑ what value to ↓ GFR?

Answer 58

↑ glomarular colloid pressure

Question 59

↓ arterioal pressure ↓ what value to ↓ PG?

Answer 59

↓ glomarular hydrostatic pressure

Question 60

↓ angiotensin II ↓ what value to ↓ PG?

Answer 60

↓ EFFERENT arteriolar resistance (less vasoconstriction)

Question 61

↑ SANS activity and vasoconstrictor hormones ↑ what value to ↓ PG?

Answer 61

↑ AFFERENT arteriolar resistance

Question 62

So in essence, if we ↑ EFFERENT arteriolar RESISTANCE, will we ↑ or ↓ GFR?

Answer 62

↑ GFR

Question 63

And if we ↑ AFFERENT arteriolar RESISTANCE, will we ↑ or ↓ GFR?

Answer 63

↓ GFR

Question 64

So what happens if we dilate afferent arterioles, will we ↑ or ↓ GFR?

Answer 64

↑ GFR

Question 65

If we ↑ the efferent arteriolar resistance, will RBF ↑ or ↓?

Answer 65

RBF ↓

Question 66

And if we ↑ the afferent arteriolar resistance, will RBF ↑ or ↓?

Answer 66

RBF ↓

Question 67

What is the equation to determine RBF?

Answer 67

RBF = [(Renal a. Pressure) - (Renal v. Pressure)]/Resistance

Question 68

This is the process of how the kidneys maintain effective mechanisms of constant RBF and GFR over a wide range of arterial pressure.

Answer 68

Autoregulation

Question 69

True or False: blood flow to the vasa recta is higher than the flow to the renal cortex.

Answer 69

FALSE. it’s very low

Question 70

This is the mechanism to stabilize NaCl delivery to the distal tubule by a link between the macula densa and the renal arteriolar resistance.

Answer 70

Tubuloglomerular feedback

Question 71

The tubuloglomarular feedback depends on a special anatomical arrangement of the macular densa next to what other structure?

Answer 71

Juxtaglomerular complex

Question 72

Which cells (macula densa or juxtaglomerular) sense changes in [NaCl] for the tubuloglomerular feedback?

Answer 72

Macula densa

Question 73

What change in GFR would cause a ↓ [NaCl] at the macula densa?

Answer 73

↓ GFR –> ↑ reabsorption of NaCl along ascending LH –> ↓ [NaCl] at macula densa

Question 74

What are the 2 effects of the macula densa in response to ↓ [NaCl]?

Answer 74

1. ↓ resistance of afferent arterioles

2. ↑ renin release from juxtaglomerular cells

Question 75

So when the macula densa ↑ renin release, how does that ↑ GFR?

Answer 75

by activating the RAAS system to constrict efferent arterioles –> ↑ GFR

Question 76

And when the macular densa ↓ resistance of the afferent arteriole, how does that ↑ GFR?

Answer 76

vasodilation of afferent arteriole –> ↑ RBF –> ↑ GFR

Question 77

This is the ability of individual blood vessels to resist stratching during increased arterial pressure, which maintains a constant RBF and GFR.

Answer 77

Myogenic feedback

Question 78

Stretching of vascular walls allows increased movement of what ions from the ECF to the cells, causign them to contract?

Answer 78

Ca++

Question 79

High protein intake (MUSCLE MILK U NOOB) and increased blood glucose (DIABETES WHERE U AT) do what do RBF and GFR?

Answer 79

↑ them both