Lecture 44 Renal Glomerular Filtration

Question 1

what direction does the indented surface of the kidney, the hilum face?

Answer 1

faces the spine

Question 2

what causes a renal colic?

Answer 2

pain in the flank that radiates toward the groin. Its usually sever and commonly called renal calculi. ( kidney stones)

Question 3

what kidney is lower and why?

Answer 3

the right kidney because the liver is above

Question 4

where might kidney stones cause pain due to obstruction?

Answer 4

• the junction of the renal pelvis and ureter
• the site where the ureter passes over the pelvic brim
• At the junction between the ureter and the bladder

Question 5

What is the order of Urine leaving?

Answer 5

the nephrons> renal pelvis> ureter> bladder

Question 6

The renal cortex has osmolality due to…

Answer 6

plasma

the inner medullary osmolality is increased severalfold ( this hyperosmolarity is responsible for the concentration of urine)

this osmotic gradient is used to recover water that is filtered from the vasculature each day.

Question 7

what is the average urinary water excretion?

Answer 7

1-2 L per day

Question 8

In the endocrine function of the kidney what occurs?

Answer 8

hormones are produced.

Erythropoietin- stimulates bone marrow for the production of red blood cells. ( pale skin and anemia if this is an issue)

Renin- converts angiotensinogen to angiotensin I.

Hydoxylates 25 OH to 1,25 OH vitamin D ( bone pain)

Question 9

What is the homeostatic function of the kidney?

Answer 9

• regulation of extracellular fluid
• regulation of osmolarity
• maintenance of ion balance
• homeostatic regulation of PH
• excretion of wastes ( urea, can have gout)

in kidney failure trouble maintaining blood pressure and hyperkalemia

Question 10

In polycystic disease where do the cysts form?

Answer 10

within the nephron and progressively enlarge and compress the surrounding tissues, preventing fluid flow through the tubule.

Question 11

what are the two types of nephrons?

Answer 11

cortical ( functional) 85% and juxtamedullary 15%

Question 12

the cortex of the nephron consists of what?

Answer 12

proximal and distal convoluted tubules as well as the initial segments of the collecting ducts, bowman’s capsule

Question 13

the medulla of the nephron consists of what?

Answer 13

consist of long loops of henle and the terminal regions of the collecting ducts

Question 14

what are juxtamedullary nephrons important for?

Answer 14

urine concentration

Question 15

what is the functional unit of the kidney and what does it consist of ?

Answer 15

the glomerulus and the renal tubule

Question 16

The glomerulus is a ______ network and is surrounded by ________, which is continuous with the first tubule of the nephron

Answer 16

capillary network

bowman’s capsule/bowman’s space

Question 17

what do the tubules of the kidney comprise of?

SLIDE 9 draw it muahahaha

Answer 17

1-proximal convoluted tubule.
2- loop of Henle ( proximal straight tubule, thin descending limb and thick ascending and distal straight tubule)
3. Distal convoluted tubule

Question 18

what is the blood supply of the kidney?

Answer 18

Renal artery> segmental artery> interlobar artery>arcuate artery> interlobular artery> afferent arteriole> glomerulus> efferent arteriole> peritubular capillaries> interlobular vein> arcuate vein> interlobar vein> segmental vein> Renal vein

Riding Segways interngalactically, an ignorant alien got extremely perverted. ( veins start all over from ignorant backwards)

Question 19

what is the responsibility of the vasa recta?

Answer 19

keeping the renal medulla hyperosmolar/hypertonic.

very small blood flow.

this small blood flow makes the vasta recta susceptible to ischemia in the setting of hypotension or renal vasoconstriction

Question 20

The slow flow of oxygen keeps the pO2 of the medulla _____ than that in the cortex. A sustained decrease in renal perfusion may result in ________.

Answer 20

lower

acute renal failure

Question 21

What makes up the renal corpuscle?

Answer 21

the Glomerulus and the Bowman’s capsule

Question 22

what does the macula densa do?

Answer 22

chemoreceptor cells in the walls of the distal convoluted tubule which respond to changes in solute concentration os sodium Na

Question 23

where are juxtaglomerular cells found?

Answer 23

modified smooth muscle cells located in the walls of afferent arterioles they reduce renin

Question 24

what makes up the juxtaglomerular apparatus?

Answer 24

1. Macula densa
2. Juxtaglomerular cells
3. Mesangial cells.

Question 25

What is the first step of urine filtration?

Answer 25

ultrafiltration of blood across the glomerular capillaries into Bowman’s space

Question 26

what makes up the glomerular filtration barrier?

Answer 26

1-endothelial fenestration of glomerular capillaries.
2- Glomerular basement membrane
- fused basal lamina of the endothelial cells and podocytes
-Heparin sulphate repels negatively charged molecules
3- podocyte layer
( visceral layer of the Bowman’s capsule)
- modified epithelial called podocytes, highly ramified.
Primary process> secondary processes> tertiary processes ( pedicels)
- filtration slits between pedicels

Question 27

Filterability of a molecule is _______ related to their size.

what does a filterability of 1 mean? what does it mean 0?

Answer 27

inversely related

1, then it filters like water into glomerular capillaries for example, water sodium, glucose inulin

0.75 - myoglobin

0 or close to it, it doesn’t filter in like albumin

Question 28

The size of a plasma protein such as albumin is 6 nm and the pore of the glomerular membrane is about 8 nm, so why doesn’t it filter?

Answer 28

it has to do with the charge. negative charges do not filter in well, but positive charges do.
this makes sense because the glomerular capillary wall has proteoglycans (- charge)

this explains why there is barely any protein found in urine
** tested with dextran graph slide 15)

Question 29

the glomerular filtration barrier would keep blood and protein molecules in/out of blood?

what happens if you lose the negative charges of the glomerular filtration barrier?

Answer 29

in the blood, the do not filter out.

Minimal change disease, protein molecules spill into the urine because of abnormalities in the capillary wall

Question 30

why is the disease called minimal change? what would you view ?

Answer 30

because if you send the sample under light microscopy you will not see the changes, you need to use the electron microscope.

the electron microscope is supposed to see separate foot processes ( see pic)
Instead, the glomerular capillary has fused foot processes

Question 31

A dude is urinating a lot and they found protein in his urine what kidney structure is affected?
A. JGA cell
B.basement membrane
C. Mesengial cell
D. Na/K atpase pump
E. Smooth muscles in efferent arteriole
F. PCT epithelial cell

Answer 31

B basement membrane. the negative charge was affected, minimal change disease caused protein to filter through when they are not supposed to.

Question 32

what is GFR?

Answer 32

Glomerular filtration rate, it is the net fluid flow across the capillary wall. Normal GFR value for both kidneys is about 125 ml/min

Question 33

what is the equation for GFR? what drives GFR?

Answer 33

GFR= Kf * delta P
GFR= glomerular filtration rate
Kf= Glomerular capillary filtration coefficient
changeP= Net filtration pressure

PGC= hydrostatic pressure in glomerular capillaries drives it

Question 34

Wha influences the factors of glomerular filtration ?

GFR= Kf * delta P

Answer 34

Kf= ( filtration coefficient) surface area of glomerular capillaries available
permeability of interface between capillary and Bowman’s capsule

deltaP= ( net filtration pressure)
hydrostatic pressure, oncotic pressure and bowman’s fluid

Question 35

What occurs when GFR is low? what is the result of it?

Answer 35

renal insufficiency a decline in this means that you are in the stages of chronic kidney disease.

Question 36

How to calculate delta P in GFR…

What does a positive delta P mean?
what does a negative delta P mean?
what does PBS mean?
piBS?

GFR= Kf * delta P

Answer 36

Favor filtration: positive favors filtraton because it pushes water from capillaries into Bowman’s space (PGC) +60

Favors filtration: piBS= 0, no plasma protein filtered here

opposes filtration or favors reabsorption: negative contains albumin and is ( piGC) -32

opposes filtration or favors reabsorption:Bowman’s space fluid= opposes filtration= -18 PBS

delta P= FAVOR FILTRATION- OPPOSE FILTRATION

look at flash card, ( equation didn’t make sense with answer given)
60-18-32=10

Question 37

hydrostatic pressure:

oncotic pressure:

Answer 37

pushes

pulls

Question 38

the hydrostatic pressure in the glomerular capillaries versus the Bowman’s space….

what occurs to the oncotic pressure?

Answer 38

Bowman’s space hydrostatic pressure stays constant

hydrostatic pressure of glomerular capillary decreases/ but oncotic pressure increases
absorption increases

Question 39

How to calculate Kf in GFR…
GFR= Kf * delta P
what is Kf?

Answer 39

• a measure of the product of hydraulic conductivity and surface area of the glomerular capillaries
• increased Kf raises GFR and decreased Kf reduces GFR

Question 40

What diseases lower Kf?

Answer 40

chronic uncontrolled hypertension and diabetes mellitus lower Kf by reducing the number of functional glomerular capillaries ( reducing surface area for filtration) or by increasing the thickness of the glomerular capillary membrane

Question 41

what is the difference between Nephrotic and Nephritic syndrome?

Answer 41

damage to glomerulus can damage filtration coefficient Kf= if it is increased the GFR increases and can lead to any of these…

Nephrotic= excretes too much protein

Nephritic= excretes RBCS hematuria

Question 42

what occurs if you increase bowman space oncotic pressure?

SLIDE 22

Answer 42

60-18-32+10= 20

Pgc-Pbs-piGc+pibs

piBS is supposed to be 0 but if there is damage more filtration happens at bowmans space.

can lead to nephrotic edema, the fluid will go into interstitial space/ nephrotic syndrome

Question 43

Nephrotic syndrome can lead to what?

Answer 43

peripheral edema, proteinuria, hyperlipedemia, hypoalbuminemia ( low in plasma)

Question 44

Kidney stones cause ______ and ______ of the urinary system. what occurs if the bowman’s space has obstruction?

what occurs to the GFR? what disease ?

slide 23

Answer 44

obstruction and dilation..

Hydronephrosis ( distention and dilation of the renal pelvis and calyces) can destroy the kidney… remember there is less filtration so there is basically fluid build up “ hydro= water”
Urinary cholelithiasis.

if bowman’s space has obstruction it leads to an increase of fluid unto the kidney, inflammation= increased hydrostatic pressure.
look at slide. for equation explanation
- less filtration
-decreased GFR ( this is a negative value that is increased)
- less urination, more infections.
- can affect the cortex
- painful urination.

Question 45

What is the filtration fraction?

Answer 45

represent the loss of protein free fluid into the Bowman’s space, thereby increasing the concentration of protein in the plasma

Question 46

What is the equation for filtration fraction?

Answer 46

FF= GFR/RPF

FF= filtration fraction
GFR= glomerular filtration rate
RPF=Renal plasma flow

normal is 20%

Question 47

Filtration fraction affects _____ pressure in the peritubular capillaries.
The_____ the FF the higher the oncotic pressure int he peritubular capillaries.

slide 26

Answer 47

oncotic

higher

opposite is also true low/lower

piC= or peritubular capillary oncotic pressure is the driving force for reabsorption.

Question 48

piC is the driving force for reabsorption where?

Answer 48

peritubular capillaries

Question 49

The afferent and efferent arterioles in the kidneys are the sites of largest ______ resistance.

Answer 49

largest vascular resistance.

blood pressure decreases a lot here.

Question 50

What happens if you vasoconstrict the renal capillary ?

slide

Answer 50

pressure upstream increases,

pressure downstream and blood flow decrease downstream

Question 51

What happens with vasodilation of the renal capillary ?

slide

Answer 51

decreased pressure upstream

increased pressure and blood flow downstream

Question 52

what occurs to glomerular capillaries if you have afferent arteriole vasoconstriction ?

GFR?

hydrostatic pressure?

Answer 52

the hydrostatic pressure of the glomerular capillaries decreases..

GFR will decrease

peritubular hydrostatic pressure will also decrease

decreased renal plasma/blood flow

aka increased afferent arteriolar resistance decreases the hydrostatic pressure of everything after

what can prevent this?
vasodilators like PGE2, PGI2, Bradykinin

Question 53

what can cause vasodilation of afferent arterioles?

Answer 53

PGE2, PGI2, Bradykinin
GFR increases
increase in hydrostatic pressure of glomerular capillaries.

increase in hydrostatic pressure of peritubular capillaries,

increase in renal plasma/blood flow

Question 54

what occurs to glomerular capillaries if you have efferent arteriole vasoconstriction ?

Answer 54

increase in hydrostatic pressure of glomuerual capillaries
GFR increases
decrease in hydrostatic pressure of peritubular capillaries ( look at pic to understand)

decrease in renal plasma/blood flow .

Question 55

what occurs to glomerular capillaries if you have efferent arteriole vasodilation ?

Answer 55

decrease in hydrostatic pressure of glomerular capillaries

increase in hydrostatic pressure of peritubular capillaries.

increase in renal plasma/blood flow.

decreased GFR

Question 56

Aspirin is given to a patient and this causes inhibition of prostaglandins. urine output of patient is decreased a lot and there is absence of proteinuria. what mechanism best explains the reduced urine after aspirin?

A. constriction of afferent arteriole and increase GFR
B. dilation of afferent arteriole and increase GFR
C. Constriction of afferent arteriole and decrease GFR
D. dilation of afferent arteriole and decrease GFR
E. constriction of efferent arteriole and decrease GFR

Answer 56

C. aspirin is a vasoconstrictor

Question 57

what does auto regulation do in the kidneys?

how do high and low GFR affect reabsorption?

Answer 57

it keeps GFR constant, and allows precise control of renal excretion of water and solutes.

If GFR is too high needed substances cannot be reabsorbed too quickly enough and is lost in the urine

IF GFR is too low too much reabsorption occurs and it also absorbs a waste product such as urea. ( gout can happen)

renal blood flow is relatively stable over mean arterial pressures (MAP) of 80-180

Question 58

What is myogenic response?

Answer 58

changes the resistance of afferent arteriole by intrinsically constricting smooth muscle when stretched.

Question 59

what is tuboglumerular feedback? ( TGF)

Answer 59

( mechanism that changes resistnace of the afferent arterioles) an auto regulatory mechanism mediated by the juxtaglomerular apparatus that adjusts renal blood flow and glomerular filtration to optimize fluid flow through the renal tubule.

Question 60

Granule cells contain _____ which is released into circulation when tubule flow rate is low.

Answer 60

renin

Question 61

what does adenosine cause in the afferent arteriole and efferent arteriole?

Answer 61

afferent= constriction
efferent= dialtion 

see slide 34 to learn that pathway thing… ( I was tired )

Question 62

what does angiotensin cause in efferent arterioles?

Answer 62

vasoconstriction