Renal Review PPT-josh

Question 1

there are 2 kidneys with how many regions?

Answer 1

2

Question 2

What are the 2 regions?

Answer 2

Cortex

Medulla

Question 3

what is the functional unit of the kidney?

Answer 3

Nephron

Question 4

What are 3 improtant functions of the nephron?

Answer 4

Hold filtrate

Excrete end products of metabolism

Absorb Important sunstances

Question 5

The kidney gets what % of CO?

Answer 5

20-25%

Question 6

how many mLs of blood does the kidney receive?

Answer 6

1100-1200 mL

Question 7

what part of the kidney receives the most blood?

Answer 7

Cortex

Question 8

The renal artery divides at the __1__, into several lobar arteries, they run b/t the __2__ of the medulla and turn into the __3__ then into __4__ and to the __5__.

Answer 8

1. hilus
2. pyramids
3. interlobular arteries
4. afferent arterioles
5. glomerulus

Question 9

Unfiiltered blood exits the kidney via what, to the venous system?

Answer 9

efferent arteriole

Question 10

filtered blood goes where?

Answer 10

back to the body

Question 11

waste is excreted from the kidneys as what?

Answer 11

urine

Question 12

renal blood flow if determined by the ________ ______ ______ across the vascular bed

Answer 12

arteriovenous pressure difference

Question 13

what is the formula to calculate renal blood flow?

Answer 13

Renal blood flow = (MAP - VP) x VR

• MAP- mean arterial pressure
• VP- venous pressure
• VR- vascular resistance

Question 14

Renal blood flow is regulated by what 2 ways?

Answer 14

intrinsic autoregulation

Neural regulation

Question 15

Autoregulation of the kidneys is with a MAP of what?

Answer 15

75-160mmHg

Question 16

w/ neural regulation afferent and efferent arterioles are inervated by the SNS, stimulation of which is associated w/ what? and thus should be avoided

Answer 16

vasoconstriction

Question 17

4 main functions of the kidney?

Answer 17

• maintenance of ECF composition
• Maintenance of ECF volume
• Endocrine functions
• Regulation of Arterial BP

Question 18

Fx of the Kidneys:

what is maintained in the maintenance of ECF composition?

Answer 18

• Ionic composition (electrolytes)
• Osmolality (Na+ comcentration
• Conservation of non-ionic components (glucose, amino acids, proteins, water, vitamins)
• Excretion of products of metabolism (urea, creatine, lactic acid, uric acid)

Question 19

Fx of the Kidneys:

how does the kidney perform maintenance of ECF volume

Answer 19

regulation of Na+ and h2o excretion

Question 20

Fx of the Kidneys:

what endocrine fx does the kidneys perform?

Answer 20

• erythropoietin
• RAAS
• Vit D

Question 21

What are the main structures of teh nephron? do it in order as if you were fluid going through it!

Answer 21

• arteriole from renal artery
• Bowman’s capsule
• Glomerulus
• Proximal tubule
• Loop of henle
• Distal tubule
• Collecting ducts

Question 22

What structures are in teh Cortex and what structures are in the Medulla?

Answer 22

• Cortex
  
  • Renal corpuscle (bowmans capsule)
  • proximal tubule
  • Distal tubule
• Medulla
  
  • Loop of henle
  • Collecting duct

Question 23

What are the 3 steps of Urine formation and excretion

Answer 23

Glomerular filtration

Tubular reabsorption

Tubular secretion

Question 24

Glomerular Filtration:

GFR get what % of RBF?

Answer 24

20% (125mL/min)

Question 25

Glomerular Filtration:

the GFR is regulated by what?

Answer 25

Juxtaglomerular complex

Question 26

Glomerular Filtration:

What 3 things can increase GFR?

Answer 26

• Increased RBF
• Dilation of Afferent arteriole
• Increased resistance inefferent arteriole

Question 27

Glomerular Filtration:

what 2 things can decrease GFR?

Answer 27

• afferent arteriole constriction
• Efferent arteriole dilation

Question 28

What reabsorbs the bulk of the glomerlar filtrate?

Answer 28

Proximal tubule

Question 29

what iare the main function of the Loop of henle?

Answer 29

• establishes and maintains an osmotic gradient in the medulla of the kidney
• regulation of water balance
• Concentration/dilution of urine

Question 30

The descending loop is highly permeable to ________ but impermeable to ______

Answer 30

Water

Solutes

Question 31

The ascending loop is nearly impermeable to _____, but highly permeable to ___ and ____

Answer 31

water

Na+ and Cl-

Question 32

The ECF is controlled by what hormone?

Answer 32

Aldosterone

Question 33

ECF Volume and Osmolality:

Volume is controlled by aldosterone via ______ reabsorption

Answer 33

Sodium

Question 34

ECF Volume and Osmolality:

where is aldosterone produced?

Answer 34

Adrenal Cortex

Question 35

ECF Volume and Osmolality:

Osmolality is controlled by what?

Answer 35

ADH

Question 36

ECF Volume and Osmolality:

osmolality is controlled by ADH via ___ reabsorption

Answer 36

Water

Question 37

ECF Volume and Osmolality:

ADH is released from what?

Answer 37

the neurohypophysis (AKA posterior putuitary)

Question 38

*****

Where does aldosterone work?

Answer 38

distal tubule

Question 39

******

where does ADH work?

Answer 39

Collecting ducts

Question 40

Osmolality: ADH

explain what the body does if ADH is pressent? and also when it is absent?

Answer 40

• ADH present
  
  • Collecting duct is highly permeable to H20= you get small amount of very concentrated urine
• ADH Absent
  
  • Collecting duct is not pearmeable to water= you get large amounts of dilute urine

Question 41

what part of kidney os responsible for the fine tunning, makes final adjustment to urine pH and osmolality?

Answer 41

Distal tubule

Question 42

what does aldosterone reabsorb? and secrete?

Answer 42

reabsorbs- Na+

Secretes K+

Question 43

What is excreted in the proximal tubule?

Answer 43

Na+

H2O

Question 44

What is excreted in the descending loop of henle

Answer 44

H2O

Question 45

What is excreted in the ascending loop of Henle

Answer 45

Na+

Cl-

Question 46

What is excreted in the Distal Tubule

Answer 46

Na+

H2O

Question 47

what is excreted in the collecting ducts?

Answer 47

H20

Question 48

What is the basic equaltion for Acid Base balance?

Answer 48

Carbonic Anhydrase

CO₂ + H₂O ⇔ H₂CO₃ ⇔ HCO₃^_ + H⁺

Question 49

refere to acid base disturbances on own I am not going over that

Answer 49

Know your different ranges and how to determine them

Question 50

Mind the Gap:

what is the anion gap used for?

Answer 50

to differentiate b/t metabolic acidosis

Question 51

Anion Gap:

Is the difference b/t the primary measured what?

Answer 51

• cations (Na+ and K+) and the primary measured Anions (Cl- and HCO3) in serum

Question 52

Anion Gap:

what is the equation?

Answer 52

Normal: (Na⁺ + K⁺) - (Cl^- + HCO₃)

or ususally done w/o K+ as

(Na+) - (Cl^- + HCO3)

Question 53

Mind the Gap:

What is te normal Anion Gap

Answer 53

8-12mM

Question 54

Mind the Gap:

what does high Anion Gap Indicate?

Answer 54

• increased non-chloride acids (H+) uses more HCO3- therby Increaseing Anion Gap
• Normachloremia
• Lactic Acidosis
• DKA

Question 55

Mind the Gap:

what does normal Anion Gap Mean?

Answer 55

• Decreased HCO3- from loss of body fluids (emesis/diarrhea), is replaced by Cl- resulting in no change to anion GAp
• Hyperchloremia

Question 56

Diuretics:

what is a peptide hormone synthesized, stored, and secreted by teh cardiac atria

Answer 56

Atrial Natriuretic Factor

Question 57

Diuretics:

what is teh stimulis for ANF release?

Answer 57

atrial stretch, distention, or pressure

Question 58

Diuretics:

what is one of the most potent diuretics known?

Answer 58

ANF

Question 59

Diuretics:

ANF acs on the kidneys to increase urine flow and Na+ excretion, it antagonizes both the release and end organ effects of ______, ______, and ____.

Answer 59

• renin
• Aldosterone
• ADH

Question 60

Loop Diuretics:

what are 2 examples of them

Answer 60

lasix

bumex

Question 61

Loop Diuretics:

how do they basically work?

Answer 61

stop reabsortion of Ions in ascending loop thus decreasing osmolality.

Increass water excretion

Question 62

Diuretics:

What are ex of thiazide diuretics work?

Answer 62

HCTZ

Zaroxoyln

Question 63

Diuretics:

what are examples of K+ sparing diuretics?

Answer 63

spironlactone

Question 64

Diuretics:

whare to thiazides work?

Answer 64

distal convoluted tubule

Question 65

Diuretics:

how do Thiazides work

Answer 65

Inhibit Na+ reabsorbtion thus decreasing water reabsortion

Question 66

Diuretics:

Where do K+ sparing diuretics work

Answer 66

i think in the collecting ducts

Question 67

Diuretics:

how do K+ sparing diuretics (spironlactone work?

Answer 67

competitively inhibits aldosterone increasing sodium excretion and promoting sodium retention

Question 68

Diuretics:

where do Carbonic-anhydrase inhibitors work?

Answer 68

Proximal tubule

Question 69

Diuretics:

what type of diuretic is impermeable to teh renal tubule and exerts osmotic force dereasing the reabsorption of water

Answer 69

Osmotic diuretics Mannitol

Question 70

Describe the RAAS! (basic don’t need to say that renin is released from the juxta…. blah blah blah)

Answer 70

• Kidney releases renin into blood
• Liver releases angiotensinogen
• they meet and convert into ATI
• ACE from the lungs then cahnges ATI into ATII
• ATII stimulates aldonsterone secretion by the adrenal cortex
• aldosterone stimulates Na+ and H2O reabsorption in the nephrons

(ATII also works on the neurohypophysis to release ADH and such, but the basics is above)

remember from previous slides ADH works in collecting ducts, and ALdosterone works in the distal tubule

Question 71

Blocking the actions of what can cause refractory Hypotension how?

Answer 71

Blocks the release of both aldosterone and ADH

Question 72

what are the pros of Colloid?

Answer 72

• increased plasma volume
• Less peripheral edema
• Smaller volumes for resuscitation
• Intravascular half-life 3-6 hrs

Question 73

What are the advantages of Crystalloids?

Answer 73

• Inexpensive
• Unse for maintenance fluid and inital resuscitation
• restore 3rd space loss
• Intravascular half-life 20-30 minutes

Question 74

K+ controls what with the membrane potential

Answer 74

resting membrane potential

Question 75

Ca++ controls what w/ the membrane potential

Answer 75

threshold

Question 76

Treatment of Hyperkalemia:

why give Ca++

Answer 76

move threshold away from resting membrane potential

Question 77

Treatment of Hyperkalemia:

whay give HCO3 and hyperventilate the pt?

Answer 77

decrease Concentration of H+ in the plasma (H+ from ICF to ECF, K+ back inside the cell)

Question 78

Treatment of Hyperkalemia:

why give a Beta-2 agonist (albuterol) and insulin?

Answer 78

to stimulate Na-K pump, drives K back into cells

Question 79

Treatment of Hyperkalemia:

why give dextrose?

Answer 79

to prevent hypoglycemia

Question 80

thats it for for that next is Renal patho!!!!!

Answer 80

whooooo hoooooo