Renal, Topnotch + CDB

Question 1

Length of the ureter

Answer 1

25-35 cm

Question 2

Origin of the nephron

Answer 2

Metanephric blastema

Question 3

Origin of the collecting duct system

Answer 3

Ureteric bud

Question 4

pH compatible with life

Answer 4

6.8-8.0

Question 5

Stimulus for EPO production by interstitial cells of kidney

Answer 5

Hypoxia

Question 6

Form of vitamin D produced in kidneys

Answer 6

1,25-hydroxycholecalciferol

Question 7

Enzyme in the kidney that converts vitamin D to its active form

Answer 7

1a-hydroxylase

Question 8

Function of kidney during starvation

Answer 8

Gluconeogenesis

Question 9

Vertebral level of kidneys

Answer 9

T12-L3

Question 10

Weight of 1 kidney

Answer 10

150g

Question 11

Part of kidney that is pain sensitive

Answer 11

Capsule

Question 12

Organism implicated in staghorn calculi/mg ammonium po4/struvite

Answer 12

Proteus mirabilis

Question 13

Renal circulation

Answer 13

Renal artery > segmental artery > interlobar artery > arcuate artery > interlobular artery (cortical/radial) > afferent arteriole > glomerular capillaries > efferent arteriole > peritubular capillaries/vasa recta > interlobular vein > arcuate vein > interlobar vein > segmental vein > renal vein

Question 14

Cxs of glomerular capillaries (2)

Answer 14

1) Highly fenestrated hence responsible for GFR

2) Only capillaries that leas to arterioles and not venules

Question 15

Hairpin loop-shaped peritubular capillaries of the juxtamedullary nephrons

Answer 15

Vasa recta

Question 16

Creates corticopapillary osmotic gradient

Answer 16

Countercurrent multipliers

Question 17

Structure known as the countercurrent multiplier

Answer 17

Loop of Henle

Question 18

Maintains the corticopapillary osmotic gradient

Answer 18

Countercurrent exchangers

Question 19

Structure known as the countercurrent exchanger

Answer 19

Vasa recta

Question 20

Substances moved in circles by the countercurrent exchanger (2)

Answer 20

1) Na

2) Urea

Question 21

Urge to urinate

Answer 21

150 mL

Question 22

Reflex contraction

Answer 22

300mL

Question 23

Sense of fullness

Answer 23

400mL

Question 24

of nephrons per kidney

Answer 24

1M

Question 25

The kidneys undergo compensatory regeneration upon __% damage to nephrons

Answer 25

75%

Question 26

Cortical vs Juxtamedullary nephrons: Percentage

Answer 26

75%, 25%

Question 27

Cortical vs Juxtamedullary nephrons: Loops of Henle

Answer 27

Short-long

Question 28

Cortical vs Juxtamedullary nephrons: Capillary network

Answer 28

Peritubular capillaries-vasa recta

Question 29

Diameter of pores of capillary endothelium

Answer 29

8nm or 80A

Question 30

Vasoactive substances secreted by capillary endothelium

Answer 30

1) NO

2) ET-1

Question 31

Form the visceral epithelium in the glomerulus

Answer 31

Podocytes

Question 32

Where filtrations slits are located in kidneys

Answer 32

Podocytes

Question 33

Function of mesangial cells

Answer 33

1) Contractile elements
2) Mediate filtration
3) Take up immune complexes

Question 34

Components of JG apparatus

Answer 34

1) JG cells
2) Macula densa
3) Lacis cells

Question 35

Glomerular cells of the afferent arterioles

Answer 35

JG cells

Question 36

What JG cells secrete

Answer 36

Renin

Question 37

Where macula densa is located

Answer 37

Wall of DCT

Question 38

Function of the macula densa

Answer 38

Monitor Na concentration in the DCT

Question 39

Site of kidneys most susceptible to ischemia

Answer 39

PCT

Question 40

% sodium, K, and H2O reabsorbed in the PCT

Answer 40

66%

Question 41

% glucose and aa reabsorbed in PCT

Answer 41

100%

Question 42

Part of loop of Henle permeable to water but not to solutes

Answer 42

Descending limb

Question 43

Part of loop of Henle permeable to solute but not to water

Answer 43

Ascending limb

Question 44

Substances that kidneys filter only (2)

Answer 44

1) Inulin

2) Creatinine

Question 45

Substances that kidneys filter and secrete (2)

Answer 45

1) PAH

2) Organic acids and bases

Question 46

GFR is __% lower in females

Answer 46

20-25%

Question 47

Fraction of renal plasma flow that is filtered

Answer 47

Filtration fraction

Question 48

Normal filtration fraction

Answer 48

20%

Question 49

Formulas for filtration fraction

Answer 49

GFR/RPF

Question 50

Substance used to determine RPF (gold std)

Answer 50

PAH

Question 51

Size of substance freely filtered in kidneys

Answer 51

20A or less

Question 52

Size of substance not filtered at all in kidneys

Answer 52

> 42

Question 53

Filterability of 1.0

Answer 53

Freely filtered as water

Question 54

Filterability of 0.75

Answer 54

Filtered only 75% as rapidly as water

Question 55

Filterability according to charge

Answer 55

Positive > neutral > negative

Question 56

Portion of renal corpuscle affected by NSAID and mechanism

Answer 56

Afferent arteriole; inhibition of PG (dilates afferent arteriole)

Question 57

Portion of renal corpuscle affected by ACEI and mechanism

Answer 57

Efferent arteriole; inhibition of ATII (constricts efferent arteriole)

Question 58

Glomerular hydrostatic pressure

Answer 58

60 mmHg

Question 59

Net filtration pressure (GFR)

Answer 59

10 mmHg

Question 60

Effect on GFR when efferent arteriole is moderately constricted

Answer 60

Increase

Question 61

Effect on GFR when efferent arteriole is severely constricted

Answer 61

Decrease

Question 62

Effect on GFR when ultrafiltration coefficient (Kf) is increased

Answer 62

Increase

Question 63

Causes of decreased Kf

Answer 63

1) DM
2) Htn
3) Renal diseases

Question 64

Cause of increased hydrostatic pressure in the bowman’s space

Answer 64

Urinary tract obstruction

Question 65

Glomerular filtration forms

Answer 65

Primitive urine

Question 66

% CO received by kidneys

Answer 66

25%

Question 67

Organs that are sensitive to ischemia

Answer 67

1) Brain
2) Liver
3) Kidney

Question 68

Type of infarct in the kidney

Answer 68

Wedge-shaped white or anemic infarct

Question 69

Renal cortex vs medulla: greater renal blood flow

Answer 69

Renal cortex

Question 70

BP at which renal autoregulation is optimal

Answer 70

80-170 mmHg

Question 71

Massive sympathetic stimulation that results in massive vasoconstriction of kidneys

Answer 71

CNS ischemic response

Question 72

Substances secreted as autoregulatory mechanisms to maintain GFR

Answer 72

1) Adenosine
2) NO
3) ATII

Question 73

Effect of adenosine on kidneys

Answer 73

Afferent arteriole vasoconstriction

Question 74

Effect of nitric oxide on kidneys

Answer 74

Afferent arteriole vasodilation

Question 75

Percentage of solute reabsorbed is held constant

Answer 75

Glomerulotubular balance

Question 76

Concentration at which substance starts to appear in the urine

Answer 76

Renal threshold

Question 77

Concentration at which all excess substance appear in the urine or the limit to the rate at which solute can be transported (reabsorbed)

Answer 77

Renal transport maximum

Question 78

Renal Tmax of glucose

Answer 78

375 mg/dL

Question 79

Renal threshold of glucose

Answer 79

200 mg/dL

Question 80

Filtered load at renal threshold of glucose

Answer 80

250 mg/min

Question 81

Normal filtered load of glucose

Answer 81

125 mg/min

Question 82

Kidney transport mechanism that does not exhibit Tmax and threshold

Answer 82

Gradient-time transport

Question 83

Factors that affect transport of substances that use the gradient-time mechanism (3)

Answer 83

1) Electrochemical gradient
2) Membrane permeability
3) Time

Question 84

Relationship between flow rate and rate of transport in gradient-time transport

Answer 84

Inverse

Question 85

Epithelium of PCT

Answer 85

Low columnar with extensive brush border

Question 86

Osmolarity of PCT

Answer 86

Isosmotic

Question 87

Epithelium of thin segments of loop of Henle

Answer 87

Simple squamous

Question 88

Epithelium of thick segments of loop of Henle

Answer 88

Simple cuboidal

Question 89

% of filtered water reabsorbed in loop of Henle

Answer 89

20%

Question 90

% of filtered Na,K,Cl reabsorbed in loop of Henle

Answer 90

25%

Question 91

Ion channel inhibited by loop diuretics (Furosemide, Bumetanide, Ethacrynic acid)

Answer 91

Na-K-2Cl

Question 92

Epithelial lining of distal tubule

Answer 92

Simple cuboidal

Question 93

Aka Goormatigh or Polkissen cells or agranular cells

Answer 93

Lacis cells

Question 94

Cells found in second part of distal tubule

Answer 94

1) Principal cells

2) Intercalated cells

Question 95

Function of principal cells (3)

Answer 95

1) Reabsorb Na
2) Secrete K
3) Reabsorb H2O

Question 96

Function of intercalated cells (2)

Answer 96

1) Reabsorb K
2) Secrete Na
3) HCO3 regulation

Question 97

Transport systems by which intercalated cells secrete H+ (2)

Answer 97

1) Na-H countertransport

2) H-ATPase

Question 98

Part of kidney responsive to aldosterone

Answer 98

DT

Question 99

Part of kidney responsive to vasopressin

Answer 99

DT and CD

Question 100

% filtered water reabsorbed in DT

Answer 100

5

Question 101

Part of renal tubules impermeable to urea

Answer 101

DT

Question 102

Part of renal tubules permeable to urea

Answer 102

CD

Question 103

Site for regulation of final urine volume and concentration

Answer 103

CD

Question 104

Effect of aldosterone on kidneys (3)

Answer 104

1) Na reabsorption
2) Water reabsorption
3) K secretion

Question 105

Effect of ATII on kidneys (2)

Answer 105

1) Na reabsorption

2) Water reabsorption

Question 106

Effect of ANP and BNP on kidneys

Answer 106

Decrease Na reabsorption

Question 107

Effect of PTH on kidneys

Answer 107

1) Increase Ca reabsorption
2) Decrease PO4 reabsorption
3) Increase 1a-hydroxylase

Question 108

Triggers for ADH secretion and respective sensors

Answer 108

1) Increased osmolarity (Hypothalamus)
2) Decreased BP (atrial stretch receptors)
3) Decreased blood volume (carotid sinus and aortic arch)

Question 109

Effect of alcohol on body fluid regulation of kidneys

Answer 109

Decreases ADH secretion

Question 110

Hormone secreted by DT and CD that acts similar to ANP

Answer 110

Urodilatin

Question 111

Change in osm that triggers ADH secretion

Answer 111

1%

Question 112

Change in blood volume that triggers ADH secretion

Answer 112

10%

Question 113

Stimulus for renin secretion by JG cells

Answer 113

Decrease in BP

Question 114

Effect of renin

Answer 114

Angiotensinogen > angiotensin I in liver

Question 115

Where and angiotensin I is converted to angiotensin II and enzyme responsible

Answer 115

Lungs and kidneys via ACE

Question 116

CKD with normal size

Answer 116

1) SLE
2) HIV
3) PTB
4) Amyloidosis
5) Sarcoidosis

Question 117

All tubular capillaries are derived from

Answer 117

Efferent arterioles

Question 118

Onion-skinning or fibrinoid necrosis is seen in what renal disease

Answer 118

Malignant nephrosclerosis

Question 119

Most common site of abdominal aneurysm

Answer 119

Infrarenal/before bifurcation of abdominal aorta

Question 120

Symptom of abdominal aneurysm

Answer 120

Abdominal bruit

Question 121

Most common type of htn

Answer 121

Essential/idiopathic

Question 122

Most common cause of secondary htn

Answer 122

Renovascular dse

Question 123

Most common renovascular disease

Answer 123

Renal artery stenosis

Question 124

Filtration rate - reabsorption rate + secretion rate

Answer 124

Excretion rate

Question 125

How many times is plasma volume filtered in a day

Answer 125

60x

Question 126

% water reabsorbed from filtered volume

Answer 126

99%

Question 127

% phenol reabsorbed from filtered volume

Answer 127

0%

Question 128

Regulation of urine concentration (2)

Answer 128

1) Medullary countercurrent system

2) Vasopressin

Question 129

High permeability of thin descending limb to water is via

Answer 129

Aquaporin-1

Question 130

Nodular sclerosis of glomerular membrane is seen in what disease

Answer 130

DM

Question 131

Microscopic finding in kidneys with DM

Answer 131

Kimmelsteil-Wilson Lesions

Question 132

Microscopic finding in kidneys with minimal change disease

Answer 132

Effacement of podocytes

Question 133

Combined blood flow through both kidneys in an average adult

Answer 133

1100mL/min

Question 134

Renal vessels with greatest resistance (4)

Answer 134

1) Interlobar artery
2) Interlobular artery
3) Afferent arteriole
4) Efferent arteriole

Question 135

Formula for renal blood flow

Answer 135

(R artery pressure-R vein pressure)/Total renal vascular resistance

Question 136

Drug that causes diabetes insipidus by interfering with ADH receptors on DT

Answer 136

Lithium

Question 137

Major ion secreted into tubules coupled with sodium entry

Answer 137

Hydrogen

Question 138

Forces that propel the urine along the ureter

Answer 138

1) Gravity

2) Peristaltic contractions

Question 139

Treatment for post-operative bladder atony

Answer 139

Bethanechol

Question 140

Where EPO is produced

Answer 140

Interstitial peritubular cells

Question 141

Usual daily urine output

Answer 141

700-1400mL

Question 142

Why ACEI exacerbates cough

Answer 142

ACE inhibits bradykinin

Question 143

Normal venous pH

Answer 143

7.35

Question 144

Normal interstitial fluid pH

Answer 144

7.35

Question 145

Body fluid buffer systems (3)

Answer 145

1) Bicarbonate
2) Phosphate
3) Intracellular proteins

Question 146

The respiratory buffer responds to

Answer 146

H+ levels

Question 147

Respiratory regulation of acid-base balance is __% effective in returning pH back to normal

Answer 147

50-75%

Question 148

Respiratory regulation returns pH back to normal within ___ minutes

Answer 148

3-12

Question 149

Mechanisms of renal regulation of acid-base balance (3)

Answer 149

1) Excess H+ secretion
2) HCO3 reabsorption
3) Production of new HCO3 using ammonia and phosphate buffers

Question 150

Normal HCO3

Answer 150

22-26 mmol/L

Question 151

Normal pCO2

Answer 151

35-45 mmHg

Question 152

Acid-base imbalance due to conditions resulting in decreased ventilation

Answer 152

Respiratory acidosis

Question 153

Acid-base imbalance due to conditions resulting in increased ventilation

Answer 153

Respiratory alkalosis

Question 154

Respi acid vs alka: Airway obstruction

Answer 154

Respi acid

Question 155

Respi acid vs alka: Pneumonia

Answer 155

Respi alka

Question 156

Respi acid vs alka: ARDS

Answer 156

Respi acid

Question 157

Respi acid vs alka: Pulmonary embolus

Answer 157

Respi alka

Question 158

Respi acid vs alka: COPD

Answer 158

Respi acid

Question 159

Respi acid vs alka: High altitude

Answer 159

Respi alka

Question 160

Respi acid vs alka: Psychogenic

Answer 160

Respi alka

Question 161

Respi acid vs alka: Salicylate intoxication

Answer 161

Respi alka

Question 162

Formula for plasma anion gap

Answer 162

Na - (HCO3 + Cl-)

Question 163

Met acidosis where there is excess organic anions to maintain electroneutrality

Answer 163

HAGMA

Question 164

Met acidosis where there is increased chloride to maintain electroneutrality

Answer 164

NAGMA

Question 165

HAGMA (11)

Answer 165

MUDPILES
Methanol, uremia, DKA, paraldehyde, propylene glycol, iron, isoniazid, idiopathic acidosis, lactic acidosis, ethylene glycol, ethanol, salicylic acid

Question 166

NAGMA (6)

Answer 166

HARD UP

Hyperalimentation, acetazolamide, RTA, diarrhea, ureteroenteric fistula, pancreaticoduodenal fistula

Question 167

Conditions resulting in metabolic alkalosis (5)

Answer 167

1) Loop diuretics
2) Thiazide diuretics
3) Vomiting
4) Hyperaldosteronism
5) Ingestion of alkaline drugs

Question 168

Osmolarity of medullary interstitium

Answer 168

1200-1400

Question 169

Segment of tubules that is virtually impermeable to water

Answer 169

TALH

Question 170

Most important cause of high medullary osmolarity

Answer 170

TALH