Renal Physiology

Question 1

What do you call the maintenance of the internal environment compatible with life?

Answer 1

Homeostasis

Question 2

What is the net gain of water per day?

Answer 2

Zero: Fluid gained per day = fluid lost per day

Question 3

Which organ system contributes to homeostasis by adjusting water and electrolyte levels?

Answer 3

Renal System: mainly by producing urine

Question 4

What is urine?

Answer 4

Urine is an ultrafiltrate of blood

Question 5

Waste product from Proteins

Answer 5

Urea

Question 6

Waste product from Purines

Answer 6

Uric Acid

Question 7

Waste product from Muscles

Answer 7

Creatinine

Question 8

Waste product from RBCs

Answer 8

Bilirubin

Question 9

Excretion of variable amounts of water and sodium; Involved in RAAS

Answer 9

Blood pressure regulation

Question 10

Excretion of excess acids and bases

Answer 10

Regulation of Acid- Base balance

Question 11

Increases RBC production in response to hypoxia

Answer 11

Production of Erythropoeitin (EPO)

Question 12

Produces glucose during the starvation state

Answer 12

Gluconeogenesis

Question 13

Location of Kidney

Answer 13

T12-L3

Question 14

Weight of Kidney

Answer 14

150g

Question 15

Highly-fenestrated, responsible for GFR

Answer 15

Glomerular Capillaries

Question 16

Supplies O2 & glucose to the tubular cells

Answer 16

Peritubular Capillaries

Question 17

Secretes Erythropoietin (EPO)

Answer 17

Interstitial Cells

Question 18

Hairpin loop-shaped peritubular capillaries of the juxtaglomerular nephrons that participate in countercurrent exchange

Answer 18

Vasa Recta

Question 19

Capacity of the Urinary Bladder

Answer 19

600ml

Question 20

Urge to urinate

Answer 20

150ml

Question 21

Reflex contraction of the Urinary Bladder

Answer 21

300ml

Question 22

Bladder muscle

Answer 22

Detrusor muscle

Question 23

Internal Urethral Sphincter

Answer 23

Involuntary

Question 24

External Urethral Sphincter

Answer 24

Voluntary

Question 25

Functional and Structural Unit of Kidney

Answer 25

Nephron

Question 26

of Nephrons per kidney

Answer 26

1 million

Question 27

75% of nephrons

Answer 27

Cortical Nephrons

Question 28

25% of nephrons

Answer 28

Juxtamedullary Nephrons

Question 29

Location of Cortical Nephrons

Answer 29

Renal Cortex

Question 30

Location of Juxtamedullary Nephrons

Answer 30

Corticomedullary Junction

Question 31

Loops of Cortical Nephrons

Answer 31

Short

Question 32

Loops of Juxtamedullary Nephrons

Answer 32

Long

Question 33

Capillary Network of Cortical Nephrons

Answer 33

Peritubular Capillaries

Question 34

Capillary Network of Juxtamedullary Nephrons

Answer 34

Vasa Recta

Question 35

The only capillaries in the body which drain into arterioles

Answer 35

Glomerular Capillaries

Question 36

50x more permeable than skeletal muscle capillaries; Highly fenestrated with pores 8 nanometer in diameter

Answer 36

Capillary Endothelium

Question 37

Capillary endothelium secretes:

Answer 37

Nitric Oxide & Endothelin-1

Question 38

Have large spaces; With Type IV Collagen, Lainin, Agrin, Perlecan, Fibronectin

Answer 38

Basement Membrane

Question 39

Found in between capillaries; Contractile, mediates filtration, take up immune complexes; Involved in Glomerular Diseases

Answer 39

Mesangial Cells

Question 40

Cells of capillary endothelium

Answer 40

Podocytes

Question 41

Parts of Podocytes

Answer 41

Foot processes Filtration slits with filtration slit diaphragm

Question 42

Filtration Slit Diaphragm is made up of:

Answer 42

NephrinNEPH-1PodocinAlpha-actinin 4CD2-AP

Question 43

“Glomerular cells of the Afferent Arterioles”; At the walls of Afferent Arterioles; Secrete Renin

Answer 43

JG Cells

Question 44

Found in the walls of the Distal Convoluted Tubule; Monitor Na+ concentration in the DT (and consequently, blood pressure)

Answer 44

Macula Densa

Question 45

“Visceral Epithelium” of the kidney

Answer 45

Podocytes

Question 46

“Parietal Epithelium” of the kidney

Answer 46

Bowman’s capsule

Question 47

What are the filtration and charge barriers?

Answer 47

EndotheliumBasement membraneFoot processes of Podocytes

Question 48

What is the charge of this charge barrier and what does it block?

Answer 48

NegativePrevents filtration of albumin and other negatively-charged proteins

Question 49

Movement from Glomerular Capillaries to Bowman’s space

Answer 49

(Glomerular) Filtration

Question 50

Movement from tubules to interstitium to peritubular capillaries

Answer 50

(Tubular) Reabsorption

Question 51

Movement from peritubular capillaries to interstitium to tubules

Answer 51

(Tubular) Secretion

Question 52

(Amount Filtered) - (Amount Reabsorbed) + (Amount Secreted)

Answer 52

Excretion

Question 53

Amount filtered in the glomerular capillaries per unit time

Answer 53

GFR

Question 54

Normal GFR

Answer 54

125ml/min or 180L/day

Question 55

GFR/RPF

Answer 55

Filtration fraction

Question 56

Filtered freely

Answer 56

20 angstrom or less

Question 57

Not filtered at all

Answer 57

> 42 angstrom

Question 58

Afferent Arteriole Dilatation

Answer 58

GFR increases

Question 59

Afferent Arteriole Constriction

Answer 59

GFR decreases

Question 60

Efferent Arteriole Dilation

Answer 60

GFR decreases

Question 61

Efferent Arteriole Constriction (moderate)

Answer 61

GFR increases

Question 62

Efferent Arteriole Constriction (severe)

Answer 62

GFR decreases

Question 63

Increased GC Hydrostatic pressure

Answer 63

GFR increases

Question 64

Increased GC Oncotic pressure

Answer 64

GFR decreases

Question 65

Increased BS Hydrostatic pressure

Answer 65

GFR decreases

Question 66

Increased Kf

Answer 66

GFR increases

Question 67

What are the causes of decreased Kf?

Answer 67

Renal Diseases DMHPN

Question 68

What is the cause of increased BS hydrostatic pressure?

Answer 68

Urinary Tract Obstruction

Question 69

What are the causes of decreased GC hydrostatic pressure?

Answer 69

Hypotension (Decreased arterial pressure)ACE-I (Decreased efferent arteriole constriction)Sympathetic Activity (Increased afferent arteriole constriction)

Question 70

What are the hormones that will increase GFR?

Answer 70

EDFRPGE2PGI2BradykininGlucocorticoidsANPBNP

Question 71

Which hormone will preserve GFR?

Answer 71

Angiotensin II (preferentially constricts efferent arteriole)

Question 72

Which hormone will increase Renal Blood Flow (RBF)?

Answer 72

HistamineDopamineANPBNP

Question 73

What is one possible effect of ACE-I in a patient with HPN secondary to Renal Artery Stenosis?

Answer 73

Renal Failure

Question 74

(Renal Artery Pressure-Renal Vein Pressure) / Total Renal Vascular Resistance; Exhibits local autoregulation at BP between 75-160mmHg

Answer 74

Renal Blood Flow

Question 75

What do you call massive sympathetic stimulation that results in massive vasoconstriction of the kidneys?

Answer 75

CNS Ischemic Response

Question 76

“Constant sodium load delivered to distal tubule”; Primary Mechanism for Autoregulation of GFR

Answer 76

Tubuloglomerular Feedback

Question 77

Vasoconstricts afferent arteriole

Answer 77

Adenosine

Question 78

Vasodilates afferent arterioles

Answer 78

Nitric Oxide

Question 79

“Percentage of solute reabsorbed is held constant”; Buffers effects of drastic GFR changes in urine output

Answer 79

Glomerulotubular Balance

Question 80

Substance start to appear in the urine; Some nephrons exhibit saturation

Answer 80

Renal Threshold

Question 81

All excess substance appear in the urine; All nephrons exhibit saturation

Answer 81

Renal Transport Maximum

Question 82

Does not have Transport Maximum and Threshold

Answer 82

Gradient-time Transport

Question 83

Gradient-time Transport: Rate of transport is dependent upon:

Answer 83

Electrochemical gradientMembrane permeabilityTime

Question 84

“Workhorse of the Nephron”; With low columnar with extensive brush border (microvilli)

Answer 84

Proximal Convoluted Tubule

Question 85

Reabsorption in Proximal Convoluted Tubule

Answer 85

100% filtered Glucose and Amino Acids66% NaCl and water

Question 86

Secretion in Proximal Convoluted Tubule

Answer 86

H+, organic acids, bases (Rapidly filtered and almost none reabsorbed)

Question 87

Which is more hypertonic relative to the other - fluid entering the PCT or fluid leaving the PCT?

Answer 87

None (isoosmotic reabsorption takes place)

Question 88

Thin segment lining of Loop of Henle

Answer 88

Simple squamous with no brush border and few mitochondria

Question 89

Thick segment lining of Loop of Henle

Answer 89

Simple cuboidal

Question 90

With graded osmolarity; Constant: 20% filtered water is reabsorbed and 25% Na, K, Cl is reabsorbed; H is secreted via Na-H countertransport

Answer 90

Loop of Henle

Question 91

Impermeable to solutes; Permeable to water

Answer 91

Descending Limb of Loop of Henle

Question 92

Impermeable to water; Permeable to solutes

Answer 92

Ascending Limb of Loop of Henle

Question 93

Contains juxtaglomerular apparatus, macula densa, juxtaglomerular cells (JG Cells), Lacis cells; Similar characteristics to thick segment of LH (relatively impermeable to water)

Answer 93

Early Distal Tubule (1st Part of the Distal Tubule)

Question 94

Contains principal cells, intercalated cells; Responsive to effects of Aldosterone

Answer 94

Late Distal Tubule (2nd Part of the Distal Tubule)

Question 95

Absorb Na (using ENaC channels) water and Secrete K

Answer 95

Principal Cells

Question 96

Absorb K and Secrete H

Answer 96

Intercalated Cells

Question 97

Where K sparing diuretics acts

Answer 97

ENaC Channels

Question 98

Site of regulation of final urine volume and concentration; Responsive to Vasopressin

Answer 98

Collecting Duct

Question 99

Maximum urine osmolality

Answer 99

1200mosm/L

Question 100

Minimum Urine Volume

Answer 100

500ml

Question 101

Increased by increased BP; Decreased by Afferent or Efferent Arteriole vasoconstriction

Answer 101

Peritubular Capillary Hydrostatic Pressure

Question 102

Increased by Plasma protein concentration and Filtration fraction

Answer 102

Peritubular Capillary Oncotic Pressure

Question 103

What happens to tubular reabsorption when Peritubular Capillary Hydrostatic Pressure increases?

Answer 103

Decreases

Question 104

What happens to tubular secretion when Peritubular Capillary Hydrostatic Pressure increases?

Answer 104

Increases

Question 105

What happens to tubular reabsorption when Peritubular Capillary Oncotic Pressure increases?

Answer 105

Increases

Question 106

What happens to tubular secretion when Peritubular Capillary Oncotic Pressure increases?

Answer 106

Decreases

Question 107

Site of Action of Aldosterone

Answer 107

Distal Tubule

Question 108

Site of Action of Angiotensin II

Answer 108

PCTTALLHDT

Question 109

Site of Action of Catecholamines

Answer 109

PCT TALLHDT/CD

Question 110

Site of Action of Vasopressin

Answer 110

DTCD

Question 111

Site of Action of ANP/BNP

Answer 111

DTCD

Question 112

Site of Action of Uroguanylin, Guanylin

Answer 112

PCTCD

Question 113

Site of Action of Dopamine

Answer 113

PCT

Question 114

Site of Action of PTH

Answer 114

PCTTALLH

Question 115

Effects of Aldosterone

Answer 115

Increase Na, water reabsorptionIncrease K, H secretion

Question 116

Effects of Angiotensin II

Answer 116

Increase Na and water reabsorption

Question 117

Effects of Catecholamines

Answer 117

Increase Na, water reabsorption

Question 118

Effects of Vasopressin

Answer 118

Increase water permeability and reabsorption

Question 119

Effects of ANP and BNP

Answer 119

Decrease Na reabsorption

Question 120

Effects of Uroguanylin and Guanylin

Answer 120

Decrease Na, water reabsorption

Question 121

Effects of Dopamine

Answer 121

Decrease Na, water reabsorption

Question 122

Effects of PTH

Answer 122

Decrease Phosphate reabsorptionIncrease Ca reabsorptionStimulates 1 Alpha Hydroxylase

Question 123

What are the triggers for ADH secretion?

Answer 123

Increased Plasma OsmolarityDecreased Blood PressureDecreased Blood Volume

Question 124

What is the effect of alcohol on ADH secretion?

Answer 124

Alcohol decreases ADH secretion

Question 125

Which hormone secreted by DT and CD acts similar to ANP?

Answer 125

Urodilatin

Question 126

Rate at which substances are removed (cleared) from plasma in the kidneys

Answer 126

Renal Clearance

Question 127

If a substance has a high clearance, what are the blood and urine level of this substance?

Answer 127

Low Blood levelHigh Urine level

Question 128

If a substance has a low clearance, what are the blood and urine level of this substance?

Answer 128

High Blood levelLow Blood level

Question 129

Which substance has the highest clearance?

Answer 129

Para-Amino Hippuric Acid (PAH)

Question 130

Which substances have the zero clearance?

Answer 130

Glucose, Amino Acids

Question 131

Which substances have a clearance that can be used to estimate GFR?

Answer 131

Inulin, Creatinine (BUN and Creatinine serum concentration may also be used)

Question 132

Which substances have a clearance that can be used to estimate Renal Blood Flow and Renal Plasma Flow?

Answer 132

Para-Amino Hippuric Acid (PAH)

Question 133

Substances that do not appear in the urine have a clearance of

Answer 133

Zero

Question 134

Substances filtered and partially reabsorbed have a clearance ? Than the GFR

Answer 134

Less

Question 135

Substances filtered and with net secretion have a clearance ? Than the GFR

Answer 135

More

Question 136

Clearance of Inulin is ? To that of the GFR

Answer 136

Equal

Question 137

How many liters of fluid per day passes thru the kidneys?

Answer 137

180L of fluid/day

Question 138

Percentage of filtered water that is reabsorbed

Answer 138

87-98.7%

Question 139

Plays major role in water reabsorption

Answer 139

Vasopressin and ADH

Question 140

Threshold of Glucose

Answer 140

200mg/100ml

Question 141

Maximum of Glucose

Answer 141

375mg/100ml

Question 142

Region between threshold and maximum

Answer 142

Splay

Question 143

Glucose transport from the lumen to PCT

Answer 143

SGLT-2 (Secondary Active Transport)

Question 144

Glucose transport form the PCT to the Peritubular Capillaries?

Answer 144

GLUT-1 and GLUT-2 (facilitated diffusion)

Question 145

Major role in electrolyte balance

Answer 145

Na

Question 146

Na is actively transported in all parts of the renal tubule EXCEPT

Answer 146

Descending limb of Loop of Henle

Question 147

Plasma K

Answer 147

4.2mEq/L

Question 148

Can cause Arrhythmias

Answer 148

HyperkalemiaHypercalcemia

Question 149

Can cause weakness

Answer 149

Hypokalemia

Question 150

First line of defense

Answer 150

Movement of K across ECF to ICF

Question 151

Factors that shift K into cells

Answer 151

InsulinAldosteroneB-Adrenergic StimulationAlkalosis

Question 152

Factors that shift K out of cells

Answer 152

Insulin DeficiencyAddison’s DiseaseB-Adrenergic BlockadeAcidosisCell lysisStrenuous ExerciseIncrease ECF Osmolarity

Question 153

Increased Plasma K increases secretion via

Answer 153

Principal Cells

Question 154

Decreased Plasma K increases reabsorption via

Answer 154

Intercalated Cells

Question 155

Causes of Increased K secretion

Answer 155

High K doetHyperaldosteronismAlkalosisThiazide diureticsLoop diureticsLuminal anions

Question 156

Causes of decreased K secretion

Answer 156

Low K dietHypoaldosteronismAcidosisK sparing diuretics

Question 157

Plasma Ca

Answer 157

2.4mEq/L

Question 158

Can cause Tetany

Answer 158

Hypocalcemia

Question 159

Less calcium bound to plasma proteins

Answer 159

Hypercalcemia (Acidosis)

Question 160

More calcium bound to plasma proteins

Answer 160

Hypocalcemia (Alkalosis)

Question 161

Factors that alter renal calcium excretion: Decreased excretion

Answer 161

Increased PTH, Plasma PhosphateDecreased ECF, BPMetabolic AcidosisVit D3

Question 162

Factors that alter renal calcium excretion: Increased excretion

Answer 162

Increased ECF, BPDecreased PTH, Plasma PhosphateMetabolic Alkalosis

Question 163

Trio of Electrolytes: High H levels

Answer 163

HypercalcemiaHyperkalemia

Question 164

Transport maximum of phosphate

Answer 164

0.1mM/min

Question 165

Plasma Mg

Answer 165

1.8mEq/L

Question 166

Magnesium stored in the bones

Answer 166

50%

Question 167

Plasma Mg excreted daily

Answer 167

10%

Question 168

Percentage of water reabsorbed automatically before the collecting duct

Answer 168

87%

Question 169

If ADH levels are high, what happens to water reabsorption at the collecting duct?

Answer 169

High (more aquaporins inserted)

Question 170

If ADH levels are high, what happens to urine volume at the collecting duct?

Answer 170

Low (min:500ml/day)

Question 171

If ADH levels are high, what happens to urine concentration at the collecting duct?

Answer 171

High (max:1200mOsm/L)

Question 172

If ADH levels are low, what happens to water reabsorption at the collecting duct?

Answer 172

Low (less aquaporins inserted)

Question 173

If ADH levels are low, what happens to urine volume at the collecting duct?

Answer 173

High (max:20L/day)

Question 174

If ADH levels are low, what happens to urine concentration at the collecting duct?

Answer 174

Low (min:50mOsm/L)

Question 175

Provides the stimulus for water reabsorption

Answer 175

Countercurrent Mechanism

Question 176

Provides the opportunity for water reabsorption

Answer 176

ADH

Question 177

Countercurrent Multipliers

Answer 177

Loop of Henle

Question 178

Creates the Corticopapillary Osmotic Gradient in the Renal Interstitium

Answer 178

Countercurrent Multipliers

Question 179

Countercurrent Exchangers

Answer 179

Vasa Recta

Question 180

Maintains the Cirticopapillary Osmotic Gradient in the Renal Interstitium (prevents dissipation of gradient)

Answer 180

Countercurrent Exchangers

Question 181

Why is the Loop of Henle able to act as a countercurrent multiplier?

Answer 181

Countercurrent Flow (hairpin-loop shape)Difference in permeability to water and electrolytes in the Ascending and Descending WallNa-K-2Cl pump in the TAL LHSlow Flow in the LH

Question 182

What is the end result due to the countercurrent mechanism?

Answer 182

Corticopapillary Osmotic Gradient: 300mOsm/L as you enter the PCT, 1200mOsm/L at the tip of LH

Question 183

Why do you need a countercurrent exchanger?

Answer 183

Gradient would dissipate quickly if Na and Urea are removed quicklyVasa Recta preserves this gradient basically by “rotating” Na, water and urea

Question 184

Contributes to the hyperosmolarity of the renal medulla

Answer 184

Urea Recycling

Question 185

Percentage of Renal Medullary Interstitial Osmolarity

Answer 185

50%

Question 186

Stimulated by ADH

Answer 186

Urea Receptors (UT-1)

Question 187

Osmolarity at the tip of LH

Answer 187

600-1200mOsm

Question 188

True or False: More urea reabsorbed, the more concentrated the renal interstitium becomes, the more concentrated the final urine is

Answer 188

True

Question 189

Found in the Anteroventral eall of 3rd Ventricle & Preoptic Nuclei

Answer 189

Thirst Center

Question 190

Control of Thirst: Increased thirst

Answer 190

Increase Osmolarity, AngiotensinDecrease Blood Volume, BPDryness of mouth

Question 191

Control of Thirst: Decreased thirst

Answer 191

Increased Blood Volume, BPDecreased Osmolarity, Angiotensin IIGastric Distention

Question 192

Found in the pons

Answer 192

Micturition Center

Question 193

Micturition Center can be inhibited by

Answer 193

Cerebral Cortex

Question 194

Normal Plasma H

Answer 194

0.00004mEq/L

Question 195

Normal Plasma pH

Answer 195

7.4

Question 196

Systems that regulate H concentrations

Answer 196

Body Fluid Buffer SystemsRespiratory CenterKidneys

Question 197

Mechanisms of Renal Regulation of Acid-Base Balance

Answer 197

Secretion of HReabsorption of filtered HCO3Production of new HCO3

Question 198

Due to Decreased Ventilation

Answer 198

Respiratory Acidosis

Question 199

Due to Increased Ventilation

Answer 199

Respiratory Alkalosis

Question 200

Due to excess acid or loss of base

Answer 200

Metabolic Acidosis

Question 201

Due to loss of acid or gain of base

Answer 201

Metabolic Alkalosis

Question 202

Decreased HCO3; Increased Organic Anions to maintain electroneutrality

Answer 202

High Anion Gap Metabolic Acidosis (HAGMA)

Question 203

Decreased HCO3; Increased Chloride to maintain electroneutrality; Also called Hyperchloremic Metabolic Acidosis with Normal Anion Gap

Answer 203

Normal Anion Gap Metabolic Acidosis (NAGMA)