Renal Physiology

Question 1

The functional units of the urinary system.

Answer 1

Nephrons

Question 2

The smallest units that are capable of performing the processes involved in urine formation

Answer 2

Nephrons

Question 3

They number from 1 - 1.5 million per kidney (total of 2 – 3 million)

Answer 3

Nephron

Question 4

Types of nephron according to location:

Answer 4

Cortical and Juxtamedullary Nephrons

Question 5

This is the outer layer wherein Cortical nephrons are located

Answer 5

Cortex – outer layer

Question 6

This is the inner layer wherein Juxtamedullary nephrons are located

Answer 6

Medulla – inner layer

Question 7

What nephron is being described?

• Nephrons that are localized in the renal cortex.
• Constitute the majority of nephrons (85%).

Answer 7

Cortical Nephron

Question 8

These are the Main functions/Primary roles of what nephron?

o Immediate reabsorption of essential
substances;
▪ Supposed to bring back everything
the body needs to circulation.
o Immediate removal of wastes

Answer 8

Cortical Nephrons

Question 9

These are the Main functions/Primary roles of what nephron?

• The other 15%.
• “Have long Henle’s loops that extends deep in the
  medullary region.”

Answer 9

JUXTAMEDULLARY NEPHRONS

Question 10

a structure that extends well below the medullary region.

Answer 10

Loop of Henle

Question 11

Parts of a Nephron:

Answer 11

RENAL CORPUSCLE
RENAL TUBULE
VASCULAR COMPONENTS
JUXTAGLOMERULAR APPARATUS

Question 12

Has two components – the glomerulus and the
Bowman’s capsule.

Answer 12

RENAL CORPUSCLE

Question 13

The glomerulus is enclosed by what structure?

Answer 13

Bowman’s Capsule

Question 14

consists of a specialized tuft of capillaries that is enclosed by the Bowman’s capsule, which forms the beginning of the renal tubule

Answer 14

GLOMERULUS

Question 15

The product of filtration in the glomerulus is
first conveyed where?

Answer 15

Bowman’s Capsule

Question 16

The fluid that is conveyed into the
Bowman’s capsule flows along what segments?

Answer 16

Segments of the renal tubule

Question 17

This RENAL TUBULE functions by immediately reabsorbing
essential substances

Answer 17

Proximal Convoluted Tubule (PCT)

Question 18

The thick and thin ASCENDING loop of Henle do NOT have major differences in function.

TRUE OR FALSE

Answer 18

FALSE

It is the DESCENDING loop of Henle that do not have major differences in function between its thick and thin loops

Question 19

These are the two classifications of the Ascending Loop of Henle

Answer 19

Thick and Thin Ascending Loop of Henle.

Question 20

Responsible for the final adjustments (along with the collecting duct) in sodium (DCT) and water level (collecting duct) via the reabsorption process.

Answer 20

Distal Convoluted Tubule (DCT)

Question 21

Responsible for the final adjustments in sodium via the reabsorption process

Answer 21

Distal Convoluted Tubule (DCT)

Question 22

Responsible for the final adjustments in water level via the reabsorption process

Answer 22

Collecting Duct

Question 23

What part of the nephron is being described?

• Blood vessels associated with the nephron.
• Nephrons will not be able to carry out their reabsorptive
  and secretory functions without blood vessels.

Answer 23

VASCULAR COMPONENTS

Question 24

Supplies oxygenated blood from a branch of the renal artery to the glomerulus or glomerular capillaries

Answer 24

Afferent arteriole

Question 25

The largest blood vessel that supplies the kidney

Answer 25

Renal Artery

Question 26

The left and right renal artery gets
blood from?

Answer 26

Aorta

Question 27

Each nephron is supplied by this structure in a ratio of 1:1

Answer 27

Afferent Arteriole

Each nephron is associated with 1 Afferent Arteriole, if there are 1.5 million nephrons then there are also 1.5 million Afferent Arterioles

Question 28

The blood that circulates in these loops of capillaries will be filtered and will eventually exit through the?

Answer 28

Efferent Arteriole

Question 29

Carries blood from the glomerulus to the renal
tubules or renal tubular area

Answer 29

Efferent arteriole

Question 30

Surround the renal tubules, primarily the PCT
and DCT.

Answer 30

Peritubular capillaries

Question 31

A network of blood vessels that are adjacent to the loop of Henle. They make the reabsorptive and secretory processes taking place in the nephrons possible

Answer 31

Vasa recta

Question 32

A structure that is composed of two types of cells:

o (1) Juxtaglomerular cells;
o (2) Macula densa cells.

Answer 32

JUXTAGLOMERULAR APPARATUS

Question 33

Secretes RENIN when there are changes in plasma volume, blood pressure, and plasma sodium content.

Answer 33

JUXTAGLOMERULAR APPARATUS

Question 34

represents the entirety of the functions of the kidneys of the urinary system.

Answer 34

Urine Formation

Question 35

While urine is being formed, there is
reclamation of essential substances and
secretion of waste products, which is equally
important in the maintenance of?

Answer 35

Homeostasis

Question 36

The three major processes involved in urine formation:

Answer 36

glomerular filtration
tubular reabsorption,
tubular secretion.

Question 37

carries oxygenated blood from a
branch of the renal artery to the glomerulus or
glomerular capillaries.

Answer 37

Afferent Arteriole

Question 38

The structure that first receives the filtrate coming out of the efferent arterioles

Answer 38

Bowman’s capsule

Question 39

fluid that flows along the renal tubules from the Bowman’s capsule

Answer 39

Glomerular Filtrate

Question 40

Fluid upon exiting the collecting ducts

Answer 40

Urine

Question 41

glomerular filtrate and urine are the same

TRUE OR FALSE

Answer 41

FALSE

Glomerular Filtrate will first undergo compositional changes or modifications as substances are reabsorbed and secreted. It is only called URINE upon exiting the collecting duct

Question 42

The glomerular filtrate will flow along the PROXIMAL
convoluted tubule (PCT), which is immediately
attached or continuous to the Bowman’s capsule

TRUE OR FALSE

Answer 42

TRUE

Question 43

A process that returns filtered essential substances to
the blood

Answer 43

TUBULAR REABSORPTION

Question 44

From the PCT down to the descending limb of the Loop
of Henle, SODIUM will be reabsorbed

TRUE OR FALSE

Answer 44

FALSE

IT IS WATER THAT IS REABSORBED

Question 45

A significant amount of water is reabsorbed
from what loop of henle?

Answer 45

Descending Loop of Henle

Question 46

The walls of the thin ascending Loop of Henle
are made up of what type of epithelium?

Answer 46

single layer of squamous epithelial cells

Question 47

Epithelium of Thick walls of the loop of henle

Answer 47

Cuboidal renal tubular epithelial cells.

Question 48

The thickness and thinness of the walls are determined by the type of cells in the epithelium

TRUE OR FALSE

Answer 48

TRUE

Question 49

this is the primary function of the juxtamedullary nephrons; removal of water from the filtrate.

Answer 49

Renal Concentration

Question 50

If water is removed from the filtrate, it will become DILUTED

TRUE OR FALSE

Answer 50

FALSE

IT WILL BECOME CONCENTRATED

Question 51

When the fluid ascends through the thin and thick ascending limbs of the Loop of Henle what kind of reabsorption takes place?

Answer 51

solute reabsorption (primarily urea) takes place

Question 52

It is a waste product of metabolism and 50% of it is filtered and brought back to circulation

Answer 52

UREA

Question 53

In the thick ascending Loop of Henle, more WATER are reabsorbed (primarily salts).

TRUE OR FALSE

Answer 53

FALSE

more SOLUTES are absorbed

Question 54

Selective Reabsorption of the Descending Loop

Answer 54

only water is reabsorbed.

Question 55

Selective Reabsorption of the Ascending Loop

Answer 55

only solutes are reabsorbed

Question 56

More sodium and bicarbonate are reabsorbed here

Answer 56

Thick ascending limb → DCT

Question 57

Sodium reabsorption in the PCT, TAL, and DCT is under the influence of?

Answer 57

Aldosterone

Question 58

not all substances which the body has to get rid of are actually filtered. The body gets rid of these substances through what back-up mechanism?

Answer 58

TUBULAR SECRETION

Question 59

Takes place in the DCT; there are also significant secretory processes taking place in the proximal convoluted tubule (PCT), which is the major site for the removal of toxic substances and waste products

Answer 59

TUBULAR SECRETION

Question 60

Secreted substances in Tubular Secretion

Answer 60

Drugs (parent drugs or metabolites, hydrogen and potassium ions).

Question 61

For many drugs and their metabolites, they circulate bound to what proteins?

Answer 61

Plasma proteins

Question 62

Spared from glomerular filtration; the complex is too large to pass through the glomerular filtration barrier

Answer 62

drugs and their metabolites

Question 63

Plasma is still concentrated; plasma osmolality is still high in what structure?

Answer 63

Collecting duct

Question 64

Water reabsorption in the collecting duct is also hormone-controlled; also under the influence of what hormone?

Answer 64

ADH (anti-diuretic hormone).

Question 65

Pathway of Urine Flow:

Answer 65

Major and minor calyces → renal pelvis → ureter → bladder → urethra.

Question 66

What is being described?

• Filtration is dictated upon by the amount of blood
  supplied.
• Blood supplied to the kidneys or to the nephrons.

Answer 66

RENAL BLOOD FLOW

Question 67

THE RENAL BLOOD FLOW RATE

Answer 67

Approx. 1,200 mL/min/1.73 m2 (body surface area).

▪ Greater body surface area = >1,200 mL/min.
▪ Smaller body surface area = <1,200 mL/min.

Question 68

THE RENAL PLASMA FLOW RATE

Answer 68

Approx. 600 – 700 mL/min

Question 69

Afferent arteriole gets blood from a branch of the renal artery → glomerulus → efferent arteriole → peritubular capillaries → Aorta

TRUE OR FALSE

Answer 69

FALSE

THE CORRECT ORDER IS: Renal Artery → Afferent Arteriole → glomerulus → efferent arteriole → peritubular capillaries → vasa recta

Blood from the vasa recta will then be returned to the renal vein.

Question 70

The path of Blood Flow starts with oxygenated blood and ends with deoxygenated blood.

TRUE OR FALSE

Answer 70

TRUE

Question 71

The kidneys filter how many Liters of blood every single minute?

Answer 71

1.2 L

Question 72

is filtered by the glomeruli, which
would only amount to 600 – 700 mL/min.

Answer 72

PLASMA

Question 73

The Normal Glomerular Filtration Rate (GFR):

Answer 73

120mL/min (approx. 10% of the renal blood flow rate).

Question 74

is estimated by using clearance tests.

Answer 74

Glomerular Filtration Rate (GFR):

Question 75

are performed to evaluate the glomerular filtration rate.

Answer 75

Clearance Tests

Question 76

At the level of the Bowman’s capsule, the
filtrate is ISO-OSMOTIC with plasma

TRUE OR FALSE

Answer 76

TRUE

Iso-osmotic meaning osmolarities are almost the same.

Question 77

Glomerular Filtrate has a specific gravity of?

Answer 77

1.010

Question 78

Loss of renal concentrating ability of
the kidneys is consistent with?

Answer 78

glomerular nephritis, renal failure and acute tubular necrosis; which are indications of isosthenuria

Question 79

It is expected that the specific gravity
would DECREASE as a result of the
removal of water

TRUE OR FALSE

Answer 79

FALSE

It should INCREASE upon the removal of water

Question 80

Glomerular FIltrate has no significant number of cells because?

Answer 80

The glomerular filtration barrier does
not allow cells and high molecular
weight substances to pass through.

Water and low molecular
weight substances are the only
ones allowed to

Question 81

Glomerular FIltrate has no significant amount of proteins because?

Answer 81

If the cells and protein found in the
urine are a result of damage in the
glomerular filtration barrier, it is
considered clinically significant

Question 82

This is the pressure in the glomerulus that allows the
filtration of plasma, including water and low molecular
weight substances.

Answer 82

FILTRATION PRESSURE

Question 83

The Net Filtration Pressure is?

Answer 83

10 mmHg.

Question 84

Facilitates or makes the filtration of plasma or
blood possible as it flows along the loops of
glomerular capillaries.

Answer 84

Net Filtration Pressure

Question 85

It is a result of the opposing hydrostatic and
oncotic pressures in the glomerular capillaries
and the fluid in the Bowman’s capsule

Answer 85

Net Filtration Pressure

Question 86

Created by opposing hydrostatic and oncotic pressures
inside and outside the glomerular capillaries and
arterioles.

Answer 86

FILTRATION PRESSURE

Question 87

There is hydrostatic pressure inside the
glomerular capillaries and the afferent
arteriole, amounting to?

Answer 87

+55 mmHg.

Question 88

This is opposed by osmotic/oncotic pressure
in the same blood vessel; contributed to by
proteins.

Answer 88

hydrostatic pressure inside the
glomerular capillaries and the afferent
arteriole

Question 89

They exert this osmotic/oncotic
pressure.

Answer 89

Proteins

Question 90

The fluid inside the Bowman’s capsule also
exerts hydrostatic pressure amounting to?

Answer 90

-15mmHg

Question 91

The osmotic/oncotic pressure exerted by proteins amount to?

Answer 91

-30mmHg

Question 92

are primarily responsible for the large amount of
hydrostatic pressure in the arterioles and glomerular
capillaries.

Answer 92

The varying sizes of the afferent and efferent arterioles

Question 93

There are varying sizes of the afferent and efferent arterioles. Which arteriole is bigger?

Answer 93

Afferent arteriole

Question 94

GLOMERULAR FILTRATION BARRIER

What are its 3 layers?

Answer 94

Fenestrated endothelium (endothelial tissue/cells)
Basement membrane (basal lamina)
Podocyte Layer

Question 95

are large enough to allow the passage of water and low molecular weight substances, but are small enough to restrict the passage of cells and proteins.

Answer 95

Pores

Question 96

these tissues are avascular; nutrients are supplied and waste products are removed via the basement membrane.

Answer 96

Epithelial Tissue

Question 97

Middle layer of the GLOMERULAR FILTRATION BARRIER

Answer 97

Basement membrane (basal lamina)

Question 98

Outermost layer of the GLOMERULAR FILTRATION BARRIER

Answer 98

Podocyte layer

Question 99

Innermost layer of the GLOMERULAR FILTRATION BARRIER

Answer 99

Fenestrated endothelium (endothelial tissue/cells)

Question 100

this perfectly describes the GLOMERULAR FILTRATION BARRIER

Answer 100

molecular sieve

Analogous to 3 layers of filter paper or gauze

Question 101

Size Threshold (limit) of the GLOMERULAR FILTRATION BARRIER

Answer 101

70 kDa, which is the same
as 70,000 Da.

Question 102

Substances with a molecular weight of less than 70
kDa or 70,000 Da will NOT pass through

TRUE OR FALSE

Answer 102

FALSE

They are able to pass through, because they are smaller than the limit

Question 103

What structure is being described?

Negatively-charged substances are naturally repelled
by the negatively-charged basement membrane and
endothelium that make up the glomerular filtration
barrier.

Answer 103

Shield of Negativity

Question 104

Repulsion of negatively charged substances is done by the Shield of Negativity (e.g., proteins); even if they’re small enough to pass through

What protein is the best example of this?

Answer 104

Albumin: Has a molecular weight of less than 70,000 Da, but its a negatively charged protein at physiologic pH. Therefore natural repulsion takes place, because the shield is also negative.

Question 105

is not normally present in
significant amounts in urine.

Answer 105

Albumin

Question 106

If albumin levels increase in the urine, that is indicative of damage to the integrity of the barrier, along with the disruption of the shield of negativity, allowing the
filtration of albumin and all other negatively charged particles.

What complication could this be indicative of?

Answer 106

This results to massive proteinuria, which is consistent to nephrotic syndrome.

Question 107

proteoglycans (in the basement membrane) and sialo
glycoproteins (in the endothelium), are also negatively charged like albumin

TRUE OR FALSE

Answer 107

TRUE

Question 108

is secreted when there are alterations or
abnormalities in plasma sodium content and blood
pressure; both decrease

Answer 108

Renin

Question 109

Combination of changes or stimuli which is sensed by
the juxtaglomerular apparatus

Answer 109

RENIN-ANGIOTENSIN-ALDOSTERONE SYSTEM (RAAS)

Question 110

an enzyme that acts on angiotensinogen, a blood-borne substrate (naturally occurring in the blood and is produced by the liver), converting it to angiotensin I (inactive form).

Answer 110

Renin

Question 111

Because angiotensin I is inactive, it has to be
acted on by another enzyme produced by the
lungs, that converts angiotensin I to
angiotensin II (active form).

Answer 111

ACE (angiotensin converting enzyme)

Question 112

is capable of making adjustments in plasma sodium,
blood volume, and blood pressure.

Answer 112

Angiotensin II

Question 113

Mechanisms of Angiotensin II:

Answer 113

To stimulate vasodilation of the afferent arteriole and vasoconstriction of the efferent arteriole;

It stimulates or increases Na+ reabsorption at
the level of the proximal convoluted tubule (PCT).

Stimulates the release or secretion of
aldosterone and in turn, aldosterone increases Na+
reabsorption at the level of the DCT.

Has an effect on ADH secretion, which in turn,
stimulates water reabsorption at the level of the
collecting duct.

Question 114

Both sodium reabsorption in the DCT
(aldosterone) and water reabsorption in
the collecting duct (ADH) are hormone controlled

TRUE OR FALSE

Answer 114

TRUE

Question 115

The collecting duct is NOT naturally permeable
to water.

TRUE OR FALSE

Answer 115

FALSE

The collecting duct is naturally permeable
to water.

Question 116

What is this type of transport?

• Expenditure of energy.
• Takes place at areas or segments of the renal tubule
  consisting of renal tubular epithelial cells, which have
  multiple mitochondria.

Answer 116

Active Transport

Question 117

These are reabsorbed via active transport by?

Glucose, amino acids, salts.

Answer 117

PROXIMAL CONVOLUTED
TUBULE (PCT)

Question 118

These are reabsorbed via active transport by?

Chloride

Answer 118

THICK ASCENDING LOOP
OF HENLE

Question 119

These are reabsorbed via active transport by?

Sodium

Answer 119

PCT AND DCT

Question 120

point at which tubular reabsorption
stops.

Answer 120

Renal Threshold

Question 121

substances that both have a renal
threshold.

Answer 121

Glucose and sodium

Question 122

Renal Threshold of Glucose

Answer 122

160 – 180 mg/dL.

Question 123

Renal Threshold of Sodium

Answer 123

110 – 130 mmol/L.

Question 124

Type of transport usually in areas with simple squamous epithelial cells

Answer 124

PASSIVE TRANSPORT

Question 125

These are reabsorbed via passive transport by?

Water (under the influence of ADH in the
collecting duct*)

Answer 125

Proximal Convoluted Tubule
Descending Loop of Henle
Collecting Duct

Question 126

These are reabsorbed via passive transport by?

Urea

Answer 126

Proximal Convoluted Tubule
Ascending Loop of Henle

Question 127

These are reabsorbed via passive transport by?

Sodium (aldosterone-controlled).

Answer 127

Ascending Loop of Henle

Question 128

Made possible by selective reabsorption in the Loop of
Henle that serves to maintain the osmotic gradient of
the medulla (primary role of juxtamedullary nephrons).

Answer 128

COUNTERCURRENT MECHANISM

Question 129

What reabsorption is being described?

o At the level of the DLH, only water is
reabsorbed.
o At the level of the ALH, only solutes are
reabsorbed.

Answer 129

Selective Reabsorption

Question 130

IDENTIFY THE LOOP BEING DESCRIBED

Permeable to water

Answer 130

DESCENDING LIMB

Question 131

IDENTIFY THE LOOP BEING DESCRIBED

Impermeable to water

Answer 131

ASCENDING LIMB

Question 132

IDENTIFY THE LOOP BEING DESCRIBED

Impermeable to solutes

Answer 132

DESCENDING LIMB

Question 133

IDENTIFY THE LOOP BEING DESCRIBED

Permeable to solutes

Answer 133

ASCENDING LIMB

Question 134

THE TWO IMPORTANT FUNCTIONS OF TUBULAR SECRETION:

Answer 134

(1) Removal of unfiltered substances
(2) Maintenance of electrolyte and acid-base balance.

Question 135

How is the electrolyte and acid-base balance maintained?

Answer 135

Through the secretion of hydrogen ions which bind to/react with bicarbonate, hydrogen phosphate, and ammonia.

Question 136

Disruption in this function leads to metabolic acidosis and renal tubular acidosis.

Answer 136

Maintenance of electrolyte and acid-base balance.

Question 137

is characterized by low plasma bicarbonate level; both blood and urine are acidic.

Answer 137

Metabolic acidosis

Question 138

results from either failure of hydrogen ion secretion or ammonia production by the RTE (renal tubular epithelial) cells.

Answer 138

Renal Tubular Acidosis

Question 139

Blood is acidic but the urine will be persistently alkaline

Answer 139

Renal Tubular Acidosis