Ch1 Structure and Functionality

Question 1

The urinary system consists of:

Answer 1

Two Kidneys

Two Ureters

One Bladder

One Urethra

Question 2

Scientific study of the anatomy, physiology, and disorders of the kidneys

Answer 2

Nephrology

Question 3

Branch of medicine that deals with male and female urinary system, and the male reproductive system

Answer 3

Urology

Question 4

Five functions of the kidneys

Answer 4

Regulation of ION levels in the blood

Regulation of blood VOLUME and PRESSURE

Regulation of blood pH

Production of HORMONES

Excretion of WASTE

Question 5

What enzyme helps regulate blood pressure?

Answer 5

Renin

Question 6

What helps regulate the blood pH?

Answer 6

Bicarbonate ions (HCO3-) and Hydrogen ions (H+)

Question 7

What two hormones does the kidneys produce?

Answer 7

Calcitriol

Erythropoietin

Question 8

Stimulates the production of red blood cells

Answer 8

Erythropoietin

Question 9

Active form of vitamin D, helps regulate calcium homeostasis

Answer 9

Calcitriol

Question 10

Wastes that the kidneys excrete

Answer 10

Ammonia (amino acids)

Bilirubin (hemoglobin)

Creatinine (muscle fibers)

Uric Acid (nucleic acids)

Other wastes (Diet, Drugs, Environmental toxins)

Question 11

What vertebrae do the kidneys lie on?

Answer 11

12th Thoracic and first Three lumber vertebrae

Question 12

Provide some protection for the superior parts of the kidneys

Answer 12

11th and 12th ribs

Question 13

Which kidney is lower?

Answer 13

Right

Question 14

An adult kidney is about the size of a:

Answer 14

Bar of soap

Question 15

Where the ureter, blood vessels, lymphatic vessels, and nerves enter/exit the kidney

Answer 15

Renal Hilum

Question 16

A connective tissue sheath that helps maintain the shape of the kidney and serves as a barrier against trauma

Answer 16

Smooth, transparent renal capsule

Question 17

Surrounds the renal capsule, cushions the kidney, and anchors the kidney to the posterior abdominal wall

Answer 17

Adipose tissue

Question 18

Two main regions of the kidneys

Answer 18

Renal Cortex

Renal Medulla

Question 19

Outer light-red region

Answer 19

Renal cortex

Question 20

Darker red-brown region

Answer 20

Renal Medulla

Question 21

Within the renal medulla are several:

Answer 21

Cone-shaped renal pyramids

Question 22

What fills the spaces between renal pyramids?

Answer 22

Renal Columns (extension of the renal cortex)

Question 23

Urine formed in the kidney passes from thousands of papillary ducts within the renal pyramids into cuplike structures called:

Answer 23

Minor Calyces

Question 24

Each kidney has ___ minor calyces

Answer 24

8-12

Question 25

From the minor calyces, urine flows into __ major calyces

Answer 25

2-3

Question 26

After major calyces, urine flows into:

Answer 26

Single large cavity, Renal Pelvis

Question 27

What drains urine into the ureter?

Answer 27

Renal pelvis

Question 28

___% of resting cardiac output flows into the kidneys through the right and left renal arteries

Answer 28

20-25% (1200 mL per minute)

Question 29

Renal artery divides into smaller vessels that eventually deliver blood to the:

Answer 29

Afferent arterioles

Question 30

Each afferent arteriole divides into a tangled capillary network called:

Answer 30

Glomerulus

Question 31

The capillaries of the glomerulus reunite to form:

Answer 31

Efferent arteriole

Question 32

Each efferent arteriole divides to form a network of capillaries around the:

Answer 32

Kidney tubules

Question 33

Peritubular capillaries reunite to form bigger veins which eventually drain into the:

Answer 33

Renal vein

Question 34

Functional unit of the kidney

Answer 34

Nephron

Question 35

Number of nephrons in each kidney

Answer 35

1 million

Question 36

Two parts of the nephron

Answer 36

Renal Corpuscle

Renal Tubule

Question 37

Where blood plasma is filtered

Answer 37

Renal Corpuscle

Question 38

Where filtered fluid, called glomerular filtrate passes

Answer 38

Renal Tubule

Question 39

As fluid moves through the renal tubules, wastes and excess substances are added, and useful materials are returned to blood in the:

Answer 39

Peritubular capillaries

Question 40

Two parts that make up a renal corpuscle

Answer 40

Glomerulus

Glomerular (Bowman’s) capsule

Question 41

Glomerular filtrate first enters the glomerular capsule and then passes into the:

Answer 41

Renal Tubule

Question 42

The order fluid passes through the three main sections of the renal tuble

Answer 42

Proximal convoluted tubule

Loop of Henle

Distal convoluted tubule

Question 43

Means the tubule is tightly coiled rather than straight

Answer 43

Convoluted

Question 44

The renal corpuscle and both convoluted tubules lie within the:

Answer 44

Renal cortex

Question 45

Location of the loop of Henle

Answer 45

Begins in the cortex and extends into the renal medulla

Hairpin turn back into the cortex

Question 46

Distal convoluted tubules of several nephrons empty into a:

Answer 46

Common collecting duct

Question 47

Several collecting ducts merge to form a:

Answer 47

Papillary duct

Question 48

Order in which papillary ducts merge into:

Answer 48

Minor calyx

Major calyx

Renal pelvis

Ureter

Question 49

Three basic functions of nephrons

Answer 49

Glomerular Filtration

Tubular reabsorption

Tubular secretion

Question 50

Forcing of fluids and dissolved substances smaller than a certain size through a membrane by pressure

Answer 50

Filtration

Question 51

First step in urine production

Answer 51

Glomerular filtration

Question 52

What forces water and most solutes in blood plasma across the wall of glomerular capillaries to form glomerular filtrate?

Answer 52

Blood pressure

Question 53

Filtered fluid flows along the renal tubule and through the collecting duct

Answer 53

Tubular reabsorption

Tubular secretion

Question 54

Tubule and duct cells return about __% of the filtered water to blood through peritubular capillaries

Answer 54

99%

Question 55

Filtered fluid has undergone tubular reabsorption and tubular secretion and enters the minor and major calyx

Answer 55

Urine

Question 56

Two layers of cells that compose the glomerular capsule

Answer 56

Podocytes

Glomerular endothelium

Question 57

Space between the renal corpuscle and the glomerular capsule

Answer 57

Capsular space

Question 58

Cells that make up the inner wall of the glomerular capsule

Answer 58

Podocytes

Question 59

Podocytes and glomerular endothelium form a filtration membrane that permits the passage of _____ from blood into the capsular space

Answer 59

Water and solutes

Question 60

Forms the outer layer of the glomerular capsule

Answer 60

Simple squamous epithelial cells

Question 61

Pressure that causes filtration

Answer 61

BP in the glomerular capillaries

Question 62

Two pressures that oppose glomerular filtration

Answer 62

Blood colloid osmotic pressure

Glomerular capsule pressure

Question 63

Net filtration pressure is normally:

Answer 63

10 mmHg

Question 64

Net filtration forces how many liters of fluid into the capsular space for males & females daily?

Answer 64

Males: 180 L

Females: 150 L

Question 65

Glomerular capillary blood pressure - (Blood colloidal pressure + Glomerular capsule pressure)

Answer 65

Net filtration pressure

Question 66

Constriction of the afferent arteriole

Answer 66

Decreases blood flow into the glomerulus

Decreases net filtration pressure

Question 67

Constriction of the efferent arteriole

Answer 67

Slows outflow of blood

Increases net filtration pressure

Question 68

The amount of filtrate that forms in both kidneys every minute

Answer 68

Glomerular filtration rate (GFR)

Question 69

GFR for adult males and females

Answer 69

Males: 125 mL/min

Females: 105 mL/min

Question 70

Hormone that promotes loss of sodium ions and water in the urine in part because it increases glomerular filtration rate

Answer 70

Atrial Natriuretic Peptide

Question 71

Cells in the atria of the heart secrete more ANP if the heart is:

Answer 71

Stretched out (More blood volume)

Question 72

ANP acts on kidneys to increase loss of:

Answer 72

Sodium ions and water

Question 73

Blood vessels of the kidneys are ______ neurons of the autonomic nervous system

Answer 73

Sympathetic

Question 74

Filtered fluid becomes tubular fluid once it enters the:

Answer 74

Proximal convoluted tubule

Question 75

__% of the water in glomerular filtrate actually leaves the body in urine

Answer 75

1%

Question 76

What cells carry tubular reabsorption?

Answer 76

Epithelial cells all along the renal tubules and collecting ducts

Question 77

Tubule cells that reabsorb 65% of filtered water, 100% of the filtered glucose and amino acids, and large quantities of ions

Answer 77

Proximal convoluted tubule

Question 78

What cells fine-tune reabsorption to maintain homeostatic balances of water and selected ions?

Answer 78

Cells located distal to the proximal convoluted tubule

Question 79

Kidneys

Secreted substances include:

Answer 79

Hydrogen ions (H+)

Potassium (K+)

Ammonia (NH3)

Urea

Creatinine

Drugs (Penicillin)

Question 80

Poisonous waste product that is produced when amino groups are removed from amino acids

Answer 80

Ammonia

Question 81

Liver cells convert most ammonia into:

Answer 81

Urea

Question 82

Urea and ammonia in blood are both filtered at the glomerulus and secreted by the:

Answer 82

Proximal convoluted tubule cells into the tubular fluid

Question 83

Normal blood pH

Answer 83

7.35-7.45

Question 84

To eliminate acids, the cells of the renal tubules secrete

Answer 84

H+ (hydrogen)

Question 85

Most important hormonal regulators of ion reabsorption and secretion are:

Answer 85

Angiotensin II

Aldosterone

Question 86

Found in the proximal convoluted tubules, enhances the reabsorption of Na+ and Cl-

Answer 86

Angiotensin II

Question 87

Angiotensin II stimulates the adrenal cortex to release:

Answer 87

Aldosterone

Question 88

Hormone that stimulates the tubule cells in the last part of the distal convoluted tubules and through the collecting ducts to reabsorb more Na+ and Cl- and secrete more K+

Answer 88

Aldosterone

Question 89

Major regulator of blood K+ level

Answer 89

Aldosterone

Question 90

An elevated level of K+ in plasma causes:

Answer 90

Serious disturbances in cardiac rhythm or cardiac arrest

Question 91

Plays a minor role in inhibiting the reabsorption of Na+

Answer 91

ANP

Question 92

GFR increases

Na+, Cl-, and water reabsorption decrease

Answer 92

More water and salt are lost in urine, lowering Blood Pressure

Question 93

The major hormone that regulates water reabsorption is

Answer 93

Antidiuretic hormone (ADH)

Question 94

ADH operates via:

Answer 94

Negative feedback loop

Question 95

Stimulates the release of ADH

Answer 95

Osmoreceptors in the hypothalamus stimulate the release from the posterior pituitary

Question 96

ADH is stimulated to be released when the concentration of water in blood decreases by __%

Answer 96

1%

Question 97

ADH acts on tubule cells in ____ convoluted tubules and through the collecting ducts

Answer 97

Last part of the distal convoluted tubules

Question 98

Increases water permeability in the last part of distal convolute tubules by insertion of proteins that function as water channels

Answer 98

ADH

Question 99

With ADH the kidneys can produce as little as ____ mL daily of very concentrated urine

Answer 99

400-500mL

Question 100

Lower than normal levels of Ca2+ in blood stimulates the parathyroid glands to release:

Answer 100

Parathyroid hormone (PTH)

Question 101

PTH stimulates cells in the _____ convoluted tubules to reabsorb more Ca2+ into the blood

Answer 101

Distal convoluted tubules

Question 102

PTH inhibits _____ reabsorption in proximal convoluted tubules, thereby promoting _____ excretion

Answer 102

Phosphate - HPO4(2-)

Question 103

Volume of urine eliminated per day in a normal adult

Answer 103

1-2 liters

Question 104

Water accounts for about __% of the total volume of urine

Answer 104

95%

Question 105

Ureters transport urine from ______ of one of the kidneys to the bladder

Answer 105

Renal Pelvis

Question 106

If the physiological valve of the ureters under the bladder is not functional, what may occur?

Answer 106

Cystitis then Kidney Infection

Question 107

Three layers of a ureter

Answer 107

Mucosa (transitional epithelium - stretch)

Smooth muscle

Areolar connective tissue (blood vessels, lymphatic vessels, nerves)

Question 108

Hollow muscular organ behind the pubic symphysis

Answer 108

Bladder

Question 109

Location of the bladder for females

Answer 109

Infront of the vagina and below the uterus

Question 110

Bladder capacity

Answer 110

700-800 mL

Question 111

The mucosa of the bladder contains

Answer 111

Transitional epithelium

Question 112

Muscular layer of the urinary bladder that consists of three layers

Answer 112

Detrusor muscle

Question 113

Peritoneum forms what kind of coat on the superior surface of the bladder?

Answer 113

Serous outer coat

Question 114

Terminal portion of the urinary system

Answer 114

Urethra

Question 115

Location of the urethra in females

Answer 115

Directly behind the pubic symphysis, embedded in the front wall of the vagina

Question 116

Females

Opening of the urethra lies between:

Answer 116

Clitoris and vaginal opening

Question 117

Males

Urethra passes directly through:

Answer 117

Prostate, deep perineal muscles, and penis

Question 118

The opening and closing of the internal urethral sphincter is:

Answer 118

Involuntary

Question 119

External urethral sphincter:

Answer 119

Composed of skeletal muscle

Voluntary

Question 120

The urinary bladder stores urine prior to its elimination and then expels urine into the urethra by an act called:

Answer 120

Micturition

Question 121

Stretch receptors of the bladder transmit nerve impulses to the spinal cord when how much volume is present?

Answer 121

200-400 mL

Question 122

Nervous system

Impulses from the spinal cord cause contraction of the detrusor muscle and relaxation of the internal urethral sphincter muscle

Answer 122

Parasympathetic

Question 123

Spinal cord inhibits ______ motor neurons, causing relaxation of skeletal muscle in the external urethral sphincter

Answer 123

Somatic

Question 124

Causes a sensation of fullness that initiates a conscious desire to urinate before the micturition reflex actually occurs

Answer 124

Bladder filling

Question 125

Body fluids make up __% of total body mass

Answer 125

55-60%

Question 126

____ of body fluid is intracellular fluid (cytosol)

Answer 126

Two-thirds

Question 127

1/3 of body fluid

Answer 127

Extracellular

Question 128

__% of extracellular fluid is interstitial fluid

Answer 128

80%

Question 129

__% of extracellular fluid is blood plasma

Answer 129

20%

Question 130

Other extracellular fluids that are grouped with interstitial fluid:

Answer 130

Lymph

CSF

Synovial joint fluid

Aqueous humor

Endolymph/perilymph (ears)

Pleural, pericardial, peritoneal fluids

Question 131

Two barriers that separate intracellular fluid and extracellular fluid

Answer 131

Plasma membranes of cells

Blood vessel walls

Question 132

Small enough to permit the exchange of water and solutes between blood plasma and interstitial fluid

Answer 132

Capillaries

Question 133

Largest single component of the body

__% of total body mass

Answer 133

Water

45-75%

Question 134

Provide for the continual exchange of water and solutes among body fluid compartments

Answer 134

Filtration, reabsorption, diffusion, and osmosis

Question 135

Primary means of water movement between intracellular and interstitial fluid

Answer 135

Osmosis

Question 136

Determines the direction of water movement

Answer 136

Concentration of water solutes

Question 137

Most solutes in the body are

Answer 137

Electrolytes

Question 138

Main contributors to the osmotic movement of water

Answer 138

Electrolytes

Question 139

The body can gain water by:

Answer 139

Ingestion and metabolic reactions

Question 140

Ingested liquids

Answer 140

1600 mL

Question 141

Moist foods

Answer 141

700 mL

Question 142

Metabolic water gain

Answer 142

200 mL

Question 143

Metabolic water production is mainly produced during

Answer 143

Aerobic cellular respiration

Dehydration

Question 144

Daily water gains total

Answer 144

2500 mL

Question 145

Kidney volume of secreted urine

Answer 145

1500 mL

Question 146

Volume of water evaporated from skin

Answer 146

600 mL

Question 147

Lungs exhale ___ mL of water vapor

Answer 147

300 mL

Question 148

Water eliminated from feces

Answer 148

100 mL

Question 149

Governs the urge to drink

Answer 149

Hypothalamus “Thirst Center”

Question 150

Mild dehydration occurs when __% of fluid loss occurs

Answer 150

2%

Question 151

Stimulate the thirst center

Answer 151

Osmoreceptors

Increased Angiotensin II

Question 152

Elimination of excess body water or solutes occurs mainly by:

Answer 152

Controlling the amount lost in urine

Question 153

The extent of ____ loss is the main factor that determines body fluid volume

Answer 153

Urinary Salt (NaCl)

Question 154

Two main solutes in ECF and urine

Answer 154

Sodium (Na)

Chloride (Cl)

Question 155

Three hormones that regulate the extent of renal Na and Cl reabsorption

Answer 155

Atrial natriuretic peptide (ANP)

Angiotensin II

Aldosterone

Question 156

A salty meal leads to:

Answer 156

Increase in blood volume

Question 157

The major hormone that regulates water loss is

Answer 157

Antidiuretic hormone (ADH)

Question 158

Stimulates the release of ADH

Answer 158

Increase in osmotic pressure (decrease in water concentration)

Question 159

Promotes the insertion of water channels into the plasma membranes of cells in the collecting ducts of kidneys

Answer 159

ADH

Question 160

An increase in osmotic pressure of interstitial fluid causes:

Answer 160

Fluid being drawn out of cells (shrinkage)

Question 161

A decrease in osmotic pressure causes cells to:

Answer 161

Swell

Question 162

Changes in osmotic pressure most often result from changes in the concentration of:

Answer 162

Na+

Question 163

Inhibits the secretion of ADH

Answer 163

Decrease in the osmotic pressure of interstitial fluid

Question 164

Most abundant extracellular ions

Representing 90%

Answer 164

Na+ ions

Question 165

Accounts for almost half of the osmotic pressure of extracellular fluid

Answer 165

Na+

Question 166

Necessary for the generation and conduction of action potentials in neurons and muscles fibers

Answer 166

Na+

Question 167

Most prevalent anions in extracellular fluid

Answer 167

Chloride ions (Cl-)

Question 168

Most plasma membranes contains __ leakage channels

Answer 168

Cl-

Question 169

Most abundant cations in intracellular fluid

Answer 169

Potassium ions (K+)

Question 170

Play a key role in establishing the resting membrane potential and in the repolarization phase of action potentials in neurons and muscle fibers

Answer 170

Potassium (K+)

Question 171

When K+ move into or out of cells, it often is exchanged for ____ and thereby helps regulate the pH of body fluids

Answer 171

H+

Question 172

__% of the calcium in adults is in the skeleton and teeth

Answer 172

98%

Question 173

In body fluids calcium is mainly an:

Answer 173

Extracellular cation (Ca+)

Question 174

Two main regulators of Ca2+ (calcium) level in blood plasma are:

Answer 174

Parathyroid hormone (PTH)

Calcitriol

Question 175

Form of vitamin D that acts as a hormone

Answer 175

Calcitriol

Question 176

Low plasma of Ca2+ promotes release of more PTH which stimulates ______ to release Ca2+

Answer 176

Osteoclasts

Question 177

Enhances reabsorption of Ca2+ from glomerular filtrate back into blood and increases production of calcitriol

Answer 177

PTH

Question 178

Increases Ca2+ absorption from the GI tract

Answer 178

Calcitriol

Question 179

Fours general functions of electrolytes

Answer 179

Ions control the OSMOSIS of water

Ions help maintain the ACID-BASE balance

Ions carry ELECTRICAL CURRENT

Serve as COFACTORS needed for optimal ACTIVITY of enzymes

Question 180

Difference between plasma and interstitial fluids

Answer 180

Plasma has many protein ions

Question 181

The difference in protein concentration is largely responsible for the

Answer 181

Blood colloid osmotic pressure

Question 182

The difference in osmotic pressure between blood plasma and interstitial fluid

Answer 182

Blood colloid osmotic pressure

Question 183

Diet containing large amount of proteins can result in:

Answer 183

Cellular metabolism which produces more acids

Question 184

pH of blood

Answer 184

7.35-7.45

Question 185

Three mechanisms that remove H+ from body fluids

Answer 185

Buffer Systems

Exhalation of carbon dioxide

Kidney excretion of urine

Question 186

Substances that act quickly to temporarily bind H+, removing the highly reactive, excess H+ from solution but not from the body

Answer 186

Buffers

Question 187

The principle buffer systems of the body fluids

Answer 187

Protein buffer system

Carbonic acid-bicarbonate buffer system

Phosphate buffer system

Question 188

Most abundant buffer in intracellular fluid and plasma

Answer 188

Protein buffer system

Question 189

Buffer system based on HCO3-

Answer 189

Carbonic Acid-Bicarbonate Buffer System

Question 190

Components of the phosphate buffer system are the ion:

Answer 190

Dihydrogen phosphate H2PO(4)-

Mono-Hydrogen phosphate HPO4(2)-

Question 191

Concentration of phosphates is highest in:

Answer 191

Intracellular fluid

Question 192

An increase in CO2 results in:

Answer 192

Increase in H+

Decrease in pH

Question 193

Decrease in CO2 results in:

Answer 193

Decrease in H+

Increase in pH

Question 194

Increased ventilation results in:

Answer 194

More CO2 exhaled

H+ falls

pH rises

Question 195

Low ventilation rate results in:

Answer 195

Increase in CO2

Increase in H+

Decrease in pH

Question 196

What stimulates the inspiratory area of the medulla oblongata when blood acidity increases?

Answer 196

Chemoreceptors in the medulla oblongata and in the aortic and carotid bodies

Question 197

Slowest mechanism to remove acids

Answer 197

Urination

Question 198

Acidosis is a condition in which arterial blood pH is below:

Answer 198

7.35

Question 199

Principal physiological effect of acidosis is:

Answer 199

Depression of the CNS

Question 200

Depression of the nervous system is so severe that the individual becomes disoriented, comatose, and may die

Answer 200

pH below 7

Question 201

Alkalosis is a condition when blood pH reaches higher than:

Answer 201

7.45

Question 202

Over-excitability in both the CNS and peripheral nerves can be caused from:

Answer 202

Alkalosis

Question 203

The physiological response to an acid-base imbalance that acts to normalize arterial blood pH

Answer 203

Compensation

Question 204

Respiratory compensation may begin in minutes and reaches maximum effectiveness within:

Answer 204

Hours

Question 205

Renal compensation begins in minutes and takes _____ to reach maximum effectiveness

Answer 205

Days