Exam 3 Flashcards

Question 1

Q

Functions of the Kidney

Answer

A

Eliminates nitrogenous waste
Regulates blood ionic composition
Regulates blood pH
Regulates blood volume
Releases erythropoietin and calcitriol
Excretes wastes and foreign substances
Detoxifies free radicals and certain drugs

Question 2

Q

Glomerulus

Answer

A

Ball of capillaries in the renal corpuscle

Question 3

Q

Glomerular Capsule/Bowman’s Capsule

Answer

A

Performs the first step in filtration of blood to form urine

Located in the renal corpuscle

Question 4

Q

Proximal Convoluted Tubule

Answer

A

Beginning of the nephron
Regulates the pH of the filtrate by exchanging hydrogen ions for bicarbonate ions
Secretes creatinine

Question 5

Q

Descending Loop of Henle/Nephron Loop

Answer

A

Thin limb
Low permeability to ions and urea, high permeability to water
Water passes by osmosis from tubule to ECF, leaving NaCl

Question 6

Q

Ascending Loop of Henle/Nephron Loop

Answer

A

Thick and thin segment
Drains urine into the distal convoluted tubule
Has pumps that cotransport Na, K, and Cl into ECF

Question 7

Q

Distal Convoluted Tubule

Answer

A

End of the nephron

Responsible for the reabsorption of sodium, water, and secretion of hydrogen potassium

Question 8

Q

Collecting Duct

Answer

A

Consists of a series of tubules and ducts that connect the nephrons to the ureter
Participates in electrolyte and fluid balance through reabsorption and excretion (regulated by aldosterone)
Concentrates urine

Question 9

Q

Pathway Flow of Glomerular Filtrate

Answer

A

Glomerular capsule (capsular filtrate)
PCT (tubular fluid)
Nephron loop
DCT
Collecting duct
Papillary duct (urine)
Minor calyx
Major calyx
Renal pelvis
Ureter
Urinary bladder
Urethra

Question 10

Q

Ureters Function and Physiological Valve

Answer

A

Drain urine from bladder to urethra

Valve is a fold of bladder mucosa by hydrostatic backpressure that prevents the backflow of urine

Question 11

Q

Serosa

Answer

A

Tissue of a serous membrane

Question 12

Q

Mucosa

Answer

A

Mucous membrane

Question 13

Q

Bladder Location

Answer

A

Muscular sac on the floor of the pelvic cavity, inferior to the peritoneum and posterior to the pubic symphysis

Question 14

Q

Bladder Mucosa Epithelium

Answer

A

Transitional epithelium

Question 15

Q

Detrusor of Bladder

Answer

A

Muscularis that consists of three layers of smooth muscle

Question 16

Q

Trigone of Bladder

Answer

A

Openings of two ureters and urethra from this smooth-surfaced triangular area

Question 17

Q

3 Urethral Regions for Males

Answer

A

Prostatic Urethra
Membranous Urethra
Spongy Urethra

Question 18

Q

Cystitis

Answer

A

Bacterial contamination of the urethra is more common in females because of their shorter urethra and location of orifice

Question 19

Q

Blood Supply to the Nephron

Answer

A

Artery –> Capillary –> Artery –> Capillary –> Vein blood flow

Question 20

Q

3 Basic Processes by the Nephron

Answer

A

Glomerular filtration
Tubular reabsorption
Tubular secretion

Question 21

Q

Glomerular Filtration

Answer

A

Portion of blood plasma is filtered into the kidney

Capillary exchange

Question 22

Q

Tubular Reabsorption

Answer

A

Water and useful substances reabsorbed into the blood

Tubule to Blood

Question 23

Q

Tubular Secretion

Answer

A

Wastes are removed from the blood and secreted into the urine

Blood to Tubule

Question 24

Q

Difference Between Blood and Glomerular Filtrate

Answer

A

Blood plasma contains large molecules and protein that are not present in glomerular filtrate

Question 25

Q

Layers of the Glomerular Filter

Answer

A

Fenestrated endothelium
Basement membrane
Filtration slits

Question 26

Q

Fenestrated Endothelium

Answer

A

Highly permeable, but blood cells do not pass through

Question 27

Q

Basement Membrane

Answer

A

Excludes molecules larger than 8nm

Question 28

Q

Filtration Slits

Answer

A

Numerous extensions known as pedicels

Large anions cannot pass

Question 29

Q

Podocytes

Answer

A

Cells that wrap around the capillaries of the glomerulus

Question 30

Q

What substances are allowed/not allowed to pass through the glomerular membrane?

Answer

A

Pass: urea, glucose, insulin

Do not pass: albumin and hemoglobin

Question 31

Q

Glomerular Filtration Rate

Answer

A

10.5-12.5 mL/min

180 L/day

Question 32

Q

Reabsorption

Answer

A

Process of reclaiming water and solutes from the tubular fluid and returning them to the blood
Occurs until the plasma level reaches a specific concentration known as the renal threshold

Question 33

Q

What substances are reabsorbed in tubular reabsorption?

Answer

A

Sodium
Water
Glucose/amino acids
Potassium
Urea

Question 34

Q

Where does reabsorption take place?

Answer

A

In the glomerulus

Question 35

Q

Where is the majority of glomerular fluid reabsorbed?

Answer

A

Proximal convoluted tubule

Question 36

Q

Where is reabsorption a non-hormone-dependent process?

Answer

A

Distal convoluted tubule

Question 37

Q

In what part is reabsorption regulated by hormones?

Answer

A

Collecting duct

Question 38

Q

What is the “transport maximum”/”renal threshold”?

Answer

A

Concentration of a substance dissolved in the blood above which the kidneys begin to remove it into the urine

Question 39

Q

Location of Countercurrent Mechanism

Answer

A

Nephron loop

Question 40

Q

What substances are reabsorbed through the descending nephron loop and ascending nephron loop?

Answer

A

Descending: water
Ascending: sodium, potassium, and chlorine

Question 41

Q

How is the reabsorption related to osmolarity of the interstitial fluid of the medulla?

Answer

A

Descending: raises osmolarity
Ascending: lowers osmolarity

Question 42

Q

What creates high osmolarity of the medullary interstitial fluid?

Answer

A

Water leaves descending limb through osmosis and leaves NaCl behind

Question 43

Q

What substances are secreted into glomerular filtrate?

Answer

A

Potassium
Hydrogen
Ammonium
Creatinine
Urea
Some hormones and drugs

Question 44

Q

Bicarbonate Buffer System Formula

Answer

A

CO2 + H2O H2CO3 HCO3 + H+

Question 45

Q

How can the nephrons affect body pH?

Answer

A

Proximal tubule regulates pH by exchanging H+ for bicarbonate until a state of acid/alkaline base is attained

Question 46

Q

Normal Components of Urine

Answer

A

Urea
Chloride
Sodium
Potassium
Creatinine

Question 47

Q

Causes of Glycosuria

Answer

A

Elevated blood glucose levels

Question 48

Q

Causes of Proteinuria

Answer

A

Caused by kidney disease that can allow proteins such as albumin to leak

Question 49

Q

Causes of Hematuria

Answer

A

UTIs can cause blood cells to leak into the urine

Question 50

Q

Causes of Pyuria

Answer

A

White blood cells can be found in the blood during infections

Question 51

Q

Causes of Ketouria

Answer

A

Metabolic abnormalities, dietary conditions

Question 52

Q

Causes of Bacteriuria

Answer

A

Bacteria in the urine can be caused by UTIs

Question 53

Q

Stimulus for Antidiuretic Hormone

Answer

A

Dehydration, loss of blood volume, and rising blood osmolarity stimulate arterial baroreceptors and hypothalamic osmoreceptors to stimulate the posterior pituitary to secrete ADH

Question 54

Q

Mechanism for Antidiuretic Hormone

Answer

A

ADH makes the collecting duct more permeable to water, so water reenters the blood and tissues instead of the urine

Question 55

Q

Stimulus for Aldosterone

Answer

A

Salt-retaining hormone secreted by the adrenal cortex when blood sodium concentration falls or potassium concentration rises

Question 56

Q

Mechanism for Aldosterone

Answer

A

Acts on the thick segment of the ascending loop, DCT, and cortical portion of the collecting duct to stimulate the segments to reabsorb Na and secrete K
Water and Cl follow Na

Question 57

Q

Stimulus for Atrial Natriuretic Peptide

Answer

A

Secreted by the heart in response to high blood pressure

Question 58

Q

Mechanism for Atrial Natriuretic Peptide

Answer

A

Dilates afferent arteriole and constricts efferent arteriole to increase the GFR
Antagonizes the renin-angiotensin-aldosterone mechanism by inhibiting renin and aldosterone secretion
Inhibits secretion of ADH
Inhibits NaCl reabsorption

Question 59

Q

Stimulus for Renin

Answer

A

Drop in blood pressure stimulates the release of renin

Secreted from the juxtaglomerular kidney cells, stimulated by the macula densa

Question 60

Q

Mechanism for Renin

Answer

A

Restores perfusion pressure in the kidneys

Combines with angiotensinogen to form angiotensin I

Question 61

Q

Stimulus for Angiotensin

Answer

A

Stimulated by renin and low blood pressure

Causes vasoconstriction and increases blood pressure

Question 62

Q

Erythropoietin

Answer

A

Produced in the kidney

Stimulated by drop in O2 pressure

Question 63

Q

Dilute Urine Mechanism

Answer

A

Water reabsorbed in the thin limb, ions reabsorbed in the thick limb

Question 64

Q

Osmolarity of Dilute Urine

Answer 64

A

Principal cells and ADH can remove water from the urine if interstitial fluid has a high osmolarity
Cells in the collecting duct reabsorb more water and urea when ADH is increased

Answer 65

A

Involved in the regulation of plasma sodium concentration and arterial blood pressure
Ultimately want to raise blood pressure

Answer 66

A

Prevent the body from creating angiotensin II and relaxes blood vessels and reduces the amount of water reabsorbed by the kidneys

Answer 67

A

Help your body get rid of unneeded water and salt by increasing the amount of salt and water that comes through the urine

Answer 68

A

Used for high blood pressure, heart failure, kidney and liver problems, and glaucoma

Answer 69

A

65% ICF

35% ECF

Answer 70

A

25% interstitial fluid
8% blood plasma and lymph
2% transcellular fluid

Answer 71

A

Metabolic and Preformed

Answer 72

A

C6H12O6 + 6 O2 —> 6 CO2 + 6 H2O

Answer 73

A

700 mL/day in food

1600 mL/day in drink

Answer 74

A

1500 mL/day as urine
200 mL/day as feces
300 mL/day as expired breath
100 mL/day as sweat
400 mL/day as cutaneous transpiration

Answer 75

A

Occurs when proportionate amounts of water and sodium are lost without replacement

Answer 76

A

Occurs when the body eliminates significantly more water than sodium

Answer 77

A

Both sodium and water are retained and the ECF remains isotonic

Answer 78

A

A condition in which excess fluid accumulates in a particular location

Answer 79

A

Chlorine and sodium are very abundant

Answer 80

A

Potassium, magnesium, and phosphorus are very abundant

Answer 81

A

Bicarbonate Buffer System
Phosphate Buffer System
Protein Buffer System

Answer 82

A

H2PO4 HPO4^2 + H+

Answer 83

A

COOH —> COO + H+

Answer 84

A

More concentrated than either bicarbonate or phosphate buffers
Amounts for about three-quarters of all chemical buffering in the body fluids

Answer 85

A

HCO3 + H+ —> H2CO3 —> CO2 + H2O

Answer 86

A

Buffers resist changes of pH in the body fluids

Answer 87

A

Secretion involves decreasing the rate of hydrogen ions secreted into the urine and the rate of bicarbonate ion reabsorption

Answer 88

A

Water loss due to water that passes through the skin and is lost by evaporation

Answer 89

A

Urination

Answer 90

A

The minimal amount of fluid loss from the body that can occur

Answer 91

A

Respiratory failure where the lungs cannot remove enough of the carbon dioxide in the body

Answer 92

A

Increased respiration elevates the blood pH beyond the normal range and reduces carbon dioxide levels in the blood

Answer 93

A

When the body produces excessive quantities of acid or when the kidneys are not removing enough acid from the body

Answer 94

A

Decreased hydrogen ion concentration, leading to increased bicarbonate

Answer 95

A

Stratified squamous

Answer 96

A

Simple columnar

Answer 97

A

Skeletal and smooth muscle

Answer 98

A

Serous membrane that covers all organs and walls of cavities not open to the outside of the body

Answer 99

A

Amylase
Lingual lipase
Lysozyme
Immunoglobulin A

Answer 100

A

Starch digestion

Answer 101

A

Kills bacteria

Answer 102

A

Inhibits bacterial growth

Answer 103

A

Amylase, lingual lipase, mucus, lysozyme, immunoglobulin A, electrolytes, water

Answer 104

A

Moistens, dissolves food for taste, begins starch and fat digestion, cleanses teeth, inhibits bacteria, binds food together in a bolus

Answer 105

A

Produce less abundant, thicker saliva with more mucus

Answer 106

A

Abundant, thin saliva rich in enzymes

Answer 107

A

Salivation is increased

Answer 108

A

Soft palate

Answer 109

A

Oral Phase
Pharyngeal Phase
Esophageal Phase

Answer 110

A

Bolus is formed in the mouth

Answer 111

A

Tongue and soft palate block food and drink, esophagus widens

Answer 112

A

Peristalsis pushes food down, muscle above bolus constricts

Answer 113

A

Lower esophageal sphincter
Cardiac sphincter
Gastroesophageal sphincter

Answer 114

A

Serves as a valve that contracts to prevent acid reflux and relaxes to allow food to pass

Answer 115

A

2 quarts per day

Answer 116

A

Secretes mucus

Answer 117

A

Divide rapidly

Answer 118

A

Secretes HCl, intrinsic factor, and ghrelin

Answer 119

A

Secretes gastric lipase, pepsinogen

Answer 120

A

Secretes hormones and paracrine messengers

Answer 121

A

Activates pepsin and lingual lipase
Breaks up connective tissues and plant cell walls
Converts ferric ions to ferrous ions
Destroys bacteria and pathogens

Answer 122

A

Essential for the absorption of B12 by the small intestine
Necessary for RBC production

Answer 123

A

Becomes pepsin when converted by HCl

Answer 124

A

Stimulates the secretion of HCl

Answer 125

A

Peristalsis is reduced

Answer 126

A

Motility increased; gastric juices secreted

Answer 127

A

Gastrin release is shut off and inhibits gastric motility and the secretion of HCl

Answer 128

A

Secreted from enteroendocrine cells in the duodenum
Stimulated by the introduction of HCl, amino acids, or fatty acids into the stomach
Stimulates release of bile into the small intestine and the release of enzymes from the pancreas

Answer 129

A

Potassium ions diffuse from parietal cells into the lumen
Active transport pump brings potassium back into the parietal cells
Chloride ions diffuse passively from the cell to the lumen, and their negative charges balance the positive charges of the hydrogen
An exchanger on the opposite face of the parietal cell balances the loss of chloride ions by importing chloride ions from the blood in exchange for bicarbonate
Water reacts with carbon dioxide to form carbonic acid, which dissociates into hydrogen and bicarbonate

Answer 130

A

Pulpy acidic fluid that passes from the stomach to the small intestine, consisting of gastric juices and partly digested food

Answer 131

A

Cephalic Stage
Gastric Stage
Intestinal Stage

Answer 132

A

Getting the stomach ready

Cerebral cortex stimulates parasympathetic nervous system
Vagus nerve increases stomach muscle and glandular activity

Answer 133

A

Stomach working

Nervous control keeps stomach alive
Endocrine influences over stomach activity

Answer 134

A

Intestinal gastrin stimulates the stomach

2. Secretion of CCK and enterogastric reflex inhibit motility

Answer 135

A

Bile capillaries
Common hepatic duct
Common bile duct
Duodenum

Answer 136

A

Increases absorption of fats by emulsification and coating the droplets
Route of excretion for bilirubin

Answer 137

A

Secretes hormones directly into the bloodstream

Answer 138

A

Secretes products though ducts opening onto an epithelium

Answer 139

A

Secretes insulin and glucagon to control blood sugar levels

Answer 140

A

Pancreatic juice produced by acinar cells

Answer 141

A

Zymogens (trypsinogen, chymotrypsinogen, procarboxypeptidase)
Ribonuclease
Deoxyribonuclease

Answer 142

A

Activated by enterokinase (brush border enzyme)

Answer 143

A

Activated by trypsin

Answer 144

A

Activated by trypsin

Answer 145

A

Join common bile duct and perforate the duodenum

Answer 146

A

Duodenum
Jejunum
Ileum

Answer 147

A

Columnar enterocytes
Connected by tight junctions
Main function is absorption

Answer 148

A

Known as brush border

Contain enzymes that complete final stages of chemical digestion

Answer 149

A

Contain part of the submucosal layer

Slow the progress of chyme

Answer 150

A

Rhythmic contractions of the longitudinal muscles in the GI tract

Answer 151

A

Contractions of circular muscles in the digestive tract to slow the progression of chyme

Answer 152

A

Lymphatic vessels of the small intestine that absorb digested fats

Answer 153

A

Maltase
Lactase
Sucrase
Erepsin

Answer 154

A

Presence causes the release of digestive enzymes from the pancreas

Answer 155

A

Stimulate duct cells to secrete water and bicarbonate

Answer 156

A

Mucosal cells of the small intestine fail to produce lactase

Answer 157

A

Digest cellulose, pectin, and plant polysaccharides
Absorb digested material
Synthesize vitamins B and K

Answer 158

A

Immune contribution, infection and wound isolation, limits spread of infections
Prevents organs from moving around

Answer 159

A

Attach to the abdominal wall

Mesocolon connects intestines together

Answer 160

A

Process of breaking down food by mechanical and enzymatic action in the alimentary canal into substances that can be used by the body

Answer 161

A

The process of assimilating substances into cells or across tissues and organs through diffusion or osmosis

Answer 162

A

Monosaccharide

Answer 163

A

Mouth: salivary amylase
Stomach: none
Duodenum: broken down into disaccharides and then into monosaccharides
Pancreatic secretions: amylase

Answer 164

A

Absorbed into mucosal cells after the small intestine

2. Co-transport via Na+ carrier molecule

Answer 165

A

Hepatic portal vein

Answer 166

A

Amino acids

Answer 167

A

Peptide bond

Answer 168

A

Denatured by HCl

2. Pepsin is activated to break proteins into single amino acids and smaller polypeptides

Answer 169

A

Proteases produced by the pancreas are secreted to digest polypeptides into smaller units
Cells in the wall of the small intestine complete the breakdown of dipeptides and tripeptides into single amino acids, which are absorbed in the bloodstream

Answer 170

A

Produces proteases

Answer 171

A

Amino acids are absorbed into the mucosal cell by sodium-dependent amino acid transporters

Answer 172

A

Glycerol and three fatty acids

Answer 173

A

Breaks down dietary fats into smaller molecules

Produced by the pancreas

Answer 174

A

Lipid molecules that arrange themselves in a spherical form in aqueous solution

Answer 175

A

Transport lipids absorbed from intestine to adipose, cardiac, and skeletal muscle tissue

Answer 176

A

Small fatty acids enter cells and then blood by simple diffusion
Chylomicrons leave the intestinal cells by exocytosis into a lacteal

Answer 177

A

Lacteals to larger lymphatic vessels to thoracic duct to subclavian vein

Answer 178

A

Small intestine

Answer 179

A

A, D, E, and K

Answer 180

A

Synthesized in the GI tract

Answer 181

A

Intrinsic factor

Answer 182

A

Small intestine is highly vascularized and is able to transport nutrients from the epithelium to the blood

Answer 183

A

Pineal
Pituitary
Pancreas
Ovaries
Testes
Thyroid
Parathyroid
Hypothalamus
Adrenal

Answer 184

A

Sweat
Salivary
Mammary
Ceruminous
Lacrimal
Sebaceous
Mucous

Answer 185

A

Molecule that binds to a specific hormone, typically found on plasma membranes of cells

Answer 186

A

Found within the cytoplasm

Answer 187

A

An increase of cellular receptors

Answer 188

A

A decrease in the number of cellular receptors

Answer 189

A

Sex hormones (testosterone, progesterone, estrogen)
Steroids (glucocorticoids and mineralcorticoids)

Answer 190

A

Adrenaline
Noradrenaline
TSH
HGH

Answer 191

A

Cholesterol

Answer 192

A

Gonadal Hormones

Monoamines

Answer 193

A

They will be destroyed by the gastric juice

Answer 194

A

The counteraction of an effect by its own influence

Too much glucose triggers the pancreas to produce insulin

Answer 195

A

The enhancement of an effect by its own influence on the process that gives rise to it

When contractions start, oxytocin is released and stimulates more oxytocin and more contractions

Answer 196

A

Source: Hypothalamus
Released from: Pituitary gland
Action: Binds to receptors and causes the pituitary to create LH and FSH

Answer 197

A

Source: Anterior Pituitary
Target: Ovaries/Testes
Action: Stimulates egg/sperm production

Answer 198

A

Source: Anterior Pituitary
Target: Ovaries/Testes
Action: Ovulation, sex hormone release

Answer 199

A

Source: Anterior Pituitary
Target: Body cells, bones, and muscles
Action: Growth and development

Answer 200

A

Source: Anterior Pituitary
Target: Breasts
Action: Maintains milk secretions

Answer 201

A

Source: Anterior Pituitary
Target: Thyroid
Stimulus: Hypothalamus releasing factor, decreased blood levels of thyroid hormone
Action: Regulates thyroid hormones

Answer 202

A

Source: Anterior Pituitary
Target: Adrenal Cortex
Stimulus: Low blood level of glucocorticoids, stress
Action: Stimulates the cortex of the adrenal gland to secrete cortisol

Answer 203

A

Source: Posterior Pituitary
Target: Kidneys
Stimulus: Increased osmolarity of plasma
Action: Inserts aquaporins into the nephron to increase water absorption

Answer 204

A

Source: Posterior Pituitary
Target: Uterus, breasts
Stimulus: Contractions
Action: Uterine contractions, milk secretion

Answer 205

A

Source: Thyroid
Target: Most cells
Stimulus: TSH
Action: Increases metabolic rate and body heat

Answer 206

A

Source: Anterior pituitary and parathyroid gland
Target: Melanocytes in the skin, osteoclasts
Stimulus: Hypocalcemia
Action: Bone reabsorption (bones), decreases calcium secretion (kidneys), promotes vitamin D activity (blood calcium)

Answer 207

A

Source: Thyroid
Target: Adrenal cortex
Stimulus: Hypercalcemia
Action: Decreases osteoclasts and bone reabsorption

Answer 208

A

Source: Adrenal medulla
Target: Heart, lungs, liver, body cells
Stimulus: Fight or flight response
Action: Smooth muscle relaxation in the airways or contraction of smooth muscle in arterioles; inhibits flow to the nephrons

Answer 209

A

Source: Adrenal medulla
Target: Heart, lungs, liver, body cells
Stimulus: Fight or flight response
Action: Increases blood pressure, heart rate, and glucose from energy stores; inhibits flow to the nephrons

Answer 210

A

Source: Adrenal cortex
Target: Kidney
Stimulus: Low blood pressure
Action: Increases sodium reabsorption

Answer 211

A

Source: Ovaries, testes, adrenal cortex
Target: Heart, testes
Stimulus: Puberty or menopause
Action: Stimulates the development and maintenance of male and female characteristics

Answer 212

A

Source: Adrenal cortex
Target: Anterior pituitary
Stimulus: ACTH
Action: Inhibit inflammatory processes

Answer 213

A

Source: Pancreatic B cell
Target: Liver cell membrane
Stimulus: Hyperglycemia
Effect: Accelerates glucose transport into cells

Answer 214

A

Source: Pancreatic A cell
Target: Liver cells
Stimulus: Hypoglycemia
Effect: Glycogenolysis

Answer 215

A

The most common form of diabetes caused by a deficiency of the pancreatic hormone insulin, which results in a failure to metabolize sugars and starch

Answer 216

A

Rare form of diabetes caused by a deficiency of the pituitary hormone vasopressin, which regulates kidney function

Answer 217

A

Insulin-dependent, chronic condition in which the pancreas produces little or no insulin

Answer 218

A

Long term metabolic disorder that is characterized by high blood sugar, insulin resistance, and relative lack of insulin

Answer 219

A

Hyperglycemia
Glycosuria
Polyuria
Polydipsia
Ketouria
Weight loss
Lack of energy/fatigue

Answer 220

A

Steroid hormones
Monoamines
Peptide Hormones

Answer 221

A

Transport proteins

Answer 222

A

Mixing with blood plasma

Answer 223

A

Interact with receptors inside the cell that alter the transcriptional activity of different genes

Answer 224

A

Bind to receptors on the plasma membrane and activate the target inside of the cell

Answer 225

A

Zona fasciculata and reticularis

Answer 226

A

Zona glomerulosa

Answer 227

A

Glucocorticoids from the adrenal cortex

Answer 228

A

Renin in the kidneys

Answer 229

A

Adrenal medulla

Answer 230

A

Glomerular capillaries

Answer 231

A

Glomerular filtration will increase

Answer 232

A

Blood pressure

Answer 233

A

ADH

Does not have anything to do with sodium

Answer 234

A

The Phosphate Buffer System

Answer 235

A

Osmoreceptors located in the hypothalamus

Answer 236

A

Fat globule —> Glycerol and fatty acids —> Micelle

Answer 237

A

Primarily responsible for peristalsis

Answer 238

A

Mouth and anus

Answer 239

A

Renal diabetes

Answer 240

A

Diabetes I and II and gestational

Answer 241

A

Descending limb

Answer 242

A

Osmotic gradient

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Exam 3 Flashcards

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