Exam 4

Question 1

Baroreceptors

Answer 1

Receptors that are sensitive to pressure and to the rate of change in pressure

Question 2

Baroreceptors in Circulatory System

Answer 2

Aortic Arch and Carotid Sinus and throughout the rest of the cardiovascular system. Sends perception to the Cardiovascular center in the medulla.

Question 3

Medulla Cardiovascular Center

Answer 3

Where baroreceptors send their information about blood pressure and the integration center for hemorrhagic reflex arch.

Question 4

Hemorrhage

Answer 4

Loss of blood

Question 5

Initial Hemorrhage Effects

Answer 5

Stroke volume decreases, heart rate stays the same, cardiac output decreases, total peripheral resistance about same, MAP decreases

Question 6

Final Hemorrhage Effects

Answer 6

Stroke volume increases, heart rate increases, cardiac output increases, total peripheral resistance increases, MAP increases to its previous level

Question 7

Effects of Exercise Training

Answer 7

CO stays the same, heart rate is lower, stroke volume is higher.

Question 8

Cardiovascular changes while exercising

Answer 8

Everything increases except total peripheral resistance

Question 9

Hypertension

Answer 9

Chronically elevated blood pressure. Higher systolic (stroke force) and diastolic (total peripheral resistance) 140/90mmHg

Question 10

Hypotension

Answer 10

Chronically low blood pressure

Question 11

Vasovegal sympathy

Answer 11

Fainting in order to reset body in response to shock or strong emotional response. Temporary hypotension.

Question 12

Congestive heart failure

Answer 12

Result from some defect in the cardiac muscle so that the heart is weakened. Edema.

Question 13

Hypertension Treatment

Answer 13

Beta blockers, block sympathetic, Ca channel blockers, block angiotension 2.

Question 14

Myocardial Infarction

Answer 14

Hear attack where heart cannot get enough oxygen. Caused by atherosclerosis or vessels of the cardiac muscle constricting/

Question 15

Atherosclerosis

Answer 15

Thickening of the arterial wall which changes elasticity of heart

Question 16

Heart Attack Symptoms

Answer 16

Angia pectoris, nausea, transient ischemic attacks, enzymes in blood create phosphokinase lactate dehydrogenase.

Question 17

Heart Attack Treatments

Answer 17

Diet, drugs, angioplasty, streptokinases, TPA, bypass.

Question 18

Respiration Anatomy

Answer 18

Trachea, Bronchus (bronchi), Bronchiole, Alveolus (Alveoli)

Question 19

Pulmonary Cells

Answer 19

Make up the alveoli. Two types.

Question 20

Type 1 Pulmonary Cell

Answer 20

Gas exchange

Question 21

Type 2 Pulmonary Cell

Answer 21

surfactant secretion and they stretch with ventilation

Question 22

Surfactant

Answer 22

phospholipids that aid in lung compliance. Break down surface tension of water in the lungs to prevent alveolar collapse.

Question 23

Epithelial Surface of Lungs

Answer 23

Cilia, warms air, speech, moistens air

Question 24

Lung Compliance

Answer 24

The ability of the lung to stretch

Question 25

Airway Resistance

Answer 25

Flow=pressure/resistance and PV=nRT while resistance is still 1/r^4

Question 26

Pulmonary Constriction Control

Answer 26

Histamine, parasympathetic, decrease CO2, some prostaglandins

Question 27

Pulmonary Dilation Control

Answer 27

Epinephrine, sympathetic, increase CO2, other prostaglandins

Question 28

Asthmatic Medication

Answer 28

Antihistamines, epinephrine derivatives, leukotriene blockers (prostaglandin-like)

Question 29

Asthma

Answer 29

Smooth muscle contraction and inflammation. Can cause mucus accumulation.

Question 30

Movement of Air Controlling Area

Answer 30

Medulla Respirator Center (can be overridden by pons), Chemoreceptors, Inspiratory and Expiratory neurons.

Question 31

Intrapleural Pressure

Answer 31

Normally -4mmHg. Make more negative for inspiration.

Question 32

Layers of Pleural Sac (out to in)

Answer 32

Thoracic wall, parietal pleura, intrapleural fluid, visceral pleura, lungs.

Question 33

Hemoglobin

Answer 33

Tetramer protein with 4 subunits each with a heme and an iron. Each subunit will bind to one oxygen molecule. Makes up a third of the erythrocyte weight.

Question 34

Myoglobin

Answer 34

The monomer protein of hemoglobin and it has a higher oxygen affinity

Question 35

Cellular Respiration Equation

Answer 35

C6H12O2 + 6 O2 —— 6 H2O + 6 CO2 + energy

Question 36

Atmosphere Components

Answer 36

78% Nitrogen, 21% Oxygen, 1% Argon

Question 37

Partial Pressure of Oxygen

Answer 37

In air = 153 mmHg and in water 7.6mmHg

Question 38

Transport of Oxygen

Answer 38

1) Dissolved 3ml/L

2) Hemoglobin 197 ml/L

Question 39

Amount of Oxygen Moved

Answer 39

200ml oxygen per liter of blood. So if CO is 5L/minute, that means 1000ml oxygen are moved per minute.

Question 40

Cooperative binding of hemoglobin

Answer 40

Refers to the sequential addition of O2 and that the more O2 the more likely O2 will bind. Ease of binding increases with each oxygen added.

Question 41

Factors that Change Hb Affinity

Answer 41

1) pH - the more acid, the less oxygen carried
2) Temperature - small increase will decrease oxygen carried
3) 2,3 diphosphoglycerate (DPG) - increases in concentration from glycolysis will decrease Hb oxygen

Question 42

Movement of CO2

Answer 42

1) (60%) As the ion bicarbonate
2) (30%) Complexed to hemoglobin (higher affinity at lower concentrations than oxygen)
3) (10%) Dissolved in plasma

Question 43

P(co2) Changes

Answer 43

Doesn’t change greatly. Venous pH is less than arterial pH, hemoglobin has a high affinity for H+, carbonic anhydrase is very efficient enzyme.

Question 44

Bicarbonate equation

Answer 44

H2O + CO2 —-(carbonic anhydrase)—- HCO3- + H+

Question 45

Variable of Ventilation

Answer 45

1) P(o2) bound to hemoglobin
2) P(co2) carbonic anhydrase
3) H+

Question 46

Chemoreceptors

Answer 46

Afferent nerve endings that are sensitive to concentrations of specific chemicals like oxygen, carbon dioxide, and hydrogen ions. Can be peripheral (not in the brain) or central (with the brain).

Question 47

Sleep Apnea

Answer 47

Cessation of ventilation where air going through throat is blocked. Use CPAP to keep open. Might be like SIDS.

Question 48

Heimlich Maneuver

Answer 48

Basically forcing diaphragm up to force expire and eject lodged object.

Question 49

Diving Response

Answer 49

1) Bradycardia - direct response of submersion via trigeminal nerve when face/nose wet and cold
2) Acidification of blood - releases oxygen
3) Circulatory pattern changes
4) Decrease in metabolism

Question 50

SCUBA Diving Physiology

Answer 50

1atm= 33ft salt water or 35 ft fresh water
gas compresses, water doesn't 
Assent can cause embolism
Nitrogen narcosis
oxygen toxicity

Question 51

Cystic Fibrosis

Answer 51

Recessive gene that causes tick mucus/chronic pulmonary problems, low pancreatic secretions, concentrated sweat. Defect in chloride channel regulatory protein cAMP mediated.

Question 52

Hypoxia

Answer 52

A deficiency of oxygen at the tissue level. Four kinds; hypoxic, anemic, ischemic, histoxic.

Question 53

Hypoxic Hypoxia

Answer 53

Hypoventilation caused by airway resistance (asthma), respiratory muscle paralysis (polio), respiratory distress syndrome with decrease compliance, inhibition of respiratory centers via heroin or morphine, deficient alveolar-capillary diffusion (pneumonia), abnormal blood flow to ventilation matching (emphysema), Less oxygen from altitude.

Question 54

Anemic Hypoxia

Answer 54

blood defect

Question 55

Ischemic Hypoxia

Answer 55

blood supply defect like a heart attack

Question 56

Histoxic Hypoxia

Answer 56

poisoned metabolic pathways C—N

Question 57

Regulation of Blood pH

Answer 57

Lungs, digestive system, liver (non CO2 acids, digestion), renal system

Question 58

The Renal System

Answer 58

Kidney (cortex outer layer, medulla inner), 1 artery/vein, ureter, urinary bladder w/ sphincter control, urethra

Question 59

The Nephron Structure

Answer 59

Afferent arteriole, glomerulus (glomerular capillaries and bowman’s capsule), proximal tubule, loop of henle, distal tubule, collection duct.

Question 60

The Nephron Responsibilities

Answer 60

1) Glomerular Filtration (inulin)
2) Tubular Reabsorption (active transport)
3) Tubular Secretion (
The functional unit of the renal system

Question 61

Water in the Body

Answer 61

Filter 2.5L/day. Intake through drinking, eating, metabolic forms. Output via urine, evaporation through skin and lungs, fecal, sweat. Varies due to temp, humidity, physical condition, stress.

Question 62

Glomerular Capillary Pressure

Answer 62

Blood has 55 mmHg hydrostatic pressure while Bowman’s capsule has -15. There is a -30mmHg osmotic difference between the capillary and the capsule. Net +10?

Question 63

Glomerular Filtration

Answer 63

Between Glomerolar capillaries and Bowman’s capsule. Use inulin to judge GFR

Question 64

Inulin

Answer 64

Has a constant concentration on plasma (4mg/L). There is no reabsorption or secretion of inulin. Only filtered!

Question 65

Renal Secretion

Answer 65

Between peritubular system and the tubules where substances like penicillin will leave the blood and then leave the body. Active transport plays a role.

Question 66

Renal Reabsorption

Answer 66

The body takes things out of the proximal peritubule to be recycled. Glucose is active trasnported out. Can be a combined action.

Question 67

Heat Reabsorption

Answer 67

That happens. Heat is lost from arteriole and can be given to adjacent venules. Fuels a conservation system.

Question 68

Counter Current System

Answer 68

An area where two flows are in opposite directional setting a gradient between these two flows.

Question 69

Conservation System

Answer 69

Prevent loss, like heat going to extremities.

Question 70

Decreased GFR

Answer 70

Constrict afferent arteriole and or dilate efferent arteriole.

Question 71

Increased GFR

Answer 71

Constrict efferent arteriole and or dilate afferent arteriole

Question 72

Hormones of the Renal System

Answer 72

Atriopeptin, antidiuretic hormone (vasopressin), angiotension2, aldosterone

Question 73

Atriopeptin

Answer 73

(atrial naturetic factor;ANF) Atrial vesicles release due to volume increase of plasma, peptide hormone, collection duct effect: Na excretion and water excretion.

Question 74

Antidiuretic hormone

Answer 74

(vasopressin) peptide; released from posterior pituitary in response in osmo/chemo/baroreceptors. Increases reabsorption of water from collection ducts.

Question 75

Angiotension II

Answer 75

Released by liver as the peptide angiotensinogen that is convered by renally secreted renin to agiotension i and then II in the lungs. Renin secreted when drop in BP or increased filtration pressure. Vasoconstrict arterioles, decrease glomerulus permeability, and cause adrenal cortex to release aldosterone.

Question 76

Aldosterone

Answer 76

Released from adrenal cortex in response to angiotension II or increased plasma K. Steroid. Acts in collection ducts to conserve Na and excrete K .

Question 77

Angeotension II Regulation

Answer 77

Change in plasma sodium or volume. Decrease activity of chemo/baroreceptors and decreased sypathetic activity.

Question 78

Renal System Acid/Base Balance

Answer 78

Acidosis and alkalosis. Excrete H+ due to our high protein diet in america pH=1.4-1.1

Question 79

Kidney Problems

Answer 79

1) Physically damaged protein
2) Kidney disease - decrease # nephron function for lots of reason. Uremia = urine in the blood from decreased kidney function.
3) Treat with dialysis or transplant

Question 80

Totipotent Stem Cells

Answer 80

Will become any tissue

Question 81

Pluripotent Stem Cells

Answer 81

More differentiated to a cell type and can only become something of that type.

Question 82

Plasma Proteins

Answer 82

Albumins, globulins, fibrinogens - all produced in the liver except immunoglobulins which are formed in lymph tissue.

Question 83

Megakaryocytes

Answer 83

Platelets - important for clotting (platelets fibrogen). They do not adhere to endothelial lining of blood system but bind around a rupture to plug it.

Question 84

Erthropoietin

Answer 84

Peptide hormone released by kidneys in response to a drop in oxygen. Then goes on to promote RBC production.

Question 85

Spleen

Answer 85

Functions to remove old red cells and acts as a blood reservoir. Helps balance iron as well.

Question 86

Anemia

Answer 86

Reduced total blood hemoglobin caused by

1) Diet deficiencies Fe B12
2) Excessive blood loss
3) Red cell destruction
4) Bone marrow failure
5) Inadequate secretion of erthropoietin

Question 87

Sickle Cell Anemia

Answer 87

Hemoglobin that at low Po2 interact with each other to form fiber like structures that distort the normal shape.

Question 88

Leukocytes

Answer 88

White blood cells. Neutrophils, eosinophils, basophils, monocytes, lymphocytes.

Question 89

Neutrophils

Answer 89

Phagocytotic

Question 90

Eosinophils

Answer 90

Destroy parasitic worms

Question 91

Basophils

Answer 91

Release histamine increase swelling

Question 92

Monocytes

Answer 92

Become macrophages

Question 93

Lymphocytes

Answer 93

Become t and b cells

Question 94

Digestion

Answer 94

the process of breaking down large particles and large molecular weight substances into smaller molecules

Question 95

Secretion

Answer 95

Process by which molecules are released by cells in response to a specific stimulus with a specific function

Question 96

Absorption

Answer 96

Movement of materials across a layer of epithelial cells from a body compartment into blood

Question 97

Feces

Answer 97

Net result of digestion, secretion, and lack of absorption - includes bacteria

Question 98

Salivary Glands

Answer 98

Fluid moistens food; mucus helps lubrication; salivary amylase is a polysaccharide digestive enzyme

Question 99

Esophogus

Answer 99

Upper and lower esophageal sphicters. Moves bolus to stomach.

Question 100

Stomach

Answer 100

Pyloric sphincter. HCl from parietal cells kills microbes and helps digestion. Mucus still lubricates and protects epithelium (has high turn over rate). Pepsin is here for those proteins.

Question 101

Pepsin

Answer 101

Protein digestive enzyme released as pepsinogen so it wont kill the cheif that release it. HCl converts the pepsinogen.

Question 102

Chyme

Answer 102

solution of partially digested food in the luman of the stomach and small intestines

Question 103

Caffeine in the Stomach

Answer 103

Stimulates acid production so chym is slowly moved to the duodemum (inhibits gastrin)

Question 104

Control of Stomach Acid Secretion

Answer 104

Target cells are the parietal cell; three phases - cephalic, gastric, intestinal

Question 105

Cephalic Phase

Answer 105

senses chewing; acts on the vagous nerves or gastrin and results in increased HCl production

Question 106

Gastric Phase

Answer 106

Disteusion, pH, peptides; acts by way of neural reflexes gastrin; results in increased HCl production.

Question 107

Intestional Phase

Answer 107

Distension, pH, osmolarity, nutrients; acts by way of neural reflexes secretin, decreased gastrin; increased secretion; results in decreased HCl production

Question 108

Motility

Answer 108

Mechanical movement. Churn the chyme. Increases when smooth muscle of stomach expands.

Question 109

HCl Secretion

Answer 109

H+ and Cl- moves independently from parietal cell. Gastrin is a hormone and Acetylcholine the neurotransmitter stimulate H+ release.

Question 110

Chyme to Small Intestine

Answer 110

Pyloric sphicter relaxes slowly; stomach muscle contraction decreased; chyme meets secretions from pancreas/gallbladder

Question 111

Small Intestine System

Answer 111

SI (enzymes, fluid, mucus), Pancreas (bicarbonate, enzyme), Liver via Gallbadder (bile)

Question 112

Regurgitation

Answer 112

Vomit - forceful expulsion of the contents of the stomach and upper intestinal tract though the mouth.

Question 113

Vomit is Response To

Answer 113

Excessive distension, psycological stimuli, tactile stimuli, chemical stimuli, cranial pressure, infection

Question 114

Vomitting Symptoms

Answer 114

Sympathetic Discharge - sweating, increased hear rate, pallor, nausea. Deep inspiration, abdominal and thorasic muscle contraction with a relaxation of the upper and lower esophageal sphicters.

Question 115

Trypsin

Answer 115

Secreted by the pancreas as trypsinogen and activated by membrane bound enterokinase.

Question 116

Bile

Answer 116

Made by the liver, stored in gallbladder. If too concentrated gallstones can form. Solubilize fats.

Question 117

Bile Components

Answer 117

1) bile salts - bilirubin (yellow)
2) Cholesterol
3) Lecithin
4) Bile bigments/organic complexes
5) Trace metals
6) Inorganic ions

Question 118

Bile Recycling

Answer 118

Enterohepatic Circulation; 95% is recycled; Liver to GB to SI to lymph/blood system back to liver

Question 119

Hormones of SI

Answer 119

Secretin and Cholecystokinin; they potentiate one another.

Question 120

Secretin

Answer 120

Stimulated by acid from the stomach and stimulates bicarbonate in liver and pancreas. Inhibits acid secretion antral contraction.

Question 121

Cholecystokinin

Answer 121

Stimulated by fatty acids then acts to secrete the pancreas anyme secretion (lipases); Gall bladder contraction; relaxes phicter of Oddi.

Question 122

Pancreas

Answer 122

Islets of lagerhorn, acinar cells, duct cells

Question 123

Islets of Langerhorn

Answer 123

alpha cells - glucagon
bets cells - insulin (dominate hormone of absorbitive phase)
delta cells - somatostatin

Question 124

Acinar Cells

Answer 124

Enzyme precursor form OGEN

Question 125

Duct Cells

Answer 125

secrete bicarbonate

Question 126

Chyme Digestion

Answer 126

1) Proteins become small peptides, amino acids, protease
2) Nucleic Acids become nucleotidases into base and sugar
3) Carbohydrates become mono/disaccharides
- All are charged and moved by sodium coupled transport

Question 127

Water Soluble Absorption

Answer 127

Proteins, culecic acids, and carbohydrates and all water soluble and are absorbed by epithelium via Na-Coupled Co transport and H ATPase and Cl Channels.

Question 128

What Digests Chyme

Answer 128

Lipase, mechanical agitation, bile to emulsify fats into micelle form.

Question 129

Absorption of Fats

Answer 129

Free fatty acids and monoglycerides can diffuse into the cells and are reformed in the ER into chylomicron to them be secreted into lymph system.

Question 130

Fat Break Down

Answer 130

Triacylglycerols use lipase and become monoglycerides and fatty acids.

Question 131

Chylomicron

Answer 131

A small lipid droplet consisting of triacylglycerols, phospholipids, cholesterol, free fatty acids, and proteins which is released by the intestinal epithelial cell and enters the laterals. Made in SI and goes to liver.

Question 132

Very low density lipoproteins

Answer 132

VLDL - made in liver and goes to body

Question 133

Low Density Lipoproteins

Answer 133

LDL - made in Liver from VLDL and goes to body

Question 134

High Density Lipoproteins

Answer 134

HDL - made in SI/Liver and goes to liver

Question 135

Large Intestine

Answer 135

Bacterial colonies (vitamins), Flatus(gas production), Rectum (mucus secretion and feces exreted); chyme from illeus, mucus lubrication, some water absorption, bile absorption

Question 136

Constipation

Answer 136

Pressure on the rectum. Longer the residency of fecal material the drier it gets. Fix: fiber binds water or laxatives lubricates oils, stimulate motility castor oil, retain water, Mg Al

Question 137

Digestive Problems

Answer 137

Heartburn, Ulcer, appendix, diarrhea, illiocolitis, diverticulitis, hemorrhoids.

Question 138

Digestion and Environmental Toxins

Answer 138

Stored in fats and liver. Metals can store in bones.

Question 139

Biotransformation of Environmental Toxins

Answer 139

Cytochrome P450, conjugation, metallothionein

Question 140

Absorptive State

Answer 140

Insulin stimulated protein anabolism, glucose entry and metabolism, fat formation, energy conservation hormone.

Question 141

Postabsorptive State

Answer 141

Glucagon stimulates gluconeogenesis which makes glucose from glycogen, protein catabolism, fat metabolism, increase in plasma glucose, FA, glycerol, and ketones.

Question 142

Immune System Functions

Answer 142

Resistance from microbes and multicellular organisms, elimination of old, worn out, damaged cells, and immune surveillance

Question 143

Immune Response Types

Answer 143

1. Nonspecific

2. Specific (requires prior exposure)

Question 144

Neutrophil or macrophage process

Answer 144

Microbe enters via endocytosis, phagosome formation, lysosome binds, phagolysosme digests microbe, release of end produces into cell, and end-products secreted.

Question 145

Lymphocyte Formation

Answer 145

1) B cells - plasma cells make antibodies and memory cells

2) T cells from Thymus