A&P II Chapter 25
Which of the following is not an electrolyte? Potassium Chloride Sodium Glucose
Glucose
The largest percentage of body water is located in what compartment? Blood plasma Extracellular fluid Intracellular fluid Interstitial fluid
Intracellular fluid
The largest percentage of body water is located in what compartment? Intracellular fluid Extracellular fluid Interstitial fluid Blood plasma
Intracellular fluid
dehydration
fluid loss, either the loss of water of the loss of water and solutes together
All of the following would cause edema except __________. liver disease hypotension hypoproteinemia incompetent venous valves
hypotension
Diuresis peaks __________ after drinking water. ten minutes one hour three hours half an hour
one hour
hyperkalemia
potassium excess
Intracellular fluid
potassium, phosphate, and protein anions are highest in
interstitial
fluid in the spaces between cells
Cushing's disease: -The hormone that regulates sodium and potassium levels -An excess amount of potassium in the ECF -A condition that results from water intoxication -A condition resulting from excess glucocorticoid production -Its antagonist is parathyroid hormone
-A condition resulting from excess glucocorticoid production
Hyponatremia: -The hormone that regulates sodium and potassium levels -An excess amount of potassium in the ECF -A condition that results from water intoxication -A condition resulting from excess glucocorticoid production -Its antagonist is parathyroid hormone
-A condition that results from water intoxication
Edema: -When water output exceeds intake over a period of time resulting is in negative fluid balance -Low ECF Na+ -An atypical fluid accumulation in the interstitial space, leading to tissue swelling -When the ECF osmolality starts to drop as a result of overhydration
-An atypical fluid accumulation in the interstitial space, leading to tissue swelling
Hyperkalemia: -The hormone that regulates sodium and potassium levels -An excess amount of potassium in the ECF -A condition that results from water intoxication -A condition resulting from excess glucocorticoid production -Its antagonist is parathyroid hormone
-An excess amount of potassium in the ECF
Respiratory acidosis: -Any condition that impairs gas exchange or lung ventilation; rapid, shallow breathing; narcotic or barbiturate overdose or injury to brain stem -Severe diarrhea; renal disease; untreated diabetes mellitus; starvation; excess alcohol ingestion -Vomiting; selected diuretics; ingestion of excessive amount of sodium bicarbonate; constipation; excess aldosterone -Hyperventilation; brain tumor or injury
-Any condition that impairs gas exchange or lung ventilation; rapid, shallow breathing; narcotic or barbiturate overdose or injury to brain stem
Respiratory alkalosis: -Any condition that impairs gas exchange or lung ventilation; rapid, shallow breathing; narcotic or barbiturate overdose or injury to brain stem -Severe diarrhea; renal disease; untreated diabetes mellitus; starvation; excess alcohol ingestion -Vomiting; selected diuretics; ingestion of excessive amount of sodium bicarbonate; constipation; excess aldosterone -Hyperventilation; brain tumor or injury
-Hyperventilation; brain tumor or injury
Physiological compensation: -Uses Na2HPO4 as a weak base -Neutralizes stomach acid, among other buffer functions -The most common buffer system in cells -If kidneys stop secreting acid, lungs increase respiratory loss of CO2
-If kidneys stop secreting acid, lungs increase respiratory loss of CO2
Calcitonin: -The hormone that regulates sodium and potassium levels -An excess amount of potassium in the ECF -A condition that results from water intoxication -A condition resulting from excess glucocorticoid production -Its antagonist is parathyroid hormone
-Its antagonist is parathyroid hormone
Mg2+: -Most abundant negative electrolyte in intracellular fluid -Most abundant positive electrolyte in intracellular fluid -Least abundant positive electrolyte in extracellular fluid -Most abundant positive electrolyte in extracellular fluid -Most abundant negative electrolyte in extracellular fluid
-Least abundant positive electrolyte in extracellular fluid
Hyponatremia: -When water output exceeds intake over a period of time resulting is in negative fluid balance -Low ECF Na+ -An atypical fluid accumulation in the interstitial space, leading to tissue swelling -When the ECF osmolality starts to drop as a result of overhydration
-Low ECF Na+
Cl-: -Major intracellular anion -Major extracellular cation -Major intracellular cation -Major extracellular anion
-Major extracellular anion
Na+: -Major intracellular anion -Major extracellular cation -Major intracellular cation -Major extracellular anion
-Major extracellular cation
HPO42-: -Major intracellular anion -Major extracellular cation -Major intracellular cation -Major extracellular anion
-Major intracellular anion
K+: -Major intracellular anion -Major extracellular cation -Major intracellular cation -Major extracellular anion
-Major intracellular cation
Cl-: -Most abundant negative electrolyte in intracellular fluid -Most abundant positive electrolyte in intracellular fluid -Least abundant positive electrolyte in extracellular fluid -Most abundant positive electrolyte in extracellular fluid -Most abundant negative electrolyte in extracellular fluid
-Most abundant negative electrolyte in extracellular fluid
HPO4-: -Most abundant negative electrolyte in intracellular fluid -Most abundant positive electrolyte in intracellular fluid -Least abundant positive electrolyte in extracellular fluid -Most abundant positive electrolyte in extracellular fluid -Most abundant negative electrolyte in extracellular fluid
-Most abundant negative electrolyte in intracellular fluid
Na+: -Most abundant negative electrolyte in intracellular fluid -Most abundant positive electrolyte in intracellular fluid -Least abundant positive electrolyte in extracellular fluid -Most abundant positive electrolyte in extracellular fluid -Most abundant negative electrolyte in extracellular fluid
-Most abundant positive electrolyte in extracellular fluid
K+: -Most abundant negative electrolyte in intracellular fluid -Most abundant positive electrolyte in intracellular fluid -Least abundant positive electrolyte in extracellular fluid -Most abundant positive electrolyte in extracellular fluid -Most abundant negative electrolyte in extracellular fluid
-Most abundant positive electrolyte in intracellular fluid
Bicarbonate buffer system: -Uses Na2HPO4 as a weak base -Neutralizes stomach acid, among other buffer functions -The most common buffer system in cells -If kidneys stop secreting acid, lungs increase respiratory loss of CO2
-Neutralizes stomach acid, among other buffer functions
Metabolic acidosis: -Any condition that impairs gas exchange or lung ventilation; rapid, shallow breathing; narcotic or barbiturate overdose or injury to brain stem -Severe diarrhea; renal disease; untreated diabetes mellitus; starvation; excess alcohol ingestion -Vomiting; selected diuretics; ingestion of excessive amount of sodium bicarbonate; constipation; excess aldosterone -Hyperventilation; brain tumor or injury
-Severe diarrhea; renal disease; untreated diabetes mellitus; starvation; excess alcohol ingestion
Phosphate buffer system: -Strong acid (HCl) buffered by weak base (Na2HPO4) -Strong acids (HCl) buffered by amine groups (---NH2 group) -Strong acid (HCl) buffered by weak base (NaHCO3)
-Strong acid (HCl) buffered by weak base (Na2HPO4)
Bicarbonate buffer system: -Strong acid (HCl) buffered by weak base (Na2HPO4) -Strong acids (HCl) buffered by amine groups (---NH2 group) -Strong acid (HCl) buffered by weak base (NaHCO3)
-Strong acid (HCl) buffered by weak base (NaHCO3)
Protein buffer system: -Strong acid (HCl) buffered by weak base (Na2HPO4) -Strong acids (HCl) buffered by amine groups (---NH2 group) -Strong acid (HCl) buffered by weak base (NaHCO3)
-Strong acids (HCl) buffered by amine groups (---NH2 group)
Aldosterone: -The hormone that regulates sodium and potassium levels -An excess amount of potassium in the ECF -A condition that results from water intoxication -A condition resulting from excess glucocorticoid production -Its antagonist is parathyroid hormone
-The hormone that regulates sodium and potassium levels
Protein buffer system: -Uses Na2HPO4 as a weak base -Neutralizes stomach acid, among other buffer functions -The most common buffer system in cells -If kidneys stop secreting acid, lungs increase respiratory loss of CO2
-The most common buffer system in cells
Phosphate buffer system: -Uses Na2HPO4 as a weak base -Neutralizes stomach acid, among other buffer functions -The most common buffer system in cells -If kidneys stop secreting acid, lungs increase respiratory loss of CO2
-Uses Na2HPO4 as a weak base
Metabolic alkalosis: -Any condition that impairs gas exchange or lung ventilation; rapid, shallow breathing; narcotic or barbiturate overdose or injury to brain stem -Severe diarrhea; renal disease; untreated diabetes mellitus; starvation; excess alcohol ingestion -Vomiting; selected diuretics; ingestion of excessive amount of sodium bicarbonate; constipation; excess aldosterone -Hyperventilation; brain tumor or injury
-Vomiting; selected diuretics; ingestion of excessive amount of sodium bicarbonate; constipation; excess aldosterone
Hypotonic hydration: -When water output exceeds intake over a period of time resulting is in negative fluid balance -Low ECF Na+ -An atypical fluid accumulation in the interstitial space, leading to tissue swelling -When the ECF osmolality starts to drop as a result of overhydration
-When the ECF osmolality starts to drop as a result of overhydration
Dehydration: -When water output exceeds intake over a period of time resulting is in negative fluid balance -Low ECF Na+ -An atypical fluid accumulation in the interstitial space, leading to tissue swelling -When the ECF osmolality starts to drop as a result of overhydration
-When water output exceeds intake over a period of time resulting is in negative fluid balance
Hyponatremia
A condition due to excessive water intake that results in net osmosis into tissue cells. This leads to severe metabolic disturbances
Which of the following tissues is the least hydrated? Nervous tissue Muscle tissue Bone Adipose tissue
Adipose tissue
Match the following condition with its possible cause and/or consequence: Edema. Promotes net osmosis into tissue cells, causing them to swell as they become abnormally hydrated An atypical fluid accumulation in the interstitial space, leading to tissue swelling When water output exceeds intake over a period of time
An atypical fluid accumulation in the interstitial space, leading to tissue swelling
Which of the following individuals would have the most body water? A healthy young female A healthy young male An older obese person An infant
An infant
Identify the gas or solute exchanged at "B." Ions Carbon dioxide Oxygen Nitrogenous waste
Carbon dioxide
Lymph, cerebrospinal fluid, humors of the eye, synovial fluid, serous fluid, gastrointestinal secretions are considered part of what fluid compartment? D C A B
D
Identify the statement related to "C." Fluid in the blood The body's "internal environment" Trillions of tiny individual "compartments" The fluid in the microscopic spaces between tissue cells.
Fluid in the blood
Which of the following is associated with the swelling of cells? Hypotonic hydration Dehydration Edema Hypoproteinemia
Hypotonic hydration
genital warts
Human papillomavirus
Identify the gas or solute exchanged at "D." Ions Nitrogenous waste Oxygen Carbon dioxide
Ions
hypermagnesemia
Magnesium excess
Identify the gas or solute exchanged at "C." Oxygen Ions Nitrogenous waste Carbon dioxide
Nitrogenous waste
Identify the gas or solute exchanged at "A." Nitrogenous waste Carbon dioxide Oxygen Ions
Oxygen
Respiratory alkalosis
Possibly caused by asthma, pneumonia, or a severe panic attack.
Metabolic acidosis
Possibly caused by severe diarrhea or untreated diabetes mellitus.
Metabolic alkalosis
Possibly caused by vomiting, use of diuretics, or use of antacids.
Respiratory acidosis
Possibly occurring with emphysema, extreme obesity, or narcotic overdose.
Aldosterone
Regulates sodium ion concentrations in the extracellular fluid
Identify the statement related to "D." The body's "internal environment" Trillions of tiny individual "compartments" The fluid in the microscopic spaces between tissue cells. Fluid in the blood
The body's "internal environment"
Identify the statement related to "B." Fluid in the blood The body's "internal environment" Trillions of tiny individual "compartments" The fluid in the microscopic spaces between tissue cells.
The fluid in the microscopic spaces between tissue cells.
Identify the statement related to "A." Fluid in the blood The body's "internal environment" Trillions of tiny individual "compartments" The fluid in the microscopic spaces between tissue cells.
Trillions of tiny individual "compartments"
Match the following condition with its possible cause and/or consequence: Dehydration. When water output exceeds intake over a period of time Promotes net osmosis into tissue cells, causing them to swell as they become abnormally hydrated An atypical fluid accumulation in the interstitial space, leading to tissue swelling
When water output exceeds intake over a period of time
Addisons disease
a disorder entailing deficient aldosterone production by the adrenal cortex
A major stimulus for the release of antidiuretic hormone is __________. an increase in ECF water concentration an increase in potassium levels in the ICF stimulation of the baroreceptors a rise in plasma osmolality inhibition of the osmoreceptors
a rise in plasma osmolality
morula
a solid sphere of undifferentiated cells
Estrogens are chemically similar to __________ and are therefore associated with water retention. ANP ADH aldosterone rennin
aldosterone
edema
an atypical accumulation of fluid in the interstitial space
inner cell mass
becomes the embryonic disc
Interstitial fluid
bicarbonate ions highest in
hypocalcemia
calcium depletion
nonelectrolytes
do not dissociate in solution
electrolytes
dissociate into ions in water
implantation
embedding of the blastocyst in the uterine wall
trophoblast
forms the chorion
decidua basalis
forms the mothers part of the placenta
genital herpes
human herpes virus type 2
All of the following factors would stimulate the hypothalamic thirst center except __________. angiotensin II hypotonic extracellular fluid input from baroreceptors a decline in blood volume
hypotonic extracellular fluid
Edema is accumulation of fluid in the __________. intracellular space interstitial space plasma special fluid compartments
interstitial space
capacitation
leads to enhancement of sperm motility and increasing membrane fragility to enable enzyme release from acrosomes
cleavage
leads to the development of a morula and then a blastocyst
gastrulation
leads to the establishment of the three primary gern layers
fertilization
leads to the formation of the first cell of the new individual
chlamydia
organism responsible for up to half of the diagnosed cases of pelvic inflammatory disease
The most important buffer system in the intracellular fluid compartment (ICF) is the __________. protein buffer system chloride buffer system sulfate buffer system bicarbonate buffer system phosphate buffer system
protein buffer system
hyponatremia
sodium depletion
hypernatremia
sodium excess
Blood plasma
sodium ions are highest in
decidua capsularis
surrounds the uterine cavity face of the implanted embryo
intracellular
the main fluid compartment located within the cell
extracellular
the main fluid compartment outside the cells
syphilis
treponema pallidum
gonorrhea
urethritis in males
The major source of water loss from the body is __________. urine insensible respiratory loss feces insensible skin loss sweat
urine
