FCCN LEVEL 1 EXAM/ACTUAL
EXAM QUESTIONS WITH
SOLUTIONS/NEWEST
UPDATE/GRADE A+ ASSURED
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,Terms in this set (127)
minimum urine 0.5mL/kg/hr
output for adult
- water retainer
- vasoconstrictor (also called
ADH
Vasopressin)
(antidiuretic
- produced by hypothalamus
hormone)
- store and released from posterior
pituitary
- hypothalamus senses low blood
volumed and increased serum
osmolality
- signal pituitary to release ADH
ADH pathway
- ADH causes kidney to retain water
- water retention increases blood
volume and decreases serum
osmolality
, - cardiac hormone stored in atria
- released when atrial pressure
increases
ANP (atrial
*works opposite of RAAS by
natriuretic
decreasing BP and reducing
peptide)
intravascular volume
- important diagnostic marker in
CHF
- forces fluids and solutes through
hydrostatic
the capillary wall and into the tissue
pressure
spaces
- pulling force of albumin in the
colloid osmotic intravascular spaces
pressure
- pull fluid into vasculature
- replaces normal ongoing losses of
maintenance
water and electrolytes (urine, sweat,
fluid therapy
respiration, stool)
replacement - corrects any existing water and or
therapy electrolyte deficits
EXAM QUESTIONS WITH
SOLUTIONS/NEWEST
UPDATE/GRADE A+ ASSURED
Save
Practice questions for this set
Learn
Studied 7 terms
Nice work, you're crushing it
Continue studying in Learn
,Terms in this set (127)
minimum urine 0.5mL/kg/hr
output for adult
- water retainer
- vasoconstrictor (also called
ADH
Vasopressin)
(antidiuretic
- produced by hypothalamus
hormone)
- store and released from posterior
pituitary
- hypothalamus senses low blood
volumed and increased serum
osmolality
- signal pituitary to release ADH
ADH pathway
- ADH causes kidney to retain water
- water retention increases blood
volume and decreases serum
osmolality
, - cardiac hormone stored in atria
- released when atrial pressure
increases
ANP (atrial
*works opposite of RAAS by
natriuretic
decreasing BP and reducing
peptide)
intravascular volume
- important diagnostic marker in
CHF
- forces fluids and solutes through
hydrostatic
the capillary wall and into the tissue
pressure
spaces
- pulling force of albumin in the
colloid osmotic intravascular spaces
pressure
- pull fluid into vasculature
- replaces normal ongoing losses of
maintenance
water and electrolytes (urine, sweat,
fluid therapy
respiration, stool)
replacement - corrects any existing water and or
therapy electrolyte deficits
