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Emergency Medicine: Fluid Therapy

Subjects : health-sciences, emergency-medicine

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Changes in body weight over time.
hypotonic crystalloids volume of distribution
most sensitive test for estimating fluid loss
advantages of the SC route of administration
breakdown of the loss from the ECF compartment

2. 0.9% NaCl -reduction of SID due to an increase in Cl in relation to Na
acidifying crystalloids
effective osmoles
ECF in large animals less than 30 days of age
properties of isotonic crystalloids

3. Expand the intravascular space by 4 to 6 times for a short duration.
extracellular fluid (ECF)
vascular expansion of hypertonic crystalloids
goal of maintenance fluids
most sensitive test for estimating fluid loss

4. Omolality of ECF increases - causing fluid to shift from the ICF to the ECF -ECF volume is partially maintained -ICF decreases - TBW decreases
adverse affects of hydroxyethyl starch
goal of maintenance fluids
hypotonic crystalloids volume of distribution
the effects of the loss of hypotonic fluid (water deprivation)

5. Unreliable rate of absorption -cannot be used for resuscitation or replacement of fluids in critically ill patients -hypo- or hypertonic solutions cannot be used due to tissue damage and injury
disadvantages of the SC route of administration
insensible losses
normal vascular oncotic pressure
hypotonic crystalloids

6. Replacing a free water deficit (hypernatremia) -during heart or renal disease when the patient has an impaired ability to handle sodium -maintenance fluid therapy (lower Na - high K)
complications of catheterization
clinical indications for hypotonic crystalloids
tonicity
hypovolemia

7. Total body water
adverse effects of isotonic crystalloids
acidifying crystalloids
hypotonic crystalloids volume of distribution
hydroxyethyl starch volume of distribution

8. Primarily in the vascular space - depending on vascular permeability -increases vascualar volume by 1 to 1.5x volume given
goals of fluid resuscitation
hydroxyethyl starch volume of distribution
TBW is obese large animals and extremely large horses
disadvantages of the IO route of administration

9. Osmolality of ECF does not change - initiating no fluid shift - between the ECF and ICF -ECF decreases - TBW decreases - and ICF is static
total body water (TBW)
the effects of isotonic fluid loss
location of the skin elasticity test in horses
anion gap

10. The concentration of effective osmoles + the concentration of ineffective osmoles.
total osmolality
ICF is small animals
phases of a fluid therapy plan
goals of fluid resuscitation

11. Most commonly used to treat coagulopathies.
clinical indication for hypertonic crystalloids
adverse affects of hydroxyethyl starch
indications for canine plasma
properties of hypotonic crystalloids

12. Obese animals have increased elasticity -very thin animals have decreased elasticity
clinical indications for hydroxyethyl starch
influence in body condition on the skin elasticity test
typical uses for IV route of administration
complications of the SC route of administration

13. Increased PCV and TP (hemoconcentration) -increased BUN (pre-renal azotemia) -sodium concentration will remain the same with isotonic loss
ECF in large animal adults
osmolality
bloodwork changes and dehydration
assessment in the position of the eye in orbit

14. Lateral neck skin
location of the skin elasticity test in horses
isotonic crystalloids volume of distribution
the effects of electrolyte loss without water loss (dialysis)
skin elasticity test

15. A sunken eyes is associated with reduced volume in the ] - retrobulbar fat -qualitative
traditional shock dose
ICF in large animals
assessment in the position of the eye in orbit
law of electroneutrality

16. 30% body weight
ECF in large animal adults
signs of hypovolemia
isotonic crystalloids volume of distribution
ICF in large animals

17. 40% body weight
traditional shock dose
ECF in large animals less than 30 days of age
hypovolemia
bloodwork changes and dehydration

18. The most abundant positively charged ion in the ECF.
clinical indications for isotonic crystalloids
sodium
types of shock that are reponsive to fluid therapy
osmotic determinants of volume: BV

19. Correction of acid-base disorders -rehydration -replacement of ongoing losses -resuscitation
plasma volume in cats
clinical indications for isotonic crystalloids
blood volume in cats
ICF in large animals

20. 70% body weight
TBW is obese large animals and extremely large horses
location of the skin elasticity test in cattle
traditional shock dose
location of the skin elasticity test in horses

21. TBW - ECF -contains transcellular fluids such as peritonial fluid - CSF - pleural fluid - and synovial fluid.
most sensitive test for estimating fluid loss
interstitial fluid
acidifying crystalloids
goal of maintenance fluids

22. Mucous membrane moistness -skin elasticity -position of the eye in orbit -changes in body weight -volume status (signs of hypovolemia) -thirst mechanism
adverse effects of hypertonic crystalloids
hydration parameters for physical examone
extracellular fluid (ECF)
TBW in adults

23. Polydispersed complex starch dissolved in 0.9% NaCl -small molecules confer oncotic pressure -large molecule confer duration of action -a synthetic colloid
types of the fluids used for maintenance
extracellular fluid (ECF)
hydroxyethyl starch
signs of hypovolemia

24. A particle that does not generate osmotic pressure because it is freely permeable across a membrane.
hydration parameters for physical examone
types of the fluids used for maintenance
ineffective osmole
hypertonic crystalloids

25. 60% body weight
maintenance for a normal adult cat
ICF in large animals
TBW in adults
plasma volume in cats

26. The loss of intravascular fluid.
hypovolemia
assessment in the position of the eye in orbit
normal osmolality of body fluid
indications for canine plasma

27. Normalization of vital signs -MAP above 65 -urine output about 0.5 ml/kg/hr
properties of hypotonic crystalloids
clinical indications for isotonic crystalloids
hydroxyethyl starch volume of distribution
goals of fluid resuscitation

28. Direct vascular access and expansion -rapid administration possible -multiple type of fluids can be used
advantages of the IV route of administration
maintenance water requirement
primary effect of colloids
vascular expansion of hypertonic crystalloids

29. 0.45% NaCl -D5W -Norm M
canine plasma
influence of age on the skin elasticity test
ICF in large animals
hypotonic crystalloids

30. 20% body weight
clinical indications for hydroxyethyl starch
ECF in small animal adults
TBW is obese large animals and extremely large horses
ECF in large animals less than 30 days of age

31. 40 ml/kg/day
primary effect of colloids
Vetstarch
most sensitive test for estimating fluid loss
maintenance for a normal adult horse

32. Practical - with limited equipment required -can be administered on an outpatient basis
clinical indications for hydroxyethyl starch
advantages of the SC route of administration
clinical indication for hypertonic crystalloids
clinical indications for hypotonic crystalloids

33. Resuscitation phase: if the animal is in shock -rehydration phase -maintenance phase
phases of a fluid therapy plan
anion gap
blood volume in cats
TBW in large animals less that 30 days of age

34. Decreased colloid oncotic pressure -longer duration of action due to longer circulation time
properties of colloids with large macromolecules
clinical indications for hypotonic crystalloids
ECF in large animals less than 30 days of age
hypotonic crystalloids

35. Sodium and associated anions
maintenance for a normal adult cow
osmotic determinants of volume: ECF
anion gap
ICF is small animals

36. Extracellular space - with rapid redistribution into the interstitium -only 20 to 30% of the fluids administered remain in the intravascular space after 20 to 30 minutes
isotonic crystalloids volume of distribution
clinical indications for hydroxyethyl starch
types of shock that are reponsive to fluid therapy
shock dose for hypertonic saline

37. Plasma proteins -sodium and associated anions
contraindications for hypotonic crystalloids
osmotic determinants of volume: BV
general properties of crystalloids
normal vascular oncotic pressure

38. Sustained volume expansion of the vascular space
primary effect of colloids
goal of maintenance fluids
adverse affects of hydroxyethyl starch
mucous membrane moistness

39. Generates osmotic pressure by causing a shift of water across a boundary that is not permeable to the osmotically active particle.
advantages of the SC route of administration
effective osmoles
categorizations of crystalloids
sodium

40. Never use for resuscitation -never bolus; cannot administer rapidly
contraindications for hypotonic crystalloids
adverse affects of hydroxyethyl starch
iso-omolality of the body
acidifying crystalloids

41. Increased colloid oncotic pressure -shorter duration of effect due to rapid excretion
properties of colloids with small macromolecules
shock dose for hypertonic saline
hydroxyethyl starch volume of distribution
the effects of electrolyte loss without water loss (dialysis)

42. Dose dependent coagulopathy due to dilution of clotting factors and impaired platelet aggregation - especially with hetastarch.
osmolality
law of electroneutrality
shock dose for hypertonic saline
adverse affects of hydroxyethyl starch

43. Resuscitation -treating cerebral edema due to head trauma -correction of acute hyponatremia
hydroxyethyl starch
typical uses for IV route of administration
properties of colloids with small macromolecules
clinical indication for hypertonic crystalloids

44. Pain and irritation -pressure necrosis -infection
hydroxyethyl starch volume of distribution
complications of the SC route of administration
hypovolemia
hypertonic crystalloids

45. 10 to 20 ml/kg IV bolus
breakdown of the loss from the ECF compartment
ineffective osmole
shock does for hetastarch
maintenance for a normal adult cat

46. 5% body weight
plasma volume in adults
maintenance for a normal adult dog
complications of the SC route of administration
disadvantages of the IO route of administration

47. Osmolality of ECF decreases - causing fluid to shift from the ECF to the ICF -ICF volume increases -ECF volume decreases - TBW decreases
the effects of electrolyte loss without water loss (dialysis)
iso-omolality of the body
shock dose for hypertonic saline
general properties of crystalloids

48. 4 ml/kg IV bolus
hypotonic crystalloids
signs of hypovolemia
shock dose for hypertonic saline
clinical indications for hydroxyethyl starch

49. Osmolality of solution is approximately equal to that of blood - replacing water as well as electrolytes.
properties of isotonic crystalloids
law of electroneutrality
maintenance for a normal adult cat
adverse effects of hypertonic crystalloids

50. 8% body weight
blood volume in adults
the effects of the loss of hypotonic fluid (water deprivation)
breakdown of the loss from the ECF compartment
most sensitive test for estimating fluid loss