Critical Care Medicine: Fluid Therapy

Question 1

What is the distinction/difference between hypovolemia and dehydration? What clinical signs are associated with each?

Answer 1

Dehydration is secondary to disease states caused by internal or external losses to the vascular or intracellular space. This can be caused by sequestration within the GIT, abdomen or thorax. It can also be caused by increased losses caused by diarrhea, renal failure, or extreme exercise with insufficient replacement .

Hypovolemia is decreased intravascular blood volume causing a loss of the ability to perfuse tissues.

Hypovolemic shock CS: Prolonged CRT (poor perfusion), decreased jugular filling, tachycardia, decreased pulse pressure, cold extremities, decreased skin turgor

Question 2

What are the clinical indicators of need for fluid therapy?

Answer 2

Skin turgor: decreased in dehydrated states, typically when 8-10% or more dehydrated (normal = <1s)

Mucus membranes: dryness is seen when 5-7% dehrdrated, also look at color and CRT

Urine production: decreased production and increased USG if dehydrated unless has renal disease

Sunken eyes: ypical in ruminants when 8-10% dehydrated, in horses only if severe

Heart rate: expect tachycardia (seen early)

Jugular distensibility: decreased if dehydrated

Also: Depression and muscle weakness

Question 3

What are the laboratory indicators of need for fluid therapy?

Answer 3

PCV + TP: for every increase in % dehydration over 5%, PCV increases 5% in horses, 3% in ruminants

(Splenocontraction can falsely elevate their PCV and make it seem more dehydrated if not anemic, but less dehydrated if truly anemic but anemia has been masked by splenocontraction)

TP typically >8 g/dL when >/= 10% dehydrated (normal = 6-8)

(If hypoprotenemia (e.g. GI sequestration) can underestimate degree of dehydration)

ALB: The only possible cause of hyperALB is dehydration; normal 2.3-3.9 and MUST stay above 1.5

Lactate: (esp good to monitor response to tx)

Urinalysis: BUN/CRE: evaluate urine, renal vs pre-renal; USG typically >1.030 but can get up >1.060

Question 4

Describe the clinical parameters for an adult horse that is 5% (mildly) dehydrated

Answer 4

Skin tent: 1-3sec

MM: Could be slightly tacky

CRT: WNL (<2)

HR: WNL

Decreased urine output (Difficult to assess, esp if horse lives outside/on pasture)

Question 5

Describe the clinical parameters for an adult horse that is 8% (moderately) dehydrated

Answer 5

Skin tent: 3-5sec

MM: Tacky

CRT: Variable; 2-3sec

HR: 40-60

Decreased arterial blood pressure

Question 6

Describe the clinical parameters for an adult horse that is 10-12% (moderate to severely) dehydrated

Answer 6

Skin tent: 5+ sec

MM: Dry

CRT: Variable; >4 sec

HR: 60+

Reduced jugular fill

Barely detectable peripheral pulse

Question 7

Describe the obvious clinical abnormalities for an adult horse that is 12-15% (severely) dehydrated. At what percent is death imminent?

Answer 7

Obvious sunken eyes (occurs closer to the higher end of the range)

Obvious shock

Death is imminent at 15%

Question 8

What are the determinants of catheter thrombogenicity (TG) as applies to the horse?

Answer 8

1. Systemic state: coagulation status, bad if endotoxemic or septic
2. Stiffness of catheter: stiffer = more TG (HOWEVER flexible catheter with small diameter can cause vessel trauma (and thus thrombosis) if IVF rate is high)
3. Length of catheter: longer = more TG
4. Material of catheter: Polypropylene (AngioCath) = most TG; – polyethylene – Teflon – polyvinylchloride – silicon – nylon – Polyurethane(Mila)= least TG

Question 9

What is the maximal rate of a STAT IV set at is hung 8’ above the heart of the horse?

Answer 9

28 L/hr

Question 10

What is the maximal for rate (L/hr) of a 14G 5.25” IVC? What about a 12G? 10G?

Answer 10

14G (5.25”)= 13.1 L/hr

12G= 26.9 L/hr

10G= 36.5 L/hr

Question 11

How much fluid you can administer at one time per os via nasogastric tube? What is the transit time from the stomach? What rate can you achieve via this route?

Answer 11

6-8 L (gastric capacity = 15L, but bever administer max due to risk of overfilling leading to shut down of GIT)

Transit time <30 min

Can achieve 12-16 L/hr

Question 12

If you want the animal to drink of it’s own volition for rehydration, what type(s) of fluid must you provide?

Answer 12

Free water AND electrolyte solution

(never free e-lyte solution alone)

Question 13

What are the advantages and disadvantages of oral fluid administration?

Answer 13

(+)

Most physiologic

Least expensive and invasive

Fewest complications

Helpful in LI impactions and overhydration techniques (when want to liquify resp secretions or increase flow of fluids through intestines)

(-) Reflux and ileus MAJOR C/O’s

Question 14

What IVC is typically used for IVF and what veins are preferred? What are the advantages and disadvantages of intravenous fluid administration?

Answer 14

14G 5/5” Angiocath

Jugular and Lateral thoracic veins (Cephalic is first choice for limb

(+)

Easy access

High/unlimmited rate of administration possible

Easy adjustment in fluid plan

(-)

Risk of thrombosis, phlebitis and sepsis

Requires sterility and monitoring (often in hospital setting)

Expensive

Question 15

SQ fluid administration can be helpful in foals but it rarely used. Why is SQ fluid administration nearly never used in adult horses?

Answer 15

Little to no loose skin

Question 16

Where are IP fluids administered?

Answer 16

Dorsal aspect of the left flank at the paralumbar fossa

(Cecum is on the right, don’t poke the damn cecum)

Question 17

What are the advantages and disadvantages to intraperitoneal fluid administration?

Answer 17

(+)

Can potentially give large volumes quickly

Easy access, not much equiptment needed

Good alternative to IV

(-)

PRACTICALLY cannot give large volumes (causes abdominal discomform at as little as 10L)

Must monitor closely, especially for sepsis

Question 18

How are fluids administered per rectum?

Answer 18

Gravity flow pump with horse standing on incline (to prevent evacuation reflex)

Question 19

What are the advantages and disadvantages of rectal fluid administration?

Answer 19

(+)

No special equipment or sterility needed

Many formulations ok

Large volume quickly

Good alternative to IV and PO

(-)

Not helpful with ileus

Cannot be used if colicy or has diarrhea

(Also you could get shit all over yourself)

Question 20

What are the advantages and disadvantages of intra-osseous fluid administration?

Answer 20

(+)

Good if veins complromised

Great for pot-belly pigs

Good in foals if other methods C/O’d

Good if no jugular filling

(-)

Requires special IO needles

Technically more difficult

Limited rate (max 2L/hr, depending on needle size)

Question 21

What are the advantages and disadvantages of intra-cecal fluid administration?

Answer 21

(+) Large volumes directly into segment of intestines w/greatest absorption

(-) More invasive and requires aspesis

Question 22

When are hypertonic crystalloid fluids recommended? Give an example of this solution.

Giving 2L of hypertonic solution quickly is equivalent to how many L of isotonic solution? How long does this last?

What can you do to increase the duration?

Answer 22

Hypertonic Saline (typically 7-7.4%, but defined as anything over 0.9% NaCl):

• If more e-lytes than water are lost (hypertonic losses)
• When want a rapid increase in CO
• When want to draw fluid from the 3rd space and intracellular environemnt = DECREASES TOTAL PERIPHERAL RESISTANCE
• To stimulate a CNS response favoring CV stability in the short term (mitigated by 3rd ventricle in brain)

Giving 2L of hypertinic saline in no longer than 10 min = 20L of isotonic fluids

• Adding 6% Dextran 70 (a colloid) to the solution improves the duration of effect

Question 23

What adverse reactions are associated with hypertonic saline? Are they common?

What are the contraindications?

Answer 23

Hemolysis will occur if the solution is not placed in a large vessel (Infusing into peripheral vessel is C/O’d )

Arrythmias/ VPCs (usually only high high % sln)

ADVERSE REACTIONS ARE RARE

C/O’s:

Uncontrolled hemorrhage

Severe hypernatremia

Severe hypokalemia

Note: Dehydration is not a C/O as long as it is not associated with a significant hypernatremia, dehydration does make the solution less effective.

Question 24

What types of fluids (specific) could you give to a horse who has lost more water than electrolytes?

Answer 24

Hypotonic solution - 0.45% NaCl

Question 25

When is the administration of colloids recommended?

Answer 25

When we need to increase oncotic force within the IV space to retain fluid within that space

Indicated for hypoproteinemia

Examples: Hetastarch, Dextran (40 or 70), Plasma, Serum

Question 26

What lab indicators are good for evaluating how well your fluid therapy is working? What does comparing these values reveal?

Answer 26

PCV and TP

View TP as whole number (remove the decimal), if that number is close to or less than the PCV value this is bad

It indicates that the fluid cannot be administered quickly enough (proteins are being diluted out)

Must balance rate to ensure reasonable hydration without overdiluting proteins.

Question 27

What is the formula for the amount of volume needed to rehydrate/hydrate a patient?

Answer 27

D + M + O

(Deficit +Maintenance + Ongoing losses )

Where D= % Dehydration x BW (kg)

M= 50-60 ml/kg/day (30ml/lb)

Question 28

What is the general recommendation for replacing the fluid deficit in a horse? Why?

Answer 28

Replace the deficit within the first hour

(High-Volume Recuscitation)

Why? To normalize the ciruclating volume to prevent further systemic deterioration.

Question 29

What % of a horse’s body weight is blood? How much fluid, as it relates to blood volume, can generally be administered in one hour?

Answer 29

8%

1 blood volume (80 ml/kg/hr)

Question 30

Which 2 systems must you consider/evaluate when deciding whether to give a horse a large amount of fluid in short time period? Are these systems often dysfunctional in horses? What is the most important thing to check?

Answer 30

Cardiac

Renal

No, horses rarely get heart or kidney dysfunction

Protein Level= most important in horses

Question 31

What is the maximum shock dose for a horse?

Answer 31

60-90 ml/kg/hr

Question 32

The typical set-up for IVF administration in a horse consists of ___ 5L bags suspended from a pulley system with a ‘pivoting wheel’. The____ ___ IV set is typically used.

A large-bore coil set then attaches to an ________ or ______.

The rate of flow is dependent on the distance between the _______ and the _________.

Answer 32

The typical set-up for IVF administration in a horse consists of FOUR 5L bags suspended from a pulley system with a ‘pivoting wheel’. The MILA STAT IV set is typically used.

A large-bore coil set then attaches to an IV CATHETER or EXTENSION SET.

The rate of flow is dependent on the distance between the BOTTOM OF THE BAG and the BASE OF THE HEART.

Question 33

What 3 gauges of catheter are used in horses? Which one is most commonly used and is it 3.25”, 4.25” or 5.25” long?

Answer 33

14G, 12G, and 10G

14G 5.25”

Question 34

T/F: A pump is used to regulate the amount of IVF a horse is receiving.

Answer 34

False, a free flow system

Question 35

How can leakage around the IVC cause neurologic dysfunction? What type of dysfunction?

Answer 35

Damage to the recurrent laryngeal nearves can lead to laryngeal hemiplasia (Roaring)

Question 36

What drug causes severe sloughing if it extravasates upon administration?

Answer 36

Phenylbutazone (NSAID)

Question 37

What occurs with acute bilateral jugular thrombosis? What do you do if you notice this occuring?

Answer 37

Facial edema resulting in nasal occlusion

Elevate head and use something to keep nares open

Question 38

What is the consequence of an endurance horse developing jugular thormbosis?

Answer 38

Will compromise his athletic ability, induce exersize intolerance (Degree depeidng on severity)

Question 39

Give some examples of isotonic IVFs

Answer 39

LRS

Normasol

Question 40

Sodium and chloride usually change in (the same/opposite) direction(S) and reflect (hydration state/ water balance).

Answer 40

Sodium and chloride usually change in THE SAME DIRECTION and reflect WATER BALANCE

Question 41

What does it indicate when chloride is normal but sodium is decreased? What is this condition called?

Answer 41

That chloride is being retained probably due to bicarbonate loss (to maintain electoneutrality)

Hyperchloremic Metablic Acidosis

Question 42

In the face of metablic acidosis, bcarbonate supplementation is warrented. How do you calculate the deficit? At what level do you not supplement bicarb but rather administer LRS, knowing the horse will probably self-correct?

Answer 42

Normal = 24 (-30) mEq/L

Use conservative distribution, so for an adult-

Deficit = (24 - Measured) x 0.3

(Foal: (24-M)x 0.5)

Administer 1/2 in over 1 hour, then reassess

> or = 17-18 mEq/L expect horse to self-correct

Question 43

What electolyte deficiency do you expect if a horse goes off feed? What does this mean in terms of fluid administration?

Answer 43

Potassium

Always supplement IVF with K (even it the K+ is normal on BW)

Question 44

Horses are geared to consuming and eliminating a lot of potassium and calcium, this is evidenced by the fact that the formation of these is normal in horses.

Answer 44

Calcium urinary crystals

Question 45

What is the maximum K rate in horses?

Answer 45

0.5 mEq/ kg/ hr

(Generally 10-20mEq/L)

Question 46

What alterations do you expect in a horse with a long standing esophageal obstruction who has been losing saliva for a long time (or a horse who has an esophagostomy tube)?

Answer 46

Hypochloremia

Hyponatremia

Metabolic alkalosis

Question 47

What anticipated alterations may you see in an endurance horse after a long race?

What is this combination of alterations associated with?

Answer 47

Hypocalcemia

Hypokalemia

Metabolic alkalosis

Associated with SDF (Synchronous Diaphragmatic Flutter) (typically bilateral)

Question 48

Which alteration seen in endurance horses is most associated with the development of SDF? What nerve does it affect and how?

What clinical signs are associated with SDF?

Answer 48

Hypocalcemia

Phrenic nerve- causes hyperexcitability, it contracts with every atrial contraction

CS: Hiccups, muscle paresis, tremors, excitability, cramping, behavior changes (agression, hypersensitivity, disorientation), hypotension; It will seem like HR=RR

Question 49

What alterations do you expect with a horse who has colic?

Answer 49

Hypovolemia

Metabolic acidosis

Usually ISOTONIC e-lyte/water changes

Question 50

If a horse presents with a moderate to severe case of diarrhea is inappetent but drinking water, what alterations do you anticipate?

Answer 50

Dilution of all electolytes

Metabolic acidosis

Question 51

What diseases/conditions cause large amounts of protein loss? How would this affect your fluid plan?

Answer 51

Colitis

Peritonitis

Pleuritis

Must supplement protein- plasma transfusion ($$$), Hetastarch (for moderate losses)

Question 52

As it relates to GIT disease, typically horses have ______ fluid losses.

Answer 52

Isotonic

Question 53

T/F: Both hypo- and hypernatremia cause neurological dysfunction in the horse.

Answer 53

True

Question 54

How do brain cells prevent fluid shifts from occuring when they are faced with slowly, progressively decreasing sodim in the intravascular/ intersitital space?

Answer 54

Compenstory decrease in neuronal intracellular tonicity by destroying “idiogenic osmoles”

Question 55

How will you correct a horse who presents with acute hypernatremia? What is your goal?

Answer 55

Administer: Isotonic saline, Hypotonic saline, D5W

Goal: Drop Na as fast as possible

Question 56

How will you correct a horse who presents with clincal signs (behavioral abnormalities) associated with chronic hypernatremia? Over what time period do you want to normalize the sodium?

Answer 56

Get sodium to the edge of the compensatory level as quickly as possible, then bring Na to a normal level over 1 week

Question 57

What can you add to improve the Carbinocentric model of AB analysis (Carbinocentric Model)?

Answer 57

Anion Gap (AG) analysis

• Anion Gap = Sodium - (Chloride + Bicarbonate)*
• (Bicarb = TCO2 or CO2)*

Question 58

For every 10mmHg increase in CO2, what change in pH do you expect?

So if you have a sheep with a pCO2 = 80 mmHg, what is the predicted pH?

Answer 58

A decrease of 0.05

pH= 7.2

Calculation:

KNOW: Normal pCO2= 40mmHg, Normal pH= 7.4

• 80-40=40 (So 4 increments of 10mmHg)*
• 4 x 0.05 = 0.2 (Change in pH)*
• 7.4-0.2= 7.2*

Question 59

When might it be advised/helpful to overhydrate a patient?

Answer 59

Impactions

Liquifaction of respiratory secretions to facilitate expectoration

(Usually done by increasing M rate, e.g. x2)