IV Fluids Pocket Card PDF

Summary

This document provides information about intravenous (IV) fluids. It details different types of IV fluids, their compositions, and clinical considerations. General nursing considerations also included.

Full Transcript

December 2023
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Intravenous (IV) Fluids
IV fluids are utilized for resuscitation, to replace fluid losses, and for maintenance hydration
in patients who are not able or not allowed to drink water. Like all prescribed medications,
IV fluids have benefits and risks. Fluid therapy should be carefully administered, with
specific goals or end points established to avoid inadvertent fluid overload or acid-base
alterations.

Crystalloids
Crystalloid solutions contain small molecules that flow easily across semipermeable
membranes, from the bloodstream into the cells and body tissues. Crystalloid solutions are
distinguished by the relative tonicity (before infusion) in relation to plasma and are categorized
as isotonic, hypotonic, or hypertonic.
Isotonic solutions
Isotonic solutions have a concentration of dissolved particles similar to plasma, and an
osmolality ofTalfeasrades
250 to 375 mOsm/L. These fluids remain within the extracellular compartment
and are distributed between intravascular (blood vessels) and interstitial (tissue) spaces,
increasing intravascular volume. They are used primarily to treat fluid volume deficit.

General nursing considerations:
Document baseline vital signs, body weight, lung sounds, heart sounds, and note
presence or absence of edema. Continue monitoring during and after the infusion.
Monitor for continued signs of hypovolemia, including urine output < 0.5 mL/kg/hour,
poor skin turgor, tachycardia, weak pulse, and hypotension.
Monitor for signs of hypervolemia such as hypertension, bounding pulse, pulmonary
crackles, dyspnea, shortness of breath, peripheral edema, weight gain, jugular vein
distension (JVD) and extra heart sounds such as S3.
A daily serum metabolic panel is recommended for patients receiving continuous IV
fluids to monitor sodium, potassium, and glucose levels, as well as renal function.

I.V. Fluid Uses/Clinical Considerations
Osmolarity
Composition
0.9% NaCL Fluid of choice for resuscitation efforts.
isotonic
(Normal Saline Solution, Used to replace fluid loss from hemorrhage, severe vomiting or
NSS) diarrhea, heavy drainage from GI suction, fistulas or wounds.
Use to treat shock, mild hyponatremia, metabolic acidosis,
308 mOsm/L hypercalcemia. w̅
Na+ 154 mmol/L Caution in cardiac or renal disease.
Cl- 154 mmol/L The only solution that should be administered with blood
products.
Monitor for hyperchloremic acidosis with large
volumes of fluid replacement with 0.9%NaCl.
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Lactated Ringer’s First-line fluid resuscitation for burn and trauma patients.
Solution Used to treat acute blood loss or hypovolemia due to third-space
(LR, Ringer’s Lactate) fluid shift; GI loss and fistula drainage; electrolyte loss; and
metabolic acidosis.
273 mOsm/L Contraindicated in patients who cannot metabolize lactate, (i.e.
Na+ 130mEq/L liver disease).
K+ 4 mEq/L Do not administer if pH > 7.5. (Normal liver will convert LR to
Ca++ 3 mEq/L bicarbonate, worsening alkalosis).
Cl- 109 mEq/L Caution in patients with renal failure (LR contains some potassium
and hyperkalemia can occur).
5% dextrose in water Both isotonic and hypotonic. Initially dilutes osmolality of
(D5W) extracellular fluid (hypotonic); once cell has used dextrose,
remaining saline and electrolytes act isotonic, expanding the
253 mOsm/L extracellular compartment.
5 g dextrose/100mL Provides free water for the kidneys, aiding renal excretion of
50 g dextrose/L solutes.
170 calories/L May be used to treat hypernatremia.
Should not be used alone to treat fluid volume deficit because it
dilutes plasma electrolyte concentrations.
Contraindicated in resuscitation, early postoperative period, and
patients with known or suspected increased intracranial pressure
(ICP).
Provides some calories, but not enough nutrition for prolonged
use.
Additional isotonic solutions:
Ringer’s Solution
Similar to LR but does not contain lactate. Not an alkalizing agent; not ideal for patients with
metabolic acidosis.
PlasmaLyte
Electrolyte composition similar to plasma; can be infused with packed red blood cells. Less likely
than other fluids to lead to dilutional or hyperchloremic acidosis.

Hypotonic solutions
Hypotonic solutions have a concentration of dissolved particles lower compared to plasma and
an osmolality < 250 mOsm/L. Hypotonic fluids lower serum osmolality within the vascular space
by causing fluid to shift out of the blood into the cells and tissue spaces. Typically used to treat
conditions causing intracellular dehydration, such as diabetic ketoacidosis and hyperosmolar
hyperglycemic states.
General nursing considerations:
May worsen existing hypovolemia and hypotension causing cardiovascular collapse.
Monitor for signs of fluid volume deficit, such as confusion in older adults and dizziness.
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Never administer to patients at risk for increased ICP as the potential fluid shift may
cause cerebral edema. Avoid in patients with liver disease, trauma or burns.

I.V. Fluid
Osmolarity Uses/Clinical Considerations
Composition
0.45% NaCl Used to treat hypernatremia.
(1/2 NS) Caution in patients with heart failure, severe renal insufficiency, and
edema with sodium retention.
154 mOsm/L May cause fluid overload resulting in decreased electrolyte
Na+ 77 mEq/L concentrations, over hydration, congested states or pulmonary edema.
Cl- 77 mEq/L Rapid infusion may cause hemolysis of red blood cells (RBCs).
Additional hypotonic solutions:
0.33% NaCl
Allows kidneys to retain needed amounts of water. Caution in patient with heart failure and
severe renal insufficiency. Adverse effects include pulmonary edema, febrile reactions. Typically
administered with dextrose to increase tonicity.
0.225% NaCl
The most hypotonic fluid available, often recommended as maintenance fluid for pediatric
patients. Avoid rapid infusion to prevent hemolysis. Avoid use unless mixed with dextrose.
2.5% dextrose in water (D2.5W)
Used to treat dehydration and decrease sodium and potassium levels. Not administered with
blood as it can cause hemolysis of RBCs.

Hypertonic solutions
Hypertonic solutions have a concentration of dissolved particles higher than plasma and an
osmolality > 375 mOsm/L. A higher solute concentration causes the osmotic pressure gradient
to draw water out of cells, increasing extracellular volume. These fluids are often used as
volume expanders and may be prescribed for hyponatremia (low sodium). They may also
benefit patients with cerebral edema.

General nursing considerations:
Administer only in high acuity areas.
For short-term use to correct critical electrolyte abnormalities.
Monitor electrolytes and assess for hypervolemia. May cause fluid volume overload and
pulmonary edema.
Avoid in patients with cardiac or renal conditions who are dehydrated, and in patients
with diabetic ketoacidosis.
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I.V. Fluid Uses/Clinical Considerations
Osmolarity
Composition

3% NaCl Used for treatment of severe, critical symptomatic
1030 mOsm/L hyponatremia and cerebral edema.
---------------- Give slowly and cautiously to avoid intravascular fluid volume
5% NaCl overload, pulmonary edema, and the rare life-threatening
1710 mOsm/L complication of central pontine myelinolysis.
Rapid infusion may cause hypernatremia or hyperchloremia.

Dextrose 5% in 0.45% Used as maintenance IV fluid for patients unable to ingest adequate
NaCl fluids orally.
(D5 ½ NS) Monitor closely for fluid volume overload.
Monitor blood glucose, sodium, and potassium levels.
406 mOsm/L

Dextrose 5% in 0.9% Provides calories, water and electrolytes
NaCl (D5NS) Monitor closely for fluid volume overload and pulmonary edema.

560 mOsm/L

Dextrose 5% in Provides calories, water and electrolytes
Lactated Ringer’s Contains sodium lactate which may be used to treat metabolic
(D5LR) acidosis.

527 mOsm/L
10% Dextrose in water Provides free water and calories, but no electrolytes.
(D10W) Contraindicated in patients with intracranial or intra-spinal
hemorrhage, delirium tremens, severe dehydration, anuria, hepatic
505 mOsm/L coma.
10 g dextrose/100mL Use central line if possible. Do not infuse through same IV line as
340 calories/L blood products due to possibility of RBC hemolysis.
Monitor blood glucose closely. Use with caution in patients with
diabetes mellitus. Monitor for hypokalemia.
May cause phlebitis, vein damage and thrombosis at the injection
site.
Rapid infusion may cause diuresis, hyperglycemia, glycosuria,
hyperosmolar syndrome (mental confusion, loss of
consciousness), fluid and/or solute overload, overhydration,
or pulmonary edema.
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Additional hypertonic solutions:
20% Dextrose in water (D20W):
Acts as an osmotic diuretic, causes a fluid shift between various compartments. Promotes
diuresis.
50% Dextrose in water (D50W):
Administered via IV bolus to treat patients with severe hypoglycemia.

Colloids
Colloid solutions contain large molecules that do not pass through semipermeable membranes
and therefore remain in the blood vessels. Also known as volume/plasma expanders, colloids
expand intravascular volume by drawing fluid from the interstitial space into the vessels
through higher oncotic pressure. Less total volume is required compared to IV fluids. Colloids
are indicated for patients in malnourished states and patients who cannot tolerate large
infusions of fluid.
General nursing considerations:
Before administering a colloid, take a careful allergy history.
Use 18-gauge or larger needle for administration of colloid solutions.
Monitor intake and output closely and for signs of hypervolemia: hypertension,
dyspnea, crackles in lungs, jugular venous distension, edema, bounding pulse,
extra heart sounds such as S3.
Monitor coagulation indexes.

I.V. Fluid Clinical Considerations
Osmolarity
Albumin Human albumin solution
(5%) Used for moderate protein replacement, to achieve hemodynamic stability in
shock states, and during large volume paracentesis in patients with cirrhosis.
309 Considered a blood transfusion product, use the same protocols and nursing
mOsm/L precautions when administering albumin.
--------------- Contraindicated in severe anemia, heart failure or known sensitivity to albumin.
Albumin Angiotensin-converting enzyme (ACE) inhibitors should be withheld at least 24
(25%) hours before administration due to risk of atypical reaction (flushing and
hypotension).
312
mOsm/L
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Additional Colloid solutions (less commonly used):
Low-molecular weight dextran (LMWD); High-molecular weight dextran (HMWD)
Contains polysaccharide molecules that behave like colloids. Used for volume expansion, fluid
resuscitation. Contraindicated in thrombocytopenia, hyperfibrinogenemia, avoid with
hemorrhagic shock.
Hetastarch (6%); Hespan
Used for hemodynamic volume replacement. Does not interfere with blood typing or cross
matching. Contraindicated in liver disease and severe cardiac/renal disorders. Monitor for
anaphylaxis.

References:
Barker, M. (2015). 0.9% Saline Induced Hyperchloremic Acidosis. Journal of Trauma Nursing, 22(2), 111-116.
https://doi.org/10.1097/JTN.0000000000000115

Crawford, A., & Harris, H. (2011). IV Fluids: What nurses need to know. Nursing2011, 41(5), 30-38.
https://doi.org/10.1097/01.NURSE.0000396282.43928.40

Guest M. (2020). Understanding the principles and aims of intravenous fluid therapy. Nursing Standard. https://doi.org/10.7748/ns.2020.e11459

Gross, W., Samarin, M., & Kimmons, L. (2017). Choice of Fluids for Resuscitation of the Critically Ill: What Nurses Need to Know. Critical Care
Nursing Quarterly, 40(4), 309-322. https://doi.org/10.1097/CNQ.0000000000000170

Malbrain, M.L.N.G., Langer, T., Annane, D., Gattinoni, L., Elbers, P., Hahn, R.G., De Laet, I., Minini, A., Wong, A., Ince, C., Muckart, D., Mythen, M.,
Caironi, P., Van Regenmortel, N. (2020). Intravenous fluid therapy in the perioperative and critical care setting: Executive summary of the
International Fluid Academy (IFA). Annals of Intensive Care. 10(1),64. https://doi.org/10.1186/s13613-020-00679-3.

Sterns, R. (2023, July 10). Maintenance and replacement fluid therapy in adults. UpToDate.
https://www.uptodate.com/contents/maintenance-and-replacement-fluid-therapy-in-adults