Hypotonic solutions
0.45% Sodium Chloride (Osmolarity of 155, pH of 5.0 to 5.6)
- replaces sodium, replaces chloride, and provides free water. Contains 77mEq
of sodium and 77mEq of Chloride. Used most often to hydrate patients and to
treat hyperosmolar diabetes, metabolic alkalosis where there has been sodium
depletion and fluid loss. When used continuously and exclusively, the patient
needs to be monitored for hyponatremia and calorie depletion (there are no
calories in this solution).
Isotonic solutions
2.5% Dextrose and 0.45% Sodium Chloride (Osmolarity of 280,
pH of about 4.0 to 4.5) - provides calories and free water
5% Dextrose and 0.11% Sodium Chloride (Osmolarity of 290, pH
of about 4.3) - provides calories and free water, provides some sodium and
chloride
0.9% Sodium Chloride (Osmolarity of 308, pH of 5.7) -
primarily used to replace sodium and chloride, treats hyperosmolar diabetes,
metabolic alkalosis where there has been sodium depletion and fluid loss. The
reason for it's used with blood transfusion is because it will not hemolyze
erythrocytes. Often given as rapid bolus for fluid replacement during
resuscitation.
5% Dextrose and Water (Osmolarity of 253, pH of about 4.5 to
5.0) - provides calories and free water.
Normosol R [Abbott] (Osmolarity of 295, pH of 6.6) -
provides electrolytes
Plasmalyte A [Baxter] (Osmolarity of 294, pH of 7.4) -
provides electrolytes
Plasmalyte R [Baxter] (Osmolarity of 312, pH of 4.0 to 6.5)
- provides electrolytes. Also contains sodium lactate which is used in treating
mild to moderate metabolic acidosis.
Isolyte E [McGaw] (Osmolarity of 315, pH of 6.0) - provides
electrolytes
Ringer's (Osmolarity of 310, pH of 5.5 to 5.8) - it's
content is very similar to plasma, but should not be used continuously since it
contains no calories and could result in an excessive amount of one or more of
the electrolytes it contains. It's components include sodium, chloride,
potassium and calcium. It is used to replace electrolytes and to hydrate, often
where there has been extracellular fluid loss. Adding Dextrose increases the
osmolarity of the solution and lowers it's pH making it a hypertonic solution.
Lactated Ringer's [also known as Hartmann's solution]
(Osmolarity of 275, pH of 6.5 to 6.6) - as with Ringer's, it's content is very
similar to plasma, but should not be used continuously since it could result in
an excessive amount of one or more of the electrolytes it contains. It's
components include sodium, chloride, potassium, calcium and sodium lactate
which is used to replace electrolytes and to hydrate, often used where there
has been extracellular fluid loss. It is used in treating mild to moderate
metabolic acidosis and hypovolemia. Often given as rapid bolus for fluid
replacement during resuscitation. Since lactate is metabolized in the liver it
shouldn't be used in patients with hepatic diseases. Using it in a patient with
lactic acidosis will overload the person's buffering system. Adding Dextrose
also increases the osmolarity of the solution and lowers it's pH making it a
hypertonic solution.
2.5% Dextrose in half strength Lactated Ringer's (Osmolarity
of 263, pH of 5.0) - provides calories and free water, provides electrolytes.
Also contains sodium lactate which is used in treating mild to moderate
metabolic acidosis. Also see the information above with Lactated Ringers.
6% Dextran and 0.9% Sodium Chloride (Osmolarity of 308, pH
of 4.0 to 4.5) - 6% Dextran is a high molecular weight solution. The NaCl
replaces sodium and chloride. Treats hyperosmolar diabetes, metabolic alkalosis
where there has been sodium depletion and fluid loss. It draws fluid into the
vascular system. Dextran is a plasma expander that is given for shock or
anticipated shock related to trauma, surgery, burns or hemorrhage, and for the
prophylactic prevention of venous thrombosis and pulmonary embolism during
surgery. It should NOT be used as a blood substitute except in emergencies when
blood is not available. It's volume expansion effect lasts for approximately 24
hours during which the dextran is slowly broken down to glucose and metabolized
into carbon dioxide and water. Complications with the use of this solution
include anaphylactic reaction, wheezing, tightness in the chest, GI problems of
nausea and vomiting, circulatory overload and tissue dehydration. If blood
transfusion is intended, the type and cross match needs to be done before this
solution is started. Because dextran pulls fluid into the vascular system it
will result in altered blood tests.
10% Dextran and 0.9% Sodium Chloride (Osmolarity of 252, pH
of 4.0 to 4.5) - 10% Dextran is a low molecular weight dextran. It is used in
treating shock related to vascular system fluid losses such as in burns,
trauma, hemorrhage and surgery. It is also used for the prophylactic prevention
of venous thrombosis and pulmonary embolism during surgery. Complications
include circulatory overload that results in various kinds of congestion and
increased bleeding time. As with the 6% Dextran solutions, subsequent
laboratory blood tests will be altered due to it entering the vascular system.
This Dextran is excreted through the renal system within 24 hours.
Hypertonic Solutions
5% Dextrose and 0.2% Sodium Chloride (Osmolarity of 320, pH
of 4.0 to 4.4) - provides calories and water, replaces sodium and chloride. This
is given for fluid replacement.
5% Dextrose and 0.3% Sodium Chloride (Osmolarity of 365, pH
of 4.0 to 4.4) - provides calories and water, replaces sodium and chloride
5% Dextrose and 0.45% Sodium Chloride (Osmolarity of 405, pH
of 4.0 to 4.4) - provides calories and water, replaces sodium and chloride.
This is given for fluid replacement.
5% Dextrose and 0.9% Sodium Chloride (Osmolarity of 560, pH
of 4.0 to 4.4) - provides calories and water, replaces sodium and chloride.
This is given for fluid replacement.
10% Dextrose and 0.2% Sodium Chloride (Osmolarity of 575, pH
of 4.3) - provides calories and water, replaces sodium and chloride
10% Dextrose and 0.45% Sodium Chloride (Osmolarity of 660,
pH of 4.3) - provides calories and water, replaces sodium and chloride
10% Dextrose and 0.9% Sodium Chloride (Osmolarity of 815, pH
of 4.0 to 4.3) - provides calories and water, replaces sodium and chloride
3% Sodium Chloride (Osmolarity of 1030, pH of 5.0) - used to
replace severe sodium and chloride losses. Other conditions it might be used
for are excessive sweating, vomiting, renal impairment and excessive water
intake where hyponatremia has occurred.
5% Sodium Chloride (Osmolarity of 1710, pH of 5.0 to 5.8) -
used to replace severe sodium and chloride losses. Other conditions it might be
used for are excessive sweating, vomiting, renal impairment and excessive water
intake where hyponatremia has occurred.
10% Dextrose and Water (Osmolarity of 505, pH of 4.3 to 4.5)
- provides calories and water
50% Dextrose and Water (Osmolarity of 2526, pH of 4.0 to
4.2) - provides calories and water
5% Dextrose in Ringer's (Osmolarity of 562, pH of 4.3) -
provides calories and free water, provides electrolytes. Also see the
information above with Ringer's
5% Dextrose in Lactated Ringer's (Osmolarity of 527, pH of
4.9) - provides calories and free water, provides electrolytes. Also contains
sodium lactate which is used in treating mild to moderate metabolic acidosis.
Also see the information above with Lactated Ringers.
5% Dextrose and 5% Alcohol (Osmolarity of 1114, pH of 4.5) -
Provides calories and free water
5% Sodium Bicarbonate Injection (Osmolarity of 1190, pH of
8.0) - Is an alkalizing solution that is used to treat metabolic acidosis
associated with renal disease and cardiac arrest. The sodium in the solution is
an antagonist to the cardiac effects of potassium. It is also used in severe
hyperkalemia. It maintains osmotic pressure and acid-base balance. The major
complications associated with it's use are related to electrolytes and include
metabolic alkalosis, hypocalcemia, hypokalemia, water and sodium retention that
cause hypernatremia, other electrolyte imbalances and IV site extravasation
that causes chemical cellulitis, necrosis, ulceration and sloughing of the
skin.
1/6 M(olar) Sodium Lactate (Osmolarity of 335, pH of 6.5) -
Contains sodium lactate which is used in treating mild to moderate metabolic
acidosis.
10% Mannitol Injection (Osmolarity of 549, pH of 5.7) -
Mannitol is a sugar alcohol colloid and a plasma expander. It promotes diuresis
by drawing fluid from the cells into the plasma. It acts rapidly and is
excreted within 3 hours through the kidneys. It is primarily used for
intracranial pressure and cerebral edema where it acts within 15 minutes of
being infused. It will also be used during the oliguric phase of acute renal
failure to promote the excretion of toxic substances from the body. In high
intraocular pressure, it pulls fluid from the anterior chamber of the eye
within 30 to 60 minutes of infusion. Complications include frequent and severe
fluid and electrolyte imbalances, cell dehydration, fluid overload, skin
extravasation and necrosis with infiltration of the IV site, precipitate
formation in the IV line and altered laboratory blood tests. The patient's
blood tests should be monitored when the patient is receiving mannitol.
15% Mannitol Injection (Osmolarity of 823, pH of 5.7) -
Mannitol is a sugar alcohol colloid and a plasma expander. It promotes diuresis
by drawing fluid from the cells into the plasma. It acts rapidly and is
excreted within 3 hours through the kidneys. It is primarily used for
intracranial pressure and cerebral edema where it acts within 15 minutes of
being infused. It will also be used during the oliguric phase of acute renal
failure to promote the excretion of toxic substances from the body. In high
intraocular pressure, it pulls fluid from the anterior chamber of the eye
within 30 to 60 minutes of infusion. Complications include frequent and severe
fluid and electrolyte imbalances, cell dehydration, fluid overload, skin
extravasation and necrosis with infiltration of the IV site, precipitate
formation in the IV line and altered laboratory blood tests. The patient's
blood tests should be monitored when the patient is receiving mannitol.
20% Mannitol Injection (Osmolarity of 1098, pH of 5.7) -
Mannitol is a sugar alcohol colloid and a plasma expander. It promotes diuresis
by drawing fluid from the cells into the plasma. It acts rapidly and is
excreted within 3 hours through the kidneys. It is primarily used for
intracranial pressure and cerebral edema where it acts within 15 minutes of
being infused. It will also be used during the oliguric phase of acute renal
failure to promote the excretion of toxic substances from the body. In high intraocular
pressure, it pulls fluid from the anterior chamber of the eye within 30 to 60
minutes of infusion. Complications include frequent and severe fluid and
electrolyte imbalances, cell dehydration, fluid overload, skin extravasation
and necrosis with infiltration of the IV site, precipitate formation in the IV
line and altered laboratory blood tests. The patient's blood tests should be
monitored when the patient is receiving mannitol.
Basically
the Dextrose solutions also serve as diluents for the administration
of many IV medications.
In general, the electrolyte solutions are isotonic. Adding
Dextrose to them makes the resulting solution hypertonic.
Sodium deficits occur in head injuries, SIADH (Syndrome of
Inappropriate Antidiuretic Hormone) and cirrhosis
I boldfaced the solutions with the lowest and highest
osmolarity
Problems with using IV solutions of strictly Sodium Chloride
include
hyponatremia (with continuous infusions of 0.45%)
calorie depletion
hypernatremia (with continuous infusion of the higher
percentage NaCl solutions)
peripheral edema
an exhaustion of other body electrolytes
hyperchloremia
5% Dextrose in one liter of water contains 5 grams of
dextrose per every 100mL which gives 170 calories per liter of fluid (this was
a question on my state board exam in 1975).
Free water - The dextrose in IV solutions is metabolized
very rapidly since it is a simple sugar which leaves behind plain old water.
This water is able to cross all cell and tissue membranes to go into the
various fluid compartments where is it needed.
The higher percentage Dextrose solutions are used to supply
the patient with calories and often need to be given via a central IV line.
Hypovolemia occurs in acute pancreatitis.
Always review your patient's laboratory tests to determine
if the IV solution is appropriate, particularly
the BUN (blood urea nitrogen) - Normal: 10-20 mg/dl
serum creatinine - Normal: 0.7-1.5 mg/dl
hematocrit - Normal: 44-52% (male); 39-47% (female)
hemoglobin - Normal: 13.5-18.0 g/dL (male); 12.0-16.0 g/dL
serum osmolality - Normal: 280-295 mOsm/kg
serum electrolytes
sodium - Normal: 135-145 mEq/liter
potassium - Normal: 3.5-5.0 mEq/liter
chloride - Normal: 97-110 mEq/liter
calcium - Normal: 8.9-10.3 mg/dL, or 4.6-5.1 mEq/liter
magnesium - Normal: 1.3-2.1 mEq/liter, or 1.8-3.0 mg/dL
phosphate - Normal: 2.5-4.5 mg/dL, or 1.8-2.6 mEq/liter
(adults); 4.0-7.0 mg/dL, or 2.3-4.1 mEq/liter (children)
arterial blood gasses for the
pH - Normal: 7.35-7.45
PaO2 - Normal: 80-100 mm Hg
PaCO2 - Normal: 38-42 mm Hg
bicarbonate - Normal: 22-26 mEq/liter
base excess - Normal: -2 to +2
Dehydration may also be called fluid volume deficit or
hypovolemia and is due to:
excessive fluid and electrolyte losses from the
extracellular compartment
loss of GI fluids due to vomiting, diarrhea, suctioning and
fistulas
fluid lost through the skin as the body attempts to regulate
it's temperature or trauma of the skin (burns, large open wounds, cuts).
loss of fluid through the renal system (these losses are
usually excessive) by polyuria due to hyperglycemia, renal disorders,
administration of osmotic diuretics, administration of concentrated IV
solutions and tube feedings
hemorrhage which causes loss from the intracellular
compartment
third spacing - the shift of fluid from the circulation to a
space where it is trapped and cannot be exchanged with fluid in the
extracellular space. There is no actual physical fluid loss but the involved
fluid is basically "out of commission". This occurs in intestinal
ileus
decreased fluid intake due to confusion, coma, very young
age or very old age and not recognizing the sense of thirst
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