Part 2 Module 2 Fluids and Electrolytes Sodium Potassium PDF

Summary

This document provides a detailed explanation of fluids and electrolytes, specifically focusing on sodium and potassium imbalances, including hyponatremia and hypokalemia. It covers the etiology, clinical presentations, diagnostic assessments, and medical treatment strategies for each condition.

Full Transcript

Prepared by:

Philip Winston Yap, PhRN, USRN
Fidel G. Yongque III, PhRN, USRN
Geraldine Malayo, CNN, RN
HYPONATREMIA
W H AT I S … ?

Hyponatremia refers to a serum sodium level that
is less than 135 mEq/L (135 mmol/L) (Criddle,
2006).
E T I O L O G Y & R I S K FA C TO R S
E T I O L O G Y & R I S K FA C TO R S
Loss of sodium, as in use of diuretics, loss of GI fluids, renal
disease, and adrenal insufficiency.
Gain of water, as in excessive administration of D5W and water
supplements for patients receiving hypotonic tube feedings;
disease states associated with SIADH such as head trauma and
oat-cell lung tumor; medications associated with water retention
(oxytocin and certain tranquilizers); and
psychogenic polydipsia.
Hyperglycemia and heart failure cause a loss of sodium.
C L I N I C A L M A N I F E S TAT I O N S
Anorexia,
nausea and vomiting,
headache,
lethargy,
dizziness &confusion,
muscle cramps and weakness,
muscular twitching &seizures,
papilledema,
dry skin,
pulse, BP,
weight gain &edema
DIAGNOSTIC STUDIES
serum sodium Assessment includes the
urine sodium history and physical
urine specific gravity examination, including a
osmolality focused neurologic
examination; evaluation of
signs and symptoms as
well as laboratory test
results; identification of
current IV fluids, if
applicable; and a review of
all medications the patient
is taking.
MEDICAL MANAGEMENT
SODIUM REPLACEMENT The most common treatment
for hyponatremia is careful
administration of sodium by
mouth, nasogastric tube, or
a parenteral route.
The usual daily sodium
requirement in adults is
approximately 100 mEq,
provided there are not
excessive losses.
MEDICAL MANAGEMENT

For those who cannot consume sodium,
lactated Ringer’s solution or isotonic saline
(0.9% sodium chloride) solution may be
prescribed.
Serum sodium must not be increased by more
than 12 mEq/L in 24 hours to avoid neurologic
damage due to osmotic demyelination.
 MEDICAL MANAGEMENT

In a patient with normal or excess fluid volume, hyponatremia is
treated by restricting fluid to a total of 800 mL in 24 hours.
This is far safer than sodium administration and is usually an
effective treatment.
If neurologic symptoms are severe (e.g., seizures, delirium,
coma), as well as in traumatic brain injury, it may be necessary to
administer small volumes of a hypertonic sodium solution.
 MEDICAL MANAGEMENT

The prescribed volume of hypertonic
saline administered depends on the
patient’s weight and on current and
desired serum sodium levels (Mortimer
& Jancik, 2006).
If edema exists alone, sodium is
restricted; if edema and hyponatremia
occur together, both sodium and water
are restricted.
 MEDICAL MANAGEMENT

Highly hypertonic sodium solutions (2% to 23% sodium
chloride) should be administered only in intensive care
settings under close observation, because only small
volumes are needed to elevate the serum sodium
concentration from a dangerously low level.

These fluids are administered slowly and in small volumes,
and the patient is monitored closely.
 MEDICAL MANAGEMENT

AVP receptor antagonists
are new pharmacologic
agents that treat
hyponatremia by
stimulating free water
excretion (Haskal, 2007).
 MEDICAL MANAGEMENT

IV conivaptan hydrochloride (Vaprisol) use is limited to the
treatment of hospitalized patients.
It may be a useful therapy for those patients with moderate
to severe symptomatic hyponatremia,
But, it is contraindicated in patients with seizures, delirium,
or coma, which warrant the use of hypertonic saline (Ellison
& Berl, 2007; Hayes, 2007a).
NURSING MANAGEMENT
STRICTLY! Monitor fluid I&O as well as daily body
weight.
It is also necessary to note abnormal losses of sodium
or gains of water, as well as GI manifestations such as
anorexia, nausea, vomiting, and abdominal
cramping.
The nurse must be alert for central nervous system
changes, such as lethargy, confusion, muscle
twitching, and seizures.
NURSING MANAGEMENT
For a patient with abnormal losses of sodium who
can consume a general diet, the nurse encourages
foods and fluid with high sodium content.
If the primary problem is water retention, it is safer
to restrict fluid intake than to administer sodium.
In severe hyponatremia, the aim of therapy is to
elevate the serum sodium level only enough to
alleviate neurologic signs and symptoms.
 NURSING MANAGEMENT

When administering fluids to patients with
cardio vascular disease, the nurse assesses
for signs of circulatory overload (e.g., cough,
dyspnea, puffy eyelids, dependent edema,
weight gain in 24 hours).

The lungs are auscultated for crackles.
 NURSING MANAGEMENT
For the patient taking lithium, the nurse observes for
lithium toxicity, particularly when sodium is lost by
an abnormal route.
For all patients on lithium therapy, adequate salt
intake should be ensured.
Excess water supplements are avoided in patients
receiving isotonic or hypotonic enteral feedings,
particularly if abnormal sodium loss occurs or water
is being abnormally retained (as in SIADH).
HYPERNATREMIA
W H AT I S … ?
Hypernatremia is a serum sodium level
higher than 145 mEq/L (145 mmol/L).
E T I O L O G Y A N D R I S K FA C TO R S
Water deprivation in patients unable to drink at will,
Hypertonic tube feedings without adequate water
supplements,
Diabetes insipidus,
Heatstroke,
Hyperventilation,
Watery diarrhea,
Burns and diaphoresis.
Excess corticosteroid, sodium bicarbonate, and
sodium chloride administration,
Salt water near-drowning victims
C L I N I C A L M A N I F E S TAT I O N S
Thirst, elevated body temperature,
swollen dry tongue and sticky
mucous membranes,
hallucinations, lethargy,
restlessness, irritability,
focal or grand mal seizures,
pulmonary edema,
hyperreflexia, twitching,
nausea, vomiting, anorexia,
pulse, and BP
DIAGNOSTIC STUDIES
MEDICAL MANAGEMENT
Infusion of a hypotonic electrolyte solution (eg, 0.3%
sodium chloride) or an isotonic non-saline solution (e.g.,
dextrose 5% in water[D5W]).
Clinicians consider a hypotonic sodium solution to be safer
than D5W because it allows a gradual reduction in the serum
sodium level, thereby decreasing the risk of cerebral edema.
D5W is indicated when water needs to be replaced without
sodium.
It is the solution of choice in severe hyperglycemia with
hypernatremia.
 MEDICAL MANAGEMENT
DIURETICS also may be prescribed to treat the sodium
gain.
As a general rule, the serum sodium level is reduced at
a rate no faster than 0.5 to 1 mEq/L/h to allow
sufficient time for readjustment through diffusion
across fluid compartments.

Desmopressin acetate (DDAVP), a synthetic
antidiuretic hormone, may be prescribed to treat
diabetes insipidus if it is the cause of hypernatremia
(Porth & Matfin, 2009).
 NURSING MANAGEMENT
STRICTLY! Monitor I&O.
Assess for abnormal losses of water or low water intake and for
large gains of sodium, as might occur with ingestion of OTC
medications that have a high sodium content (e.g., Alka-Seltzer).
Obtains a medication history, because some prescription
medications have a high sodium content.
Notes the patient’s thirst or elevated body temperature and
evaluates it in relation to other clinical signs.
Monitors for changes in behavior, such as restlessness,
disorientation, and lethargy.
 NURSING MANAGEMENT
If fluid intake remains inadequate, the nurse consults with
the physician to plan an alternative route for intake, either
by enteral feedings or by the parenteral route.
If enteral feedings are used, sufficient water should be
administered to keep the serum sodium and BUN within
normal limits.
As a rule, the higher the osmolality of the enteral feeding,
the greater is the need for water supplementation.
 NURSING MANAGEMENT
For patients with diabetes insipidus, adequate water
intake must be ensured.
If the patient is alert and has an intact thirst
mechanism, merely providing access to water may be
sufficient.
If the patient has a decreased level of consciousness or
other disability interfering with adequate fluid intake,
parenteral fluid replacement may be prescribed.
HYPOKALEMIA
W H AT I S … ?
Hypokalemia (below 3.5 mEq/L [3.5 mmol/L])
usually indicates a deficit in total potassium.
E T I O L O G Y A N D R I S K FA C TO R S
C L I N I C A L M A N I F E S TAT I O N S
Severe hypokalemia can cause death
through cardiac or respiratory arrest.
It can lead to an inability of the kidneys to
concentrate urine, causing dilute urine
(resulting in polyuria, nocturia) and
excessive thirst.
Potassium depletion suppresses the
release of insulin and results in glucose
intolerance.
Decreased muscle strength and DTRs can
be found on physical assessment.
C L I N I C A L M A N I F E S TAT I O N S
DIAGNOSTIC STUDIES
Assessment includes the history and
physical examination, including an
electrocardiogram.
flattened T waves, prominent U waves, ST
depression,prolonged PR interval
MEDICAL MANAGEMENT

Potassium loss must be corrected daily;
administration of 40 to 80 mEq/day of potassium is
adequate in the adult if there are no abnormal losses
of potassium.
Dietary intake of potassium in the average adult is 50
to 100 mEq/day.
Foods high in potassium include most fruits and
vegetables, legumes, whole grains, milk, and meat.
MEDICAL MANAGEMENT
MEDICAL MANAGEMENT

Many salt substitutes contain 50 to 60 mEq of
potassium per teaspoon and may be sufficient to
prevent hypokalemia.
If oral administration of potassium is not feasible,
the IV route is indicated. The IV route is
mandatory for patients with severe hypokalemia
(e.g., serum level of 2 mEq/L).
MEDICAL MANAGEMENT
Oral potassium
supplements can
produce small bowel
lesions; therefore, the
patient must be assessed
for and cautioned about
abdominal distention,
pain, or GI bleeding.
MEDICAL MANAGEMENT
Potassium is NEVER
administered by IV push
or intramuscularly to
avoid replacing
potassium too quickly.
IV potassium must be
administered using an
infusion pump.
NURSING MANAGEMENT
Because hypokalemia can be life-threatening, the
nurse needs to monitor for its early presence in
patients who are at risk.

WOF! Fatigue, anorexia, muscle weakness,
decreased bowel motility, paresthesias, and
dysrhythmias are signals that warrant assessing
the serum potassium concentration.
NURSING MANAGEMENT
Prevention may involve encouraging the patient at
risk to eat foods rich in potassium (when the diet
allows).
STRICTLY! check fluid I&O is necessary, because 40
mEq of potassium is lost for every liter of urine
output.
The ECG is monitored for changes, and arterial blood
gas values are checked for elevated bicarbonate and
pH levels.
NURSING MANAGEMENT
Renal function should be monitored through BUN and
creatinine levels and urine output if the patient is
receiving potassium replacement.
WOF! Signs of Hyperkalemia during potassium
replacement.
WOF! Signs of oliguria = STOP! potassium administration.
Potassium is primarily excreted by the kidneys; when
oliguria occurs, potassium administration can cause the
serum potassium concentration to rise dangerously (Hayes,
2007b).
HYPERKALEMIA
W H AT I S … ?
Hyperkalemia (greater than 5.0 mEq/L [5
mmol/L]) seldom occurs in patients with
normal renal function (Vacca, 2008).
Like hypokalemia, hyperkalemia is often
caused by iatrogenic (treatment-induced)
causes.
E T I O L O G Y A N D R I S K FA C TO R S
E T I O L O G Y A N D R I S K FA C TO R S
C L I N I C A L M A N I F E S TAT I O N S
Muscle weakness,
tachycardia bradycardia,
dysrhythmias,
flaccid paralysis,
paresthesias,
intestinal colic,
cramps,
abdominal distention,
irritability,
anxiety.
DIAGNOSTIC STUDIES
Assessment includes the history and
physical examination, including an
electrocardiogram.
tall tented T waves, prolonged PR
interval and QRS duration, absent P
waves, ST depression
DIAGNOSTIC STUDIES
Arterial blood gas
analysis (ABG) may
reveal both a metabolic
and respiratory
acidosis.
Correcting the acidosis
helps correct the
hyperkalemia.
MEDICAL MANAGEMENT
An ECG should be obtained immediately to detect
changes.
Shortened repolarization and peaked T waves are
seen initially.
To verify results, a repeat serum potassium level
should be obtained from a vein without an IV
infusing a potassium-containing solution.
MEDICAL MANAGEMENT
Prevention of serious
hyperkalemia by the
administration, either orally or
by retention enema, of cation
exchange resins (e.g., sodium
polystyrene sulfonate
[Kayexalate]) may be necessary
in patients with renal
impairment.
MEDICAL MANAGEMENT
DO NOT give! if the patient has a
paralytic ileus, because intestinal
perforation can occur.
Kayexalate binds with other cations in
the GI tract and contributes to the
development of hypomagnesemia and
hypocalcemia;
It may also cause sodium retention and
fluid overload, and should be used with
caution in patients with heart failure.
MEDICAL MANAGEMENT
Calcium antagonizes the action of
hyperkalemia on the heart, but it
does not reduce the serum
potassium concentration.
Calcium chloride and calcium
gluconate are not interchangeable;
calcium gluconate contains 4.5 mEq
of calcium and calcium chloride
contains 13.6 mEq of calcium.
Therefore, caution is required.
MEDICAL MANAGEMENT
Monitor BP is essential to detect
hypotension, which may result from
the rapid IV administration of
calcium gluconate.
Monitor ECG during administration;
the appearance of bradycardia is an
indication to STOP THE INFUSION.
The myocardial protective effects of
calcium last about 30 minutes.
MEDICAL MANAGEMENT
IV sodium bicarbonate = to alkalinize
the plasma, cause a temporary shift
of potassium into the cells, and
furnish sodium to antagonize the
cardiac effects of potassium (Vacca,
2008).
Effects of this therapy begin within
30 to 60 minutes and may persist for
hours; however, they are temporary.
MEDICAL MANAGEMENT
IV administration of regular
insulin and a hypertonic
dextrose solution causes a
temporary shift of potassium
into the cells.
Glucose and insulin therapy has
an onset of action within 30
minutes and lasts for several
hours.
MEDICAL MANAGEMENT

Loop diuretics, such as
furosemide (Lasix), increase
excretion of water by
inhibiting sodium, potassium,
and chloride reabsorption in
the ascending loop of Henle
and distal renal tubule.
MEDICAL MANAGEMENT
Beta-2 agonists, such as albuterol (Proventil,
Ventolin), are highly effective in decreasing
potassium, but their use remains
controversial, because they can cause
tachycardia and chest discomfort (Porth &
Matfin, 2009).
Beta-2 agonists move potassium into the
cells and may be used in the absence of
ischemic cardiac disease.
MEDICAL MANAGEMENT

If the hyperkalemic condition is not
transient, actual removal of
potassium from the body is
required through cation exchange
resins, peritoneal dialysis,
hemodialysis, or other forms of
renal replacement therapy.
NURSING MANAGEMENT

Observes for signs of muscle weakness and dysrhythmias
(CHECK ECG!).
The presence of paresthesias and GI symptoms such as
nausea and intestinal colic are noted.
Serum potassium levels, as well as BUN, creatinine, glucose,
and arterial blood gas values, are monitored for patients at
risk for developing hyperkalemia (Heitz & Horne,2005).
NURSING MANAGEMENT

STRICTLY! Avoid Potassium-rich foods.
Care is taken to administer and monitor potassium solutions
closely.
Particular attention is paid to the solution’s concentration and
rate of administration.
WOF! Signs of hypokalemia while administering loop
diuretics, cation exchange resins, IV calcium gluconate, and
other drugs that can lower potassium level.
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Hinkle, Janice L., Cheever, Kerry H. (2022). Bruner and Suddarth’s
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Nursing Clinical Management for Patient Outcomes, 8th Edition,
Elsevier (Singapore) Pte Ltd.

Doenges, Marilynn E. et. al. (2016). Nurse’s Pocket Guide Diagnoses,
Prioritized Interventions, and Rationales, 15th Edition, F.A. Davis
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Taylor, Carol, Lynn, Pamela, Bartlett, Jennifer L. (2019). Fundamentals
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