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FLUIDS, ELECTROLYTES, ACID-BASE BALANCE,
AND INTRAVENOUS THERAPY
1
Theory Objectives

Recall the various functions fluid performs in the body.

Identify the body’s mechanisms for fluid regulation.

Review three ways in which body fluids are continually being
distributed among the body’s fluid compartments.

Distinguish the signs and symptoms of various electrolyte imbalances.
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Theory Objectives (cont.)

Discuss why the elderly have more problems with
fluid and electrolyte imbalances.

Recognize the disorders that cause specific fluid
and electrolyte imbalances.

Compare the major causes of acid-base
imbalances.

State interventions to correct an acid-base
imbalance.
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3
Theory Objectives (cont.)

Discuss the steps in managing an intravenous
infusion.

Describe the measures used to prevent the
complications of intravenous therapy.

Identify intravenous fluids that are isotonic.

Discuss the principles of intravenous therapy.
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Clinical Practice Objectives

Assess patients for signs of dehydration.

Correctly assess for and identify edema and signs of
overhydration.

Apply knowledge of normal laboratory values in
order to recognize electrolyte imbalances.

Carry out interventions to correct an electrolyte
imbalance.
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Clinical Practice Objectives
(cont.)

Determine if a patient has an acid-base imbalance.

Carry out measures to prevent the complications of
intravenous therapy.

Compare interventions for the care of a patient
receiving total parenteral nutrition with one
undergoing intravenous therapy.
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6
Functions of Water

Transportation

Heat regulation

Maintenance of hydrogen (H+) balance

Medium for the enzymatic action of digestion
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Control of Fluid Balance

Thirst mechanism and osmoreceptors

Antidiuretic hormone (ADH)

Aldosterone and atrial natriuretic peptide (ANP)

Baroreceptors in the carotid sinus and aortic arch
and the sympathetic/parasympathetic nervous
system
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Movement of Fluid and
Electrolytes

Passive transport

Diffusion

Osmosis

Filtration

Active transport

Living cells in solutions

Isotonic

Hypertonic

Hypotonic
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Movement of Fluid and
Electrolytes (cont.)

Passive transport

Diffusion is the process by which substances move
across the membrane until they are evenly distributed
throughout the available space

Osmosis is the movement of pure solvent (water) across
a semi-permeable membrane

Filtration is the movement of water and solutes through
a semi-permeable membrane due to a pushing force
(hydrostatic pressure) on one side of the membrane
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Movement of Fluid and
Electrolytes (cont.)

Active transport

Requires cellular energy

Moves molecules into cells against electrical and/or
concentration gradients

Uses energy (ATP)–requiring pump

Example: sodium-potassium pump
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11
Deficient Fluid Volume

Risk factors

Impaired swallowing

Extreme weakness

Disorientation or coma

Unavailability of water from vomiting, diarrhea,
hemorrhage, diaphoresis, excessive wound drainage,
or diuretic therapy
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Signs and Symptoms

Thirst

Poor skin turgor; dry lips, tongue, mucous
membranes, and skin; and sunken, soft eyeballs

Weakness, dizziness, postural hypotension

Weight loss

Decreased urine production; dark, concentrated
urine with high specific gravity
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Signs and Symptoms (cont.)

Thick saliva

Elevated temperature ≥100.6° F (38.1° C)

Flat neck veins when lying down

Rapid, weak, thready pulse

Increased hematocrit
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Nursing Management

Increase fluid intake and/or decrease fluid loss

Nursing considerations

Assigning unlicensed assistive personnel to encourage
fluid intake
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Nursing Management of
Nausea and Vomiting

Pathophysiology and assessment

Complementary and alternative therapies


Sea bands (acupressure wrist bands)

Ginger tea
Pharmacologic measures

Antihistamines

Sedatives and hypnotics

Anticholinergics

Phenothiazines
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Nursing Management of
Nausea and Vomiting (cont.)

Have the patient lie down and turn his head to one
side, or have the patient sit and lower his head
between the legs so that vomitus is not aspirated
into the respiratory tract

Hold an emesis basin close to the side of the face

Use a cool, damp washcloth to wipe the patient’s
face and the back of the neck
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Nursing Management of
Nausea and Vomiting (cont.)

Have the patient breathe through the mouth

Provide mouth care after the episode

Sucking on ice chips helps reduce nausea in some
patients

A quiet, cool, odor-free environment helps calm
nausea

If nausea and vomiting persist, observe for
dehydration
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18
Elder Care Considerations

Cautious rehydration

Patients with cardiac problems are at risk for fluid
overload from intravenous (IV) infusions
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Nursing Management of
Diarrhea

19
Pathophysiology

Local irritation of the intestinal mucosa, especially by infectious agents and
chemicals

Chronic and prolonged diarrhea typical of ulcerative colitis, irritable bowel
syndrome, allergies, lactose intolerance, and nontropical sprue

Obstruction to flow of intestinal contents also can produce diarrhea

Diarrhea causes considerable potassium and sodium loss
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Nursing Management of
Diarrhea (cont.)

20
Nursing measures

Limit the intake of foods to rest the bowels

Once oral feedings are allowed, begin clear liquids, progress to bland
liquids, then solid foods of increased calories and high-protein, highcarbohydrate content

Give rehydrating solutions containing glucose and electrolytes first

Avoid iced fluids, carbonated drinks, whole milk, roughage, raw fruits, and
highly seasoned foods
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Medications for Diarrhea

Mild cases treated with kaolin and bismuth
preparations, (e.g., Kaopectate)

Diarrhea caused by infections may be treated with
drugs specific for the causative organism


It is sometimes advisable to allow the organism/toxin to
be eliminated naturally from the body, and so drugs
may not be given initially
If metabolic acidosis occurs, treat by giving buffer
solutions
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Excess Fluid Volume

Pathophysiology

Water intoxication related to IV therapy, enema, etc.

Impaired elimination, such as occurs in renal failure
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Hematocrit

Objective measure of water excess

Measures the percentage of red blood cells in a
volume of whole blood.

Normal: 35 to 54 mL of red blood cells per 100 mL of
whole blood depending on age and sex

If there is an excess of water, the proportion of red
blood cells to milliliters of blood will be lower, and the
hematocrit will be below the normal values because of
dilution by the water
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Urine Specific Gravity

Normal range: 1.003–1.030

Average range: 1.010–1.025
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Edema

Pathophysiology

Edema is accumulation of freely moving interstitial fluid
associated with the retention of water, sodium, and
chloride

It can occur in body cavities, as in the peritoneal cavity
(ascites) and the cranial cavity
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Causes of Edema

Four general causes of edema are

Loss of plasma proteins

Obstruction of lymphatic circulation

An increase in capillary permeability

An increase in capillary hydrostatic pressure
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Pitting Edema Scale
1+
Mild pitting
2+
Moderate pitting
3+
Deep pitting
4+
Very deep pitting
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Generalized Edema

Occurs when the body’s mechanisms for eliminating
excess sodium fail

Becomes life-threatening when accumulated fluids
overload the circulatory system, as in congestive
heart failure, and when fluids accumulate in the
lungs, as in pulmonary edema
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Lymphedema

Associated with lymph node removal

Inflammatory response, infection, and chemical
mediators

Third spacing
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Localized Edema

Usually is non-pitting, does not come and go, and is characterized by
tight, shiny skin that is stretched over a hard and red area

Causes of localized edema

Trauma

Allergies

Burns

Obstruction of lymph flow

Liver failure
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Dependent Edema

An effect of gravity

Can be somewhat relieved by elevating the
affected body part 18 inches (or above heart level,
when possible) and by repositioning the patient
frequently
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Treatment of Edema

Correct underlying cause

Assist to rebalance fluid content

Fluid may be restricted or diuretic drugs may be
administered to facilitate excretion of the excess
fluid

Bed rest may be ordered to facilitate fluid excretion
as the kidneys function best when the body is supine
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Treatment of Edema (cont.)

Low-sodium diet

Elastic stockings or sequential compression devices

Intake and output recording
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Volume Disturbances
Home Care Considerations


Fluid deficit

Patient teaching

Small fluid intake

Persistent symptoms
Fluid excess

Weigh daily

Persistent weight gain and physician consult
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35
Osmolality

Concentration of the solution determined by the
number of solutes

Solutes can be nonelectrolyte (protein, urea,
glucose, creatinine, and bilirubin) or electrolyte
(sodium, chloride, potassium, etc.)

Normal: 280–294 mOsm/kg
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Electrolytes

Molecules in solution

Anions and cations

Electrolytes create electrical impulses used in nerve
conduction, contraction of muscles, and excretion
of hormones and other substances from glandular
cells
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Audience Response Question 1
Which patient(s) would be considered at high risk for fluid and
electrolyte imbalance? (Select all that apply.)
1.
A 45-year-old woman with thyroid crisis
2.
A 35-year-old trauma victim on ventilator
3.
A 60-year-old woman with temperature of 98.6°F
4.
A 70-year-old man on anticoagulant therapy
5.
A 30-year-old woman complaining of persistent diarrhea
Correct Answer: 1, 2, and 5
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Electrolyte Imbalances

Hyponatremia

Hypomagnesemia

Hypernatremia

Hypermagnesemia

Hypokalemia

Hypophosphatemia

Hyperkalemia

Hyperphosphatemia

Hypocalcemia

Hypercalcemia
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Hyponatremia

Na+ less than 135 mEq/L

The average intake of sodium is 4 to 5 g/day

If there is a problem with water balance, sodium may
be restricted in the diet

The consequence of hyponatremia is impaired nerve
conduction
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Pathophysiology

Hyponatremia can occur from either a sodium loss
or an excess of water

Decreased secretion of aldosterone

Congestive heart failure, liver disease with ascites,
and chronic renal failure result in excessive water
retention—without concurrent sodium retention—
which results in hypervolemia combined with
hyponatremia
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Signs and Symptoms

CNS and neuromuscular changes resulting from
failure of swollen cells to transmit electrical impulses

Fatigue, lethargy, headache, mental confusion,
altered level of consciousness, anxiety, coma,
anorexia, nausea, vomiting, muscle cramps,
seizures, decreased sensation, and decreased B/P
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Risk Factors

Inadequate sodium intake, as in patients on lowsodium diets

Excessive intake or retention of water (kidney failure
and heart failure)

Loss of bile (which is rich in sodium) as a result of
fistulas, drainage, gastrointestinal surgery, nausea
and vomiting, and suction
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Risk Factors (cont.)

Loss of sodium through burn wounds

Administration of intravenous (IV) fluids that do not
contain electrolytes
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Nursing Interventions

Restrict water intake as ordered for patients with
congestive heart failure, kidney failure, and
inadequate antidiuretic hormone production

Liberalize diet of patient on low-sodium diet

Closely monitor patient receiving IV solutions to
correct hyponatremia

Replace water loss with fluids containing sodium
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Hypernatremia

Na+ more than 145 mEq/L
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Assessment

Good tissue turgor and firm subcutaneous tissues
occur during hypernatremia
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Pathophysiology

Hypernatremia causes an osmotic shift of fluid from
the cells to the interstitial spaces, which causes a
cellular dehydration and interruption of normal cell
processes

Water loss from fever, respiratory infection, or watery
diarrhea is the usual cause
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Pathophysiology (cont.)

The body tries to correct the situation by conserving
water through reabsorption in the renal tubules

Excessive administration of sodium bicarbonate for
the treatment of acidosis
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Signs and Symptoms

Dry mucous membranes

Loss of skin turgor

Intense thirst

Flushed skin

Oliguria

Possibly elevated temperature

Weakness
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Signs and Symptoms (cont.)

Lethargy

Irritability

Twitching

Seizures

Coma

Intracranial bleeding
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Risk Factors

High-sodium diet, inadequate water intake as in
comatose, mentally confused, or debilitated
patients

Excessive sweating, diarrhea, failure of kidney to
reabsorb water from urine

Administration of high-protein, hyperosmotic tube
feedings and osmotic diuretics
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Nursing Interventions

Encourage increased fluid intake

Measure intake and output (I&O)

Give water between tube feedings

Restrict sodium intake

Monitor temperature
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Hypokalemia

K+ < 3.5 mEq/L

Severe hypokalemia (K+ less than 2.5 mEq/L) may
cause cardiac arrest

Extra potassium must be given to help correct an
imbalance
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Signs and Symptoms

Abdominal pain

Paralysis

Paralytic ileus

Urinary retention

Gaseous distention of
intestines

Increased urinary pH

Lethargy

Confusion

Electrocardiogram (ECG)
changes

Cardiac dysrhythmias

Muscle weakness

Decreased reflexes
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Risk Factors

Inadequate intake of potassium-rich foods

Loss of potassium in urine when kidneys do not
reabsorb the mineral

Loss of potassium from intestinal tract as a result of
diarrhea or vomiting, drainage from fistulas, overuse
of gastric suction

Improper use of diuretics
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Nursing Interventions

Instruct patients (especially those taking diuretics) about foods high in
potassium content; encourage intake

Observe closely for signs of digitalis toxicity in patients taking this drug

Teach patients to watch for signs of hypokalemia

Administer potassium chloride supplement as ordered

Monitor I&O and cardiac rhythm
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Hyperkalemia

K+ > 5.0 mEq/L
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Pathophysiology

Disruption of cell membranes causes a shift of
potassium from the ICF to the ECF in extensive tissue
damage occurs from burns or crush injuries

Hyperkalemia can cause life-threatening cardiac
dysrhythmias
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Signs and Symptoms

Muscle weakness

Fatigue

Hypotension

Nausea

Paresthesias

Paralysis

Cardiac dysrhythmias

ECG changes
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Risk Factors

Kidney failure, decreased kidney function

Intestinal obstruction that prevents elimination of potassium in the
feces

Addison’s disease, digitalis toxicity, uncontrolled diabetes mellitus,
insulin deficit, crushing injuries and burns

Overuse of potassium-containing salt substitute or overuse of
potassium-sparing diuretic
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Nursing Interventions

Decrease intake of foods high in potassium

Increase fluid intake to enhance urinary excretion of potassium;
provide adequate carbohydrate intake to prevent use of body
proteins for energy

Carefully administer proper dose of insulin to diabetic patients

Instruct patient in proper use of salt substitutes containing potassium
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Hypocalcemia

< 8.4 mg/dL

Calcium ions are needed for enzyme reactions
including blood clotting, nerve conduction, and
muscle contraction

Carpopedal spasm (also called Trousseau’s sign),
hyperactive reflexes, Chvostek’s sign, and tetany

Laryngospasm may occur if deficit is severe
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Pathophysiology

Hypocalcemia in renal failure results from retention
of phosphate ions, which causes a loss of calcium
ions

In addition, during renal failure, vitamin D is not
activated, causing the loss of absorption of calcium
from the intestinal tract
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Pathophysiology (cont.)

Removal or injury of the parathyroid glands during
thyroidectomy causes parathyroid hormone
deficiency and consequent hypocalcemia

Conditions causing alkalosis may cause
hypocalcemia
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Signs and Symptoms









Paresthesias
Abdominal cramps
Weak pulse
Decreased BP
Seizures
Muscle spasms
Tetany
Hand spasm
Positive Chvostek’s sign








Positive Trousseau’s sign
Cardiac dysrhythmia
Wheezing
Dyspnea
Difficulty swallowing
Colic
Cardiac failure
Excessive blood transfusions
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Risk Factors

Metastatic cancer, inadequate dietary intake of calcium and
vitamin D

Impaired absorption of calcium from intestinal tract, as in diarrhea,
sprue, overuse of laxatives and enemas containing phosphates
(phosphorus tends to be more readily absorbed from the intestinal
tract than calcium and suppresses calcium retention in the body)
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Risk Factors (cont.)

The parathyroid regulates calcium and phosphorus
levels

Hyposecretion of parathyroid hormone can result in
hypocalcemia
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Nursing Interventions

Encourage adults to consume sufficient calcium
from cheese, broccoli, shrimp, and other dietary
sources

Have 10% calcium glaciate solution at bedside of
patient having thyroidectomy in case of surgical
damage to the parathyroid glands

Give all oral medicines containing calcium 30
minutes before meals to facilitate absorption
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Hypercalcemia

> 10.6 mg/dL
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Pathophysiology

Hypercalcemia occurs when the serum calcium
level is above 10.6 mg/dL

Lengthy immobilization, when calcium is mobilized from
the bone

An excess of calcium or vitamin D is taken into the
body
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Signs and Symptoms

Anorexia

Confusion

Nausea

Renal calculi

Abdominal pain

Pathologic fractures

Constipation

Dysrhythmias

Muscle weakness

Cardiac arrest

Oliguria
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Risk Factors

Excess intake of calcium, as in patient taking antacids
indiscriminately

Excess intake of vitamin D

Conditions that cause movement of calcium out of bones and into
extracellular fluid (e.g., bone tumor, multiple fractures)

Tumors of the lung, stomach, and kidney, and multiple myeloma

Immobility and osteoporosis
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Nursing Interventions

Administer diuretics as prescribed to increase urinary
output and calcium excretion

Monitor I&O

Encourage high fluid intake (3000–4000 mL/day)
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Hypomagnesemia

< 1.3 mEq/L

Magnesium is important in DNA and protein
synthesis, and in many enzyme reactions

Magnesium imbalances are rare, but can be
caused by a variety of factors
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Pathophysiology

Hypomagnesemia occurs when the serum level
drops below 1.3 mEq/L

It usually is present when hypokalemia and
hypocalcemia occur
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Signs and Symptoms

Insomnia

Positive Chvostek’s sign

Hyperactive reflexes

Positive Trousseau’s sign

Leg and foot cramps

Vertigo

Twitching

Hypocalcemia

Tremors

Hypokalemia

Seizures

Cardiac dysrhythmias
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Risk Factors

Chronic malnutrition, chronic diarrhea

Bowel resection with ileostomy or colostomy

Chronic alcoholism

Thiazide diuretic use

Prolonged gastric suction

Acute pancreatitis

Biliary or intestinal fistula

Osmotic diuretic therapy

Diabetic ketoacidosis
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Nursing Interventions

Diet counseling to help patients at risk increase their
level of magnesium (e.g., milk and cereals)

Monitor intravenous infusions of magnesium closely

Monitor I&O
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Hypermagnesemia

> 2.1 mEq/L
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Pathophysiology

Hypermagnesemia is present when there is a serum
level above 2.1 mEq/L

Occurs rarely, in the presence of renal failure or from
overuse of magnesium-containing antacids and
cathartics
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Signs and Symptoms

Hypotension

Sweating and flushing

Nausea and vomiting

Muscle weakness

Paralysis

Respiratory depression

Cardiac dysrhythmias
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Risk Factors

Overuse of antacids and cathartics containing
magnesium

Aspiration of seawater, as in near-drowning

Chronic kidney failure
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Nursing Interventions

Teach patients to avoid abuse of laxatives and
antacids; instruct patients with renal problems to
avoid over-the-counter drugs that contain
magnesium

Encourage fluid intake to increase urinary excretion
of magnesium if not contraindicated

Monitor I&O

Administer diuretics as ordered
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Anion Imbalances

Hypochloremia

Hyperchloremia

Hypophosphatemia

Hyperphosphatemia
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Hypophosphatemia

< 3.0 mg/dL
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Signs and Symptoms

Confusion

Seizures

Numbness

Weakness

Possible coma

Chronic state may cause rickets and osteomalacia
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Risk Factors

Vitamin D deficiency or hyperparathyroidism

Use of aluminum-containing antacids
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Nursing Interventions

Assess for vitamin D deficiency,
hyperparathyroidism, or overuse of aluminumcontaining antacids
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Hyperphosphatemia

> 4.5 mg/dL
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Signs and Symptoms

Anorexia

Nausea

Vomiting
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Risk Factors

Renal insufficiency
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Nursing Interventions

Assess for restlessness, confusion, chest pain, and
cyanosis

Monitor respirations

Check all electrolyte levels
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Acid-Base Balance

An acid is capable of giving up a hydrogen ion

A base is capable of accepting a hydrogen ion

Salt and neutralization

Acids react with bases to form water and salt—
neutralization reaction

Carbonic acid = bicarbonate + hydrogen = carbon
dioxide + water
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pH

pH is the concentration of hydrogen (H) in a solution

A chemically neutral solution has a pH of 7.00

Normal body pH is 7.35–7.45

Below 7.25 or above 7.55 is considered life-threatening

Above 7.8 (alkalosis) or below 6.8 (acidosis) usually is fatal

7.4 indicates a ratio of 1 part carbonic acid to 20 parts
bicarbonate (base)
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Acidosis and Alkalosis

Acidosis


The result of either a loss of base or an accumulation of
acid
Alkalosis

The result of either a loss of acid or an accumulation of
base
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Three Mechanisms That
Balance pH

Buffer systems

Respiratory system

Renal system
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97
Buffer Systems

The bicarbonate–carbonic acid buffer system is
responsible for more than half of the buffering

Three other buffer systems in the body include

Phosphate

Hemoglobin

Protein
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Respiratory System

Because carbon dioxide dissolves in the blood and
combines with water to form carbonic acid,
retaining or blowing off carbon dioxide helps retain
or eliminate acids from the body

Respiratory system alters breathing rate and depth
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Renal System

Renal system changes the excretion rate of acids
and the production and absorption of bicarbonate
ion

The kidneys are slow to compensate, but are the
most effective compensating mechanism
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Acid-Base Imbalances

Respiratory acidosis

Metabolic acidosis

Respiratory alkalosis

Metabolic alkalosis
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Respiratory Acidosis


Blood gas values

pH < 7.35

PaCO2 > 45 mm Hg
Causes

Slow, shallow respirations

Respiratory congestion/obstruction
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Metabolic Acidosis


Blood gas values

pH < 7.35

HCO3 < 22 mEq/L
Causes

Shock (poor circulation)

Diabetic ketoacidosis

Renal failure

Diarrhea
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Respiratory Alkalosis


Blood gas values

pH > 7.45

PaCO2 < 35 mm Hg
Cause

Hyperventilation
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Metabolic Alkalosis


Blood gas values

pH > 7.45

HCO3 > 26 mEq/L
Causes

Vomiting

Excessive antacid intake

Hypokalemia
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Arterial Blood Gas Analysis

PaO2

PaCO2

pH

SaO2

HCO3–
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PaO2

Partial pressure (P) exerted by oxygen (O2) in the
arterial blood (a)

Normal value is 80 to 100 mm Hg

Indicates the amount of oxygen carried in the blood
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PaCO2

Partial pressure (P) of carbon dioxide (CO2) in the
arterial blood (a)

Normal value is 35 to 45 mm Hg

Indicates the amount of carbon dioxide in the blood
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pH

An expression of the extent to which the blood is
alkaline or acid

Normal value is 7.35 to 7.45
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SaO2

Also abbreviated O2 Sat

Percentage of available hemoglobin that is
saturated (Sa) with oxygen (O2)


For instance, the ratio of the amount of oxygen that is
combined with hemoglobin to the total amount of
oxygen the hemoglobin can carry
Normal value is 94% to 100%
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HCO3–

The level of plasma bicarbonate

An indicator of the metabolic acid-base status

Normal value is 22 to 26 mEq/L
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Base Excess or Deficit
 Indicates
the amount of
blood buffer present
 Alkalosis
is present when this
value is abnormally high
 Acidosis
is present when this
value is abnormally low
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Respiratory Acidosis

pH


PaCO2


< 7.35
> Greater than 45 mm Hg
HCO3–

Normal 22–26 mEq/L
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Causes

Airway obstruction, pneumonia, asthma, chest
injuries, or pulmonary edema

Chronic obstructive pulmonary disease such as
emphysema

With opiate use that depresses the respiratory rate
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Signs and Symptoms

Increasing difficulty breathing

History of respiratory obstruction (acute or chronic)

Dyspnea

Weakness

Dizziness

Restlessness

Sleepiness

Change in mental alertness
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Management

Establishment or maintenance of an airway

Tracheostomy

Endotracheal tube

Oxygen administration

Mechanical ventilator
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Conservative Treatment

Postural drainage, deep-breathing exercises,
bronchodilators, and antibiotics if indicated

Caution with narcotics, hypnotics, and tranquilizers
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Metabolic Acidosis

pH


PaCO2


Less than 7.35
Normal 35–45 mm Hg
HCO3–

Less than 22 mEq/L
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Causes

Excessive loss of bicarbonate ions from diarrhea

Renal failure

Diabetic ketoacidosis

Hyperkalemia
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Signs and Symptoms

Weakness

Lethargy

Headache

Confusion

These symptoms progress to stupor,
unconsciousness, coma, and death
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Ketoacidosis

Vomiting and diarrhea

Deep rapid breathing (Kussmaul’s respirations)

May secrete urine with a low pH
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Treatment

Underlying cause

Insulin and diabetic ketoacidosis

Dialysis

Intravenous (IV) bicarbonate or lactate
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Respiratory Alkalosis

pH


PaCO2


> 7.45
< than 35 mm Hg
HCO3–

Normal 22–26 mEq/L
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Causes

Hyperventilation (a rapid respiratory rate) results in
respiratory alkalosis

It is usually caused by anxiety, high fever, and overdose
of aspirin

Hyperventilation can be caused by hypoxemia,
reactions to certain drugs, pain, and panic

Overzealous use of mechanical ventilation also can
cause hyperventilation

Head injuries may also lead to hyperventilation
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Signs and Symptoms

Deep, rapid breathing

Tingling of the fingers

Pallor around the mouth

Dizziness

Spasms of the muscles of the hands
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Treatment

Address the underlying disorder

Prevent further hyperventilation and help the
patient re-establish a normal level of carbon dioxide
in the blood

Sedatives may be given to calm the patient
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Treatment (cont.)

To aid in the retention of carbon dioxide, the patient
may be instructed to hold the breath, or to breathe
into a paper sack and re-breathe the carbon
dioxide just exhaled

This recycling of carbon dioxide can eventually
restore normal carbonic acid levels in the blood
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Metabolic Alkalosis

pH


PaCO2


Greater than 7.45
Normal 35–45 mm Hg
HCO3–

Greater than 26 mEq/L
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Causes

Vomiting

Extensive gastrointestinal suction

Hypokalemia

Excessive consumption of antacids with
bicarbonate
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Signs and Symptoms

Neurologic signs:


Respiratory manifestations:


Irritability, disorientation, lethargy, muscle twitching,
tingling and numbness of the fingers, convulsions
Slow, shallow respirations, decreased chest
movements, cyanosis
There may be symptoms of potassium and calcium
depletion
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Signs and Symptoms (cont.)

If the alkalosis progresses, tetany, seizures, and
coma

Tetany is characterized by severe muscle cramps,
carpopedal spasms, laryngeal spasms, and stridor
(shrill, harsh sound upon inspiration)
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Treatment

Correct underlying cause

Restore the body fluids to a less alkaline state

Fluids and electrolytes replacement orally and
parenterally as needed

Emergency measures include the administration of
an acidifying solution, such as ammonium chloride
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Acid-Base Imbalances
Home Care Considerations

Fluid intake and restriction

Sodium restriction

Manage underlying cause

Monitor tests
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Intravenous Fluid Therapy

Maintenance fluids

Oral and parenteral replacement

Parenteral nutrition

Blood and blood products

Plasma expanders
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Nursing Responsibilities
Administering IV Fluids

The goals of nursing care for a patient receiving an
IV infusion are to

Prevent infection

Minimize physical injury to the veins and surrounding
tissues

Administer the correct fluid at the prescribed time and
at a safe rate of flow

Observe the patient’s reaction to the fluid and
medications being administered
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135
Rights of IV Therapy

Right solution with or without additives as ordered; the correct
solution to follow what has been infusing

Right dose (amount) of solution and additive as ordered

Right route (peripheral IV, peripherally inserted central catheter
[PICC], central line, port)

Right time (to infuse)

Right patient as identified with two identifiers
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Regulating the Rate of Flow

Monitor infusions

Principles affecting flow rates
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Elder Care Points

Frequent IV infusion monitoring

“Catch-up” and risk for circulatory overload
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IV Therapy

Intake

Flushing peripheral and central lines

Facility policy and procedures

Subcutaneous infusion

Hypodermoclysis

Epidural infusion

Parenteral nutrition: TPN and PPN

Patient-controlled analgesia
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Applicable Nursing Diagnoses

Deficient fluid volume

Decreased cardiac output

Excess fluid volume

Impaired gas exchange

Risk for imbalanced fluid
volume

Ineffective breathing
pattern

Ineffective tissue perfusion

Risk for injury related to IV
fluid administration
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Planning

Patient will exhibit normal skin turgor

Patient’s weight will stabilize at normal baseline

Intake and output will be balanced

Blood gases will return to normal

Breath sounds will be clear to auscultation

There will be no evidence of edema

Electrolyte values will be within normal limits

Patient will not experience complications of IV therapy
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Implementation

Fluid and electrolytes

Diuretics

Daily weights

Skin care

Monitoring
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Evaluation

Every 24 hours

Perform evaluations to see if nursing interventions are assisting the patient
to meet expected outcomes

If the patient is not progressing toward achievement of the outcomes,
problem-solve and think critically to determine why, then alter the plan of
care appropriately

When a specific outcome is met, discontinue that portion of the plan
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Community Care

Frequent monitoring

Medication safety

Patient teaching

Collaborative approach
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