Fluid & Electrolyte Balance Concepts

Summary

This document outlines the concepts of fluid and electrolyte balance, focusing on dehydration, hypovolemia, and hypervolemia. It details causes, signs, symptoms, assessment, and interventions related to these imbalances, providing important information from the ATI and Iggy textbooks for nursing students.

Full Transcript

ATI Chapter 44 & Iggy Chapter 13

Fluid and Electrolyte Imbalances

Copyright © 2018 Elsevier Inc. All rights reserved.
 Concepts
The priority concept in this chapter is
 FLUID AND ELECTROLYTE BALANCE
The exemplar in this chapter is dehydration
The interrelated concept in this chapter is

 PERFUSION

Copyright © 2018 Elsevier Inc. All rights reserved. 2
 Homeostasis
Proper functioning of all body
systems; requires fluid and
electrolyte balance
Intracellular fluid (ICF)
two thirds of body water
body fluid within cells
Extracellular fluid (ECF)
One third of body water
Body fluids outside of the cell membrane
Intravascular fluid: liquid part of blood
or plasma
Interstitial fluid: located between the
cells and outside of the blood vessel
Transcellular fluids: secreted by
epithelial cells (cerebrospinal, pleural
peritoneal, synovial fluids)
Copyright © 2018 Elsevier Inc. All rights reserved. 3
 Homeostasis skin, lungs, GI tract, kidneys are the key system in homeostasis

They also adjust
levels of
Homeostasis is the
electrolytes like
body’s way of
sodium and
maintaining a
potassium,
stable internal
When the body is helping to keep
environment When there’s
In the healthy dehydrated, the blood pressure
despite changes excess water, they
adult 55-60% of kidneys conserve and overall body
outside. The filter out more,
body wt is body water by function stable.
kidneys play a key producing dilute
fluid concentrating Essentially, the
role in this process urine.
urine. kidneys help
by regulating the
ensure that the
balance of water,
body’s internal
salts, and waste
conditions remain
products.
balanced and
healthy.
Dehydration occurs when the body loses more fluids than it takes in, disrupting the balance
of electrolytes and leading to potential health issues. Key points for nursing understanding
include:

Causes: Dehydration can result from inadequate fluid
intake, excessive sweating, vomiting, diarrhea, or certain
medical conditions (e.g., diabetes).

Signs and Symptoms: Common symptoms include thirst, dry
mouth, decreased urine output, dark-colored urine, fatigue,
dizziness, and confusion. In severe cases, it can lead to
hypotension, rapid heart rate, and altered mental status.

Assessment: Assess for clinical signs and symptoms of dehydration, including
thirst, weight loss, dry mucous membranes, sunken-appearing eyes, decreased skin
turgor, increased capillary refill time, hypotension and postural hypotension,
tachycardia, weak and thready peripheral pulses, flat neck veins when the patient is
in the supine position, and oliguria (low urine output).

Interventions: Treatment involves rehydrating the patient
with oral or intravenous fluids, depending on the severity.
Electrolyte balance should also be restored as needed.

Education: Patients should be educated on the importance
of adequate fluid intake, recognizing early signs of
dehydration, and strategies to stay hydrated, especially
during illness or heat.

Understanding these aspects helps nurses effectively monitor
and manage patients at risk for dehydration.
 hypovolemia
Hypovolemia refers to a
decreased volume of blood
in the body, often due to Dehydration: Due to
fluid loss. It can lead to inadequate fluid intake,
Risks for Hypovolemia:
reduced blood flow to excessive sweating,
organs and is a critical diarrhea, or vomiting.
condition requiring prompt
attention.

Blood Loss: From trauma, Severe Burns: Leading to Diuretic Use: Excessive
surgery, or conditions like fluid loss from damaged urination can lead to
gastrointestinal bleeding. skin. significant fluid loss.

Chronic Illnesses:
Conditions like diabetes or
heart failure can
contribute.
 Symptoms of
Thirst: Increased
hypovolemia in a
thirst as the body
patient can vary in
signals the need
severity but may
for fluids.
include:

Dry Mouth and Decreased Urine
Skin: Mucous Output: Urine
membranes may may be dark and
appear dry, and concentrated;
skin may lack reduced frequency
elasticity. of urination.
Dizziness or
Lightheadednes
Fatigue: General
s: Especially when
weakness and
standing
tiredness.
(orthostatic
hypotension).
Rapid Heart
Low Blood
Rate: Increased
Pressure:
heart rate as the
Hypotension,
body tries to
particularly in
maintain blood
severe cases.
pressure.
Confusion or
Irritability: Cool, Clammy
Altered mental Skin: Due to
status may occur, reduced blood flow
especially in older to the skin.
adults.

Recognizing these
symptoms early is
crucial for timely
intervention.
 Nursing Actions
Monitor vital signs (especially blood pressure and heart rate).
Assess for signs of dehydration (e.g., dry mucous membranes,
Assessment: decreased skin turgor).
Evaluate urine output (decreased output may indicate hypovolemia).

Fluid Administer intravenous fluids (crystalloids or colloids) as ordered to
restore volume.
Replacement: Encourage oral hydration if appropriate.

Electrolyte Check electrolyte levels and replace them as needed, especially
sodium and potassium.
Monitoring:
Patient Position the patient supine or with legs elevated to promote venous
return, Trendelenburg if needed with low blood pressure.
Positioning:
Teach patients about the importance of hydration and recognizing
Education: signs of fluid loss, change positions slowly, call don’t fall.

Record all assessments, interventions, and the patient's response to
Documenting: treatment.
 Hypervolemia
Symptoms of hypervolemia, or fluid
overload, can include:
Swelling (Edema): Noticeable swelling in the
legs, ankles, or feet.
Weight Gain: Rapid increase in weight due to
excess fluid.
Shortness of Breath: Difficulty breathing,
especially when lying down (orthopnea).
Increased Blood Pressure: Elevated blood
pressure due to increased blood volume.
Jugular Vein Distension: Swelling of the neck
veins.
Coughing: May produce frothy or pink-tinged
sputum, indicating pulmonary congestion.
Fatigue: General tiredness and weakness.
Decreased Urine Output: May occur as the
 Hypervolemia, or fluid overload, can be caused by several
factors, including:

Heart Failure: The
heart's inability to pump
effectively can lead to
fluid accumulation.

Intravenous Fluid
Administration: Kidney Dysfunction:
Overzealous IV fluid Impaired kidney
administration can function reduces the
overwhelm the body’s ability to excrete excess
capacity to excrete fluid.
excess fluid.

Hormonal
Liver Disease:
Imbalances:
Conditions like cirrhosis
Conditions like
can lead to fluid
hyperaldosteronism
retention due to altered
lead to increased
protein levels and
sodium and water
circulation.
retention.

Medications: Certain Excessive Fluid Intake:
medications, such as Overconsumption of
corticosteroids or fluids, particularly in
NSAIDs, can cause fluid patients with restricted
retention. fluid output.
 Nursing actions for managing hypervolemia include:
Monitor vital signs, Restrict fluid Administer Elevate the
Assessment:

Medication
Fluid Management:

Administration:

Patient Positioning:
particularly blood
pressure and heart intake as diuretics as head of the bed
rate. prescribed. ordered to to improve
Assess for signs of Educate the promote fluid breathing and
edema (swelling) in excretion. reduce
extremities and patient about
other areas. the importance Monitor for discomfort.
Evaluate lung sounds of adhering to effectiveness
for crackles, cough,
dyspnea indicating
fluid and side effects
fluid in the lungs. restrictions. of diuretics.
Track daily weight to
identify rapid weight
gain.
Decreased H/H,
tachycardia,
bounding pulse, HTN,
tachypnea
Distended neck veins
and increase urine
output, skin is cool to
touch and pale
Teach patients Monitor electrolyte Record all
Education:

Monitoring
Labs:

ion:
Documentat
about recognizing levels and kidney assessments,
signs of fluid function tests interventions, and
overload and the (BUN, creatinine) patient responses
importance of to assess for to treatment.
adhering to complications.
dietary restrictions
(e.g., sodium).
 Filtration
Filtration in the kidneys refers
to the process by which blood
is filtered in the nephrons.

During filtration, water, ions,
and small molecules (like
glucose and waste products)
pass from the blood into the
Bowman's capsule, forming a
fluid called filtrate.

Larger molecules, such as
proteins and blood cells, are
retained in the bloodstream.
This initial filtration is crucial
for the kidneys to regulate
water balance, electrolyte
levels, and waste removal
from the body.

12
reserved.
Copyright © 2018 Elsevier Inc. All rights

Hydrosta “Water-pushing pressure”
Force that pushes water outward from a confined space through a
tic membrane
Amount of water in any body fluid space determines pressure
Pressure Oncotic is the colloid osmotic pressure which is not lost in the
urine.
Example: Blood pressure
Moving whole blood from the heart to capillaries where filtration occurs to
exchange water, nutrients, and waste products between the blood and tissues

1
3
reserved.
Copyright © 2018 Elsevier Inc. All rights

Clinical Develops with changes in normal

hydrostatic pressure differences

Significanc
e: Edema
Osmosis: In the human body, when red blood cells are
placed in a hypotonic solution (like pure water), water
moves into the cells through osmosis, causing them to
swell and potentially burst.
Diffusion: In the lungs, oxygen diffuses from the
alveoli (where its concentration is high) into the
bloodstream (where its concentration is lower),
allowing oxygen to be transported throughout the
body.
 Diffusion

Where does diffusion occur in
the body?
The lungs are where oxygen and
carbon dioxide gas diffuse. The kidneys
are responsible for the diffusion of
water,
Free minerals, and
movement ofwaste products
particles
(solute) across permeable
membrane from area of higher
to lower concentration
Important in transport of most
electrolytes; other particles diffuse
through cell membranes
Sodium pumps
Glucose cannot enter most cell
membranes without help of insulin
Copyright © 2018 Elsevier Inc. All rights reserved.
Osmosi
s and
Filtratio
n

Act together at capillary membrane to maintain normal ECF and ICF
volumes

Osmosis and our Kidneys

The water in your blood then travels to your kidneys. Kidneys are
some of the most complex parts of the body, and they use osmosis
as well.
Kidneys are made up of two parts - the cortex and medulla. The
cortex is the outer part and the medulla is the inner part of the
kidney.
The kidneys are made up of groups of cells called renal pyramids.
Each pyramid contains little units called nephrons.
Nephrons look like a bunch of tubes connected to each other.
Nephrons are important because they help filter waste out of your
blood and put it into your urine.
 Fluid Balance
Closely linked to/affected by electrolyte
concentrations
Fluid intake
Fluid loss
 Minimum urine amount needed to excrete
toxic waste
products is 400 to 600 mL/day
 Insensible water loss—through skin, lungs,
stool

 Normal healthy Urine output is 2000-
2500mL/day
Copyright © 2018 Elsevier Inc. All rights reserved. 18
 Hormonal Regulation
of Fluid Balance
Aldosterone
A hormone your adrenal glands release that helps regulate blood pressure by
managing the levels of sodium and potassium in your blood.
Aldosterone regulates the salt and water balance of the body by increasing the
retention of sodium and water and the excretion of potassium by the kidneys (and
to a lesser extent by the skin and intestines). It also has a limited effect on the
metabolism of fats, carbohydrates, and proteins.
Antidiuretic hormone:
ADH is a hormone that is produced in a part of the brain called the hypothalamus.
It is then stored and released from the pituitary, a small gland at the base of the
brain. ADH acts on the kidneys to control the amount of water excreted in the
urine
Natriuretic peptides
Atrial natriuretic peptide (ANP): hormone released by the heart cells due to
atrial wall stretching, very specific.
Brain natriuretic peptide (BNP): hormone released by the heart cells due to
ventricle wall stretching
BNP tells your blood vessels to open wider and your kidneys to get rid of water

and salt through urine (pee). This helps reduce the workload on your heart by
lowering blood pressure and reducing the amount of blood your heart has to
pump.

Copyright © 2018 Elsevier Inc. All rights reserved. 19
 Significance of Fluid
Balance: Renin–
Angiotensin II
Pathway
Blood (plasma) volume and
intracellular fluid most important to
keep in balance
Kidneys are major regulator of water
and sodium balance; maintain blood
and perfusion pressure to all
tissues/organs

When the kidneys sense a low
parameter, they secrete renin

Renin–angiotensin II pathway is
greatly stimulated with shock, or
when stress response is stimulated

20
 ACE Inhibitors

Disrupt renin– With less Greater By locking Patients with
angiotensin II angiotensin II, excretion of angiotensin II hypertension
pathway by less water and receptors, often take
reducing vasoconstricti sodium in blood ACE- inhibitor
amount of on and urine, Monitor pressure medications
ACE produced reduced Kidney lowers
peripheral Function
resistance ACE Inhibitor
should not be
given to
patients with
GFR 145
Skin flushing
o Edema
d Confusion
Low grade fever
i Polydipsia (excessive thirst)
u Late serious signs: swollen dry tongue, GI=

m Nausea and vomiting, Increased muscle
tone

Hyponatremia

5

heart: think tight and contracted
ST elevation and peaked T waves
Severe=Vfib or cardiac standstill
Hypotension, bradycardia

GI thing tight and contracted
Diarrhea
Hyperactive bowel sounds

Neuro: tight and contracted
Paralysis in extremities
Increased DTR
Profound weakness in muscles (heavy legs)

Tx diuretics, IV sodium bicarbonate, IV calcium gluconate (potassium binders), dialysis
 Potassium (+)
Hypokalemia
Hypokalemia (not enough potassium):

Heart: low and slow
Flat T waves, ST depression, prominent U wave

Muscular low and slow
decreased DTR
muscle cramping

Flaccid paralysis

GI low and slow
decreased motility, hypo bowel sounds
constipation
abdominal distention
paralytic ileus=lead to SBO, small bowel obstruction an Emergency

Tx replace with potassium: oral supplement or IV (must dilute IV Potassium and infuse slowly due to irritation
to vein and burning. Never PUSH!
 Calcium
Normal level: 9.0 to 10.5 mg/dL
Absorption requires active form of vitamin D
Hypercalcemia Hypocalcemia
>10.5