Fluid & Electrolytes Student Notes PDF

Summary

These notes cover fluid and electrolyte balance, imbalances, and intravenous (IV) therapy. The document details the regulation of fluids, common imbalances, nursing interventions, and the use of IV solutions. It also includes information on common complications and types of IV access devices.

Full Transcript

9/4/2024

FLUID AND ELECTROLYTES
OBJECTIVES: The student will demonstrate mastery of this content by being able to:

1. Describe process that regulate fluid distribution, extracellular fluid volume, and body fluid osmolality.
2. Identify common fluid and electrolyte imbalances.
3. Apply the nursing process when caring for patients with fluid and electrolyte imbalances.
4. Discuss the purposes of IV therapy.
5. Describe equipment used for the administration of IV fluids.
6. Differentiate various IV tubing and the drip rate each delivers.
7. Describe local and systemic complications of IV fluid therapy.
8. Compare the advantages and disadvantages of peripheral and central IV sites.
9. Describe the role of the nurse in assessing and maintaining an IV infusion.
10. Demonstrate how to assess, change and discontinue intravenous solutions.

Readings: Potter and Perry, Chapter 42 (not the section on Acid-Base Balance pages 1051-1054)
o IV therapy and Skill 42.1 begins IV Skills
o Tables : 42.1, 42.2, 42.3, 42.5, 42.9, 42.10, 42.11 42.12,
o Boxes : 42.2, 42.3 (refers to meds we discussed in class), 42.7

Thinking Points: Before coming to class be sure to consider the following –

 What electrolytes are important for homeostasis within the human body?
 What could affect my patient’s safety when he has an IV?
 What sterile principles are important to remember in IV therapy?

Media Resources:
Clinical Skills: Essentials Collection Videos:
o Changing Intravenous Tubing and Fluids
o Discontinuing Intravenous Therapy
o Troubleshooting Intravenous Infusions
o Using an Infusion Pump

Clinical Validations:
o Change an IV bag (hang a new IV bag)
o Determine fluid level in IV bags
o Identify various IV tubing types and their components
o Assess IV site, identifying local complications
o Discontinue an IV infusion

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Intracellular 2/3 of body fluids

FLUID
COMPARTMENT
1/3 of body fluids
Interstitial
Extracellular
Intravascular (Plasma)
Transcellular

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GOAL= HOMEOSTASIS
BALANCE OF THE FLUIDS IN COMPARTMENTS
THROUGHOUT THE BODY

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OSMOLALITY (CONCENTRATION)
285-295 mOsm/kg normal in humans

Largely controlled by sodium

Hypertonic – higher osmolality

Isotonic – same tonicity as blood

Hypotonic – lower osmolality

See Table 42.11 for IV Solution Tonicity

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OSMOLALITY VS OSMOLARITY

BOTH ARE UNITS OF CONSIDER THEM
MEASUREMENT …. INTERCHANGEABLE

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OSMOSIS

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HYDROSTATIC PRESSURE VS OSMOTIC PRESSURE = FILTRATION

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FILTRATION

Capillaries

Another means
to the goal of
homeostasis

Fluid Balance

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FLUID BALANCE- TABLE 42.2

Intake
2200-2700 mL
Regulators-
Liquid/Food

Output
2200-2700 mL
Regulators-
Sensible vs. Insensible

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1.ADH (ANTI DIURETIC HORMONE)  PITUITARY GLAND
REGULATES OSMOLALITY (CONCENTRATION) BY INFLUENCING HOW MUCH WATER IS EXCRETED IN URINE
ANTIDIURETIC- MEANING WATER IS REABSORBED AND DIURESIS OR URINATION DECREASES TO MAINTAIN
PROPER FLUID BALANCE. URINE THAT IS CREATED IS MORE CONCENTRATED, BLOOD VOLUME IS MORE
DILUTED- DECREASE FLUID OUTPUT

2. ADRENAL CORTEX USES ALDOSTERONE TO STIMULATE THE RAAS (RENIN-ANGIOTENSIN-
ALDOSTERONE SYSTEM)
REGULATES EXTRACELLULAR FLUID (ECF) VOLUME BY INFLUENCING HOW MUCH SODIUM & WATER ARE
EXCRETED IN URINE. IMPACTS BP.
NA RETURNS TO BLOOD, WATER WILL FALLOW TO INCREASE ECF- DECREASE FLUID OUTPUT
EXAMPLE: HEMORRHAGE OR VOMITING= DECREASE IN ECF. DECREASE ECF = DECREASE PERFUSION TO
KIDNEY. POOR KIDNEY PERFUSION STIMULATES RELEASE OF RAAS TO CAUSE VASOCONSTRICTION AND
PULL FLUID BACK INTO THE BLOOD VESSELS TO RESTORE ECF BALANCE.
3. ANPS (ARTERIAL NATRIURETIC PEPTIDE)
REGULATES ECV (EXTRACELLULAR FLUID VOLUME) BY INFLUENCING HOW MUCH SODIUM AND WATER ARE
EXCRETED IN THE URINE.
OPPOSITE OF RAAS, INCREASE FLUID OUTPUT!
HOW OUR FLUID BALANCE OCCURS IN RENAL SYSTEM IS INFLUENCED BY MULTIPLE FACTORS: ADH, RAAS
AND ANP!

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PATIENTS WITH FLUID
IMBALANCES

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FLUID VOLUME DEFICIT

Hypovolemia

Extracellular Problem

Cause: Hemorrhage or Third
Spacing

SHOCK

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FLUID VOLUME DEFICIT

Severe
vomiting & Dehydration
diarrhea

Intracellular
problem

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Daily Weights Intake/Output Dry Mucus Postural
– Oliguria Membrane Hypotension

Tachycardia, Tenting Skin Confusion/
Thready Pulse Turgor Irritability

PHYSICAL ASSESSMENT OF DEHYDRATION

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Lab Results with
Dehydration

BUN NA
HCT Elevated Elevated
Elevated >
50% >25 >145
mg/100 mL

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NURSING INTERVENTIONS

*Give fluids as ordered- Oral or IV
Monitor lab results
Check VS, orientation
Skin care
Oral care

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FLUID VOLUME EXCESS

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Overhydration

Hypervolemia Circulatory
Overload

Extracellular
Volume
Excess

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Hear Failure Kidney Failure

WHO’S AT RISK
FOR
Excess Sodium
Intake HYPERVOLEMIA?

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PHYSICAL ASSESSMENT OF
HYPERVOLEMIA

Edema Pulmonary Jugular Weight
Pitting Edema Vein Gain
Dyspnea Distention 1 kg
Non-pitting
Weeping Crackles (2.2 lbs)

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LAB RESULTS WITH HYPERVOLEMIA

Below 30
HCT Hemodiluted

Below 10
BUN Hemodiluted

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Daily
Monitor Weights
Sodium I/O
Restriction
Administer
Assess Diuretics
Monitor Lung
Dyspnea sounds
Position
for
Comfort

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PURPOSE
OF IV
THERAPY
MAINTAIN OR
REPLACE BODY
FLUIDS
RESTORE ACID-BASE
OR ELECTROLYTE
BALANCE
MEDICATION
ADMINISTRATION
PROVIDE
NUTRITION (PN)

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PERIPHERAL CATHETERS

BUTTERFLY CATHETERS QUICK CATHETERS

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SALINE
LOCKS

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PRO

Easy to insert
RN Skill
Easy to access/ use

CON

Easily dislodged
Interferes with mobility
Risk for infection

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VASCULAR ACCESS DEVICES

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PICC LINE=
PERIPHERALLY-
INSERTED CENTRAL
CATHETER
INDICATIONS:
LONG-TERM
ANTIBIOTICS, TPN,
VESICANT
MEDICATIONS

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SUBCUTANEOUS PORT

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PRO Deliver
CON
Large Additional
Volumes Training

Deliver
Vesicant Expensive
Solutions

Long Systemic
Lasting Risk of
Injection

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KNOW
YOUR
ACCESS
DEVICES

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Infiltration Extravasation Thrombophlebitis Phlebitis

Edema Infiltration of vesicant Blood clot formation Inflammation of vein
Pain into subcutaneous at end of catheter Pain
tissue with vein Redness
Decreased IV flow Tissue Damage inflammation
rate Redness Warmth
Tissue Necrosis
Pale color Vesicants should be Warmth
Cool administered via Edema
No Blood Return CVA

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Circulatory Overload Air Embolism
Cause: Excess fluid in vascular system
Cause: Air into vascular system leads to
S/S: HTN, SOB, Cyanosis, Crackles vascular collapse
TX: Reduce IV Flow Rate, Notify MD, S/S: Hypotension, Tachycardia, Weak
Monitor VS , Diuretics Pulse, Coughing
TX: Left side, Trendelenburg position,
Notify MD

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INFUSION PUMPS

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THE CLINICAL VALIDATION

Station 1 Station 2 Station 3
Identify Tubing Measure Assess IV Site
State Drop Remaining Discontinue IV
Factor Fluid
Change IV Bag

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Sources

Muscle
Potassium Contraction
(K+)
3.5-5.0
Cardiac
MEQ/L Tissue
Response
Acid Base
Balance

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Causes:
NPO
Diuretics
N/V
Diarrhea

Nerve & muscle cells are less excitable, less
responsive to stimuli
HYPOKALEMIA
K5 MEQ/L

Kidney Disease

Medications

Causes:

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HYPERKALEMIA
> 5 MEQ/L

Ask

Is the serum level
accurate?

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MONITOR ECG
 PEAKED T WAVE
 PROLONGED PR
INTERVAL
 BRADYCARDIA
 CARDIAC
DYSRHYTHMIAS

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Restrict K+ Diet Adjust Medications Increase Urine
Output

Extreme
Hyperkalemia (7+)
Kayexalate Dialysis
Bicarbonate
Insulin/Glucose IV

NURSING INTERVENTIONS
LOWER THE LEVEL!

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CALCIUM (CA+)
9.0-10.5 MG/DL (TOTAL)

Stored in Bones & Bound Ca+ vs.
Teeth Ionized Ca+

Cellular membrane Necessary for
stabilizer… effective &
it ‘calms’ and slows appropriate
depolarization muscle contraction

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CALCIUM REGULATION

1. Parathyroid hormone (PTH)
released to absorb CA from
kidneys

2. PTH increases blood calcium
levels via intestinal
absorption

3. Calcitonin decreases blood
calcium levels

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800-1200mg daily
in general
HOW
MUCH
DO WE
NEED? Children ages 9 –
18, pregnant
women need more

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CAUSES:
MALNUTRITION
VITAMIN D
DEFICIENCY (RENAL
DISEASE)
MALABSORPTION /
CHRONIC
DIARRHEA
PANCREATITIS

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HYPOCALCEMIA INDICATORS

PARESTHESIA'S
DEEP TENDON REFLEXES (DTRS) INCREASE
CHVOSTEK SIGN
TROUSSEAU

CARDIAC DYSRHYTHMIAS - V TACH
REMEMBER…CALCIUM IS A ‘CALMING AGENT’ ON
NEUROMUSCULAR TISSUE, A DEFICIT WILL LEAD TO
EXCITABILITY

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CHRONIC HYPOCALCEMIA
MANAGEMENT

Give orally with Calcium Calcium citrate is
Vitamin D carbonate should absorbed with or
be taken with without food
food

Encourage gentle walking, weight-
weight – bearing lifting for chronic
exercises: issue

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Give IV
calcium

ACUTE Calcium
HYPOCALCEMIA is a
Vesicant
MANAGEMENT

Monitor
ECG

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HYPERCALCEMIA >10.5 MG/DL

Hyperparathyroidism

Cancer

Milk (Calcium) Alkali
Syndrome

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HYPERCALCEMIA INDICATORS

Bradycardia

Fatigue/Confusion REMEMBER-CALCIUM IS
A ‘CALMING AGENT’;
Decreased Deep Tendon AN EXCESS WILL
Reflexes LEAD TO DEPRESSION
OF RESPONSES
Constipation

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HYPERCALCEMIA
MANAGEMENT

Decrease calcium intake

Push oral fluids to dilute & excrete calcium

Handle gently to prevent fractures

Dialysis if necessary

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GOT
QUESTIONS?

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SODIUM
NA+ 136-145
REGULATED BY 2 HORMONES

Deli Meat
Cheese
ADH Aldosterone 0.5-2.7
regulates helps to Canned Food
Grams
water in retain Daily Chips/Cracke
response to sodium and rs
serum water Table salt
sodium levels
Sodium

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HYPONATREMIA NA+ < 136

Also called:
Osmolality Water Decreased
Change= excess Hyponatremia excitable Cellular
body fluid Water produces membrane swelling
depolarization
is diluted intoxicati
on

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HYPONATREMIA
Na+ < 130 is a
problem

Na+ 145
What is Happening?
Related to Dehydration
Excessive loss of H20 compared to
NA
Increased membrane depolarization
Cellular dehydration
High osmolality of ECF
Causes:
NPO
Decreased Water Intake
Dehydration
Diabetes Insipidus

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HYPERNATREMIA IMPACTS

Fever, Flushed Skin

Restlessness, Agitation

Anorexia

Muscle Irritability progressing to
weakness

Hyper reflexes, seizures, tremors, progressed
to stupor/coma

*SYMPTOMS DEPEND ON SPEED OF DEVELOPMENT

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HYPERNATREMIA MANAGEMENT

Hypotonic IV Supply
Fluids Water/ Intake/Output
Table 42.11 Restrict Salt

Daily Neuro Seizure
Weights Assessment Precautions

Oral Care

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