Exam 1: Concepts Of Fluid & Electrolytes Applied To IV Solutions

Question 1

Interstitial

Answer 1

Fluid between the cells.

Question 2

Transcellular Fluid

Answer 2

CSF, synovial fluid, intraocular fluid

Question 3

Cation

Answer 3

Positively charged ion

Question 4

Anion

Answer 4

Negatively charged ion

Question 5

Osmosis

Answer 5

Movement of water from an area of low concentration to an area of high concentration

Question 6

Diffusion

Answer 6

Movement of solutes across a membrane from an area of high concentration to an area of low concentration

Question 7

Filtration

Answer 7

..

Question 8

Colloid osmotic pressure (oncotic pressure)

Answer 8

Osmotic pressure caused by plasma colloids in solution; the ability for protein to attract fluid in its direction

Question 9

Hydrostatic Pressure

Answer 9

Force of fluid in a compartment pushing against a cell membrane or vessel wall.

Question 10

Antidiuretic hormone

Answer 10

Released by your anterior pituitary gland to the kidneys (target organ), specifically the Loop of Henie > retains water

Question 11

What stimulates the release of Aldosterone?

Answer 11

Stimulated by high potassium. Aldosterone is then released from the adrenal glands to the kidneys (target organ), specifically to the Loop of Henle.

Question 12

What are the actions of aldosterone?

Answer 12

Na+ and H20 reabsorption and removal of potassium through the urine.

Question 13

Denim

Answer 13

Converts Angiotensin I (vasoconstrictor) to Angiotensin II (stimulates aldosterone)

Question 14

Fluid Output Regulation

Answer 14

Through urine (normal 1.5 L of urine/day)
Loss of fluid through feces.
Fluid loss through sweat, breathing (600-800mL)

Question 15

“-emia”

Answer 15

Blood

Question 16

Normal Sodium Values

Answer 16

135-145 mEq/L

Question 17

Pathophysiology of Sodium Electrolytes

Answer 17

Primary extracellular electrolyte; attracts fluid

Question 18

Hyponatremia: What causes it?

Answer 18

1. Diarrhea, Vomiting
2. NG tube auctioning
3. Diuretics
4. Wound drainage
5. Fasting
6. Excessive hypotonic IV fluid (water, 0.45 NaCl)

Question 19

Hyponatremia: Symptoms

Answer 19

Headache, apathy and confusion

Question 20

Hyponatremia: Nursing Care

Answer 20

1. Fluid Restriction
2. Slow amount of hypertonic solution (3% NaCl)
3. Vasopressant (decreased antidiuretic hormone secretion)

Question 21

Hypernatremia: What causes it?

Answer 21

1. Excess sodium intake.
2. Inadequate fluid intake.
3. Excess water loss.
4. Increase in insensible water loss (asthma, talking)

Question 22

Hypernatremia: Symptoms

Answer 22

1. Restlessness
2. Agitation
3. Twitching
4. Seizure
5. Constant thirst
6. Weight gain (d/t water retention)
7. Edema (d/t water retention)
8. Increased BP

Question 23

Hypernatremia: Nursing Care

Answer 23

Water replacement: hypotonic solution (D5W, 0.45 NaCl)

Question 24

Potassium Normal Lab Values

Answer 24

3.5 - 4.5 mEq/L

Question 25

Potassium Electrolyte

Answer 25

Can be very harmful to the tissue (has necrotic and ischemic effect.

Question 26

Pathophysiology of Potassium Electrolyte

Answer 26

Primarily found intracellularly

Effects neuromuscular and cardiac function; contractility of muscle

Question 27

Hypokalmeia: What causes it?

Answer 27

1. Potassium loss (diuretics, vomiting, diarrhea, adrenal tumor, hyperaldosteronism)
2. Cancer (aldosterone increase)
3. Dialysis
4. Increase in insulin (allows cell to …)
5. Low potassium in diet

Question 28

Hypokalemia: Symptoms

Answer 28

• Skeletal muscle weakness and paralysis: respiratory muscles (shallow respiration’s and respiratory arrest); decreased airway responsiveness; decreased GI motility; impaired regulation of arterial BF -> smooth muscle cell breakdown.
• Impairs insulin secretion -> hyperglycemia

Question 29

Hypokalemia: Nursing Care

Answer 29

1. Administer potassium supplement - need to know that the patient is urinating to ensure the patient is not retaining; could lead to hyperkalemia! (Ensure that the IV is not infiltrated d/t harmful effects of potassium on tissue.

Question 30

Sources of Potassium in food include

Answer 30

Bananas, Green leafy vegetables, ..

Question 31

Hyperkalemia: What causes it?

Answer 31

(IM-PAID)

1. Impaired renal secretion
2. Massive intake
3. Potassium Penicillin
4. Adrenal insufficiency: low aldosterone = retention of K+
5. ICF->ECF (cell lysis): Acidosis (K moves out of cell so H+ moves into cell); Massive cell destruction; Receiving old blood; decubitus ulcer
6. Drugs: Digoxin & Beta adrenergic blockers (impairs entry of K into cells = increases K ECF concentration); K Sparing Diuretics and ACE inhibitors (decreases kidney ability to excrete K+)

Question 32

Hyperkalemia: Symptoms

Answer 32

• increased cellular excitability
• cramping leg pain and weakness followed by weakness/paralysis of other skeletal muscles including respiratory.
• hyperactivity of smooth muscles = abdominal cramping & diarrhea.
• Cardiac disturbances: too much K+ causes the heart to quiver and beat fast

Question 33

Hyperkalemia: Nursing Care

Answer 33

• Eliminate PO/IV meds
• Eliminate K: diuretics; dialysis; ion exchange resins (kayexalate -binds to K in exchange for Na and is released in feces)
• Reverse membrane potential effects: IV calcium gluconate (Ca ions reverse the membrane excitability); Withhold K from diet and IV, loop/thiazides
• IV of regular Insulin to correct acidosis
• Beta-adrenergic agonists

Question 34

Fluid Volume Deficit: What causes it?

Answer 34

Diarrhea, vomiting, drainage

Question 35

Fluid Volume Deficit: Symptoms

Answer 35

1. Increased thirst
2. Lethargy
3. Confusion
4. Postural Hypotension
5. Decreases capillary refill
6. Decreases urine output

Question 36

Fluid Volume Deficit: Treatment

Answer 36

1. Isotonic solution (0.09% NaCl, D5/Lactated Ringer, Blood Transfusion)

Question 37

Fluid Volume Excess

Answer 37

Water and solutes are retained at the same time.

Question 38

Fluid Volume Excess: What can cause it?

Answer 38

CHF, renal failure, burns

Question 39

Fluid Volume Excess: Symptoms

Answer 39

1. Headache
2. Polyuria, polydipsia
3. Weight gain, edema
4. Confusion, lethargy, seizure
5. Crackles

Question 40

Fluid Volume Excess: Treatment

Answer 40

1. Diuretics
2. Fluid Restriction
3. Sodium Restriction

Question 41

Hyperosmolar

Answer 41

Too much concentration of certain elements (ex. Hypernatremia, hyperkalemia)

Question 42

Hyposmolar

Answer 42

Too little concentration of certain elements (ex. Hypokalemia, hyponatremia)

Question 43

What factors can affect fluid and electrolyte imbalance?

Answer 43

I. Age
II. Illness (IBS, Chron’s, Surgery, Cancer)
III. Environmental Factors
IV. Diet
V. Lifestyle
VI. Medications

Question 44

Normal CBC values

Answer 44

…

Question 45

Common Laboratory Studies R/T fluid and electrolytes

Answer 45

1. CBC
2. ABG
3. Serum Electrolytes level

Question 46

Why are hematocrit levels important in relation to fluid and electrolyte balance?

Answer 46

High hematocrit levels could indicate the need for more fluid.

Question 47

Nursing Therapeutics/Plan of Care for Patients with Fluid and Electrolyte Problems

Answer 47

1. Daily Weight Taking
2. Enteral Replacement of Fluid and Electrolyte Loss
3. Fluid Restriction vs. Increase Fluid Intake
4. Parenteral Replacement of Fluid and Electrolytes
5. Medication
6. I&O monitoring

Question 48

What are the isotonic solutions that we use?

Answer 48

1. Normal Saline
2. Ringers
3. Lactated Ringer’s
4. Dextrose 5% in Water (D5W)
5. 5% albumin
6. Hetastarch
7. Normosol

Question 49

Though Dextrose 5% in Water is an isotonic solution

Answer 49

Its physiologic effect is hypotonic because when it is taken, glucose is taken up by the body for energy leaving behind only fluid.

Question 50

What is a sign for right sided congestion?

Answer 50

Jugular venous distension

Question 51

How should you assess for jugular venous distention?

Answer 51

The patient should be position in a 30-45 degree angle with head tilted to one side. HOWEVER, the best way to verify congestion is with the patient standing up.

Question 52

Isotonic Solutions should be cautioned in what kind of patients?

Answer 52

1. In patients with HTN and heart failure.
2. LR should not be given to patients with a pH greater than 7.5
3. D5W should be avoided in patients with increased ICP

Question 53

Why should LR not be given to patient with a pH greater than 7.5?

Answer 53

LR is converted to bicarbonate in the body therefore making the blood more basic.

Question 54

Why should D5W be avoided in patients with increased ICP?

Answer 54

Because D5W becomes physiologically hypotonic.

Question 55

What are the hypotonic solutions that we use?

Answer 55

1. Half Saline (.45% NaCl)
2. 0.33% NaCl
3. Dextrose 2.5% in Water (D2.5W)

Question 56

Nursing Implications for Hypotonic Solutions

Answer 56

1. Can cause vascular collapse.
2. Increases ICP
3. Do not give to patients at risk for ICP (CVA, neurosurgery, or patients with third spacing (blisters, burns, ascites))

Question 57

What are the hypertonic solutions that we use?

Answer 57

1. Dextrose 5% in Normal Saline
2. Dextrose in Lactated Ringers
3. 3% NaCl
4. 25% Albumin
5. 7.5% NaCl

Question 58

What are the nursing implications for hypertonic solutions?

Answer 58

Do not give these to patient’s who have potential for cellular dehydration (e.t diabetics)

Question 59

Isotonic solutions

Answer 59

Expands the intra-vascular compartments

Question 60

Hypotonic Solutions

Answer 60

Will cause fluid shift from vessels to cell

Question 61

Hypertonic Solutionss

Answer 61

Greatly expands the intra-vascular compartment, pull fluid from intracellular compartment to intravascular.

Question 62

What kind of relationship does Na and K have?

Answer 62

Inverse relationship. When Na is retained, K is eliminated.

Question 63

Normal plasma osmolality

Answer 63

275-295 mOsm/kg.

Question 64

A plasma osmolarity of > 295 mOsm/kg indicates what?

Answer 64

that the concentration of particles is too great or that the water content is too = water deficit

Question 65

A plasma osmolarity of < 275 mOsm/kg indicates what?

Answer 65

too little solute for the amount of water or too much water for the amount of solute = water excess

Question 66

Antagonists to RAAS

Answer 66

Natriuretic peptides

Question 67

How does the hypothalamus regulate water balance?

Answer 67

Decreased body fluid and increased plasma osmolarity is sensed by osmoreceptors in the. Hypothalamus -> stimulates thirst and ADH release (acts in kidneys = water reabsorption)

Question 68

Factors that stimulates ADH release

Answer 68

THIRST
stress 
Nausea
Nicotine
Morphine