Fundamentals Quiz 5 Review

Question 1

Potassium

Answer 1

3.5 - 5 mEq/L

Question 2

Sodium

Answer 2

136-145 mEq/L

Question 3

Calcium

Answer 3

9-10.5 mg/dL

Question 4

Magnesium

Answer 4

1.3-2.1 mEq/L

Question 5

Chloride

Answer 5

98-106 mEq/L

Question 6

Phosphorus

Answer 6

3-4.5 mEq/L

Question 7

Hematocrit (HCT)

Answer 7

Men: 40-54%
Women: 36-48%

Question 8

Normal blood osmolarity

Answer 8

275-295 mOsm/kg

Question 9

Urine specific gravity

Answer 9

1.005-1.030

Question 10

Hypokalemia

Answer 10

Shallow breathing, respiratory distress, weak irregular pulse, muscle cramping, muscle weakness, hypoactive, bowel sounds, constipation, NV, and abdominal distention

Question 11

Hypercalcemia

Answer 11

Bone pain, decreased reflexes, dysrhythmias, NV, weakness, and confusion

Question 12

Hypocalcemia

Answer 12

Diarrhea, numbness and tingling, weak threading pulse, abdominal cramping, hyperactive bowel sounds

Tremors: patients cannot get up alone because of safety

Question 13

Hypernatremia

Answer 13

Orthostatic hypotension, Tachycardia, hyperthermia, fatigue, disorientation, seizures, thirst, dry sticky mucous membranes, hyperactive bowel sounds.

Question 14

Hyponatremia

Answer 14

Hypothermia, tachycardia, rapid thready pulse, hypotension, headache, confusion, orthostatic hypotension, muscle weakness

Question 15

Dehydration symptoms

Answer 15

Hypernatremia, dry mouth, cracked lips, thirst, dry mucous membranes, NV

Question 16

Normal urine output

Answer 16

30 mL
Should be pale yellow

Question 17

Normal ph range

Answer 17

7.35-7.45

Question 18

Acidosis- ph

Answer 18

<7.35

Question 19

Alkalosis-ph

Answer 19

> 7.45

Question 20

CO2 normal range

Answer 20

35-45 mmHg

Question 21

Acidosis- CO2

Answer 21

> 45 mmHg

Question 22

Alkalosis- CO2

Answer 22

<35 mmHg

Question 23

Normal HCO3 range

Answer 23

22-26 mEq/L

Question 24

Acidosis - HCO3

Answer 24

<22 mEq/L

Question 25

Alkalosis - HCO3

Answer 25

> 26 mEq/L

Question 26

Respiratory acidosis

Answer 26

Increased CO2
Decreased pH

Question 27

Respiratory alkalosis

Answer 27

Decreased CO2
Increased pH

Question 28

Metabolic Acidosis

Answer 28

Decreased HCO3
Decreased pH

Question 29

Metabolic alkalosis

Answer 29

Increased HCO3
Increased pH

Question 30

Risk factors Hypovolemia

Answer 30

Excessive GI loss: Nasogastric suctioning, vomiting, diarrhea
Excessive skin loss: diaphoresis without water and fluid replacement
Excessive renal system losses: diuretic therapy, kidney disease, adrenal insufficiency
Third spacing: burns
Hemorrhage or plasma loss

Question 31

Causes of dehydration

Answer 31

Hyperventilation or excessive perspiration without water replacement
Prolonged fever
Diabetic ketoacidosis
Insufficient water intake
Diabetes insipidas
Osmotic diuresis
Excessive intake of salt, salt tablets, or hypertonic IV fluids

Question 32

Hypovolemia and dehydration lab findings

Answer 32

HCT: increased for both (greater than 55%)
Blood osmolarity: Dehydration: increased (greater than 295 mOsm/kg)
Urine specific gravity: Dehydration: increased (greater than 1.030)
Blood sodium: Dehydration: increased sodium (greater than145 mEq/L)
BUN: increased (greater than 25 mg/dL)
for dehydration there is increased protein, electrolytes and glucose
On average 6-25mg/dL for BUN is considered normal

Question 33

Nursing care for Hypovolemia/dehydration

Answer 33

Measure the clients weight daily at the same time of the day using the same scale
Alert the provider to a urine output less than 30 mL/hr

Question 34

Hypovolemia/dehydration expected findings

Answer 34

Hypothermia (hypovolemia) or hyperthermia (dehydration)
Tachycardia, thready pulse, hypotension
Hypoxia

Question 35

Risk factors for hyponatremia

Answer 35

GI losses: vomiting, nasogastric suctioning, diarrhea, tap water enemas
Renal losses
Skin losses
heart failure, cirrhosis, nephrotic syndrome
Excessive IV administration of dextrose 5% in water
NPO status
Hyperglycemia
Older adult clients are at greater risk due to an increased incidence of chronic illnesses, use of diuretic meds, and risk for insufficient sodium intake.

Question 36

Nursing care for hyponatremia

Answer 36

Weight the client daily at the same time of day using the same scale
Encourage client to change positions slowly
Monitor respiratory status if muscle weakness is present
Encourage foods and fluids high in sodium (cheese, milk, condiments)

hypertonic oral or IV fluids can help with elevating serum sodium levels

Question 37

Hypernatremia

Answer 37

Blood sodium level greater than 145 mEq/L
Causes hypertonicity of the blood. Causes a shift of water out of the cells, making the cells dehydrated

Question 38

Risk factors for hypernatremia

Answer 38

Water deprivation (NPO)
Heat stroke
Excessive sodium intake: hypertonic IV fluids and tube feedings, bicarbonate intake
Excessive sodium retention: kidney failure, Cushing’s syndrome (body makes too much cortisol), aldosteronism, some medications (glucocoritcosteroids)
Fluid loss: fever, diaphoresis, burns, respiratory infection, diabetes inspidus, hyperglycemia, watery diarrhea

Question 39

Hypernatremia nursing care

Answer 39

Provide oral hygiene and other comfort measures to decrease thirst
Monitor level of consciousness and ensure safety
Maintain prescribed diet (low sodium, no added salt)
Encourage oral fluids as prescribed
For fluid loss: Administer hypotonic or isotonic (non-sodium) IV fluids (helps to hydrate the blood cells)

With excess sodium: Encourage water intake and discourage sodium intake
Administer loop diuretics if impaired kidney excretion is the cause of hypernatremia (one of furosemide, bumatemide adverse effects is hyponatremia)

** Most diuretics help the kidneys remove salt and water through the urine. This lowers the amount of fluid flowing through the veins and arteries. As a result, blood pressure goes down.**

Question 40

Potassium imbalances

Answer 40

Plays a vital role in cell metabolism, transmission or nerve impulses, functioning of cardiac, lung, muscle tissues, and acid base balance

Question 41

Hypokalemia

Answer 41

Blood potassium level less than 3.5 mEq/L
Result of an increased loss of potassium from the body, decreased intake and absorption of potassium, or movement of potassium into the cells

Question 42

Risk factors of hypokalemia

Answer 42

Hyperaldosteronism (this is because aldosterone helps control blood pressure by holding onto salt and releasing potassium from the blood)
Prolonged administration of non-electrolyte containing IV solutions (5% dextrose in water)
Receiving total parenteral nutrition
Metabolic alkalosis (increasing aldosterone which contributes to retaining water, releasing Hydrogen ions in the urine and gaining mor HCO3 [bicarbonate] in the blood)

GI losses
Renal losses
Skin losses

Question 43

Nursing care for hypokalemia

Answer 43

Treat underlying cause
Replace potassium (avocados, dried fruit, cantaloupe, bananas, potatoes, spinach)
Provide oral potassium supplementation
IV potassium administration can be required, it should always be diluted and administered slowly
NEVER IV BOLUS (high risk of cardiac arrest)
Monitor and maintain adequate urine output
Ministro for shallow respirations and diminished breath sounds
Monitor clients receiving digoxin. Hypokalemia increases the risk for digoxin toxicity

Question 44

Hyperkalemia

Answer 44

Blood potassium level greater than 5 mEq/L
Result of increased intake of potassium, movement of potassium out of the cells or inadequate renal excretion
Potentially life threatening due to risk of cardiac arrhythmias and cardiac arrest

Question 45

Risk factors for hyperkalemia

Answer 45

Increased total body potassium
ECF shift: insufficient insulin, diabetic ketoacidosis, tissue catabolism
Uncontrolled diabetes mellitus (this is due to the lack of insulin causing hyperglycemia which causes the increase of potassium in extra cellular fluid)
Decreased excretion of potassium due to kidney failure, potassium sparing diuretics (spironolactone), severe dehydration, adrenal insufficiency
Age: older adult clients at greater risk due to decreased kidney function

Question 46

Nursing care hyperkalemia

Answer 46

Implement continuous ecg monitoring
Decrease potassium intake
Dialysis might be required with high potassium levels
Administer it fluids with dextrose and regular insulin to promote the movement of potassium from ECF to the ICF
Administer sodium polystyrene sulfonate as prescribed

Question 47

Medications for hyperkalemia

Answer 47

To increase potassium excretion
- loop diuretics (furosemide) if kidney function is adequate
Sodium polystyrene sulfonate given orally or as an enema. Polystyrene increases the excretion of potassium from the GI
Calcium gluconate, albuterol, and patiromer

Question 48

Calcium imbalances

Answer 48

Calcium is found in the body’s cells, bones, and teeth
Essential for proper functioning of the cardiovascular, neuromuscular, and endocrine systems, as well as blood clotting, and bone and teeth formation

Question 49

Hypocalcemia risk factors

Answer 49

Increased calcium output : chronic diarrhea, laxative misuse, steatorrhea with pancreatitis
Inadequate calcium intake or absorption: malabsorption syndromes (crohn’s disease), vitamin D deficiency
Calcium shift from ECF into bone or to an inactive form: rapid infusion of citrates blood transfusion, post thyroidectomy, hypoparathyroidism, hypoalbuminemia, alkalosis, pacreatitis, hyperphophatemia

Question 50

Hypocalcemia nursing care

Answer 50

Administer oral or IV calcium supplements and vitamin D supplements
Initiate seizure and fall precautions
Encourage foods high in calcium, including dairy products and dark green vegetables.

Question 51

Hypercalcemia causes

Answer 51

When total blood calcium level greater than 10.5 mg/dL
Thiazide diuretic or long-term glucocorticoid use, Paget’s disease, hyperthyroidism and hyperparathyroidism
Bone cancer

Question 52

Hypercalcemia nursing care

Answer 52

Restricting calcium and increasing fluid intake
Monitor the client for pathological fractures

Question 53

Magnesium is found

Answer 53

Primarily found in the bones
Smaller amounts is found within the body cells.
A very small amount is found in ECF.

Question 54

Hypomagnesemia risk factors

Answer 54

Increased magnesium output: GI losses, thiazide or loop diuretics, often associated with Hypocalcemia
Shift into inactive form: rapid infusion of citrates blood
Inadequate magnesium intake or absorption: malnutrition, alcohol use disorder, laxative misuse

Question 55

Hypomagnesemia nursing care

Answer 55

Discontinue magnesium-losing medications
Magnesium replacement can be required orally or IV if severe
(Oral magnesium can cause diarrhea
Encourage foods high in magnesium, including whole grains and dark green vegetables

Question 56

Hypermagnesemia causes

Answer 56

Kidney or adrenal impairment and increased intake of medications containing magnesium (laxatives, antacids)

Question 57

Hypermagnesemia nursing care

Answer 57

Perform frequent focused assessments. Notify provider on changes or absent reflexes
Administer loop diuretics and magnesium free IV fluids
Administer calcium gluconate for severe cardiac changes

Question 58

Sleep cycle

Answer 58

non-rapid eye movement (NREM) sleep
Rapid eye movement (REM) sleep
REM sleep accounts for 20% - 25% of sleep time

Question 59

Stage 1 REM

Answer 59

Very light sleep
Only a few min long
Muscle relaxation
Loss of awareness and surroundings
Vital signs and metabolism decrease
Awakens easily
Feels relaxed and drowsy

Question 60

Stage 2 NREM

Answer 60

Deeper sleep
10 - 20 minutes long
Vital signs and metabolism continue to slow
Requires slightly more stimulation to awaken
Increased relaxation

Question 61

Stage 3 NREM

Answer 61

Slow wave sleep or delta sleep
Vital signs decreasing
More difficult to awaken
Psychological rest and restoration
Reduced sympathetic activity

Question 62

REM

Answer 62

Vivid dreaming
About 90 min after falling asleep, recurring every 90 min
Longer with each sleep cycle
Average length 20 min
Varying vital signs
Very difficult to awaken
Cognitive restoration

Question 63

Sleep duration

Answer 63

Infants and toddlers: 9-15 hrs a day
Adolescents: 9-10 hrs a day
Adults 7-8 hrs a day

Question 64

Acute insomnia

Answer 64

Lasts a few days possibly due to personal or situational stressors

Question 65

Chronic insomnia

Answer 65

Lasts a month or more

Question 66

Intermittent insomnia

Answer 66

Sleeping well for a few days and then having insomnia for a few days

Question 67

Sleep apnea

Answer 67

More than five breathing cessations lasting longer than 10 seconds per hour during sleep
Results in decreased arterial oxygen saturation levels

Question 68

Narcolepsy

Answer 68

Sudden attacks of sleep that are often uncontrollable
Increases risk for injury

Question 69

Hypersomnolescence disorder

Answer 69

Excessive daytime sleepiness lasting at least 3 months
Impairs social and vocational activities
Increased risk for accident or injury related to sleepiness

Question 70

Sleep apnea nursing action

Answer 70

Consider continuous positive airway pressure (CPAP) devices for clients with sleep apnea to promote opening of airways during sleep

Question 71

Medications for insomnia

Answer 71

To be used as a last resort
- benzodiazepine like medications
- zolpidem
-eszopiclone
-zaleplon

Question 72

Hypoventilation

Answer 72

Body is more acidic due to the increase in CO2

Question 73

Hyperventilation

Answer 73

Body is more basic due to the increased excretion of CO2

Question 74

Nasal cannula

Answer 74

Oxygen concentration of 1 -4 L/min

Question 75

Simple face mask

Answer 75

Oxygen concentration of 5-8 L/min

Question 76

Partial and non rebreather masks

Answer 76

Oxygen concentration of 10-15 L/min

Question 77

Left sided heart failure

Answer 77

“L” FOR LUNG
Causes crackling in the lungs due to the blood backing up into pulmonary circulation

Question 78

Right sided heart failure

Answer 78

Can cause peripheral edema

Question 79

PaO2 range

Answer 79

80-100