Chapter 10: Fluid and Electrolytes

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The physician has prescribed a hypotonic IV solution for a patient. Which IV solution should the nurse administer? 0.45% sodium chloride 0.9% sodium chloride 5% glucose in water 5% glucose in normal saline solution

0.45% sodium chloride ex.: Half-strength saline (0.45% sodium chloride) solution is frequently used as an IV hypotonic solution.

Which is considered an isotonic solution? 0.9% normal saline Dextran in normal saline 0.45% normal saline 3% NaCl

0.9% normal saline ex.: An isotonic solution is 0.9% normal saline (NaCl). Dextran in normal saline is a colloid solution, 0.45% normal saline is a hypotonic solution, and 3% NaCl is a hypertonic solution.

A client has chronic hyponatremia, which requires weekly laboratory monitoring to prevent the client lapsing into convulsions or a coma. What is the level of serum sodium at which a client can experience these side effects? 114 mEq/L 130 mEq/L 135 mEq/L 148 mEq/L

114 mEq/L ex.: Hyponatremia occurs when the serum sodium level dips below 135 mEq/L. When serum sodium levels fall below 115mEq/L, mental confusion, muscular weakness, anorexia, restlessness, elevated body temperature, tachycardia, nausea, vomiting, personality changes, convulsions, or coma can occur. Normal serum concentration levels range from 135 to 145 mEq/L.

At which serum sodium concentration might convulsions or coma occur? 130 mEq/L (130 mmol/L) 145 mEq/L (145 mmol/L) 140 mEq/L (140 mmol/L) 142 mEq/L (142 mmol/L)

130 mEq/L (130 mmol/L) ex.: Normal serum concentration level ranges from 135 to 145 mEq/L (135-145 mmol/L). When the level dips below 135 mEq/L (135 mmol/L), hyponatremia occurs. Manifestations of hyponatremia include mental confusion, muscular weakness, anorexia, restlessness, elevated body temperature, tachycardia, nausea, vomiting, and personality changes. Convulsions or coma can occur if the deficit is severe. Values of 140, 142, and 145 mEq/L (mmol/L) are within the normal range.

The weight of a client with congestive heart failure is monitored daily and entered into the medical record. In a 24-hour period, the client's weight increased by 2 lb. How much fluid is this client retaining? 1 L 500 ml 1500 ml 1250 ml

1L ex.: A 2-lb weight gain in 24 hours indicates that the client is retaining 1L of fluid.

A patient's serum sodium concentration is within the normal range. What should the nurse estimate the serum osmolality to be? <136 mOsm/kg 275-300 mOsm/kg >408 mOsm/kg 350-544 mOsm/kg

275-300 mOsm/kg ex.: In healthy adults, normal serum osmolality is 270 to 300 mOsm/kg (Crawford & Harris, 2011c).

A client experiencing a severe anxiety attack and hyperventilating presents to the emergency department. The nurse would expect the client's pH value to be 7.50 7.45 7.35 7.30

7.50 ex.: The patient is experiencing respiratory alkalosis. Respiratory alkalosis is a clinical condition in which the arterial pH is >7.45 and the PaCO2 is <38 mm Hg. Respiratory alkalosis is always caused by hyperventilation, which causes excessive "blowing off" of CO2 and, hence, a decrease in the plasma carbonic acid concentration. Causes include extreme anxiety, hypoxemia, early phase of salicylate intoxication, gram-negative bacteremia, and inappropriate ventilator settings.

The nurse is caring for four clients on a medical unit. The nurse is most correct to review which client's laboratory reports first for an electrolyte imbalance? A 7-year-old with a fracture tibia A 65-year-old with a myocardial infarction A 52-year-old with diarrhea A 72-year-old with a total knee repair

A 52-year-old with diarrhea ex.: Electrolytes are in both intracellular and extracellular water. Electrolyte deficiency occurs from an inadequate intake of food, conditions that deplete water such as nausea and vomiting, or disease processes that cause an excess of electrolyte amounts. The 52-year-old with diarrhea would be the client most likely to have an electrolyte imbalance. The orthopedic client will not likely have an electrolyte imbalance. Myocardial infarction clients will occasionally have electrolyte imbalance, but this is the exception rather than the rule.

Which of the following measurable urine outputs indicates the client is maintaining adequate fluid intake and balance? A patient with a minimal urine output of 50 mL/hour A patient with a minimal urine output of 10 mL/hour A patient with a minimal urine output of 30 mL/hour A patient with a minimal urine output of 20 mL/hour

A patient with a minimal urine output of 30 mL/hour ex.: A client with minimal urine output of 30 mL/hour provides the nurse with the information that the patient is maintaining proper fluid balance. Less then 30 mL/hour of urine output indicates dehydration and possible poor kidney function.

A client with hypervolemia asks the nurse by what mechanism the sodium-potassium pump will move the excess body fluid. What is the nurse's best answer?

Active transport ex.:Active transport is the physiologic pump maintained by the cell membrane that results in the movement of fluid from an area of lower concentration to one of higher concentration. Active transport requires adenosine triphosphate (ATP) for energy. The sodium-potassium pump actively moves sodium against the concentration gradient out of the cell, and fluid follows. Passive osmosis does not require energy for transport. Free flow is the natural transport of water. Passive elimination is a filter process carried out in the kidneys.

Which of the following is the most common cause of symptomatic hypomagnesemia in the United States?

Alcoholism ex.:Alcoholism is currently the most common cause of symptomatic hypomagnesemia in the United States. Any disruption in small bowel function, as in intestinal resection or inflammatory bowel disease, can lead to hypomagnesemia.

An elderly client takes 40 mg of furosemide twice a day. Which electrolyte imbalance is the most serious adverse effect of diuretic use? Hyperkalemia Hypokalemia Hypernatremia Hypophosphatemia

Hypokalemia ex.: Hypokalemia (potassium level below 3.5 mEq/L) usually indicates a deficit in total potassium stores. Potassium-losing diuretics, such as furosemide, can induce hypokalemia. Hyperkalemia refers to increased potassium levels. Loop diuretics can bring about lower sodium levels, not hypernatremia. Furosemide does not affect phosphorus levels.

When caring for a client who has risk factors for fluid and electrolyte imbalances, which assessment finding is the highest priority for the nurse to follow up? Irregular heart rate Weight loss of 4 lb Mild confusion Blood pressure 96/53 mm Hg

Irregular heart rate ex.: Irregular heart rate may indicate a potentially life-threatening cardiac dysrhythmia. Potassium, magnesium, and calcium imbalances may cause dysrhythmias. Weight loss is a good indicator of the amount of fluid lost, confusion may occur with dehydration and hyponatremia, and blood pressure is slightly lower than normal (though not life threatening); in each case, following up on potential cardiac dysrhythmias is a higher priority.

Which sign suggests that a client with the syndrome of inappropriate antidiuretic hormone (SIADH) secretion is experiencing complications? Tetanic contractions Jugular vein distention Weight loss Polyuria

Jugular vein distention ex.: SIADH secretion causes antidiuretic hormone overproduction, which leads to fluid retention. Severe SIADH can cause such complications as vascular fluid overload, signaled by jugular vein distention. This syndrome isn't associated with tetanic contractions. It may cause weight gain and fluid retention (secondary to oliguria).

A physician orders an isotonic I.V. solution for a client. Which solution should the nurse plan to administer? 5% dextrose and normal saline solution Lactated Ringer's solution Half-normal saline solution 10% dextrose in water

Lactated Ringer's solution ex.: Lactated Ringer's solution, with an osmolality of approximately 273 mOsm/L, is isotonic. The nurse shouldn't give half-normal saline solution because it's hypotonic, with an osmolality of 154 mOsm/L. Giving 5% dextrose and normal saline solution (with an osmolality of 559 mOsm/L) or 10% dextrose in water (with an osmolality of 505 mOsm/L) also would be incorrect because these solutions are hypertonic.

A client hospitalized for treatment of a pulmonary embolism develops respiratory alkalosis. Which clinical findings commonly accompany respiratory alkalosis? Headache or blurry vision Abdominal pain or diarrhea Hallucinations or tinnitus Light-headedness or paresthesia

Light-headedness or paresthesia ex.: The client with respiratory alkalosis may complain of light-headedness or paresthesia (numbness and tingling in the arms and legs). Headache, blurry vision, abdominal pain, and diarrhea may accompany respiratory acidosis. Hallucinations and tinnitus rarely are associated with respiratory alkalosis or any other acid-base imbalance.

The nurse is caring for a client undergoing alcohol withdrawal. Which serum laboratory value should the nurse monitor most closely? Magnesium Calcium Phosphorus Potassium

Magnesium ex.: Chronic alcohol abuse is a major cause of symptomatic hypomagnesemia in the United States. The serum magnesium concentration should be measured at least every 2 or 3 days in clients undergoing alcohol withdrawal. The serum magnesium concentration may be normal at admission but may decrease as a result of metabolic changes, such as the intracellular shift of magnesium associated with intravenous glucose administration.

The nurse is caring for a client with an acid-base imbalance. For which imbalance will the nurse calculate the anion gap? Metabolic acidosis Metabolic alkalosis Respiratory acidosis Respiratory alkalosis

Metabolic acidosis ex.: The anion gap refers to the difference between the sum of all measured positively charged electrolytes (cations) and the sum of all negatively charged electrolytes (anions) in blood. The anion gap reflects unmeasured anions (phosphates, sulfates, and proteins) in plasma that replace bicarbonate in metabolic acidosis. Measuring the anion gap is necessary when analyzing conditions of metabolic acidosis as it can help determine the cause of the acidosis. Anion gap is calculated primarily to identify the cause of metabolic acidosis.

The nurse is caring for a client who was admitted with fluid volume excess (FVE). Which nursing assessments should the nurse include in the ongoing monitoring of the client? Select all that apply. Nutritional status and diet Blood pressure, heart rate, and rhythm Intake and output, urine volume, and color Strength testing for muscle wasting Skin assessment for edema and turgor

Nutritional status and diet Blood pressure, heart rate, and rhythm Intake and output, urine volume, and color Skin assessment for edema and turgor ex.: To assess for FVE the nurse measures blood pressure, heart rate and rhythm, and breath sounds; inspects the skin to look for edema and turgor; and inspects neck veins. Intake and output, daily weight, urine volume and color, dyspnea, and thirst are assessments that will assist the nurse in identifying improvement or worsening of the fluid volume excess. In addition, the nurse will be able to identify potential fluid volume deficit from overtreatment of the fluid volume excess. Treatment of FVE typically involves dietary restriction of sodium.

The calcium concentration in the blood is regulated by which mechanism? Parathyroid hormone (PTH) Thyroid hormone (TH) Adrenal gland Androgens

Parathyroid hormone (PTH) ex.: The serum calcium concentration is controlled by PTH and calcitonin. The thyroid hormone, adrenal gland, or androgens do not regulate the calcium concentration in the blood.

A client is being treated in the ICU 24 hours after having a radical neck dissection completed. The client's serum calcium concentration is 7.6 mg/dL (1.9 mmol/L). Which physical examination finding is consistent with this electrolyte imbalance? Presence of Trousseau sign Slurred speech Negative Chvostek sign Muscle weakness

Presence of Trousseau ex.: After radical neck resection, a client is prone to developing hypocalcemia. Hypocalcemia is defined as a serum value <8.6 mg/dL (<2.15 mmol/L). Signs and symptoms of hypocalcemia include Chvostek sign, which consists of muscle twitching enervated by the facial nerve when the region that is about 2 cm anterior to the earlobe, just below the zygomatic arch, is tapped; and a positive Trousseau sign can be elicited by inflating a blood pressure cuff on the upper arm to about 20 mm Hg above systolic pressure; within 2 to 5 minutes, carpal spasm (an adducted thumb, flexed wrist and metacarpophalangeal joints, and extended interphalangeal joints with fingers together) will occur as ischemia of the ulnar nerve develops. Slurred speech and muscle weakness are signs of hypercalcemia.

A client comes to the emergency department with status asthmaticus. His respiratory rate is 48 breaths/minute, and he is wheezing. An arterial blood gas analysis reveals a pH of 7.52, a partial pressure of arterial carbon dioxide (PaCO2) of 30 mm Hg, PaO2 of 70 mm Hg, and bicarbonate (HCO3??') of 26 mEq/L. What disorder is indicated by these findings? Metabolic acidosis Respiratory acidosis Metabolic alkalosis Respiratory alkalosis

Respiratory alkalosis ex.: Respiratory alkalosis results from alveolar hyperventilation. It's marked by a decrease in PaCO2 to less than 35 mm Hg and an increase in blood pH over 7.45. Metabolic acidosis is marked by a decrease in HCO3? to less than 22 mEq/L, and a decrease in blood pH to less than 7.35. In respiratory acidosis, the pH is less than 7.35 and the PaCO2 is greater than 45 mm Hg. In metabolic alkalosis, the HCO3? is greater than 26 mEq/L and the pH is greater than 7.45.

Which of the following arterial blood gas results would be consistent with metabolic alkalosis? Serum bicarbonate of 28 mEq/L PaCO2 less than 35 mm Hg Serum bicarbonate of 21 mEq/L pH 7.26

Serum bicarbonate of 28 mEq/L ex.: Evaluation of arterial blood gases reveals a pH greater than 7.45 and a serum bicarbonate concentration greater than 26 mEq/L.

Which of the following arterial blood gas results would be consistent with metabolic alkalosis? Serum bicarbonate of 28 mEq/L PaCO2 less than 35 mm Hg Serum bicarbonate of 21 mEq/L pH 7.26

Serum bicarbonate of 28 mEq/L ex.:Evaluation of arterial blood gases reveals a pH greater than 7.45 and a serum bicarbonate concentration greater than 26 mEq/L.

A client is diagnosed with syndrome of inappropriate antidiuretic hormone (SIADH). The nurse should anticipate which laboratory test result? Serum sodium level of 124 mEq/L Serum creatinine level of 0.4 mg/dl Hematocrit of 52% Serum blood urea nitrogen (BUN) level of 8.6 mg/dl

Serum sodium level of 124 mEq/L ex.: In SIADH, the posterior pituitary gland produces excess antidiuretic hormone (vasopressin), which decreases water excretion by the kidneys. This, in turn, reduces the serum sodium level, causing hyponatremia, as indicated by a serum sodium level of 124 mEq/L. In SIADH, the serum creatinine level isn't affected by the client's fluid status and remains within normal limits. A hematocrit of 52% and a BUN level of 8.6 mg/dl are elevated. Typically, the hematocrit and BUN level decrease.

Which of the following electrolytes is the primary determinant of extracellular fluid (ECF) osmolality? Sodium Potassium Calcium Magnesium

Sodium ex.: Sodium is the primary determinant of ECF osmolality. Sodium plays a major role in controlling water distribution throughout the body because it does not easily cross the intracellular wall membrane and because of its abundance and high concentration in the body. Potassium, calcium, and magnesium are not primary determinants of ECF osmolality.

Which of the following is a factor affecting an increase in urine osmolality? Syndrome of inappropriate antidiuretic hormone release (SIADH) Alkalosis Fluid volume excess Myocardial infarction

Syndrome of inappropriate antidiuretic hormone release (SIADH) ex.: Factors increasing urine osmolality include SIADH, fluid volume deficit, acidosis, and congestive heart failure. Myocardial infarction typically is not a factor that increases urine osmolality.

The nurse is caring for a client who has been diagnosed with chronic obstructive pulmonary disease (COPD) and is experiencing respiratory acidosis. The client asks what is making the acidotic state. What does the nurse identify as the result of the disease process that causes the fall in pH? The lungs are unable to breathe in sufficient oxygen. The lungs are unable to exchange oxygen and carbon dioxide. The lungs have ineffective cilia from years of smoking. The lungs are not able to regulate carbonic acid levels.

The lungs are not able to regulate carbonic acid levels. ex.: In clients with chronic respiratory acidosis, the client's lungs are not able to regulate carbonic acid levels. The increase in carbonic acid leads to acidosis. In COPD, the client is able to breathe in oxygen, and gas exchange can occur, but the lungs' ability to remove the carbon dioxide from the system is limited. Although individuals with COPD frequently have a history of smoking, ineffective cilia is not the cause of the acidosis.

A nurse is reviewing a report of a client's routine urinalysis. Which value requires further investigation? Specific gravity of 1.02 Urine pH of 3.0 Absence of protein Absence of glucose

Urine pH of 3.0 ex.: Normal urine pH is 4.5 to 8; therefore, a urine pH of 3.0 is abnormal and requires further investigation. Urine specific gravity normally ranges from 1.010 to 1.025, making this client's value normal. Normally, urine contains no protein, glucose, ketones, bilirubin, bacteria, casts, or crystals. Red blood cells should measure 0 to 3 per high-power field; white blood cells, 0 to 4 per high-power field. Urine should be clear, with color ranging from pale yellow to deep amber.

A nurse caring for a patient with metabolic alkalosis knows to assess for the primary, compensatory mechanism of: a. Increased serum HCO3. b. Increased PaCO2. c. Decreased serum HCO3. d. Decreased PaCO2.

b. Increased PaCO2. ex.:The respiratory system compensates by decreasing ventilation to conserve CO2 and increase the PaCO2.

A nurse is providing client teaching about the body's plasma pH and the client asks the nurse what is the major chemical regulator of plasma pH. What is the best response by the nurse? renin-angiotensin-aldosterone system bicarbonate-carbonic acid buffer system sodium-potassium pump ADH-ANP buffer system

bicarbonate-carbonic acid buffer system ex.: The major chemical regulator of plasma pH is the bicarbonate-carbonic acid buffer system. The renin-angiotensin-aldosterone system regulates blood pressure. The sodium-potassium pump regulate homeostasis. The ADH-ANP buffer system regulates water balance in the body.

A client reports tingling in the fingers as well as feeling depressed. The nurse assesses positive Trousseau's and Chvostek's signs. Which decreased laboratory results does the nurse observe when the client's laboratory work has returned? Potassium Phosphorus Calcium Iron

calcium ex.: Calcium deficit is associated with the following symptoms: numbness and tingling of the fingers, toes, and circumoral region; positive Trousseau's sign and Chvostek's sign; seizures, carpopedal spasms, hyperactive deep tendon reflexes, irritability, bronchospasm, anxiety, impaired clotting time, decreased prothrombin, diarrhea, and hypotension. Electrocardiogram findings associated with hypocalcemia include prolonged QT interval and lengthened ST.

A client presents with anorexia, nausea and vomiting, deep bone pain, and constipation. The following are the client's laboratory values. sodium 137 mEq/L (137 mmol/L) potassium 4.6 mEq/L (4.6 mmol/L) chloride 94 mEq/L (94 mmol/L) calcium 12.9 mg/dL (3.2 mmol/L) What laboratory value is of highest concern to the nurse?

calcium 12.9 mg/dL (3.2 mmol/L) ex. normal calcium range: 8.5-10.5

A client presents with anorexia, nausea and vomiting, deep bone pain, and constipation. The following are the client's laboratory values. sodium 137 mEq/L (137 mmol/L) potassium 4.6 mEq/L (4.6 mmol/L) chloride 94 mEq/L (94 mmol/L) calcium 12.9 mg/dL (3.2 mmol/L) What laboratory value is of highest concern to the nurse?

calcium 12.9 mg/dL (3.2 mmol/L) ex.:More than 99% of the body's calcium is found in the skeletal system. Hypercalcemia, or calcium levels exceeding 10.2 mg/dL (2.5 mmol/L), can be a dangerous imbalance. The client presents with anorexia, nausea and vomiting, constipation, abdominal pain, bone pain, and confusion. The listed sodium, potassium, and chloride levels are within normal limits.

Which findings indicate that a client has developed water intoxication secondary to treatment for diabetes insipidus? Confusion and seizures Sunken eyeballs and spasticity Flaccidity and thirst Tetany and increased blood urea nitrogen (BUN) levels

confusion and seizures ex.: Classic signs of water intoxication include confusion and seizures, both of which are caused by cerebral edema. Weight gain will also occur. Sunken eyeballs, thirst, and increased BUN levels indicate fluid volume deficit. Spasticity, flaccidity, and tetany are unrelated to water intoxication.

A client with severe hypervolemia is prescribed a loop diuretic and the nurse is concerned with the client experiencing significant sodium and potassium losses. What drug was most likely prescribed? furosemide hydrochlorothiazide metolazone spironolactone

furosemide ex.: Furosemide is the only loop diuretic choice. Hydrochlorothiazide and metolazone are thiazide diuretics that block sodium reabsorption. Spironolactone is a potassium-sparing diuretic that prevents sodium absorption.

The nurse is caring for a client with multiple organ failure and in metabolic acidosis. Which pair of organs is responsible for regulatory processes and compensation? Kidney and liver Heart and lungs Lungs and kidney Pancreas and stomach

lungs and kidney ex.: The lungs and kidneys facilitate the ratio of bicarbonate to carbonic acid. Carbon dioxide is one of the components of carbonic acid. The lungs regulate carbonic acid levels by releasing or conserving CO2 by increasing or decreasing the respiratory rate. The kidneys assist in acid-base balance by retaining or excreting bicarbonate ions.

When evaluating arterial blood gases (ABGs), which value is consistent with metabolic alkalosis? HCO 21 mEq/L pH 7.48 PaCO 36 O saturation 95%

pH 7.48 ex.: Metabolic alkalosis is a clinical disturbance characterized by a high pH and high plasma bicarbonate concentration. The HCO value is below normal. The PaCO value and the oxygen saturation level are within a normal range.

Which set of arterial blood gas (ABG) results requires further investigation? pH 7.38, partial pressure of arterial carbon dioxide (PaCO2) 36 mm Hg, partial pressure of arterial oxygen (PaO2) 95 mm Hg, bicarbonate (HCO3-) 24 mEq/L pH 7.49, PaCO2 30 mm Hg, PaO2 89 mm Hg, and HCO3- 18 mEq/L pH 7.44, PaCO2 43 mm Hg, PaO2 99 mm Hg, and HCO3- 26 mEq/L pH 7.35, PaCO2 40 mm Hg, PaO2 91 mm Hg, and HCO3- 22 mEq/L TAKE ANOTHER QUIZ

pH 7.49, PaCO2 30 mm Hg, PaO2 89 mm Hg, and HCO3- 18 mEq/L

The nurse is analyzing the arterial blood gas (ABG) results of a client diagnosed with severe pneumonia. Which of the following ABG results indicates respiratory acidosis? pH: 7.20, PaCO2: 65 mm Hg, HCO3-: 26 mEq/L pH: 7.32, PaCO2: 40 mm Hg, HCO3-: 18 mEq/L pH: 7.50, PaCO2: 30 mm Hg, HCO3-: 24 mEq/L pH: 7.40, PaCO2: 40 mm Hg, HCO3-: 24 mEq /L

pH: 7.20, PaCO2: 65 mm Hg, HCO3-: 26 mEq/L

The nurse is analyzing the arterial blood gas (ABG) results of a client diagnosed with severe pneumonia. Which of the following ABG results indicates respiratory acidosis? pH: 7.20, PaCO2: 65 mm Hg, HCO3-: 26 mEq/L pH: 7.32, PaCO2: 40 mm Hg, HCO3-: 18 mEq/L pH: 7.50, PaCO2: 30 mm Hg, HCO3-: 24 mEq/L pH: 7.40, PaCO2: 40 mm Hg, HCO3-: 24 mEq /LpH: 7.20,

pH: 7.20, PaCO2: 65 mm Hg, HCO3-: 26 mEq/L

Which electrolyte is a major cation in body fluid? Chloride Bicarbonate Potassium Phosphate

potassium ex.:Potassium is a major cation that affects cardiac muscle functioning. Chloride, bicarbonate, and phosphate are anions.

A nurse is caring for a client admitted with a diagnosis of exacerbation of myasthenia gravis. Upon assessment of the client, the nurse notes the client has severely depressed respirations. The nurse would expect to identify which acid-base disturbance? Metabolic acidosis Metabolic alkalosis Respiratory acidosis Respiratory alkalosis

respiratory acidosis ex.: Respiratory acidosis is always from inadequate excretion of CO2 with inadequate ventilation, resulting in elevated plasma CO2 concentrations. Respiratory acidosis can occur in diseases that impair respiratory muscles such as myasthenia gravis.

A client admitted with acute anxiety has the following arterial blood gas (ABG) values: pH, 7.55; partial pressure of arterial oxygen (PaO2), 90 mm Hg; partial pressure of arterial carbon dioxide (PaCO2), 27 mm Hg; and bicarbonate (HCO3-), 24 mEq/L. Based on these values, the nurse suspects: metabolic acidosis. metabolic alkalosis. respiratory acidosis. respiratory alkalosis.

respiratory alkalosis ex.: his client's above-normal pH value indicates alkalosis. The below-normal PaCO2 value indicates acid loss via hyperventilation; this type of acid loss occurs only in respiratory alkalosis. These ABG values wouldn't occur in metabolic acidosis, respiratory acidosis, or metabolic alkalosis.

A client is diagnosed with hypocalcemia and the nurse is teaching the client about symptoms. What symptom would the nurse include in the teaching? tingling sensation in the fingers polyuria flank pain hypertension

tingling sensation in the fingers ex.: Tingling or numbness in the fingers is a symptom of hypocalcemia. Flank pain, polyuria, and hypertension are symptoms of hypercalcemia.

A nurse is providing an afternoon shift report and relates morning assessment findings to the oncoming nurse. Which daily assessment data is necessary to determine changes in the client's hypervolemia status? vital signs edema intake and output weight

weight ex.: Daily weight provides the ability to monitor fluid status. A 2-lb (0.9 kg) weight gain in 24 hours indicates that the client is retaining 1 L of fluid. Also, the loss of weight can indicate a decrease in edema. Vital signs do not always reflect fluid status. Edema could represent a shift of fluid within body spaces and not a change in weight. Intake and output do not account for unexplainable fluid loss.


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