Principles of Fluid and Electrolytes Chapter 10 PrepU

A client is to receive hypotonic IV solution in order to provide free water replacement. Which solution does the nurse anticipate administering? Lactated Ringer solution 0.45% NaCl 0.9% NaCl 5% NaCl

0.45% NaCl Explanation: Half-strength saline (0.45%) is hypotonic. Hypotonic solutions are used to replace cellular fluid because it is hypotonic compared with plasma. Another is to provide free water to excrete body wastes. At times, hypotonic sodium solutions are used to treat hypernatremia and other hyperosmolar conditions. Lactated Ringer solution and normal saline (0.9% NaCl) are isotonic. A solution that is 5% NaCl is hypertonic.

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

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

A nurse can estimate serum osmolality at the bedside by using a formula. A patient who has a serum sodium level of 140 mEq/L would have a serum osmolality of: 210 mOsm/kg. 230 mOsm/kg. 250 mOsm/kg. 280 mOsm/kg.

280 mOsm/kg. Explanation: Serum osmolality can be estimated by doubling the serum sodium or using the formula: Na × 2 = glucose/18 + BUN/3. Therefore, the nurse could estimate a serum osmolality of 280 mOsm/kg by doubling the serum sodium value of 140 mEq/L.

A volume-depleted patient would present with which of the following diagnostic lab results? BUN-to-creatinine ratio of 24:1 Urinary output of 1.2 L/24 hours Urine specific gravity of 1.02 Capillary refill time of 3 seconds

BUN-to-creatinine ratio of 24:1 Explanation: A BUN-to-serum creatinine concentration ratio greater than 20:1 is indicative of volume depletion. The other results are within normal range.

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 Explanation: 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.

Which nerve is implicated in the Chvostek's sign? Facial Hypoglossal Optic Spinal accessory

Facial Explanation: Chvostek's sign consists of twitching of muscles supplied by the facial nerve when the nerve is tapped about 2 cm anterior to the earlobe, just below the zygomatic arch.

A client has the following arterial blood gas (ABG) values: pH, 7.12; partial pressure of arterial carbon dioxide (PaCO2), 40 mm Hg; and bicarbonate (HCO3-), 15 mEq/L. These ABG values suggest which disorder? Respiratory alkalosis Respiratory acidosis Metabolic alkalosis Metabolic acidosis

Metabolic acidosis Explanation: This client's pH value is below normal, indicating acidosis. The HCO3- value also is below normal, reflecting an overwhelming accumulation of acids or excessive loss of base, which suggests metabolic acidosis. The PaCO2 value is normal, indicating absence of respiratory compensation. These ABG values eliminate respiratory alkalosis, respiratory acidosis, and metabolic alkalosis.

A client with a diagnosis of cancer is receiving epoetin alfa (Epogen, Procrit) as part of the treatment regimen. The nurse evaluates the effectiveness of this drug by: Assessing the client's energy level. Monitoring the hematocrit and hemoglobin levels. Monitoring the client's blood pressure. Assessing the client's level of consciousness

Monitoring the hematocrit and hemoglobin levels.

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 Explanation: 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 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) Explanation: 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.

Oncotic pressure refers to the number of dissolved particles contained in a unit of fluid. excretion of substances such as glucose through increased urine output. amount of pressure needed to stop the flow of water by osmosis. osmotic pressure exerted by proteins.

osmotic pressure exerted by proteins. Explanation: Oncotic pressure is a pulling pressure exerted by proteins such as albumin. Osmolality refers to the number of dissolved particles contained in a unit of fluid. Osmotic diuresis occurs when urine output increases as a result of excretion of substances such as glucose. Osmotic pressure is the amount of pressure needed to stop the flow of water by osmosis.

Which arterial blood gas (ABG) result would the nurse anticipate for a client with a 3-day history of vomiting? pH: 7.55, PaCO2: 60 mm Hg, HCO3-: 28 pH: 7.45, PaCO2: 32 mm Hg, HCO3-: 21 pH: 7.28, PaCO2: 25 mm Hg, HCO3: 15 pH: 7.34, PaCO2: 60 mm Hg, HCO3: 34

pH: 7.55, PaCO2: 60 mm Hg, HCO3-: 28 Explanation: The client's ABG would likely demonstrate metabolic alkalosis. Metabolic alkalosis is a clinical disturbance characterized by a high pH (decreased H+ concentration) and a high plasma bicarbonate concentration. It can be produced by a gain of bicarbonate or a loss of H+. A common cause of metabolic alkalosis is vomiting or gastric suction with loss of hydrogen and chloride ions. The disorder also occurs in pyloric stenosis, where only gastric fluid is lost. The other results do not represent metabolic alkalosis.

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 Explanation: 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.

A nurse is assessing a client with syndrome of inappropriate antidiuretic hormone. Which finding requires further action? Tetanic contractions Jugular vein distention Weight loss Polyuria

Jugular vein distention Explanation: Jugular vein distention requires further action because this finding signals vascular fluid overload. Tetanic contractions aren't associated with this disorder, but weight gain and fluid retention from oliguria are. Polyuria is associated with diabetes insipidus, which occurs with inadequate production of antidiuretic hormone.

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 Explanation: 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.

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 Explanation: 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 patient is admitted with severe vomiting for 24 hours as well as weakness and "feeling exhausted." The nurse observes flat T waves and ST-segment depression on the electrocardiogram. Which potassium level does the nurse observe when the laboratory studies are complete? 4.5 mEq/L 5.5 mEq/L 2.5 mEq/L 3.5 mEq/L

2.5 mEq/L Explanation: Symptoms of hypokalemia (<3.0 mEq/L) include fatigue, anorexia, nausea and vomiting, muscle weakness, polyuria, decreased bowel motility, ventricular asystole or fibrillation, paresthesias, leg cramps, hypotension, ileus, abdominal distention, and hypoactive reflexes. Electrocardiogram findings associated with hypokalemia include flattened T waves, prominent U waves, ST depression, and prolonged PR interval.

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

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 Explanation: 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.

The nurse is caring for a client diagnosed with bulimia. The client is being treated for a serum potassium concentration of 2.9 mEq/L (2.9 mmol/L). Which statement made by the client indicates the need for further teaching? "I can use laxatives and enemas but only once a week." "A good breakfast for me will include milk and a couple of bananas." "I will be sure to buy frozen vegetables when I grocery shop." "I will take a potassium supplement daily as prescribed."

"I can use laxatives and enemas but only once a week." Explanation: The client is experiencing hypokalemia, most likely due to the diagnosis of bulimia. Hypokalemia is defined as a serum potassium concentration <3.5 mEq/L (3.5 mmol/L), and usually indicates a deficit in total potassium stores. Clients diagnosed with bulimia frequently suffer increased potassium loss through self-induced vomiting and misuse of laxatives, diuretics, and enemas; thus, the client should avoid laxatives and enemas. Prevention measures may involve encouraging the client at risk to eat foods rich in potassium (when the diet allows), including fruit juices and bananas, melon, citrus fruits, fresh and frozen vegetables, lean meats, milk, and whole grains. If the hypokalemia is caused by abuse of laxatives or diuretics, client education may help alleviate the problem.

A client weighing 160.2 pounds (72.7 kg), who has been diagnosed with hypovolemia, is weighed every day. The health care provider asked to be notified if the client loses 1,000 mL of fluid in 24 hours. What weight would be consistent with this amount of fluid loss? 156.0 lbs (70.8 kg) 157.0 lbs (71.2 kg) 158.0 lbs (71.7 kg) 159.0 lbs (72.1 kg)

158.0 lbs (71.7 kg) Explanation: A loss of 0.5 kg, or 1.1 lb, represents a fluid loss of about 500 mL. Therefore, a loss of 1,000 mL would be equivalent to the loss of 2.2 lbs (1 kg), bringing the client's weight to 158.0 lbs (71.7 kg).

A client who is semiconscious presents with restlessness and weakness. The nurse assesses a dry, swollen tongue; body temperature of 99.3 °F; and a urine specific gravity of 1.020. What is the most likely serum sodium value for this client? 110 mEq/L 130 mEq/L 145 mEq/L 165 mEq/L

165 mEq/L Explanation: The normal sodium level is 135- 145 mEq/L (135-145 mmol/L). In hypernatremia, the serum sodium level exceeds 145 mEq/L (145 mmol/L) and the serum osmolality exceeds 300 mOsm/kg (300 mmol/L). The urine specific gravity and urine osmolality are increased as the kidneys attempt to conserve water (provided the water loss is from a route other than the kidneys). Body temperature may increase mildly, but it returns to normal after the hypernatremia is corrected.

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? Passive osmosis Free flow Passive elimination Active transport

Active transport Explanation: 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 is the preferred route of administration for potassium? Subcutaneous Intramuscular Oral IV (intravenous) push

Oral Explanation: When the client cannot ingest sufficient potassium by consuming foods that are high in potassium, administering oral potassium is ideal because oral potassium supplements are absorbed well. Administration by IV is done with extreme caution using an infusion pump, with the patient monitored by continuous ECG. To avoid replacing potassium too quickly, potassium is never administered by IV push or intramuscularly. Potassium is not administered subcutaneously.

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

Parathyroid hormone (PTH) Explanation: 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.

The nurse is assigned to care for a client with a serum phosphorus concentration of 5.0 mg/dL (1.61 mmol/L). The nurse anticipates that the client will also experience which electrolyte imbalance? Hypocalcemia Hyperchloremia Hypermagnesemia Hyponatremia

Hypocalcemia Explanation: The client is experiencing an elevated serum phosphorus concentration. Hyperphosphatemia is defined as a serum phosphorus that exceeds 4.5 mg/dL (1.45 mmol/L). Because of the reciprocal relationship between phosphorus and calcium, a high serum phosphorus concentration tends to cause a low serum calcium concentration.

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 Explanation: 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.

A patient has a serum osmolality of 250 mOsm/kg. The nurse knows to assess further for: Dehydration. Hyperglycemia. Hyponatremia. Acidosis.

Hyponatremia. Explanation: Decreased serum sodium is a factor associated with decreased serum osmolality. Dehydration and hyperglycemia are associated with increased serum osmolality; acidosis is associated with increased urine osmolality.

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 Explanation: 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.

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 Explanation: 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.

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

The nurse is instructing a client with recurrent hyperkalemia about following a potassium-restricted diet. Which statement by the client indicates the need for additional instruction? "I will not salt my food; instead I'll use salt substitute." "Bananas have a lot of potassium in them; I'll stop buying them." "I'll drink cranberry juice with my breakfast instead of coffee." "I need to check to see whether my cola beverage has potassium in it."

"I will not salt my food; instead I'll use salt substitute." Explanation: The client should avoid salt substitutes. The nurse must caution clients to use salt substitutes sparingly if they are taking other supplementary forms of potassium or potassium-conserving diuretics. Potassium-rich foods to be avoided include many fruits and vegetables, legumes, whole-grain breads, lean meat, milk, eggs, coffee, tea, and cocoa. Conversely, foods with minimal potassium content include butter, margarine, cranberry juice or sauce, ginger ale, gumdrops or jellybeans, hard candy, root beer, sugar, and honey. Labels of cola beverages must be checked carefully because some are high in potassium and some are not.

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 Explanation: 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. A serum sodium level of 148 mEq/L would indicate hypernatremia. Normal serum concentration levels range from 135 to 145 mEq/L.

A client with excess fluid volume and hyponatremia is in a comatose state. What are the nursing considerations concerning fluid replacement? Restrict fluids and salt for 24 hours. Correct the sodium deficit rapidly with salt. Administer small volumes of a hypertonic solution. Monitor the serum sodium for changes hourly.

Administer small volumes of a hypertonic solution. Explanation: In clients with normal or excess fluid volume, hyponatremia is usually treated effectively by restricting fluid with clients who are not neurologically impaired. When the serum sodium concentration is overcorrected (exceeding 140 mEq/L) too rapidly or in the presence of hypoxia or anoxia, the client can develop neurological symptoms. However, if neurologic symptoms are severe (e.g., seizures, delirium, coma), or if the client has traumatic brain injury, it may be necessary to administer small volumes of a hypertonic sodium solution with the goal of alleviating cerebral edema. Incorrect use of these fluids is extremely dangerous, because 1 L of 3% sodium chloride solution contains 513 mEq (mmol/L) of sodium and 1 L of 5% sodium chloride solution contains 855 mEq (mmol/L) of sodium. The recommendation for hypertonic saline administration in clients with craniocerebral trauma is between 0.10 to 1.0 mL of 3% saline per kilogram of body weight per hour.

The nurse has been assigned to care for various clients. Which client is at the highest risk for a fluid and electrolyte imbalance? An 82-year-old client who receives all nutrition via tube feedings and whose medications include carvedilol and torsemide. A 45-year-old client who had a laparoscopic appendectomy 24 hours ago and is being advanced to a regular diet. A 79-year-old client admitted with a diagnosis of pneumonia. A 66-year-old client who had an open cholecystectomy with a T-tube placed that is draining 125 mL of bile per shift.

An 82-year-old client who receives all nutrition via tube feedings and whose medications include carvedilol and torsemide. Explanation: The 82-year-old client has three risk factors: advanced age, tube feedings, and diuretic usage (torsemide). This client has the highest risk for fluid and electrolyte imbalances. The 45-year-old client has the risk factor of surgery, the 79-year-old client has the risk factor of advanced age, and the 66-year-old client has the risk factors of age and the bile drain, but none of these are the client at the highest risk.

The emergency department (ED) nurse is caring for a client with a possible acid-base imbalance. The physician has ordered an arterial blood gas (ABG). What is one of the most important indications of an acid-base imbalance that is shown in an ABG? PaO2 PO2 Carbonic acid Bicarbonate

Bicarbonate Explanation: Arterial blood gas (ABG) results are the main tool for measuring blood pH, CO2 content (PaCO2), and bicarbonate. An acid-base imbalance may accompany a fluid and electrolyte imbalance. PaO2 and PO2 are not indications of acid-base imbalance. Carbonic acid levels are not shown in an ABG.

The nurse is caring for a client with a serum sodium concentration of 113 mEq/L (113 mmol/L). The nurse should monitor the client for the development of which condition? Confusion Headache Nausea Hallucinations

Confusion Explanation: Normal serum concentration ranges from 135 to 145 mEq/L (135-145 mmol/L). Hyponatremia exists when the serum concentration decreases below 135 mEq/L (135 mmol/L). When the serum sodium concentration decreases to <115 mEq/L (<115 mmol/L), signs of increasing intracranial pressure, such as lethargy, confusion, muscle twitching, focal weakness, hemiparesis, papilledema, seizures, and death, may occur. General manifestations of hyponatremia include poor skin turgor, dry mucosa, headache, decreased saliva production, orthostatic fall in blood pressure, nausea, vomiting, and abdominal cramping. Neurologic changes, including altered mental status, status epilepticus, and coma, are probably related to cellular swelling and cerebral edema associated with hyponatremia. Hallucinations are associated with increased serum sodium concentrations.

An adult client is brought in to the clinic feeling thirsty with dry, sticky mucous membranes; decreased urine output; fever; a rough tongue; and lethargy. The nurse reconciles the client's medication list and notes that salt tablets had been prescribed. What would the nurse do next? Continue to monitor client with another appointment. Be prepared to administer a lactated Ringer's IV. Be prepared to administer a sodium chloride IV. Consider sodium restriction with discontinuation of salt tablets.

Consider sodium restriction with discontinuation of salt tablets. Explanation: The client's symptoms of feeling thirsty with dry, sticky mucous membranes; decreased urine output; fever; a rough tongue; and lethargy suggest hypernatremia. The client needs to be evaluated with serum blood tests soon; a later appointment will delay treatment. It is necessary to restrict sodium intake. Salt tablets and a sodium chloride IV will only worsen this condition. A Lactated Ringer's IV is a hypertonic IV and is not used with hypernatremia. A hypotonic solution IV may be a part of the treatment, but not along with the salt tablets.

The nurse is caring for a 72-year-old client who has been admitted to the unit for a fluid volume imbalance. The nurse knows which of the following is the most common fluid imbalance in older adults? Hypovolemia Dehydration Hypervolemia Fluid volume excess

Dehydration Explanation: The most common fluid imbalance in older adults is dehydration. Because of reduced thirst sensation that often accompanies aging, older adults tend to drink less water. Use of diuretic medications, laxatives, or enemas may also deplete fluid volume in older adults. Chronic fluid volume deficit can lead to other problems such as electrolyte imbalances.

A client was admitted to the unit with a diagnosis of hypovolemia. When it is time to complete discharge teaching, which of the following will the nurse teach the client and family? Select all that apply. Drink at least eight glasses of fluid each day. Drink caffeinated beverages to retain fluid. Drink alcoholic beverages to help balance fluid volume. Drink water as an inexpensive way to meet fluid needs. Respond to thirst

Drink at least eight glasses of fluid each day Drink water as an inexpensive way to meet fluid needs. Respond to thirst In addition, the nurse teaches clients who have a potential for hypovolemia and their families to respond to thirst because it is an early indication of reduced fluid volume; consume at least 8 to 10 (8 ounce) glasses of fluid each day and more during hot, humid weather; drink water as an inexpensive means to meet fluid requirements; and avoid beverages with alcohol and caffeine because they increase urination and contribute to fluid deficits.

The nurse is caring for a client in heart failure with signs of hypervolemia. Which vital sign is indicative of the disease process? Low heart rate Elevated blood pressure Rapid respiration Subnormal temperature

Elevated blood pressure Explanation: Indicative of hypervolemia is a bounding pulse and elevated blood pressure due to the excess volume in the system. Respirations are not typically affected unless there is fluid accumulation in the lungs. Temperature is not generally affected.

A nurse is caring for a client with metastatic breast cancer who is extremely lethargic and very slow to respond to stimuli. The laboratory report indicates a serum calcium level of 12.0 mg/dl, a serum potassium level of 3.9 mEq/L, a serum chloride level of 101 mEq/L, and a serum sodium level of 140 mEq/L. Based on this information, the nurse determines that the client's symptoms are most likely associated with which electrolyte imbalance? Hyperkalemia Hypocalcemia Hypokalemia Hypercalcemia

Hypercalcemia Explanation: The normal reference range for serum calcium is 8.6 to 10.2 mg/dl. A serum calcium level of 12 mg/dl clearly indicates hypercalcemia. The client's other laboratory findings are within their normal ranges, so the client doesn't have hypernatremia, hypochloremia, or hypokalemia.

The nurse is assessing residents at a summer picnic at the nursing facility. The nurse expresses concern due to the high heat and humidity of the day. Although the facility is offering the residents plenty of fluids for fluid maintenance, the nurse is most concerned about which? Lung function Summer allergies Cardiovascular compromise Insensible fluid loss

Insensible fluid loss Explanation: Due to the high heat and humidity, geriatric clients are at a high risk for insensible fluid loss through perspiration and vapor in the exhaled air. These losses are noted as unnoticeable and unmeasurable. Those with respiratory deficits and allergies may be only able to be outside for a limited period. Those with cardiovascular compromise may need to alternate outdoor activities with indoor rest.

A client with a magnesium concentration of 2.6 mEq/L (1.3 mmol/L) is being treated on a medical-surgical unit. Which treatment should the nurse anticipate will be used? Intravenous furosemide Fluid restriction Oral magnesium oxide Dialysis

Intravenous furosemide Explanation: The nurse should anticipate the administration of furosemide for the treatment of hypermagnesemia. Administration of loop diuretics (e.g., furosemide) and sodium chloride or lactated Ringer intravenous solution enhances magnesium excretion in clients with adequate renal function. Fluid restriction is contraindicated. The client should be encouraged to increase fluids to promote the excretion magnesium through the urine. Magnesium oxide is contraindicated because it would further elevate the client's serum magnesium concentration. In acute emergencies, when the magnesium concentration is severely elevated, hemodialysis with a magnesium-free dialysate can reduce the serum magnesium to a safe concentration within hours.

The nurse is caring for a patient with diabetes type I who is having severe vomiting and diarrhea. What condition that exhibits blood values with a low pH and a low plasma bicarbonate concentration should the nurse assess for? Respiratory acidosis Respiratory alkalosis Metabolic acidosis Metabolic alkalosis

Metabolic acidosis Explanation: Metabolic acidosis is a common clinical disturbance characterized by a low pH (increased H+ concentration) and a low plasma bicarbonate concentration. Metabolic alkalosis is a clinical disturbance characterized by a high pH (decreased H+ concentration) and a high plasma bicarbonate concentration. Respiratory acidosis is a clinical disorder in which the pH is less than 7.35 and the PaCO2 is greater than 42 mm Hg and a compensatory increase in the plasma HCO3 occurs. Respiratory alkalosis is a clinical condition in which the arterial pH is greater than 7.45 and the PaCO2 is less than 38 mm Hg.

Your client's lab values are sodium 166 mEq/L, potassium 5.0 mEq/L, chloride 115 mEq/L, and bicarbonate 35 mEq/L. What condition is this client likely to have, judging by anion gap? Metabolic acidosis Respiratory alkalosis Metabolic alkalosis Respiratory acidosis

Metabolic acidosis Explanation: The anion gap is the difference between sodium and potassium cations and the sum of chloride and bicarbonate anions. An anion gap that exceeds 16 mEq/L indicates metabolic acidosis. In this case, the anion gap is (166 + 5) minus (115 + 35), yielding 21 mEq/L, which suggests metabolic acidosis. Anion gap is not used to check for respiratory alkalosis, metabolic alkalosis, or respiratory acidosis.

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 Explanation: 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 assigned a client with calcium level of 4.0 mg/dL. Which system assessment would the nurse ask detailed questions? Endocrine system Gastrointestinal system Neurological system Musculoskeletal system

Neurological system Explanation: A client with a calcium level of 4.0 mg/dL has hypocalcemia. The nurse closely monitors the client with hypocalcemia for neurological manifestations such as tetany, seizures, and spasms. If the calcium level continues to decrease, seizure precautions are necessary. Cardiac dysrhythmias and airway obstruction may also occur.

The nurse on a surgical unit is caring for a client recovering from recent surgery with the placement of a nasogastric tube to low continuous suction Which acid-base imbalance is most likely to occur? Respiratory alkalosis Metabolic alkalosis Respiratory acidosis Metabolic acidosis

Metabolic alkalosis Explanation: Metabolic alkalosis results in increased plasma pH because of an accumulated base bicarbonate or decreased hydrogen ion concentration. Factors that increase base bicarbonate include excessive oral or parenteral use of bicarbonate-containing drugs, a rapid decrease in extracellular fluid volume and loss of hydrogen and chloride ions as with gastric suctioning. Acidotic states are from excess carbonic acid and hydrogen ions in the system. Respiratory alkalosis results from a carbonic acid deficit that occurs when rapid breathing releases more CO2 than necessary.

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 sign Explanation: 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 nurse reviews the arterial blood gas (ABG) values of a client admitted with pneumonia: pH, 7.51; PaCO2, 28 mm Hg; PaO2, 70 mm Hg; and HCO3--, 24 mEq/L. What do these values indicate? Metabolic acidosis Metabolic alkalosis Respiratory acidosis Respiratory alkalosis

Respiratory alkalosis Explanation: A client with pneumonia may hyperventilate in an effort to increase oxygen intake. Hyperventilation leads to excess carbon dioxide (CO2) loss, which causes alkalosis — indicated by this client's elevated pH value. With respiratory alkalosis, the kidneys' bicarbonate (HCO3-) response is delayed, so the client's HCO3- level remains normal. The below-normal value for the partial pressure of arterial carbon dioxide (PaCO2) indicates CO2 loss and signals a respiratory component. Because the HCO3- level is normal, this imbalance has no metabolic component. Therefore, the client is experiencing respiratory alkalosis.

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 Explanation: 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 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 Explanation: 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.

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 Explanation: 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.

The nurse is caring for a client diagnosed with hyperchloremia. Which are signs and symptoms of hyperchloremia? Select all that apply. Tachypnea Weakness Lethargy Dehydration Hypotension

Tachypnea Weakness Lethargy Explanation: The signs and symptoms of hyperchloremia are the same as those of metabolic acidosis: hypervolemia and hypernatremia. Tachypnea; weakness; lethargy; deep, rapid respirations; diminished cognitive ability; and hypertension occur. If untreated, hyperchloremia can lead to a decrease in cardiac output, dysrhythmias, and coma. A high chloride concentration is accompanied by a high sodium concentration and fluid retention.

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. Explanation: 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 newly graduated nurse is admitting a client with a long history of emphysema. The nurse learns that the client's PaCO2 has been between 56 and 64 mm Hg for several months. Why should the nurse be cautious administering oxygen? The client's calcium will rise dramatically due to pituitary stimulation. Oxygen will increase the client's intracranial pressure and create confusion. Oxygen may cause the client to hyperventilate and become acidotic. Using oxygen may result in the client developing carbon dioxide narcosis and hypoxemia.

Using oxygen may result in the client developing carbon dioxide narcosis and hypoxemia. Explanation: When PaCO2 chronically exceeds 50 mm Hg, it creates insensitivity to CO2 in the respiratory medulla, and the use of oxygen may result in the client developing carbon dioxide narcosis and hypoxemia. No information indicates the client's calcium will rise dramatically due to pituitary stimulation. No feedback system that oxygen stimulates would create an increase in the client's intracranial pressure and create confusion. Increasing the oxygen would not stimulate the client to hyperventilate and become acidotic; rather, it would cause hypoventilation and acidosis.

A client with emphysema is at a greater risk for developing which acid-base imbalance? chronic respiratory acidosis metabolic alkalosis metabolic acidosis respiratory alkalosis

chronic respiratory acidosis Explanation: Respiratory acidosis, which may be either acute or chronic, is caused by excess carbonic acid, which causes the blood pH to drop below 7.35. Chronic respiratory acidosis is associated with disorders such as emphysema, bronchiectasis, bronchial asthma, and cystic fibrosis.

A client was admitted to the hospital unit after 2 days of vomiting and diarrhea. The client's spouse became alarmed when the client demonstrated confusion and elevated temperature, and reported "dry mouth." The nurse suspects the client is experiencing which condition? dehydration hypervolemia hypercalcemia hyperkalemia

dehydration Explanation: Dehydration results when the volume of body fluid is significantly reduced in both extracellular and intracellular compartments. In dehydration, all fluid compartments have decreased volumes; in hypovolemia, only blood volume is low. The most common fluid imbalance in older adults is dehydration. Hypervolemia is caused by fluid intake that exceeds fluid loss, such as from excessive oral intake or rapid IV infusion of fluid. Early signs of hypervolemia are weight gain, elevated BP, and increased breathing effort. Hypercalcemia occurs when the serum calcium level is higher than normal. Some of its signs include tingling in the extremities and the area around the mouth (circumoral paresthesia) and muscle and abdominal cramps. Hyperkalemia is an excess of potassium in the blood. Symptoms include diarrhea, nausea, muscle weakness, paresthesias, and cardiac dysrhythmias.

Clients diagnosed with hypervolemia should avoid sweet or dry food because it obstructs water elimination. increases the client's desire to consume fluid. can cause dehydration. can lead to weight gain.

increases the client's desire to consume fluid. Explanation: The management goal in hypervolemia is to reduce fluid volume. For this reason, fluid is rationed and the client is advised to take a limited amount of fluid when thirsty. Sweet or dry food can increase the client's desire to consume fluid. Sweet or dry food does not obstruct water elimination or cause dehydration. Weight regulation is not part of hypervolemia management except to the extent it is achieved on account of fluid reduction.

A client with cancer is being treated on the oncology unit for bilateral breast cancer. The client is undergoing chemotherapy. The nurse notes the client's serum calcium concentration is 12.3 mg/dL (3.08 mmol/L). Given this laboratory finding, the nurse should suspect that the malignancy is causing the electrolyte imbalance. client's diet is lacking in calcium-rich food products. client may be developing hyperaldosteronism. client has a history of alcohol abuse.

malignancy is causing the electrolyte imbalance. Explanation: The client's laboratory findings indicate hypercalcemia. Hypercalcemia is defined as a calcium concentration >10.2 mg/dL (>2.6 mmol/L).The most common causes of hypercalcemia are malignancies and hyperparathyroidism. Malignant tumors can produce hypercalcemia through a variety of mechanisms. The client's calcium level is elevated; there is no indication that the client's diet is lacking in calcium-rich food products. Hyperaldosteronism is not associated with a calcium imbalance. Alcohol abuse is associated with hypocalcemia.

A client who complains of an "acid stomach" has been taking baking soda (sodium bicarbonate) regularly as a self-treatment. This may place the client at risk for which acid-base imbalance? metabolic alkalosis metabolic acidosis respiratory acidosis respiratory alkalosis

metabolic alkalosis Explanation: Metabolic alkalosis results in increased plasma pH because of accumulated base bicarbonate or decreased hydrogen ion concentrations. The client's regular use of baking soda (sodium bicarbonate) may create a risk for this condition. Metabolic acidosis refers to decreased plasma pH because of increased organic acids (acids other than carbonic acid) or decreased bicarbonate. Respiratory acidosis, which may be either acute or chronic, is caused by excess carbonic acid. Respiratory alkalosis results from a carbonic acid deficit that occurs when rapid breathing releases more CO2 than necessary with expired air.