Module 7: Agents Affecting the Volume and Ion Content of Body Fluids Flashcards
Drugs to Correct Disturbances
Drugs used to correct disorders of fluid volume
and osmolality
Drugs used to correct disturbances of hydrogen
ion concentration
Drugs used to correct electrolyte imbalances
Agents Affecting the Volume
and Ion Content of Body Fluids
Disorders of fluid volume and osmolality
Acid-base disturbances
Electrolyte imbalances
Fluid Volume and Osmolality
Good health requires that both the volume and
the osmolality of extracellular and intracellular
fluids remain within a normal range
Maintenance of both is primarily the job of the
kidneys
Volume contraction and volume expansion
Volume Contraction
and Volume Expansion
- Volume contraction
Decrease in total body water
Definition, causes, and treatment - Isotonic, hypertonic, and hypotonic
Volume expansion
Increase in total body water
Definition, causes, and treatment - Isotonic, hypertonic, and hypotonic
Isotonic Contraction
Definition
Volume contraction in which sodium and water are lost in isotonic proportions
Decrease in total volume, but no change in osmolality
Causes
Vomiting, diarrhea, kidney disease, and misuse of diuretics
Treatment
Fluids that are isotonic to plasma
0.9% NS
Replenish slowly to prevent pulmonary edema
Hypertonic Contraction
Definition
Loss of water exceeds loss of sodium
Reduced extracellular fluid volume and increase in osmolality
Causes
Excessive sweating, osmotic diuresis, concentrated food given
to infants
Secondary to extensive burns or CNS disorders that interfere with thirst
Treatment
Hypotonic fluids (0.45% sodium chloride) or fluids that contain no solutes at all (D5W)
Initial therapy: Drink water
Hypotonic Contraction
Definition
Loss of sodium exceeds loss of water
Both volume and osmolality of extracellular fluid are reduced
Causes
Excessive loss of sodium through the kidney (diuretic therapy, chronic renal insufficiency, lack of aldosterone)
Treatment
Mild: Infusing isotonic sodium chloride solution for injection
Severe: Hypertonic solution (3%) NaCl
Watch for signs of fluid overload
Volume Expansion
Definition
Increase in the total volume of body fluid
May be isotonic, hypertonic, hypotonic
Causes
Overdose with therapeutic fluids
Disease states (congestive heart failure [CHF],
nephrotic syndrome, cirrhosis with ascites)
Treatment
Diuretics
Agents used for heart failure
Acid-Base Disturbances
Acid-base balance is maintained by multiple
systems:
Bicarbonate-carbonic acid buffer system
Respiratory system
* CO2 (increase lowers pH)
Kidneys
* HCO3– (increase raises pH)
Respiratory alkalosis
Respiratory acidosis
Metabolic alkalosis
Metabolic acidosis
Respiratory Alkalosis
Causes
Hyperventilation causes decrease in CO2
Treatment
Mild: None needed
More severe: Treat with sedatives (Diazepam
[Valium])
Respiratory Acidosis
Causes
Retention of CO2 secondary to hypoventilation
* Depression of the medullary respiratory center
* Pathologic changes in the lungs
Treatment
Correction of respiratory impairment
Infusion of sodium bicarbonate if severe [pH <6.9
Metabolic Alkalosis
Causes
Excessive loss of gastric acid
Administration of alkalinizing salts
Treatment
Target and treat cause
Solution of sodium chloride plus potassium chloride
Metabolic Acidosis
Causes
Chronic renal failure
Loss of bicarbonate during severe diarrhea
Metabolic disorders
Poisoning by methanol and certain medications
Treatment
Correction of the underlying cause of acidosis
Alkalinizing salt if severe
Potassium
Most abundant intracellular cation
Extracellular concentrations are low
Major role in:
Conducting nerve impulses
Maintaining the electrical excitability of muscle
Regulating acid-base balance
Regulation of Potassium Levels
Primarily by the kidneys
Renal excretion increased by aldosterone
Excretion also increased by most diuretics
Potassium-sparing diuretics are the exception
Influenced by extracellular pH
Alkalosis: Potassium uptake enhanced
Acidosis: Potassium exits cells
Insulin has a profound effect on potassium level
Hypokalemia
Serum potassium levels less than 3.5 mEq/L
Causes and consequences
Most common cause is treatment with a thiazide or
loop diuretic
* Less common: Excessive insulin, alkalosis
Adverse effects on skeletal muscle, smooth muscle,
blood pressure, and heart
Hypokalemia increases risk for hypertension and
stroke
Treatment
Potassium salts preferred because chloride
deficiency frequently coexists with hypokalemia
Oral potassium chloride: Mild
* Sustained-release version has fewer GI effects
* Abdominal discomfort, nausea and vomiting, diarrhea
* Oral potassium chloride should be taken with meals or a full glass of water
* Dosages for prevention: 16 to 24 mEq/day
* Dosages for deficiency: 40 to 100 mEq/day
IV potassium chloride: Severe or cannot take PO
* Must be diluted and infused slowly
* Potassium must also be infused slowly (generally no faster than 10 mEq/hr in adults)
* Potassium chloride must never be administered by IV push
* Results in cardiac arrest
IV potassium chloride: Severe or cannot take PO
* Must be diluted and infused slowly
* IV solutions must be diluted (preferably to 40 mEq/L or less)
* IV solutions are extremely irritating to the veins
Contraindications to potassium use
Avoid in patients who are predisposed to
hyperkalemia
* Severe renal impairment, use of potassium-sparing diuretics, hypoaldosteronism
Principal complication of hypokalemia is
hyperkalemia
Assess renal function and changes in ECG
