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25.1D: Water Balance Disorders

  • Page ID
    8162
  • Dehydration is the excessive loss of body fluid.

     

    LEARNING OBJECTIVES

     

    Describe disorders due to water balance problems

     

    KEY TAKEAWAYS

    Key Points

     

    • There are three types of dehydration: hypotonic or hyponatremic, hypertonic or hypernatremic, and isotonic or isonatremic.
    • Hypotonic dehydration is primarily a loss of electrolytes, sodium in particular.
    • Hypertonic dehydration is primarily a loss of water.
    • Isotonic dehydration is an equal loss of water and electrolytes.
    • Hypvolemia is a loss of blood volume, and may cause hypovolemic shock. In humans, the most common type of dehydration by far is isotonic (isonatraemic) dehydration.
    • Water balance disorders are generally treated by increasing water intake and reducing or stopping fluid loss.

     

    Key Terms

     

    • isotonic: When comparing solutions, an isotonic solution has the same osmolarity (ion concentration) as the solution it is being compared to.
    • plasma: The straw-colored/pale-yellow, liquid component of blood that normally holds the blood cells of whole blood in suspension.
    • electrolyte: Any of the various ions (such as sodium or chloride) that regulate the electric charge on cells and the flow of water across their membranes.

     

    Water Balance Disorders

     

    In physiology and medicine, dehydration (hypohydration) is defined as the excessive loss of body fluid. It is literally the removal of water from an object. However, in physiological terms, it entails a deficiency of fluid within an organism.

    Much of the physiological effects of dehydration is due to the changes in ion concentration that may occur as a result of the dehydration. Alternatively, hypovolemia may occur due to loss of blood volume itself.

     

    Dehydration

     

    There are three types of dehydration that differ based on the type of change in ion concentrations:

    1. Hypotonic—primarily a loss of electrolytes, sodium in particular. Hypotonic dehydration causes decreased plasma osmolarity.
    2. Hypertonic—primarily a loss of water. Hypertonic dehydration causes increased plasma osmolarity.
    3. Isotonic—an equal loss of water and electrolytes. Isotonic dehydration will not change plasma osmolarity, but it will reduce overall plasma volume. Isotonic dehydration is the most common type of dehydration.

    Further complications may also occur. In hypotonic dehydration, intravascular water shifts to the extravascular space and exaggerates intravascular volume depletion for a given amount of total body water loss.

    Neurological complications can occur in hypotonic and hypertonic states. The former can lead to seizures, while the latter can lead to osmotic cerebral edema upon rapid rehydration.

     

    Hypovolemia

     

    Hypovolemia is specifically a decrease in the volume of blood plasma. Furthermore, hypovolemia defines water deficiency in terms of blood volume rather than the overall water content of the body.

    This is a color photograph of IV fluid and electrolyte administration. Intravenous administration of fluid is one effective treatment of dehydration in humans.

     

    IV fluid and electrolyte administration: Intravenous administration of fluid is one effective treatment of dehydration in humans.

    Hypovolemia is a cause of hypovolemic shock. Shock is any condition in which the body’s fluids are unable to properly circulate and oxygenate the major organs of the human body; this causes compensatory mechanisms to activate that cause further bodily harm as the body’s metabolism is maintained for a while longer.

    In the case of hypovolemic shock, the tissue metabolism is impaired due to a lack of blood volume and makes it difficult for red blood cells to reach all of the tissues of the body. It is most often caused by severe vomiting, diarrhea, blood loss, or hemorrhage. Other forms of shock with similar symptoms may be due to problems in the heart (cardiogenic) or bacterial infection (septic).

    Treatment Options

    To treat minor dehydration water intake must be increased, while the source of fluid loss must be reduced or stopped altogether. Plain water restores only the volume of the blood plasma and inhibits the thirst mechanism before solute levels can be replenished.

    Solid foods can contribute to fluid loss from vomiting and diarrhea. In more severe cases, correction of a dehydrated state is accomplished by the replenishment of necessary water and electrolytes through oral rehydration therapy or fluid replacement by intravenous therapy (an IV drip).

    As oral rehydration is easier to provide, it is the treatment of choice for mild dehydration. Solutions used for intravenous rehydration must be isotonic or hypotonic. Pure water injected into the veins will cause the breakdown (lysis) of red blood cells that could cause other problems.

     

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