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   Fluid and electrolyte balance in surgical patients Hide   



    Body fluids and electrolytes are distributed within different compartments.

    Body fluid compartments

      -     In the human body fluid is distributed within the Extra Cellular (ECF) and Intra Cellular (ICF) compartments.

      -    60% of Total Body Weight = Total Body Water (TBW)

      -    2/3 of TBW in ICF

      -    Remaining 1/3 in ECF

      -    ECF is distributed within the interstitial fluid and plasma compartments.

      -    Therefore, in a 70Kg man
          
        • TBW = 42 L (60% of 70Kg)

        •     
        • ICF = 28L (2/3 of 42L)

        •     
        • ECF = 14L (1/3 of 42L)
          1. Interstitial Fluid (Extravascular volume) = 9-11L
            Plasma (Intravascular volume)= 2-3L


      -    At any given time majority of the total body water is present in the ICF.

      -    Effective circulating volume (Intravascular volume) = Total volume of blood (blood cells + plasma) in the circulation at any given time which is approximately 5L


    Distribution of electrolytes within body fluid compartments

      -    Sodium is the predominant electrolyte in ECF

      -    Potassium is the predominant electrolyte in ICF


    Distribution of volumes of various different types of intravenous fluids within the different compartments 1 hour after infusion

      -    Crystalloid (Hartmann's, Ringer Lactate, Normal Saline solution):
          
        Almost all (100%) will remian in the intravascular space upto 1 hr after infusion

          
        Suitable for resucitation: sepsis, trauma


      -    Colloid (Albumin, Gelofusin, Starches, Haemaccel):
          
        Intravascular: 25% - 30% (approximately a quarter to a third) remains in the intravascular space 1 hr after infusion.

          
        Extravascular: 75% - 80% (approximately three quarters to two thirds) will be in the extravascular space 1 hr after infusion.

          
        Suitable for resucitation: trauma, sepsis

          
      - 5% Dextrose solution:
          
        Intravascular: < 10% will be in intravascular space 1 hr after infusion

          
        Extravascular: 25% will be in the extrvascular space 1 hr after infusion

          
        Intracellular: majority of the fluid will be absorbed in to the cells. Therefor NOT suitable for resucitation


    Normal urine output:
    0.5ml/kg/hr (adult)
    1ml/Kg/hr (child)

    Useful tool for approximation of hourly maintainance fluid requirement based on weight

      THE 421 RULE - Estimates maintainance fluid requirement for an adult per hour
      - 1st 10Kg, 4ml/hr
      - 2nd 10Kg, 2ml/hr
      - For each remaining Kg of weight, 1ml hr
          
          
        Example: Therefore for a 70Kg patient:
             - 1st 10Kg, 4ml/hr: 10 x 4 = 40ml/hr
             - 2nd 10Kg, 2ml/hr: 10 x 2 = 20ml/hr
             - Remainder 1ml/hr: (70-20) x 1 = 50ml/hr
             Hourly maintainance fluid requirement: 40+20+50 = 110ml/hr
             (will need adlusting based on increased losses etc)


      THE 100,50,20 - Estimates maintainance fluid requirement for an adult over 24 hours
      - 1st 10Kg, 100ml/Kg
      - 2nd 10Kg, 50ml/Kg
      - For each remaining Kg of weight, 20ml/Kg

          
        Example: Therefore for a 70Kg patient (over 24hrs):
             - 1st 10Kg, 100ml/Kg: 100 x 10 = 1000ml
             - 2nd 10Kg, 50ml/Kg: 10 x 50 = 500ml
             - Remainder 20ml/Kg: (70-20) x 1 = 1000ml
             24 hour maintainance fluid requirement: 1000+500+1000 = 2500ml
             (will need adlusting based on increased losses etc)
             Therefore hourly fluid requirement = 2500/24 = 104ml/hr


    Daily electrolyte requirement

      - Na: 140mmol/day
      - K: 60-80mmol/day
      (Requirements may be considerably higher in ill, post op patients, e.g. severe vomiting, fluxing stoma etc)


    Composition of common fluids

      - Normal saline (0.9%) solution (1L):
          
        Na - 154mmol
        Cl - 154mmol
        K - 0 mmol


      - 5% Dextrose solution solution (1L):
          
        50g of Dextrose


      - Hartmann's (Ringer Lactate) (1L):
          
        Na - 131mmol
        Cl - 112mmol
        K - 5mmol
        Lactate - 29mmol (metabolised to form HCO3 in the liver)
        Trace Mg (1mmol) and Calcium (1mmol)





Author: Mr Kasun Wanigasooriya MBCHB, MRCS  | Speciality: Physiology  | Date Added: 01/05/2010

   
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  Linked tutorial: Shock (PPT Presentation) Expand   





Author: Mr. Dev Mittapalli MBBS, MRCS (Eng) | Speciality: Physiology | Date Added: 24/07/2010

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