Answer

A 9 year old female patient (weight = 80.5 lbs) is admitted to the hospital for diabetic ketoacidosis and new onset type 1 DM.

The physician writes:

  • 0.9% NaCl 10ml/kg/hr
  • Insulin Regular IV 0.3 units/kg/hr

i) What rate of administration (ml/min) would you instruct the nurse to give the 0.9% NaCl

(2 marks)


Weight:

1 lbs = 0.45 kg (You need to remember this conversion ratio)

80.5 lbs = 36.225 kg


0.9% NaCl (Normal Saline) 10ml/kg => 362.25ml per hour

362.25/60 = 6.04 ml/min


ii) After a few hours the physician orders 1000 ml of ½ NS and D5W with 40 mmol KCl to be given at 80ml/hr. At what rate in (mmol/kg/hr) is potassium being administered?

(2 marks)


There is 40 mmol of KCl in 1000ml.

Therefore in 80 ml of the solution there is:

40 X (80/1000) = 3200/1000 = 32/10 = 3.2 mmol KCl => administration rate is 3.2 mmol KCl / hour.

Pt weight is 36.225 kg

3.2/36.225 = 0.0883 mmol/kg

Answer: 0.0883 mmol/kg/hr


iii) What is the osmolality of the 1000 ml ½ NS + D5W with 40 mmol KCl?

MW [g/mol]: KCl = 74.5; NaCl = 58.4; Dextrose = 180

(4 marks)


  • Osmosis is the spontaneous diffusion of solvent from a solution of low solute concentration into a more concentrated one through a semipermeable membrane.
  • The amount of osmotically active particles in a solution is expressed in osmoles (or milliosmoles).
  • Osmotically active particles are either molecules or ions, independent of charge
  • For substances that maintain their molecular structure when they dissolve (e.g. glucose), osmolarity and molarity are the same.
  • For substances that dissociate when they dissolve, the osmolarity is the number of ‘free’ particles times the molarity. That is a 1 molar solution of NaCl would be 2 osmolar (1 osmolar for Na+ plus 1 osmolar for Cl−).
  • Osmolarity: number of osmoles per litre of solution (eg. mOSm/L)
  • Osmolality: number of osmoles per kilogram of solvent. (eg. mOsm/kg)
  • Osmolarity is calculated.
  • Osmolality is not calculated, it is measured in clinical laboratories using an osmometer.
  • Values of osmolality and osmolarity (at low concentrations) for a solution are similar. So you can calculate the osmolarity and then estimate that is also what the osmolality will be. State the final answer in mOSm/kg.

In the solution the osmotically active particles present are: KCl, NaCl and Dextrose.

One mole of KCl will disassociate into K+ and Cl-, resulting in 2 osmoles of active particles. The same applies to NaCl. Dextrose does not disassociate, 1 mole of dextrose will still give 1 osmole of active particle.


1000 ml of ½ NS + D5W means 0.45% sodium chloride and 5% dextrose in water.

- Within which also contains 40 mmol of KCl.


NaCl:

0.45% NaCl is 0.45 g in 100ml water. (Normal Saline NS is 0.9%)

0.45g/100ml

4.5g/1000ml

No. of moles in 4.5g of NaCl is: 4.5/58.4 => 0.07705 mol/L = 77.05 mmol/L

No. osmoles NaCl is 77.05 x 2 => 154.11 mOsm/L


KCl

No. osmoles of KCl is 40mmol x 2 = 80 mOSm/L


Dextrose

D5W is 5% dextrose in water, ie. 5 g dextrose in 100ml water.

5g/100ml => 50g/1000ml

No. moles dextrose in 50g is 50/180 = 0.278 mol => 278 mmol

1 mole of dextrose = 1 osmole dextrose

=> 278 mOsm/L


Osmolarity of the solution is: 154 + 80 + 278 = 512 mOsm/L

As it is not possible to calculate osmolality, I will state that osmolality is roughly the same as the osmolarity value.


Answer: Osmolality of the solution is approximately 512 mOsm/kg. (Note the units)



References:

Aulton's Pharmaceutics E-Book: The Design and Manufacture of Medicines (p. 44-45). Elsevier Health Sciences.

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