Fluids, Electrolytes, Acid-Base Disorders, and Nutrition Support
problem (overfeeding) and are inappropriate manage-
ment techniques.
Total kilocalories per day = (300 g x 3.4 kcal/g of dex-
trose) + (70 g x 4 kcal/g of protein) + (40 x 10 kcal/g of
lipid emulsion) = 1020 glucose kcal + 280 protein kcal +
400 lipid kcal = 1700 total kcal/65 kg = 26 kcal/kg/day.
Only 20% and 30% lipid emulsions are available for
PN compounding. Each solution provides 10 kcal/g of
intravenous lipid (unlike 9 kcal/g with oral fat) because
glycerol and phospholipids are added to the emulsion.
Protein intake is 70 g/65 kg = 1.1 g/kg/day (Answer A is
correct). Answers B, C, and D do not represent the cor-
rect calculations as described previously.
This patient is moderately stressed with a normal BMI.
Appropriate energy intake would be 25β30 kcal/kg/day
(1625β1950 kcal/day), and protein intake would be 1.2β2
g/kg/day (78β130 g). Increasing dextrose to 400 g/day
would provide a total energy of 31 kcal/kg/day. Although
this glucose intake of 4.3 mg/kg/minute does not exceed
5 mg/kg/minute, the total kcal/day from all macronu-
trients would exceed the recommended initial range for
this patient (Answer A is incorrect). Decreasing the dex-
trose dose to 200 g/day would provide a total energy of
21 kcal/kg/day from all macronutrients, which is below
the target energy range for this patient (Answer B is
incorrect). Increasing the lipid dose to 70 g/day would
provide a total energy of 31 kcal/kg/day from all mac-
ronutrients, which is above the target of 25β30 kcal/kg/
day (Answer D is incorrect). A protein dose of 100 g/
day would provide 1.5 g/kg/day of protein. This dose is
appropriate and falls within the recommended 1.2β2 g/
kg/day. Increasing the protein dose to 100 g/day while
maintaining dextrose at 300 g and lipid at 40 g would
provide the patient with 1820 kcal or 28 kcal/kg/day.
This is an appropriate protein and energy intake for this
patient (Answer C is correct).
Because the target BG should be within 140β180 mg/dL
for this surgical patient being transferred to the floor, a
modest improvement in glycemic control is indicated.
Thus, answer D (no change) would be incorrect. Ideally,
obligatory glucose requirements should be met (e.g.,
about 130 g/day plus about 80β150 g/day for wound
healing) to prevent the use of amino acids for gluconeo-
genesis. Thus, decreasing the glucose intake to 100 g/
day as described in answer B is not desirable, given the
mild increases in BG concentration. The easiest method
to achieve glycemic control and meet caloric needs is to
modestly increase the regular human insulin content in
the PN solution. Because 14 units of sliding scale insulin
still appears insufficient, a modest increase in insulin
appears prudent. The patient is unlikely to experience
hypoglycemia with the provision of insulin at 30 units/
day when given 200 g of intravenous dextrose concur-
rently (Answer A is correct). As the stress resolves and
glycemic control improves, insulin can be decreased or
eliminated from the PN solution. Answer C is incorrect
because it would likely provide too much insulin, based
on sliding scale coverage and current BG range, and
increase the patientβs risk for hypoglycemia.