Sections View Full Chapter Figures Tables Videos Annotate Full Chapter Figures Tables Videos Supplementary Content +++ Daily Fluid Requirements +++ Kilograms of Body Weight–Based Method (Pediatrics. 1957;19:823) ++ 1–10 kg: 100 mL/kg/d and10–20 kg: 50 mL/kg/d and>20 kg: 20 mL/kg/d +++ BSA-Based Method (Pediatrics. 1960;25:496) ++ See “BSA Nomogram and Calculations” in Chapter 1 for BSA calculation. BSA (m2) × 1500–1600 mL/m2/d = Daily requirement ++ Examples (22-kg child): Daily (body weight–based method): (100 mL/kg/d × 10 kg) + (50 mL/kg/d × 10 kg) + 20 mL/kg/d × 2 kg) = 1540 mL/d (divide by 24 for hourly rate = 64 mL/h)Daily (BSA-based method): 0.84 m2 × 1600 mL/m2/d = 1344 mL/d (divide by 24 for hourly rate = 56 mL/h) +++ Glucose ++ Included in IV fluids to prevent protein catabolism, 3–4 mg/kg/min (not calorically adequate; see TPN section in Chapter 4 for parenteral nutrition). D5W = 5% glucose solution = 5 g glucose/dL = 5 g glucose/100 mL = 50 mg/mL water +++ Sodium (Na) ++ Maintenance: 2–3 mEq/kg/d Normal saline (NS) = 0.9% saline = 154 mEq/L; ½ NS = 0.45% saline = 77 mEq/L; ¼ NS = 0.225% saline = 38 mEq/LFor 1x MIVF, the following saline concentrations approximate maintenance Na: D1/4NS for 0–20 kg and D1/2NS for >20 kg +++ Potassium (K) ++ Maintenance is age dependant. Infant; 2–3 mEq/kg/dChild: 1–2 mEq/kg/dAdolescent: 1 mEq/kg/dAdult: 0.5–1.0 mEq/kg/dK should always be added if anticipated duration of IVF greater than 24 hWhen providing 1x MIVF, adding KCl 20 mEq/L to IVF will approximate daily maintenance for all ages +++ Modifications to Maintenance Daily Fluid Requirements: ++ Calculations above are for 1x MIVF, assuming an average, hospitalized patient with caloric demands 20% to 30% above resting energy expenditure.Any perturbation affecting fluid intake or output or energy demand or /utilization directly affects daily MIVF needs +++ Increased Mivf Needs ++ ↑ Fluid losses: Renal (renal tubular injury, hyperglycemia, diuretic administration, mannitol administration, diabetes insipidus), GI (vomiting, diarrhea, NG suction, burns (see Critical Care chapter)↑ Energy expenditure: Fever (↑ 12% for each °C over 37°C), radiant warmer, hyperthyroidism, hypermetabolic states +++ Decreased Mivf Needs ++ ↓ Fluid losses: Anuric or oliguric renal failure, SIADH, ventilation with humidified air (decreases insensible loss)↓ Energy expenditure: Coma, sedation, paralysis, hypothermia, hypothyroidism ++ All calculations are based on the condition at the time of initiation of fluids; ongoing losses must be addressed as observed.End points to follow in all patients: Clinical improvement, weight gain, urine output.Bicarbonate administration should be avoided for initial replacement and then utilized only in extreme cases (serum HCO3 <8). [Desired HCO3 (24 mEq/L) – current ... Your Access profile is currently affiliated with [InstitutionA] and is in the process of switching affiliations to [InstitutionB]. Please select how you would like to proceed. Keep the current affiliation with [InstitutionA] and continue with the Access profile sign in process Switch affiliation to [InstitutionB] and continue with the Access profile sign in process Get Free Access Through Your Institution Learn how to see if your library subscribes to McGraw Hill Medical products. Subscribe: Institutional or Individual Sign In Error: Incorrect UserName or Password Username Error: Please enter User Name Password Error: Please enter Password Sign in Forgot Password? Forgot Username? Sign in via OpenAthens Sign in via Shibboleth You already have access! Please proceed to your institution's subscription. Create a free profile for additional features.