fluid management and electrolyte imbalance in acute diarhea(2)
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Fluid and Electrolyte Emergencies in Critically Ill Children
FLUID MANAGEMENT AND ELECTROLYTE IMBALANCE IN CHILDREN WITH ACUTE DIARRHEA
UKK PGDPediatric Critical Care Working GroupIndonesian Pediatric SocietyObjectives1) Mayor complication of acute diarrhea in children
2) Recognize dehydration and most common of electrolyte imbalance
3) Apply appropriate management principles
ACUTE DIARRHEAMayor complication : Dehidration and shockElectrolyte imbalance, and renal failure
Electrolyte imbalanceUkarapol N, et al. Shah GS, et al.Hyponatremia17%56%Hypernatremia9,4%10,4%Hypokalemia22,6%46%Hiperkalemia3,4%5,2%
shock and dehydrationShock RL 20 ml/kg
Hyponatremia dehydration
Isonatremia dehydration
Hypernatremia dehydration
6Hyponatremia DehydrationACUTE CORRECTION
urgent treatment ~ neurological changes or seizures
The goal : to 120-125 mEq/L or until seizures stop
Hypertonic saline solution, 3% NaCl, ideally a central venous line but acceptable during emergency via peripheral IV or IO, over 15-20 minutes
1.2 ml/kg of 3% NaCl raise the level by 1 mEq/L
SLOWER CORRECTION
acute correction completed or not neurological changes
More slowly at approximately 12 mEq/L per day(0.5 to 1 mEq/L every hour)
FORMULA : 0.6 x (Wt in kg) x (target Na+-measured Na+)= Total mEq of Na+required to raise sodium level to target.
Case Study
A 2 month-old child (5 kg) present with seizures and sunken eyes and fontanelle . Mother reports two days of diarrhea and is found to have a sodium level of 114 mEq/L.
First step : acute correctionYou decide to give 3% saline to correct to 120 mEq/L.
Amount of NaCl = 0.6 x 5 kg x (120-114)= 18 mEq of Na+
3% NaCl = 0.5mEq/L or approx 36 mL of 3% NaCI solution or
(1.2 mL/kg) of 3% NaCl raises the serum sodium apporx 1 mEq/L
1.2 mLx5kg x (120-114) = 36 mL of 3% NaCl solution
Second step: slower correction To raise the serum sodium level an additional 12 mEq/L from the 120 mEq/L
0.6x5kgx(132-120) = 36 mEq/L additional sodium needed over the remainder of the 24 hours
additionally, the calculated deficit is added to this and administered over 12-24 hours Treatment of hyponatremia dehydration
A good fluid ~ D5% 1/2NS or normal saline, with or without (potassium 20 mEq/L)
Fluid rates : first 8 hours deficit + 1/3 maint. (44 ml/hr) next 16 hours deficit + 2/3 maint (32 ml/hr)Water (ml)Na (mEq)deficit37552Na neeed36maintenance50015TOTAL875103Hypernatremia DehydrationEssential to correct ~ slowlyMost recommendations no more than 0.5 mEq/L/hr or 12 mEq/L/day
To calculate :Free water deficit = (Wt in kg x 0.6) x 1 (desired Na+/actual Na+) (1000mL/L)OR4 ml/kg of free water ~ drop sodium by 1 mEq/L
Case Study
A 10 month-old child (8 kg) present with profuse diarrhea and moderate dehidration and is found to have a sodium level of 157 mEq/L.
hypernatremia dehydrationFree water deficit = (8x0.6) x 1 (145/157) x (1000 mL/L) 365 mL = 4.8 x 0.076 (1000 mL/L)
Quick Calculation :4mL x 8kg x 12mEq/L = 384 mL of free water
Maintenance fluid amounts for an 8-kg child are (100mL/kg x 8) = 800 mL/24hrs
1 L of normal saline = 500 mL of free water1 L of normal saline = 750 mL of free water
1 L of D5 NS will provite 400 mL of free water and is a good starting point treatment of hypernatremia dehydration
Na deficit ~ 600-365/1000 x 140 = 47 mEq
D5 NS is a good starting pointWater (ml)Na (mEq)Free water deficit365-Na deficit-47maintenance80024TOTAL116571 HypokalemiaOral or IV supplementation urgency of sympptoms
Oral :Asymptomatic hypokalemia (no ECG changes) or mild hypokalemiaAbility to tolerateIncrease diet intake1-3 mEq/kg/day in three or four divided dosesSafest
HYPOKALEMIAA conservative protocol for IV replacement :
3.0-3.5 mEq/L 0,25 mEq/kg of IV KCl over 1 hour
2.5-3.0 mEq/L 0.5 mEq/kg of IV KCl over 2 hours
less than 2.5 mEq/L 0.75/L of IV KCl over 3 hours.
A potassium level should be checked halfway through this infusion.
====>>>> SYMPTOMATIC HYPOKALEMIA
HYPOKALEMIAIV replacement :
No more than 0.5 mEq/kg/hr of KCI in a single IV with a max dose of 10 mEq over 1 hr.
Via a central venous line
If peripheral: do not exceed 40-50 mEq/L potassium
HyperkalemiaHyperkalemia requires urgent intervention and th
Place a cardiorespiratory monitor Recheck to confirm the hyperkalemiaDiscontinue any exogenous potasssium Administer one or more of drugs therapiesEmergency Hemodialysis
Administer one or more of the drug therapies :Calcium gluconate, 100 mg/kg over 3 min (1mL/kg of 10% solution) IVSodium bicarbonate, 1-2 mEq/kg given IV over 10-15 min
Insulin, 0.1 U/kg/hr, mixed with Dextrose solution 0.5 g/kg/hr
4.An exchange resin, such as sodium polystyrene resin (Kayexalate), administered 1g/kg rectallyThanks You