Fluid and Electrolyte imbalance - PowerPoint PPT Presentation
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Title: Fluid and Electrolyte imbalance
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Fluid and Electrolyte imbalance
-
Jeeraluck Limim - Department of
Anesthesiology -
Srinakharinwirot University
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Fluid Transfusion
- ???????????? - ?????? 50-80 ??? BW
- - Infant ?????? 80
- - Adult ?????? 60
- - Elderly ?????? 52
- - ??? gt
????
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???????????????????????
- 1. ICF - ???????? 40 ??? BW
- - K,Mg cation
- - PO42-, protein anion
- 2. ECF - ???????? 20 ??? BW
- - Na cation
- - Cl- , HCO3- anion
- ???????? - Intravascular volume ?????? 5 ???
BW - - Interstitial volume ?????? 15
??? BW - -Transcellular fluid ?????? 1-3
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- - ??????????????? osmosis
- - ??????????????????????
???????????????????????? - ?????????????????????
- - ICF ?????? ECF ??? cell membrane
- - Na -K ATPase pump
- - Capillary endothelial membrane
??????? plasma - ??? interstitial fluid
- - ?????????????? ????????????????????
???, Protein ????????? - ???????
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??????????????????????????????????????????????????
??
- - ????????????????????????????
- - ???????????? plasma
??????????????? plasma ?????????????????????
????????????????????????????????????????
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- ??????????????????????? ??????
- 1. ???????????? protein
???????????????????????????? - 2. Baroreceptor ??? carotid sinus ???
aortic arch ?????????????????????
????????????????????? vasomotor center
??????????????????? sympathetic - - HR, contractility
vasoconstriction - - ????? venous return
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- 3. renin-angiotensin-aldosterone
???????????? ???????????????????? ????
??????????????????????????????????? - 4. ??????????????????????????????
???????????? - posterior hypothalamus ?????????? ACTH ???
ADH ??? anterior ??? posterior pituitary - - ACTH aldosterone
- - ADH
?????????????????????
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???????????????????????????????
- ???????? 2 ????
- 1.???????????????? ECF
- 2.??????????? tonicity ??? ECF
- - Isotonicity
- - Hypotonicity
- - Hypertonicity
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?????????? Intravascular volume
- ????? - History
- - PE
- -
Urine - -
Blood chemistry - -
Chest x-ray - -
CVP, PCWP
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Fluid challenge test
??? CVP/PCWP ????????????????? 10 ???? (Isotonic)
CVP lt 8 cmH2O ???? PCWP lt 12 mmHg load 200 cc
CVP 8-14 cmH2O ???? PCWP 12-16 mmHg load 100 cc
CVP gt 14 cmH2O ???? PCWP gt 16 mmHg load 50 cc
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Fluid challenge test (cont.)
- Measurement
- 1. CVP lt 2 cmH2O or PCWP lt 3 mmHg
loading or rate - 2. CVP 2-5 cmH2O or PCWP 3-7 mmHg
wait 10 min - repeated measurement
- - CVP lt 2 cmH2O or PCWP lt 3 mmHg
loading - - CVP gt 5 cmH2O or PCWP gt 7 mmHg
low rate - - CVP 2-5 cmH2O or PCWP 3-7 mmHg
fluid challenge - 3. CVP gt 5 cmH2O or PCWP gt 7 mmHg
stop
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?????????????
- Crystalloid -???????????,?????????
- - ??????????????? ¼ ??????? ¾
leak ?????? - Intravascular
- - ??????
intravascular 30-60 ???? - -
???,???????????? - - ???,??????
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Crystalloid (cont.)
- Indications - Maintenance
- - Deficit
- - Third space loss
- - replace Blood loss
- ?????? 1. 5 dextrose
- 2. Isotonic saline
- 3. Hypertonic saline
- 4. LRS
- 5. ARS
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- 5 dextrose (5 DW,5 D/N/2)
- - ??? callories
- - ???????? resuscitation
- - ???? osmotic diuresis
- - ???? hypo-osmolar ????? cell ??????
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- Isotonic saline (NSS)
- - Na, Cl- 154 mEq/L
- - pH 6.4
- - hyperchloremic metabolic acidosis
- Hypertonic saline (3,5 Nacl)
- - Na, Cl- ??????? 513 ??? 855 mEq/L
- - treat hypo Na
- - ?????? resuscitation case burn
- - ???? pulmonary edema
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- Lactated Ringers solution (LRS)
- - K, Ca , lactate
- - ???? lactic acidosis
- - ????? third space loss ?????
- - ?? form 5 DLRS
- Acetated Ringers solution
- - ?? acetate ??? lactate
- - ????? muscle,peripheral tissue
??????????? HCO3-
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- Colloid -???????????,??????????
- - ????? oncotic pressure
???????????,molecular weight - - ?????? Intravascular
3-5 ??. - - ????????????? bleed
????????????????????????? - - ???????
- - ??????????????????????
- - ??????? coagulopathy
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- Indication - replacement blood loss, protein
- - hemodilution
- - plasma phoresis
- - increase microcirculation
- ?????? 1. Albumin
- 2. Dextran (40,70)
- 3. Hydroxyethyl
starch (6HES, 10HES) - 4. Gelatin
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- Albumin (5,20,25)
- - MW 60,000
- - ????????? interstitial space ???????
intravascular ??? - ? 500 cc.?? 30-60 min
- - plasma half-life 16 hr.
- - ?????????????? 4 ??.
- - ????? ionized calcium ????
- - ????? bradykinin BP drop
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- Dextran
- - synthetic glucose polymer, MW
40,000-70,000 - - ????????? renal tubule
renal failure - - ????????????? crystalloid
- - anaphylactoid reaction
- - ?? platelet aggregration,?? F.5,7,8
- - ???????? crossmatch
- - ?? reticuloendothelial system
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- - dextran 40 ???????????
microcirculation ????????? - microsurgery
- - dextran 70 ?? complication ???????
dextran 40
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- Hydroxyethyl starch (HES)
- - ??????????????, MW 60,000 -100,000
- - ??????????? complement
?????????????????? - antibody
- - coagulopathy ?????????? F.8 ???
platelet - - ??????????????? histamine
anaphylactoid reaction - - 6 starch ?????????? plasma
substitute - - 10 starch ???? hyperoncotic
plasma expander
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- Gelatin (Haemaccel, Gelofusine)
- - maintain oncotic pressure ???????????
starch ??? dextran - - ??????????? 48 ??. ?????????????
- - ??? 1-2 ???? ??? blood loss
?????????? 2,000 cc - - Hemodilution,hemodialysis
- - ??????????????? histamine
anaphylactoid reaction - - ????? serum amylase
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?????????????????????????
- ?????????? 1. Maintenance fluid (M)
- 2. Deficit fluid (D)
- 3. Third space loss
(3rd) - 4. replace Blood
loss (Bl.)
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Maintenance fluid 1-10 kg
4 ml/kg/hr 11-20 kg 2
ml/kg/hr gt 21 kg 1
ml/kg/hr
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Deficit fluid maintenance fluid NPO
time(hr) replace 50 in 1st hour of
surgery replace 25 in 2nd 3rd hours of
surgery
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Third space loss
Degree of tissue trauma Fluid requirement
Mild 1 - 3 ml/kg/hr
Moderate 4 - 6 ml/kg/hr
Severe 7 - 9 ml/kg/hr
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Blood loss Acceptable red cell
(actual Hct acceptable Hct)/100
BVAcceptable blood loss Acceptable red cell
3 replace crystalloid 1 3
replace colloid 1 1
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????????????? ???? 56 ?? ??????????? HT
, IHD??????????????? Hepatoma??????????????????
HepatectomyBW 60 kg Hct 40????????????????????
?????????? 350 ml ????????????? 2 ??? 300
mlNPO 8 hours?????????????????????????????????
1 ???2
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Third space loss
Degree of tissue trauma Fluid requirement
Mild 2 ml/kg/hr
Moderate 5 ml/kg/hr
Severe 8 ml/kg/hr
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Maintenance fluidEx BW 60 kg 10(4) 10(2)
40(1) 40 20 40
100 ml/hr
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Deficit fluid maintenance fluid NPO
time(hr) 100 8 800 ml 400
ml in 1st hour of surgery 200 ml in 2nd 3rd
hours of surgery
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Third space loss
Severe 8 ml/kg/hr 3rd space loss
860 480 ml/hr
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Blood loss Blood loss 350 ml
Acceptable blood volume loss
3 acceptable red cell loss
3 (40-30)/100 (6070)
1,260 ml replace crystalloid
1,050 ml
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1st hour 100 400 480 1,050
2,030 ml 2nd hour 100 200
480 900 1,680 ml
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????????????????????????? ??? close
observed 2-3 ?????????? major operation
????????????????? intravascular pulmonary
edema
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Anesthetic considerationforElectrolyte
imbalance
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Hypernatremia
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Anesthetic considerations with hypernatremia
- Central nervous system complications may
include- increased MAC requirements - - agitation- lethargy- confusion-
seizures- coma death
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- Cardiovascular system complications may
include- decreased MAP with associated
hypovolemia - Hepatic system complications may include-
decreased Vd- decreased i.v dose requirement - Renal system complications may include-
associated with hypovolemia
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Anesthetic considerations in hyponatremia
- - often is associated with a serious
underlying disorder- Na gt 130 mEq/L for
elective surgery - - associated with cerebral edema- decreased
MAC requirements
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Hyperkalemia
- CAUSES
- increased uptake of potassium- plasma K gt
5.5 mEq/L - decreased renal loss of potassium
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- Hyperkalemia due to increased movement of K -
acidosis - cell lysis S/P chemotherapy -
hemolysis - rhabdomyolysis - massive tissue
trauma - hyperosmolality - digitalis
overdose - ß2 adrenergic blockade -
succinlycholine
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- CLINICAL MANIFESTATIONS
- Skeletal muscles- when K gt 8 mEq/L-
sustained spontaneous depolarization-
inactivation of Na channels of muscle - membrane
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- Cardiac muscle- when K gt 7 mEq/L- peaked
T wave with shortened QT interval- widening of
QRS complex- prolongation of PR interval-
VF- asystole
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Anesthetic considerations in hyperkalemia
- - elective surgery should not continue
- - succinylcholine is contraindicated-
avoid K containing solutions ex. lactated
ringers - avoid metabolic acidosis and
respiratory acidosis - - controlled ventilation with slight
hyperventilation may be beneficial- close
neuromuscular function monitoring
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Hypokalemia
- CAUSES
- decreased potassium uptake - marked reduction
K intake - - kidneys ability to conserve plasma K-
kidneys ability to decrease urinary K as - low as 5 15 mEq/L
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- increased potassium losses
- - renal loss urinary K gt 20 mEq/L- GI
loss urinary K lt 20 mEq/L - decreased intracellular movements
- - acute alkalosis- insulin therapy-
hypothermia- vitamin B12 treatment
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Anesthetic considerations in hypokalemia
- - lower limits K 3 3.5 mEq/L without ECG
changes- not appear to be significant anesthetic
risk - - exception in patients taking digoxin- should
have K maintained at 4 mEq/L - - sensitive NDMR
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- Anesthetic consideration may be based on- rate
of K loss- presence or absence of organ
dysfunction - Intraoperative management
- intravenous K supplementation if
- - atrial or ventrilcular dysrhythmias
- - avoid glucose containing solutions -
avoid hyperventilation
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Anesthetic considerations in hypermagnesemia
- May require close monitoring of- blood
pressure- electrocardiogram- neuromuscular
junction function- urinary foley
catherization- reduced muscle relaxants 20
25 of regular dosing
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Anesthetic considerations in hypercalcemia
- - medical emergency- monitor ionized Ca2
levels- avoid hypovolemia related to diuresis-
monitor volume status with CVP, PAP- monitor
serial K and Mg- controlled ventilation-
avoid acidosis which may raise serum calcium
levels
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Anesthetic considerations in hypocalcemia
- - medical emergency therefore correct
hypocalcemia preoperatively- avoid alkalosis to
prevent further decrease in Ca2 levels - - negative inotropic effects may potentiate
the effects of barbiturates and volatile
anesthetics- inconsistent effects on
neuromuscular blockade
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- correction of electrolyte imbalance that
can precipitate hypocalcemia i.e hypokalemia,
hypomagnesemia. - important to prevent peri-operative
arrhythmias associated with hypocalcemia.
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Anesthetic considerations in hypophosphatemia
- - closely monitor neuromuscular junction function
esp with use of muscle relaxants- may require
postoperative mechanical ventilation - prevent further decreases in plasma phosphorus
avoid-hyperglycemia-respiratory alkalosis
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