Fluids and Electrolytes Bruce R Wall MD FACP
Fluids and Electrolytes Bruce R. Wall, MD, FACP Texas Health Dallas Presbyterian October 14 th, 2010
RBF=1000 ml/min; RPF=600 ml/min GFR=120 ml/min or 172. 8 L/day
Key Concepts • Volume status (EABV) “think” saline in ECF • Cannot be measured in the lab… • TBW (Total Body Water) “think” [Na+ m. Eq/L] Laboratory result… must examine the patient • IV FLUID orders: Volume - Water - K+ - Acid/base
3 Key Concepts in Fluid and Electrolyte Physiology • Cell membrane permeability • Osmolality • Electroneutrality
Cell Membrane Permeability
Osmolarity vs Osmolality • Osmolarity is defined as the concentration of the solute per liter of solution • Osmolality is concentration of the solute/kg solvent (usually plasma or urine) • Sodium accounts for 97 -98% of plasma osmolality (range 287 7 m. Osm/Kg) • m. Osm/kg = 2 X[Na+ m. Eq/L] + (glucose mg/d. L)/18 + (BUN mg/d. L)/2. 8
Electroneutrality • Primary extracellular cation is SODIUM • Primary intracellular cation is POTASSIUM • Plasma (ECF) is the only compartment readily accessible
Body Fluid Compartments • Adult humans are 50% - 70% water • Women and the elderly have higher % of body fat than young men, and thus less water. • For all practical purposes, assume that TBW = 0. 60 X WT (kg)
Body Fluid Compartments • 70 kg male (TBW=0. 6 X wt) • • Intra. Cell. Fluid ECF Extravascular Intravascular 28 L (70 kg X 40% = 28) 14 L (70 kg X 20% = 14) 10. 5 L (70 kg X 15% = 10. 5) 6. 3 L (70 kg X 9% = 6. 3)
Distribution of Sodium Extracellular Na+ 16% 81% 3% Intracellular *Plasma EABV
Body Fluid Compartments • The composition of the ECF is roughly the same as the interstitial space with the exception of proteins which are trapped within the vascular lumens. • The distribution of fluid between these two spaces is determined by Starling Forces.
Volume Homeostasis • ECF Volume is linked to total body sodium • Important: Total body sodium is not concentration • Concentration depends not only on amount of sodium but also the amount of water • Total body sodium is regulated by the kidneys • Input minus output equals accumulation…
Volume Depletion (a. k. a Hypovolemia) • Decreased ECF volume is always sensed as a decrease in the “Effective Arterial Blood Volume (EABV)” • The EABV signals the kidney whether to reabsorb or excrete sodium. • No direct measure of the EABV, it is determined by blood volume, cardiac output, and systemic vascular resistance • Decreased “EABV” results in Na+ retention and expansion of ECF volume
Clinical Signs of Hypovolemia • • Orthostatic hypotension Tachycardia Flat neck veins Dry mucous membranes Absent axilliary sweat Decreased skin turgor Decreased CVP
Common IV Fluids Solution Glucose Na+ K+ Ca++ Cl- Lactate PO 4= Mg++ D 5 W 50 0 0 0 NS 0 154 0 0 0 D 5 NS 50 154 0 0 0 D 5½NS 50 77 0 0 0 LR 0 130 4 3 109 28 0 0
Management of Hypovolemia • The primary fluid prescribed for hypovolemia is • • Normal Saline In the management of hypovolemia, there is no place for ½NS or D 5 W…. Transfusion Albumin Hetastarch (Hespan ®) or Plasmanate ®
IV fluids: continued • Addition of an isotonic fluid (0. 9% Na. Cl) expands the ECF but doesn’t change the Intra. Cellular. Fluid • Addition of a hypotonic fluid (D 5 W) will cause movement of water into the cells. • Addition of a hypertonic fluid (3% saline) will cause movement of water out of the cells.
Why is Normal Saline the “drug of choice”? • If you give 1 Liter of Normal Saline (0. 9% Na. Cl), the Na. Cl is restricted to the ECF, therefore the entire liter stays in this space. 75% (750 ml) in the interstitial fluid and 25% (250 ml) in the intravascular space.
Body Fluid Compartments • 70 kg male (TBW=0. 6 X wt) • • Intra. Cell. Fluid ECF Extravascular Intravascular 28 L (70 kg X 40% = 28) 14 L (70 kg X 20% = 14) 10. 5 L (70 kg X 15% = 10. 5) 6. 3 L (70 kg X 9% = 6. 3)
IV Fluids: what about 0. 45% saline? • Think of 0. 45% Na. Cl as 500 ml of saline and 500 ml of water. • The saline distributes to the ECF compartment alone. 75% (375 ml) in the interstitial space and 25% (125 ml) in the intravascular space. • The water distributes 66% (330 ml) to the intracellular space & 33% (170 ml) to the ECF. Of the 170 ml to ECF, only 25% or 42. 5 ml stays in the intravascular space.
Fluid Prescriptions Thus of our 1 L 0. 45 Na. Cl, only 125 + 42. 5 = 167. 5 ml stays in the intravascular space
When should you use hypotonic solutions? • If there is a need to administer water to the patient (because of a water deficit state) • Maintenance fluids (not volume replacement) • D 5 W, D 5¼NS or D 5½NS may be used in combination with bicarbonate if there is a need to administer base.
Clinical Signs & Symptoms of Volume Expansion • • • Jugular venous distension +/- S 3 gallop Dyspnea Ascites – this could be debated Pulmonary edema Pleural effusions Peripheral edema (remember hypoalbuminemia)
Management of Hypervolemia • Goal of treatment • Removal of extracellular fluid • • • Loop Diuretics Salt restriction (PO and IV) Dialysis/CVVHD Phlebotomy Rotating tourniquets
Pathways of Water Balance
Calculate the Water Deficit… • [0. 6] x (wt in Kg) X [{Na/140} – 1] The water deficit should be fixed in the form of water (D 5 W or tap water). Water repletion is over and above the maintenance fluids which may be either isotonic or hypotonic.
How do you write IV Fluid orders? Input – output = accumulation • Volume balance • Water balance • Potassium (deficit, CKD, Mg++, presence of acidosis or alkalosis) • Acid base (administration of bicarbonate or HCl)
Case I: Mild Hyponatremia • • • 65 yo WF smoker @ small cell carcinoma No evidence of CHF on physical exam Na+ 122 m. Eq/l K+6. 1 Mild respiratory acidosis GFR normal No dyrenium, amiloride, or aldactone Positive history for Lovenox (DVT) for 2 weeks
Case I: hyponatremia - continued • PE: normal vitals (no tilt) comfortable at rest extremities - no edema no confusion • Random U Na+ elevated at 40 m. Eq/L • Uosm 600 TSH is WNL • 1) Differential Diagnosis • 2) IV fluid orders (NPO for cardiac evaluation)
Patient receives saline • Diagnosis = SIADH • IV saline administered: 1 liter = 300 mosm • Urine 600 mosm, provides for excretion of 300 mosm of sodium chloride in 500 ml of urine • Allows patient to “keep” 500 ml of water • Sodium falls to 119 m. Eq/L
Case II: HIV possible sepsis • • 25 yo male with HIV Admitted with streptococcal sepsis with meningitis History of IVDA with baseline CKD ARF = BUN 80 mg% creatinine 2. 5 mg% Volume depletion on exam NPO (unresponsive) Mild metabolic acidosis Sodium 133 m. Eq/L IV fluids?
Case III: history of CHF • • 70 yo diabetic, known CHF, mild CKD Admitted with acute coronary syndrome NPO for cardiac cath Recent increase in diuretics caused acute deterioration in GFR: BUN > 110 creat 2. 2 mg% • Euvolemic on exam (maybe a little dry? ) • Na+ 125 mmole/L • IV Fluids?
Case IV: DKA • • • 45 yo WF IDDM X 20 yrs Non-functional glucometer… N&V for 18 hrs… indigestion/pain for 2 hrs No dyspnea No blood in emesis or stool ‘too sick’ to administer insulin PMH - DM HBP Lipids CKD
DKA: continued • 130/60 tilting to 95/50 P 110 R 24 Afebrile Neck: veins impossible to assess Lungs: few rales, WOB increased Cor: I/VI m, soft S 3, increased HR Abd: benign, non-distended Ext: 1+edema • WBC 12 K Hct 35% 2+proteinuria 5 -10 WBC/HPF • EKG: 2 mm ST elevation III and AVF
DKA: continued • • Na+ 131 K+ 3. 2 Cl- 104 HCO 3 5 m. Eq/l BUN 70 Creat 2. 0 anion gap 22 m. Eq p. H 7. 18 p. CO 2 18 p. O 2 80 (1. 5)(HCO 3) + 8 [+/- 2 m. Eq] = p. CO 2 Dx? Volume status? Na+? K+? acid/base issues? IV fluids?
Case V: Rhabdomyolysis • • • 24 yo SWAT team member of GPD August 1998 “ 106 degrees in the shade” full gear running drill - collapse in field BP 100/60 P 130 T 102. 8 rectal Skin warm Neck veins: nl Lungs: clear Cor: increased HR MS: tender back/gluteal region, no edema
Rhabdo: continued • • Urine looks red… scant volume… heme + U Na+ <10 Fe. Na+ low Na+ 149 K+ 5. 9 Anion gap 22 Bun 15 Creat 2. 4 Ca++ 6. 5 Phos 8. 5 CPK 50, 000 “As you rapidly cool down the patient: ” Diagnosis? Volume status? Cause of Hyperkalemia? IVF orders?
Case VI: Ascites • 65 yo retired engineer with known cirrhosis • ETOH exposure Hx GIB/varices • Meds: Beta blocker Aldactone Furosemide (no NSAID’s) • Decreased intake for several days; increasing abd pain - severe, diffuse, no radiation; minimal emesis no gross hemorrhage in stool
Ascites: continued • PE: barely awake confabulates barely follows • tremulous T 101. 8 BP 90/60 red palms spider angiomata muscle wasting massive ascites very tender abdomen guaiac positive stool 1+ edema 2+ ankles • Lab: WBC 20 K Hct 34% Bili 4 albumin 2. 4 INR 2. 5 AG 12 Na+128 K+ 5. 0 Fe. Na<1; ascites with 3000 WBC and positive gram stain • BUN 80 Creat 3 mg% Decreased U Na+ < 15
Ascites: continued • • Differential diagnosis? Volume status? Acid base status? IV fluids? (TPN? )
Case VII – Metabolic acidosis • Patient with recurrent diarrhea complains of muscle weakness • No carpopedal spam, Trousseau’s of Chvostek’s • EKG reveals ST-segment and T-wave changes and PVC’s compatible with hypokalemia
Case VII: continued • Plasma [Na+] = 140 meq/L • [K+] = 1. 3 meq/L • [CL-] = 117 meq/L • [HCO 3] = 10 meq/L • [albumin] = 4. 1 g/d. L (3. 5 – 5 g/d. L) • [Ca++] = 6. 3 mg/d. L (8. 8 – 10. 5 mg/d. L) • arterial p. H = 7. 26 • p. CO 2 = 23 mm Hg • Correction MA effect K+? Correct hypo Ca++?
Case VIII: Chronic Li+ • 40 yo female NPO X 48 hours post complicated • • cholecystectomy Admission [Na+] = 146 mmoles Developes profound hypotension requiring transfer to ICU (without myocardial infarction) Current [Na+] = 175 mmoles IV fluid orders?
Case IX: AKI • 60 yo attorney ANURIC AKI SEPSIS • MSOF: lungs, cardiac, liver, renal, bone marrow, nutrition, skin, CNS • Intermittent HD • [Na+] 130 [K+] 3. 3 BUN 40 mg% Creat 5 mg% • IVF orders? TPN? Tube feeds?
Case X: acute water intoxication • • • 20 yo SMU student brought to ER by fraternity Unresponsive hypothermic hypotensive Sodium 106 m. Eq/L Mild azotemia Calculated water load > 8 liters… IVF?
Summary • Most common error in writing IV Fluid orders: • 1) administration of NS in pts with SIADH • 2) inadequate volume replacement in sepsis or pre-renal azotemia
Questions? Next month: hemodialysis therapy…
Treatment of Hyponatremia Hyponatremic Patient Symptomatic Acute (<48 hrs) Chronic (>48 hrs) Risk Factors for Neurologic Complications? Asymptomatic
Symptoms and Signs of Hyponatremia Symptoms Lethargy Headache Apathy Muscle Cramps and weakness Anorexia Nausea Agitation Psychosis Signs Abnormal sensorium Depressed deep tendon reflexes Hypothermia Pathologic reflexes Pseudobulbar palsy Seizures *Tentorial Herniation *Cheyne-Stokes respiration *Coma Death
Acute Symptomatic Hyponatremia • Duration <48 hrs • Increase serum [Na] rapidly by approximately 2 m. M/L/hr until resolution of symptoms. • Full correction probably safe, but not necessary • Hypertonic Saline 1 -2 ml/kg/hr • Coadministration of Furosemide Note: The sum of urinary cations (U Na + U K ) should be less than the concentration of infused sodium to ensure excretion of electrolyte free water.
Cerebral Adaptation to Hyponatremia
Chronic Symptomatic Hyponatremia • Duration >48 hrs or unknown • Initial increase in serum [Na] by 10% or 10 m. M/L • Hypertonic Saline 1 -2 ml/kg/hr • Co-administration of Furosemide • Perform frequent neurologic evaluations; correction rate may be reduced with improvements in symptoms • Perform frequent measurement of serum and urine electrolytes • At no time should correction exceed rate of 1. 5 m. M/L/hr, or increment of 15 mmol/day • Change to water restriction upon 10% increase of [Na], or if symptoms resolve Note: The sum of urinary cations (U Na + U K ) should be less than the concentration of infused sodium to ensure excretion of electrolyte free water.
Treatment of Severe Euvolemic Hyponatremia (<125 mmol/L) Severe Hyponatremia (<125 m. M/L) Asymptomatic Symptomatic Acute Chronic Duration < 48 hrs Duration > 48 hrs Rarely < 48 hrs Some Immediate Correction Needed Emergency Correction Needed • Hypertonic Saline 1 -2 ml/kg/hr • Coadministration of Furosemide Long Term Management • Identification and Treatment of Reversible etiologies • Water Restriction • Demeclocycline 300 mg to 600 mg bid • Urea 15 to 60 g qd • V 2 receptor antagonists • Hypertonic Saline 1 -2 ml/kg/hr • Co-administration of Furosemide • Change to water restriction upon 10% increase of [Na], or if symptoms resolve • Perform frequent measurement of serum and urine electrolytes • Do not exceed 1. 5 m. M/L/hr, or 20 m. M/d No immediate correction needed
Treatment of Asymptomatic Chronic Hyponatremia • Fluid Restriction • Pharmacologic Inhibition of Vasopressin Action • Lithium • Demeclocycline • V-2 receptor antagonist • Increase solute Excretion • Furosemide + 2 -3 g of Na. Cl/day • Urea 30 g/d • Increased dietary protein intake
Management of Non-Euvolemic Hyponatremia • Hypovolemic Hyponatremia • Volume restoration with isotonic saline • Identify and correct etiology of water and sodium losses • Hypervolemic Hyponatremia • • • Water Restriction Sodium Restriction Substitute loop diuretics instead of thiazide diuretics Treatment of stimulus for sodium and water retention V 2 -receptor antagonist SM Lauriat, T Berl: The Hyponatremic patient: Practical Focus on Therapy. J Am Soc Nephrol, 1997, 8(11): 1599 -1607.
The Hypernatremic Patient
Guidelines for the Treatment of Symptomatic Hypernatremia • Correct at a rate of 2 m. M/L/hr • Replace half of the calculated water deficit over the first 12 -24 hrs. • Replace the remaining deficit over the next 24 -36 hrs. • Perform serial neurologic examinations - prescribed rate of correction can be decreased with improvement in symptoms • Measure serum and urine electrolytes every 1 -2 hrs. Note: If U[Na] + U[K] is less than the concentration of P[Na], then there are ongoing water losses that need to be replaced
Treatment of Hyponatremia • Three Key Questions • Is the patient symptomatic? • What is the duration of Hyponatremia? • Are there any risk factors for the development of neurologic complications?
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