Clinical practice guideline on diagnosis and treatment of hyponatraemia
Hyponatraemia (Case Presentation)
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Transcript of Hyponatraemia (Case Presentation)
Dazed and Confused
History
Mrs AA, 66 yo ♀ from home w husband PHx hypertension, hyperlipidaemia 1/52 ago dx with UTI. Allergy: penicillin – given Bactrim by LMO
4/7 vomiting, diarrhoea, anorexia, increasing confusion
2/7 Na 110, asked to present to ED Presented to MMC ED with severe confusion, lethargy, anorexia. No seizures/fits/neurological symptoms.
Drugs
Telmisartan (A2RB) Atorvastatin
Examination
General: Confused +++ Not oriented to time, place or person. GCS 14. Very dry mucous membranes, clinically volume deplete. Pink, perfused.
Chest: JVP 0 cm, S1+S2+0, Scattered R basal crackles
Abdo: Soft, tender palpable bladder, nil organomegaly
Neuro: 5/5 power bilat, brisk reflexes, downgoing plantars, normal sensation. Nil seizure activity.
Investigations
Urgent VBG: Na 98, K 3.7, Gluc 10.5 pH 7.50, pCO2 25, HCO3 20
Serum Osmolality: 211 (~twice serum Na + K ie 103)
Urine Osmolality: 263 Urine Na: 51 Urine K: 28 eGFR >60 CXR: NAD MSU MC&S: Enterococcus spp sens amox, nitrofurantoin
UEC in 11/2007: Na 139, K 4.7
Management
Admit ICU Monitor for seizures Hourly VBG After extensive discussion w. ICU consultant- decision to commence N Saline + 10mmol KCl for volume depletion and hypokalaemia
Aim for 8mmol increase in serum sodium per day only – risk of central pontine myelinolysis
H20 restriction – 500mL orally only per day
Progress
Increase in serum sodium to 111 (13mmol) after 11 hrs!
Saline ceased, H20 restriction continued
Likely secondary to drop in ADH once hypovolaemia corrected
Fortunately nil neurological changes, seizures, paralysis!
Continuing hypokalaemia, hypocalcaemia, hypophosphataemia (replaced IV via CVC)
Hypokalaemia spontaneously resolved. Calcium and phosphate remained low
Investigations (cont.)
Saline CeasedSaline commenced
Sodium 127
Investigations (cont.) Cortisol: 1022 (N) TSH: 0.37 FT4: 19.5 Vit D: 25 PTH: 3.9 (N) MSU MC&S: Enterococcus spp sens amox, nitrofurantoin
Subclinical Hyperthyroidism
Progress (cont.) Day 3: Discharge from ICU (Na 119) Day 4-8: Confusion and unsteady gait slowly resolved with increase in serum Na to 132
Day 8 (day of discharge): Patient stated she felt much better, had been confused ++ for 2 months with husband caring for her at home. Used to drink >3-4L/day at home because it was “a good thing for health” but understands fluid restriction and need for adherence.
Patient discharged with follow up UEC CMP 1/9 and 4/9 with LMO – for FFIx if drop in sodium
Bad pun of the week
“Mrs AA and how she decided to stop drinking!!”
Differential Diagnosis
Acute volume depletion only in setting of UTI, vomiting, diarrhoeaHowever: Na 98!! CNS adaptation occurs over 2-3 days. Marked decrease in Na over 1-2 days assoc with cerebral oedema & seizures. Mrs AA relatively asymptomatic (exc confusion)
Acute on chronic hyponatraemiaPerhaps slow decrease in Na ?Primary Polydipsia ?SIADH acutely worsened by volume depletion during illness
Differential Diagnosis
If chronic hyponatraemiaPrimary polydipsia- high water intake reported by patient, low urinary sodium when pt volume replete. However: normal renal function- to overwhelm kidney ability to clear H2O r/q intake >10L/day!!
SIADH- normal urinary osmolality even when serum sodium 127. However: borderline low urine sodium
Diagnosis Unclear
Salt and Water
A potentially confusing topic!
Measuring the sodium
Blood gas machine = direct measurement (new)
For UEC however, sample centrifuged, lipid and protein component removed
Thus if grossly raised lipids (severe hyperlipidaemia) or protein (myeloma) – Na appears low “pseudohyponatraemia”
Result should be verified
Distribution of fluid
Control of Fluid Balance and Osmolality
Effective Volume
An idea about tissue perfusion and useful IV volume
Indirect measures – MAP, JVP, renal artery pressure
Detected by body in several places – carotid baroreceptors
Low in hypovolaemia Low in CCF – poor CO Low in CLD – hyperdynamic circulation, ascites, AV fistulae
Low in nephrotic sx – ascites
Urine Output
Effective Volume R-A-A axis, sympathetic drive Total salt & osmolar excretion/day
LowADH Urine osmolality
)/(
)/()/(
LmmolalityUrineOsmol
hrmmoletedOsmoleExcrhrLtUrineOutpu
Hyponatraemia
Inability to produce dilute urine
Causes:Interference of renal ability to dilute urine
Low effective volumeSIADHEndocrine: Addison’s, hypothyroidism, DKA
Causes of hyponatraemia
Old age Post-surgical Diuretics – thiazides, spironolactone, lasix
CCF, CLD, CRF, Nephrotic syndrome Volume depletion and H2O overload Drugs – anticonvulsants, chemo, Ecstasy Endo: DKA, Hypothyroidism, Addison’s Neuro – tumour, bleed, infection, psychosis Paraneoplastic SIADH – esp. Lung Exogenous vasopressin, iatrogenic ie fluids
Management - Investigation
Is this real? Verify result – (done automatically at MMC) or with VBG (direct)
If VBG Na normal and/or high osmolar gap investigate for pseudohyponatraemia instead- lipids, myeloma screen!
What other osmotes are there? UEC, BSL, Plasma osmo
• Check for urea, glucose as additional osmotes.• DKA should not be missed!• Posm ~ 2x Na – adjust if high urea, glucose. Work out osmolar gap
Is the urine appropriate? Measure urine output, urine osmo (this incl urea) and sodium. potassium now and post FR/sodium correction
Management – History
History of fits/seizures! Chronicity of symptoms, any major fluid losses, any oedema, water intake, comorbidities
Drugs Comorbidities GCS/MSE/Orientation
Management – Examination Assess fluid state – hyper/hypo/normovolaemia
Neuro exam Other examinations PRN
Management – what next?
If there are fits/coma all bets are off- pt may require hypertonic saline and ICU admission
Hypovolaemia: N. Saline w. close monitoring of serum sodium Restrict free water
Fluid Overload: Fluid and free water restriction ± diuresis (lasix)
Normovolaemic: Cease offending drugs Fluid and free water restriction
Central Pontine Myelinolysis
Fast correction of sodium/24-48hrs Unclear aetiology Poor relationship with speed of correction ?assoc with correction over 1-2 days rather than hourly
Destruction of myelin sheaths in pons Severe paralysis, locked-in syndrome Try to avoid correction >10mmol/day – close monitoring of UEC essential
Further Investigation
Repeat UEC – monitor Na, K, renal function
Cortisol, TSH Repeat urine osmo, Na and K post FR/correction of serum Na to see if it corrects (and how quickly)
Consider: CT brain, CT chest/abdo/pelvis
Between the ocean and the desert…