1 / 100

Electric-Lytes

Electric-Lytes. Dr. Jeffrey P Schaefer General Internal Medicine. Objectives. Case based approach to abnormal Sodium Potassium Calcium Magnesium Phosphate. Sodium. Warm Up Case. 81 yr old female presents to ER recent viral illness vomiting and diarrhea Na  125 mmol/l.

vincent-warner
Download Presentation

Electric-Lytes

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Electric-Lytes Dr. Jeffrey P Schaefer General Internal Medicine

  2. Objectives • Case based approach to abnormal • Sodium • Potassium • Calcium • Magnesium • Phosphate

  3. Sodium

  4. Warm Up Case • 81 yr old female presents to ER • recent viral illness • vomiting and diarrhea • Na  125 mmol/l

  5. What are the clinical features of hyponatremia?

  6. Hyponatremia • Neuromuscular Irritability • mild anorexia • headache • muscle cramps • irritability • delirium • coma • seizure • Rate of Reduction affects clinical severity

  7. What are the causes of hyponatremia?

  8. Common Causes • Edema • heart failure, nephrosis, cirrhosis • Water excess • SIADH, polydipsia, iatrogenesis • Volume Depletion • diuretics (esp thiazide), vomiting, diarrhea • Salt loss • adrenal insufficiency, hypoT4, • cerebral salt wasting • Shift (pseudohyponatremia) • hyperglycemia, hyperlipidemia

  9. Case • 81 yr old female presents to ER • malaise • recent viral illness • vomiting and diarrhea Na = 125 mmol/l

  10. How should this case be managed?

  11. Orders Solution? Volume? Rate(s)? Reassess? • Normal Saline • 1 – 4 l according to clinical assessment • 250 – 500 / hr x 1 l, then 100 – 150 ml/hr • clinical reassess in 4 – 6 hours • recheck lab in 24 hours

  12. Sodium, Salt • What’s in Normal Saline? • NaCl 154 mmol/l • Na 154 mmol + Cl 154 / liter

  13. Sodium, Salt, Sugar Na+ mmol/l Dextrose in Water 0 ½ Normal Saline 77 Ringer’s Lactate* 130 Normal Saline 154 Hypertonic Saline 513 * Ringer’s Lactate: • Na+ 130 mmol, K+4 mmol, Ca++ 1.5 mmol, Cl− 109 mmol, lactate 28 mmol • electrolyte content is isotonic (273 mOsmol/liter) in relation to the extracellular fluid (approx. 280 mOsmol/liter).

  14. Sodium, Salt • What’s in Normal Saline? • NaCl 0.9% w/v • 0.9 grams solute per 100 grams solvent • 0.9 grams salt per 100 grams water • 9 grams salt per 1,000 grams water • 9 grams salt per 1,000 ml water • Normal Saline is NaCl 9 g / l • Implication for heart failure • Mw(NaCl) = 22.990 + 35.453 = 58.443 g/mol • Na accounts for (23/35) ~ 40% weight of salt • Low Salt Diet = 2 g of sodium = 1 tsp • Low Salt Diet = 2 g / 0.4 = 5 g NaCl • Low Salt Diet = 555 ml of normal saline

  15. Case • 82 year old female in ER • HTN on thiazide • presents with seizure and coma • estimated weight 60 kg • Na = 105 mMol

  16. How should this case be managed?

  17. Sodium Deficit • Calculated sodium deficit *0.6 males x (weight in kg) x (desired sodium - actual sodium)*0.5 for females desired range is 105 mmol/l + 5 mmol/l = 110 mmol/l hypertonic saline has 513 mMol / l of Na

  18. Sodium Deficit • Calculated sodium deficit *0.6 males x (weight in kg) x (desired sodium - actual sodium)*0.5 for females desired range is 105 mmol/l + 5 mmol/l = 110 mmol/l 0.5 x 60 kg = 30 l 30 l x 5 mmol = 150 mmol hypertonic saline has 513 mMol / l of Na 150 / 514 = 300 ml 300 ml over 1 or 2 hours then reassess REASSESS CLINICALLY and BIOCHEMICALLY q 1-2h

  19. Rapid Correction of Hyponatremia • central pontine myelinolysis risk • risk is minimal if increase is 0.5 – 1.0 mmol/h

  20. Case • 30 year old female presents to ER • was hiking in the mountains • drank 10 liters of water per day on the advice of a well meaning friend • delirium with paranoia • Na = 110 mmol/l • ?

  21. Case • 78 year old female on general surgery • Post-op day 3 hemicolectomy for Duke B ca • Overnight developed delirium • Post-op IV order: ‘2/3 – 1/3 @ 125 ml/h’ • Na = 120 mMol

  22. Case • 19 year old man presents to ER • progressive weakness • anorexia and weight loss • nauseated • Na = 128 mMol, K = 6.5 mMol

  23. Case • 82 year old female in clinic • HTN on thiazide • feels well • Na = 125 mMol

  24. Case • 65 year old man on neurosurgery • post-op day 2 brain aneursym clip • Na = 129 mMol

  25. Case • 59 year old female • presents with pneumonia • day 4 feels strange • can eat and drink, likes tea • Na = 120 mMol

  26. Warm Up Case • 81 year old female on stroke unit • doing poorly over last few days • now unconscious • Na = 176 mMol (normal 135-145 mMol)

  27. What are clinical features of hypernatremia?

  28. Clinical Features • Hypernatremia • lethargy • weakness • irritability • twitching • delirium • reduced level of consciousness • coma • seizures ‘neuromuscular irritability’

  29. What are the causes of hypernatremia?

  30. DDx – HyperNa+ • Not enough water! • no thirst • can’t act on thirst • can’t retain water • except for Normal Saline, not usually a salt issue

  31. Case • 81 year old female on stroke unit • doing poorly over last few days • now unconscious • Na = 176 mMol (normal 135-145 mMol) • estimated weight 60 kg

  32. Diagnosis? • Management? • Solution • Volume • Rate

  33. Solution Na+ mmol/l Dextrose in Water 0 ½ Normal Saline 77 Ringer’s Lactate* 130 Normal Saline 154 Hypertonic Saline 513 * Ringer’s Lactate: • Na+ 130 mmol, K+4 mmol, Ca++ 1.5 mmol, Cl− 109 mmol, lactate 28 mmol • electrolyte content is isotonic (273 mOsmol/liter) in relation to the extracellular fluid (approx. 280 mOsmol/liter).

  34. Rate of Correction Correct no faster than 0.5 – 1 mmol / hr Risk of cerebral edema • determine water deficit • determine duration of correction • rate = deficit / duration (index to hour) • consider ongoing losses • decide on re-assessment

  35. Volume Water Deficit (Na+ measured – 140 mmol/l) 0.6 x kg -------------------------------------- 140 mmol/l use 0.5 for females desired = 140 mMol

  36. Calculate Free Water Deficit Water Deficit (176 mmol / l – 140 mmol/l) 0.5 x 60 x -------------------------------------- 140 mmol/l 7,710 ml 36 mmol / 0.5 – 1.0 mmol/hr = 48 hr 160 ml/hr of ‘free water’ D5W or tube water at 160 ml/hr

  37. Advanced Case • 55 year old female • pituitary resection • post-op dilute polyuria • Na = 165 mMol

  38. DDAVP • IV / sq  1-2 ug q12 h • nasal  10 – 40 ug / day (divide bid / tid) • oral  0.1 – 1.2 mg / day (divide bid / tid) • give hypotonic IV while getting control • usually this is a planned event

  39. Warm Up Case • 78 year old presents with sob • recent gout • indomethacin • creatinine 790 • K = 7.0 mMol

  40. What are the clinical features of hyperkalemia?

  41. Clinical Features • death

More Related