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3. Compute for the plasma osmolality and the effective plasma osmolality. What is the importance of computing for such?

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Presentation on theme: "3. Compute for the plasma osmolality and the effective plasma osmolality. What is the importance of computing for such?"— Presentation transcript:

1 3. Compute for the plasma osmolality and the effective plasma osmolality. What is the importance of computing for such?

2 Osmolality (calc) = 2 x Na + glucose + urea **if all measurements in mmol/L Osmolality (calc) = 2 x Na + glucose/18 + urea/2.8 **if measurements are in mg/dL Given: Plasma Na = 123 mEq/L Glucose = 98 mg/dL Urea = 22 mg/dL Osmolality = 2(123) + (98/18) + (22/2.8) Osmolality = 259. 301 N = 275 – 295 milli-osmoles per kilogram Becker, K. (2001)Principles and Practice of Endocrinology and Metabolism 3 rd Ed.

3 Effective Osmolality (calc) = 2 x Na + glucose **if all measurements in mmol/L Osmolality (calc) = 2 x Na + glucose/18 **if measurements are in mg/dL Given: Plasma Na = 123 mEq/L Glucose = 98 mg/dL Urea = 22 mg/dL Osmolality = 2(123) + (98/18) Osmolality = 251.44 < 275 = Hyponatremia Becker, K. (2001)Principles and Practice of Endocrinology and Metabolism 3 rd Ed.

4 ECF tonicity is determined primarily by the Na + concentration and patients who have hyponatremia have a decreased plasma osmolality Becker, K. (2001)Principles and Practice of Endocrinology and Metabolism 3 rd Ed.

5 4. What are the significance of urine osmolality (Uosm) and urine sodium (UNa)

6 Urine Osmolality A more exact measurement of urine concentration than specific gravity – Patient with Uosm below 100 mOsm/kg are able to appropriately suppress ADH release, leading to a maximally dilute urine – Patients with a higher urine osmolality have an impairment in water excretion due to the presence of ADH Indicated to evaluate the concentrating and diluting ability of the kidney - accurate test for decreased kidney function - monitor course of renal disease/ electrolyte therapy Rennke H., Denker, B. (2007). Renal Pathophysiology: The Essentials

7 Urine Sodium Helps distinguish renal from non- renal causes of hyponatremia Urine sodium exceeding 20 mEq/L is consistent with renal salt wasting – Diuretics, ACE inhibitors, mineralocorticoid deficiency, salt losing nephropathy Urine sodium less than 10 mEq/L implies avid sodium retention by the kidney – Compensation for extra-renal fluid loss (vomiting, diarrhea, sweating or third space wasting) Rennke H., Denker, B. (2007). Renal Pathophysiology: The Essentials

8 Effective circulating volume depletion and SIADH are the two major causes of true hyponatremia (with an inappropriately high urine osmolality) and these disordes can be distinguished by measuring the Una. – Patients with hypovolemia are sodium avid in an attempt to limit further losses Urine sodium is generally below 25 mEq/L – In comparison, patients with SIADH are normovolemic and sodium excretion is in a steady state equal to intake Urine sodium concentration is typically above 40 mEq/L Rennke H., Denker, B. (2007). Renal Pathophysiology: The Essentials

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