Your search keyword '"Lew Susie Q."' showing total 2 results

1. Hypernatremia in Hyperglycemia: Clinical Features and Relationship to Fractional Changes in Body Water and Monovalent Cations during Its Development

Author

Wagner, Brent, Ing, Todd S, Roumelioti, Maria-Eleni, Sam, Ramin, Argyropoulos, Christos P, Lew, Susie Q, Unruh, Mark L, Dorin, Richard I, Degnan, James H, and Tzamaloukas, Antonios H

Subjects

Medical Physiology, Biomedical and Clinical Sciences, Cardiovascular, hyperglycemia, hypernatremia, osmotic diuresis, sodium in fluids lost, potassium in fluids lost, Clinical Sciences, Biomedical and clinical sciences

Abstract

In hyperglycemia, the serum sodium concentration ([Na]S) receives influences from (a) the fluid exit from the intracellular compartment and thirst, which cause [Na]S decreases; (b) osmotic diuresis with sums of the urinary sodium plus potassium concentration lower than the baseline euglycemic [Na]S, which results in a [Na]S increase; and (c), in some cases, gains or losses of fluid, sodium, and potassium through the gastrointestinal tract, the respiratory tract, and the skin. Hyperglycemic patients with hypernatremia have large deficits of body water and usually hypovolemia and develop severe clinical manifestations and significant mortality. To assist with the correction of both the severe dehydration and the hypovolemia, we developed formulas computing the fractional losses of the body water and monovalent cations in hyperglycemia. The formulas estimate varying losses between patients with the same serum glucose concentration ([Glu]S) and [Na]S but with different sums of monovalent cation concentrations in the lost fluids. Among subjects with the same [Glu]S and [Na]S, those with higher monovalent cation concentrations in the fluids lost have higher fractional losses of body water. The sum of the monovalent cation concentrations in the lost fluids should be considered when computing the volume and composition of the fluid replacement for hyperglycemic syndromes.

Published

2024

2. Pseudohyponatremia: Mechanism, Diagnosis, Clinical Associations and Management.

Author

Aziz, Fahad, Sam, Ramin, Lew, Susie Q, Massie, Larry, Misra, Madhukar, Roumelioti, Maria-Eleni, Argyropoulos, Christos P, Ing, Todd S, and Tzamaloukas, Antonios H

Subjects

dilution effect, electrolyte exclusion effect, hyperviscosity, hyponatremia, pseudohypernatremia, pseudohyponatremia, pseudonormonatremia, serum lipids, serum proteins, serum sodium concentration, serum solids content, serum water sodium concentration, Clinical Sciences

Abstract

Pseudohyponatremia remains a problem for clinical laboratories. In this study, we analyzed the mechanisms, diagnosis, clinical consequences, and conditions associated with pseudohyponatremia, and future developments for its elimination. The two methods involved assess the serum sodium concentration ([Na]S) using sodium ion-specific electrodes: (a) a direct ion-specific electrode (ISE), and (b) an indirect ISE. A direct ISE does not require dilution of a sample prior to its measurement, whereas an indirect ISE needs pre-measurement sample dilution. [Na]S measurements using an indirect ISE are influenced by abnormal concentrations of serum proteins or lipids. Pseudohyponatremia occurs when the [Na]S is measured with an indirect ISE and the serum solid content concentrations are elevated, resulting in reciprocal depressions in serum water and [Na]S values. Pseudonormonatremia or pseudohypernatremia are encountered in hypoproteinemic patients who have a decreased plasma solids content. Three mechanisms are responsible for pseudohyponatremia: (a) a reduction in the [Na]S due to lower serum water and sodium concentrations, the electrolyte exclusion effect; (b) an increase in the measured sample's water concentration post-dilution to a greater extent when compared to normal serum, lowering the [Na] in this sample; (c) when serum hyperviscosity reduces serum delivery to the device that apportions serum and diluent. Patients with pseudohyponatremia and a normal [Na]S do not develop water movement across cell membranes and clinical manifestations of hypotonic hyponatremia. Pseudohyponatremia does not require treatment to address the [Na]S, making any inadvertent correction treatment potentially detrimental.

Published

2023