Hyperglycemic Hyperosmolar State: A Pragmatic Approach to Properly Manage Sodium Derangements

INTRODUCTION: Although hypovolemia remains the most relevant problem during acute de-compensated diabetes in its clinical manifestations (diabetic ketoacidosis, DKA, and hyperglycemic hy-perosmolar state, HHS), the electrolyte derangements caused by the global hydroelectrolytic imbalance usually complicate the clinical picture at presentation and may be worsened by the treatment itself. AIM: This review article is focused on the management of dysnatremias during hyperglycemic hyperos-molar state with the aim of providing clinicians a useful tool to early identify the sodium derangement in order to address properly its treatment. DISCUSSION: The plasma sodium concentration is modified by most of the therapeutic measures common-ly required in such patients and the physician needs to consider these interactions when treating HHS. Moreover, an improper management of plasma sodium concentration (PNa+) and plasma osmolality dur-ing treatment has been associated with two rare potentially life-threatening complications (cerebral edema and osmotic demyelination syndrome). Identifying the correct composition of the fluids that need to be infused to restore volume losses is crucial to prevent complications. CONCLUSION: A quantitative approach based on the comparison between the measured PNa+ (PNa+M) and the PNa+ expected in the presence of an exclusive water shift (PNa+G) may provide more thorough infor-mation about the true hydroelectrolytic status of the patient and may therefore, guide the physician in the initial management of HHS. On the basis of data derived from our previous studies, we propose a 7-step algorithm to compute an accurate estimate of PNa