CE/CME
Bipolar Disorder: Recognizing and Treating in Primary Care
Although accreditation for this CE/CME activity has expired, and the posttest is no longer available, you can still read the full article.
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Melanie Douglas is a Physician Assistant in the Medicine Department at NYU Langone Medical Center in New York, New York. Denise Rizzolo is a Clinical Assistant Professor in the PA Program at Pace University in New York, New York, and Research Director in the Program of PA Studies at Kean University in Union, New Jersey. Danielle Kruger is an Academic Coordinator and Associate Professor in the PA Program at St. John’s University in Queens, New York. The authors have no financial relationships to disclose.
Hyperkalemia may be a manifestation of worsening renal function. Potassium excretion is reduced in CKD, and CKD is the most common cause of hyperkalemia due to lower GFR.8,17 Patients with lower GFR tend to be older and male, and frequently have comorbid conditions such as type 2 diabetes, chronic liver disease, and heart failure.17
In CKD, decreased delivery of sodium to the distal tubules and reduced filtration capacity of the kidney diminishes the collecting duct’s ability to excrete potassium in exchange for sodium.2 Metabolic acidosis, which often contributes to AKI or CKD, causes potassium to shift from the intracellular to the extracellular compartment.4 Renal impairment may present clinically with dehydration, oliguria, nausea, vomiting, constipation, altered mental status, or weakness.
Insulin and catecholamines (eg, epinephrine and norepinephrine) drive potassium into cells. Insulin increases potassium uptake into liver and muscle cells.13 A decrease in insulin levels, as may occur in type 2 diabetes or DKA, can cause a buildup of extracellular potassium.4 Also, serum hypertonicity from hyperglycemia results in water movement from the intracellular to the extracellular compartment; this raises the intracellular concentration of potassium, further promoting its movement to the extracellular space.4,14 Patients with hyperglycemia may present with dizziness, polyuria, polydipsia, nausea, vomiting, altered mental status, or fatigue.
Rhabdomyolysis is a rapid breakdown of skeletal muscle that results in leakage of cellular contents into the extracellular space.4,18 Causes of rhabdomyolysis include use of medications such as statins, illicit drugs (eg, cocaine), or alcohol; rigorous exercise; and trauma.19
Muscle cell contents that are released into the circulation include potassium and other electrolytes, enzymes (eg, lactate dehydrogenase, aspartate transaminase, aldolase), and myoglobin.19 In rhabdomyolysis, myoglobin accumulation and hypovolemia lead to AKI and hyperkalemia.19 Patients may present with myalgias, extremity paresthesias, generalized weakness, nausea, altered mental status, fever, or darkened urine.18,19
During critical illness such as sepsis, adrenal insufficiency can result from destruction of the adrenal glands, leading to hypoaldosteronism.20 Reduced aldosterone in adrenal insufficiency enables sodium and water to be eliminated from the body more easily, but as a result, less potassium gets excreted through the renal system and more is driven into the plasma.15
Acute adrenal insufficiency may manifest with hypotension, nausea, vomiting, or altered mental status, and labwork may reveal hyperkalemia as well as hypoglycemia or hyponatremia. Additionally, long-term glucocorticoid therapy can suppress the hypothalamic-pituitary axis and cause adrenal atrophy; rapid discontinuation of steroids can lead to adrenal insufficiency and hyperkalemia.21
RAAS blockers reduce CKD progression in patients with an eGFR of 29 mL/min/1.73 m2 or greater.22 Nonetheless, prescribing two or more drugs from the ACEi or ARB classes is not recommended. The Veterans Administration Nephron-Diabetes Trial (VA-NEPHRON-D) was terminated early because patients with stage 3 CKD due to diabetes who received dual ACEi/ARB therapy had higher rates of hyperkalemia but no slowing of CKD.22
Within the RAAS cascade, ACEis block the formation of angiotensin II and ARBs prevent angiotensin II from binding to the adrenal receptor. This impairs renal excretion of potassium and potentially contributes to hyperkalemia.5 Nonetheless, when patients on ACEis or ARBs develop hyperkalemia, aldosterone concentrations usually decrease due to preexisting illnesses (eg, diabetes, heart failure, CKD, AKI) or drug effects (eg, potassium-sparing diuretics, ß-blockers, digoxin).5 Ultimately, a combination of factors resulting from ACEi or ARB therapy causes reductions in renal perfusion and predisposes patients to hyperkalemia.5
NSAIDs may lead to hyperkalemia, as they interfere with prostaglandin release, decrease renal perfusion, and reduce renin and aldosterone levels.22 ß-blockers and tacrolimus inhibit renin release, leading to decreased aldosterone levels.5 Potassium-sparing diuretics block the interaction of aldosterone with the aldosterone receptor in the nephron.5 Digoxin decreases the activity of Na-K-ATPase, diminishing potassium uptake by cells.9 Potassium supplements, often prescribed for patients on diuretics, may contribute to hyperkalemia in patients with CKD. In the hospital setting, potassium tablets or IV formulations are utilized to correct hypokalemia. Especially in patients with CKD, clinicians should prescribe these agents with caution to avoid inducing hyperkalemia. Salt substitutes, which commonly contain potassium chloride, may be appealing to patients concerned about their sodium intake. However, consumption of these substitutes may contribute to hyperkalemia, especially in patients with CKD, heart failure, or type 2 diabetes.23
TLS involves rapid release of electrolytes and other intracellular contents into the extracellular space during the lysis of tumor cells.24 Nucleic acids within DNA strands break down and build up extracellularly, leading to hyperuricemia and often AKI. Potassium and other electrolytes released into the plasma during cell lysis can usually be removed by a healthy renal system. In TLS, however, AKI due to uric acid nephropathy prevents kidneys from removing the excess electrolytes from the bloodstream.24 Patients with rapidly growing hematologic tumors undergoing chemotherapy are especially at risk.
Although accreditation for this CE/CME activity has expired, and the posttest is no longer available, you can still read the full article.
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Topics include: Gluten-free diet and celiac disease • Fluoxetine and bone health • Sudden cardiac death and T4 • Morning sickness and pregnancy...
Although accreditation for this CE/CME activity has expired, and the posttest is no longer available, you can still read the full article.
...