AssessmentsAcute kidney injury: Clinical practice
USMLE® Step 1 style questions USMLE
USMLE® Step 2 style questions USMLE
A 38-year-old woman comes to the emergency department for evaluation of altered mental status that began five hours ago. She is accompanied by her husband. Past medical history is notable for asthma and diffuse scleroderma. On arrival, her temperature is 37.6°C (99.7°F) and blood pressure is 183/121 mmHg. On physical examination, the patient is oriented to self but neither time nor place. Diffuse thickening of the skin is observed, and contractures are present in the bilateral fingers. Laboratory testing is obtained, and results are as follows:
Which of the following is the next best step in the management of this patient’s condition?
Laboratory value Result Hemoglobin 10.7 g/dL Leukocyte Count 7,300/mm3 Platelet Count 80,000/mm3 Blood Urea Nitrogen 35 mg/dL Creatinine, Serum 2.0 mg/dL
Content Reviewers:Rishi Desai, MD, MPH
The most commonly used diagnostic criteria for AKI are the Kidney Disease: Improving Global Outcomes or KDIGO guidelines.
The KDIGO guidelines define AKI as an increase in serum creatinine of at least 0.3 milligrams per deciliter within 48 hours or as an increase in serum creatinine by 1.5 times the baseline serum creatinine within the last 7 days or when the urine volume has been less than 0.5 milliliters per kilogram per hour for six hours.
Based on these criteria, there are three stages of AKI, where stage 1 is mild and stage 3 is severe AKI.
In stage 1 AKI, there’s an increase in serum creatinine to 1.5 to 1.9 times the baseline serum creatinine or an increase in serum creatinine by 0.3 milligrams per deciliter or a decrease in urine output to below 0.5 milligrams per kilogram per hour for 6 to 12 hours.
In stage 2 AKI, there’s an increase in serum creatinine to 2 to 2.9 times the baseline serum creatinine or a decrease in urine output to less than 0.5 milligrams per kilogram per hour for more than 12 hours.
In stage 3 AKI, there’s an increase in serum creatinine to 3 times the baseline serum creatinine or an increase in serum creatinine to more than 4 milligrams per deciliter or a decrease in urine output to less than 0.3 milligrams per kilogram per hour for more than 24 hours or anuria- meaning less than 100 milliliters per day of urine- for more than 12 hours or where renal replacement therapy has been initiated.
All individuals are classified according to whichever criteria places them in the most severe stage of injury.
Once diagnosed, the causes of AKI can be split into prerenal, intrarenal, and post-renal causes.
This can happen in hypovolemic states like an acute hemorrhage, gastrointestinal losses- like with diarrhea and vomiting, renal losses- like with diuretics or osmotic diuresis in hyperglycemia, dermal losses- like with burns and finally sequestration of fluid- also known as third-spacing- like with acute pancreatitis or sepsis.
Now, prerenal AKI can also happen with hypervolemic states where there’s a low effective circulating volume.
One example is severe systolic heart failure leading to pump failure, and when this happens, it’s called cardiorenal syndrome. In this situation, there are signs of heart failure, like hypotension, fatigue, dyspnea, and peripheral edema.
The other way tubules can necrose is via nephrotoxins such as aminoglycosides antibiotics, methotrexate, heavy metals like lead, myoglobin from damaged muscles - like in rhabdomyolysis, ethylene glycol, radiocontrast dye, and uric acid. Typically, the individual has been exposed to a nephrotoxin and has associated symptoms.
For example, if they’ve been exposed to ethylene-glycol, the individual might also be confused and have dilated pupils, whereas if the cause is myoglobinuria - they may have had a recent crush injury.
Labs here show proteinuria that’s above 3.5 grams per day, protein-to-creatinine ratio greater than 3 grams per gram, hypoalbuminemia that’s typically less than 3.5 grams per deciliter and hyperlipidemia, with levels of low-density lipoprotein or LDL above 130 milligrams per deciliter and levels of triglycerides above 150 milligrams per deciliter.
On urinalysis, specifically microscopy, there is lipiduria, which is identified based on the presence of fat droplets.
Finally, it can also present with signs and symptoms of a more severe systemic condition, such as malaise, arthralgia and fever- like with Goodpasture disease.
This is thought to be a type I or type IV hypersensitivity reaction, and is typically a response to a medication like NSAIDs, penicillin, and diuretics, such as thiazide diuretics, like chlorothiazide. Early symptoms include fever and rash.
Now, vascular damage can be caused by renal artery stenosis, which is when one or both renal arteries are narrowed.
This can be caused by atherosclerosis in older individuals and by fibromuscular dysplasia, which is a noninflammatory and nonatherosclerotic condition that usually affects the internal carotids and renal arteries in younger individuals.
Symptoms include persistent arterial hypertension despite taking antihypertensive medications and sometimes peripheral edema.
Finally, there’s postrenal AKI, which is due to an obstruction to the outflow of urine from the kidneys which causes a buildup of urine and pressure that backs up into the kidney.
This is most frequently due to benign prostatic hyperplasia or prostatic cancer in a male, both of which lead to compression of the urethra. This can lead to frequent urination but a slow urinary stream.
Now, if only one ureter is obstructed, called unilateral obstruction, and the other kidney is working fine, then renal function is usually preserved.
Hyperkalemia can develop because when the individual is oliguric, potassium isn’t effectively removed from the blood.
AKI can lead to severe metabolic acidosis where the pH dips below 7.1, because acid excretion is impaired when there’s a low eGFR.
Next, urinalysis- both dipstick and microscopic examination of the urine sediment and urine sodium excretion are done to help calculate the fraction of sodium excreted to sodium filtered, or FENa.