Introduction: Who Should Undergo Diagnostics

Renal injury, also called acute kidney injury or AKI, happens when your kidneys suddenly stop working properly over hours to days. This is not the result of a physical blow to the kidneys as the name might suggest. Instead, it’s a medical condition where the kidneys lose their ability to filter waste products from your blood.^[1]

You should seek diagnostic testing urgently if you notice you are suddenly making much less urine than usual, especially if this happens together with other warning signs. Anyone who is in the hospital, particularly in intensive care units, should be monitored closely because acute kidney injury is very common in these settings. Studies show that AKI affects up to 7% of all hospital admissions and as many as 30% of people admitted to intensive care units.^[5]

Certain groups of people face higher risk and should be especially alert to symptoms. If you are aged 65 or older, you’re more vulnerable to sudden kidney problems. People who already have kidney disease, long-term conditions like heart failure, liver disease, or diabetes are also at increased risk. If you become dehydrated, develop a severe infection or sepsis (a life-threatening response to infection), or have a blockage in your urinary tract, you should seek medical attention promptly.^[4]

It’s also important to know that some medications can put stress on your kidneys. If you’re taking pain medicines like ibuprofen (which belongs to a group called non-steroidal anti-inflammatory drugs or NSAIDs), blood pressure medicines, or certain antibiotics, you may be at higher risk, especially if you’re already unwell or dehydrated. Anyone taking these medications who develops symptoms should see a doctor quickly.^[4]

Diagnostic Methods for Identifying Renal Injury

When doctors suspect acute kidney injury, they use several tests to confirm the diagnosis and understand how severely your kidneys are affected. The first and most important step is measuring substances in your blood that show how well your kidneys are filtering waste.^[7]

Blood Tests

A blood test is the main way doctors diagnose renal injury. The test measures levels of creatinine, a chemical waste product produced by your muscles. When your kidneys are healthy, they remove creatinine from your blood. But when kidney function drops, creatinine levels rise because the kidneys can’t clear it out properly. If there’s a lot of creatinine in your blood, it means your kidneys are not working as they should.^[4]

Doctors also measure blood urea nitrogen (BUN), another waste product. Fast-rising levels of both urea and creatinine strongly suggest that your kidneys have been injured. However, it’s important to know that immediately after a kidney injury, these blood levels might still be in the normal range. In the early hours after injury, the only sign might be that you’re producing less urine than usual.^[5]

The blood test also calculates your estimated glomerular filtration rate or eGFR. This number tells doctors how well your kidneys are filtering blood. A normal eGFR is above 90. The lower the number, the worse your kidney function. This measurement helps doctors classify how severe your kidney injury is.^[8]

Urine Tests and Measurement

Doctors will measure how much urine you produce over 24 hours. This helps identify the cause of kidney failure and shows how severely your kidneys are affected. According to diagnostic criteria, if you produce less than 0.5 milliliters of urine per kilogram of body weight per hour for at least 6 hours, this is a sign of acute kidney injury.^[5]

A urine sample may also be tested in a laboratory through a process called urinalysis. This test can detect protein, blood cells, sugar, and waste products in your urine. These findings give clues about what caused the kidney injury. For example, protein in the urine might suggest damage to the kidney’s filtering units, while blood cells could indicate inflammation or infection.^[4]

Imaging Tests

Imaging tests help doctors see the structure of your kidneys and surrounding organs. An ultrasound scan is the most common imaging test used when renal injury is suspected. This test uses sound waves to create pictures of your kidneys and can reveal if there’s a blockage in your urinary system, such as from an enlarged prostate or a tumor in the pelvis or bladder. Ultrasound can also show kidney stones that might be blocking urine flow.^[4]

In some cases, doctors may order a CT scan (computed tomography scan), which uses X-rays and computers to create detailed three-dimensional images of your kidneys. This test can show more detail than ultrasound and is particularly helpful for identifying certain types of kidney damage or complications.^[7]

Kidney Biopsy

Sometimes, when the cause of kidney injury isn’t clear from blood tests, urine tests, and imaging, your doctor may suggest a kidney biopsy. During this procedure, a healthcare professional uses a needle to remove a small sample of kidney tissue for laboratory testing. The needle is inserted through your skin into the kidney, often guided by an ultrasound image to ensure accuracy. The tissue sample is then examined under a microscope to look for signs of disease, inflammation, or damage that could explain why your kidneys aren’t working properly.^[7]

Additional Investigations

Beyond these main tests, doctors need to gather other information to understand the cause of your kidney injury. They will ask about any other symptoms you have, such as signs of infection or heart failure. They’ll want to know about all medicines you’ve taken in the past week because some medications can damage kidneys. Your medical history, including any existing conditions like diabetes or heart disease, also helps doctors understand why your kidneys stopped working properly.^[4]

Diagnostics for Clinical Trial Qualification

When researchers conduct clinical trials to test new treatments for renal injury, they need to identify patients very carefully. These trials use specific diagnostic criteria to make sure they’re enrolling people with the right type and severity of kidney injury.^[5]

The most widely used tool for classifying acute kidney injury in research settings is the KDIGO (Kidney Disease: Improving Global Outcomes) criteria. This system defines acute kidney injury based on measurable changes in kidney function. According to KDIGO, a patient has AKI if any of the following occurs: their serum creatinine increases by 0.3 milligrams per deciliter or more within 48 hours; their creatinine rises to 1.5 times or more than their baseline level within the prior 7 days; or their urine volume drops below 0.5 milliliters per kilogram per hour for at least 6 hours.^[5]

Clinical trials also use staging systems to categorize how severe the kidney injury is. The KDIGO system divides AKI into three stages. Stage 1 is the mildest form, where creatinine is 1.5 to 1.9 times baseline or has increased by at least 0.3 milligrams per deciliter. Stage 2 is moderate, with creatinine 2.0 to 2.9 times baseline. Stage 3 is the most severe, with creatinine 3.0 times baseline or higher, or the need for dialysis support.^[12]

For trial enrollment, researchers must determine whether the kidney injury is truly acute (sudden) rather than chronic (long-term). This requires knowing what a patient’s kidney function was like before the injury occurred. If no previous test results are available, doctors may use mathematical formulas to estimate what the baseline kidney function should have been based on the person’s age, sex, and other factors.^[5]

Trials also need to identify what caused the kidney injury because some studies focus on specific causes. Researchers categorize causes into three main types: prerenal (caused by reduced blood flow to the kidneys, such as from dehydration or heart failure), intrinsic renal (caused by direct damage to kidney tissue from things like inflammation or medication toxicity), and postrenal (caused by blockages that prevent urine from leaving the kidneys). Distinguishing between these types requires careful analysis of urine chemistry, imaging results, and clinical circumstances.^[5]

For some clinical trials, particularly those testing medicines, additional blood and urine tests may be required. These might include measurements of specific minerals like potassium and phosphorus, tests for proteins in the urine, or assessments of how well blood flows through the kidneys. All these measurements help researchers select patients who are most likely to benefit from the treatment being studied and ensure that the trial results will be meaningful and accurate.^[12]