Understanding the Different Components of a Kidney Function Test

Kidney function tests (KFTs) are diagnostic tools that assess kidney health. These tests are a group of measurements that evaluate the ability of the kidneys to filter waste from the blood, maintain electrolyte balance, and regulate fluid levels in the body. The test can help detect initial signs of kidney disease, monitor existing kidney conditions, and guide appropriate treatment. If you live in Bangalore, you can get a Kidney Function Test With Electrolytes in Bangalore as part of your routine check-up or if you have symptoms such as difficulty urinating, painful or frequent urination, or blood in your urine. These tests can also help monitor pre-existing conditions such as diabetes and hypertension, providing essential insights into your overall health.

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What Should You Know About Kidney Function Test?

KFTs typically require a blood sample to assess how effectively waste products are being filtered from the kidneys. The early detection of kidney issues can reduce the risk of kidney failure and minimise the need for more intensive treatments like dialysis or kidney transplants. You can choose to get a Kidney Function Test With Electrolytes at Home at many diagnostic services in major cities. This home service is a seamless and hassle-free way to monitor your kidney function.

Key Components of Kidney Function Tests

KFTs with electrolytes evaluate various components related to kidney function to give a comprehensive assessment of kidney health. The key components of KFTs include:

1. Creatinine

This is a waste product formed from creatine phosphate – a substance essential for muscle metabolism. The creatinine that enters the bloodstream is filtered by the kidneys and excreted through urine. Since creatinine is produced at a consistent rate, its levels in the blood are a reliable indicator of kidney function. When there is a decline in kidney function, creatinine levels in blood are seen to increase.

2. Blood Urea Nitrogen (BUN)

Measures the amount of urea nitrogen in the blood, a waste product of protein metabolism. High BUN levels may indicate that the kidneys are not effectively filtering waste from the blood. BUN levels can also be affected by dehydration, high protein intake, or problems with liver function. A BUN-to-creatinine ratio helps differentiate between kidney-related and non-kidney-related causes of elevated BUN. A higher BUN-to-creatinine ratio suggests pre-renal (caused by reduced blood flow to the kidneys) disease, while a lower ratio indicates kidney-related problems. Bleeding in the upper gastrointestinal tract can also significantly elevate this ratio.

3. Estimated Glomerular Filtration Rate (eGFR)

This measures how well the kidneys filter waste from the blood. Glomeruli, the small filters in the kidneys, remove waste from the blood. The glomerular filtration rate (GFR) calculates how much blood these filters clean each minute. eGFR is calculated using serum creatinine levels along with factors such as age, gender, body size (height/weight), and race or ethnicity. This calculation allows for a more personalised measurement of the filtering capacity of kidneys. eGFR levels can be used to determine the severity of kidney disease:

Lower levels of GFR indicate worsening kidney function and can be a sign of chronic kidney disease (CKD). Therefore, monitoring GFR can help determine the severity of CKD and the need for interventions like medication, dialysis, or lifestyle changes.

4. Electrolytes (Sodium, Potassium, Chloride, and Bicarbonate)

Electrolytes are essential minerals that help maintain bodily functions such as nerve function, fluid balance, and muscle contractions. Sodium, potassium, chloride, and bicarbonate are the common electrolytes measured for KFTs. The kidneys help regulate electrolyte levels by filtering out excess amounts through urine. Abnormal levels of electrolytes can indicate kidney problems or other health issues such as dehydration or imbalance in fluid levels.

Thus, monitoring all the above parameters can give you a comprehensive understanding of the functioning of your kidneys.

Interpreting the Test Results

KFTs can identify kidney problems at an early stage and help you implement appropriate dietary and lifestyle changes and treatments to preserve kidney function and avoid complications. KFT results can be interpreted as follows:

• Serum creatinine levels: Normal levels range from 0.6 to 1.2 mg/dL in men and 0.5 to 1.1 mg/dL in women. Increased serum creatinine levels may indicate kidney problems. However, elevated levels may also be caused by injuries, muscular dystrophy, intense exercise, dehydration, muscle disorders, and a high-protein diet. Pregnancy-related health conditions can also elevate creatinine levels. Low serum creatinine levels may indicate malnutrition, muscle loss from ageing, long-term illness, nerve disorders, or rarely, severe liver disease.
• BUN levels: Normal levels range from 7 to 24 mg/dL, varying by age and gender. High BUN levels may indicate kidney issues but can also result from a high-protein diet, dehydration, ageing, certain medications, GI bleeding, burns, urinary blockages, stress, or heart attack. Low BUN levels, although rare, may be caused by a low-protein diet, small body size, overhydration, or liver disease. A normal BUN-to-creatinine ratio is typically 10:1 to 20:1. A higher ratio (around 20:1) can indicate pre-renal disease and a lower ratio (closer to 10:1) suggests kidney-related issues. An elevated ratio (above 30:1) may occur with upper gastrointestinal bleeding.
• eGFR: This test measures how well the kidneys filter blood to assess kidney function. Kidney disease can be categorised into stages based on eGFR levels as follows:
• Stage 1: Kidney injury with normal GFR ( >90 ml/min)
• Stage 2: Mild reduction in GFR (60 to 89 mL/min)
• Stage 3a: Moderate reduction in GFR (45 to 59 mL/min)
• Stage 3b: Moderate reduction in GFR (30 to 44 mL/min)
• Stage 4: Severe reduction in GFR (15 to 29 mL/min)
• Stage 5: Renal failure (GFR <15 mL/min)
• Sodium: Sodium levels normally range from 135 to 145 milliequivalents per litre (mEq/L). High sodium levels (hypernatremia) can indicate dehydration or kidney dysfunction, while low levels (hyponatremia) could be the result of fluid retention or kidney disease.
• Potassium: Normal potassium levels are between 3.5 to 5.0 mEq/L. High potassium (hyperkalaemia) is often linked to kidney diseases and can be dangerous, while low potassium levels (hypokalaemia) may result from diuretics or dehydration.
• Chloride: Normal levels range from 96 to 106 mEq/L. Abnormal chloride levels can disrupt the body’s acid-base balance, which may indicate kidney or metabolic problems.

Conclusion

KFTs are beneficial in assessing kidney health. Key parameters of the test include serum creatinine, BUN, eGFR, and electrolytes, which help determine if the kidneys are functioning properly. Routine testing is necessary for the early detection and management of kidney diseases. The Kidney Function Test with Electrolytes Cost may vary depending on the test components and laboratory. If you experience symptoms of kidney disease, consult a doctor to guide you on your testing options.