![]() ![]() ![]() ProfileĪlbumin, ALP, ALT, AST, bilirubin, BUN, calcium, carbon dioxide, chlorine, creatinine, glucose, potassium, sodium, total protein The following is a list of lab profiles, tests included in the profile and how the results of the profile is used. ![]() For example, a kidney profile can assess the function of your kidneys. A profile can assess and diagnosis a condition. A profile may be ordered where your doctor does not have a specific clinical diagnosis for your condition. Lab profiles are groups of test that are targeted at a certain organ or disease process. Lab Tests and Values Lab Profiles Categories of Laboratory Tests Lab Tests and Values Test The normal range of values for lab tests are established and acceptable values within which the test results for a healthy person are expected to fall. Lab tests can help identify these imbalances which will aid the medical professional in understanding and treating the underlying problem.įurthermore, if you are on medications, lab tests and lab profiles can also be used to determine the exact amount of medicine that you should be taking to appropriately treat your condition. The disease can cause the imbalance, and vice versa, the imbalance may cause the disease. a disease state), these ranges can change as a result of an imbalance in your body. When you have a pathologic condition (e.g. When your body is in homeostasis, the values for fluids, chemicals, electrolytes, and secretions ( hormones) are typically within an acceptable or “normal” range. When your body is healthy, it functions normally in a state of homeostasis or equilibrium. In particular, prerenal disease should not be excluded by a normal ratio since diminished urea production (due to decreased protein intake or underlying liver disease) can prevent the expected rise in BUN due to increased tubular reabsorption.Lab tests, along with a health history and physical exam, are used by physicians to diagnose and manage health conditions. In contrast to the potential utility of a high BUN/serum creatinine ratio, a normal ratio is of limited diagnostic utility. However, this problem is chronic and cannot explain an acute rise in the BUN out of proportion to any change in the serum creatinine concentration. The BUN/serum creatinine ratio can exceed 20:1 when loss of muscle mass in a chronically ill or older patient lowers creatinine production and, therefore, the serum creatinine concentration, independent of the GFR. The BUN will rise out of proportion to the serum creatinine when urea production is increased due to GI bleed (upper somewhat more than lower), tissue breakdown, or glucocorticoid therapy. Thus, a high ratio is suggestive of prerenal disease as long as some other cause of a high ratio is not present. The BUN/Cr ratio is normal at 10 to 15:1 in ATN (intrarenal), but is often greater than 20:1 in prerenal disease due to the increase in the passive reabsorption of urea that follows the enhanced proximal reabsorption of sodium and water. *** A BUN/Cr ratio that is high when BUN and Creatinine are either low or at the lower range of normal is not going to be clinically significant. In ATN, the reabsorption of BUN or secretion of Cr is decreased making the ratio to be normal. As they pass through the renal tubule, BUN is reabsorbed from the PCT (proximal convoluted tubule) while Creatinine is not reabsorbed but instead, more is secreted into the tube in the DCT. In normal circumstances, Both BUN and Cr are filtered. Renal damage causes reduced reabsorption of BUN, therefore lowering the BUN:Cr ratio. Some sources say the normal range is 10-15:1. Dehydration or hypoperfusion is suspected. BUN is disproportionately elevated relative to creatinine in serum. Urea is made in the liver as a by-product of protein metabolism. *Note that BUN=Blood urea nitrogen which is essentially a measurement of urea. The ratio may be decreased with liver disease (due to a decrease in the formation of urea) and malnutrition. It may also be seen with increased protein, from BI bleed, or increased protein in the diet. An increased ratio may be due to a condition that causes a decrease in the flow of blood to the kidneys, such as CHF or dehydration. The ratio of BUN to creatinine is usually between 10:1 and 20:1. We may look at the BUN / Creatinine ratio to help determine the cause of renal failure. ![]()
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