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Renal function
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Functions of the kidney
regulation e.g. homeostasis, water, acid/base excretion e.g. urea, creatinine endocrine e.g. renin, erythropoietin, 1,25 dihydroxycholecalciferol- conversion only in kidney! The kidneys excrete the end products of metabolism, urea from amino acid breakdown, uric acid from purine (nucleic acids) metabolism and creatinine from the catabolism of creatine an amino acid found in muscle. Homeostatic functions include the maintenance of water balance by regulating urine volume, acid base balance by altering hydrogen ion excretion, sodium balance by altering the rate of sodium reabsorption. Endocrine functions include the secretion of renin from the JGA which influences aldosterone. Erythropoietin effects the rate of red cell production and 1,25-dihydroxycholecalciferol is the active form of vitamin D, effecting calcium homeostasis. Patients with chronic renal disease and impaired renal functions will show defects in endocrine and excretory functions before the loss of homeostatic control. When the homeostatic functions cease then the patient is in renal failure and would die if there were no interventions.
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Renal function tests Detect renal damage Monitor functional damage
Help determine etiology From a clinical perspective it is important to have test which would have these characteristics. No such test exists. An early test to detect renal damage, for instance a simple strip test for haematuria is important in screening for heavy metal poisoning. There is a clinical need to monitor a patient with renal disease and this is achieved by serial plasma measurements. We need to know when to start dialysis in renal failure and laboratory tests assist the clinical decision making. There are about a million nephrons in each kidney and this represents a considerable functional reserve. In renal disease about half the nephrons have to lose their functioning before the abnormality can be detected by conventional laboratory tests.
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Laboratory tests of renal function
urine protein urine glucose hematuria osmolality glomerular filtration rate (GFR) plasma creatinine plasma urea urine volume urine urea minerals in urine I shall review the tests in the left column today. The measurement of urine protein is important in certain conditions, e.g.diabetes. The detection of substances such as red cells or glucose could be an early indicator of renal damage.
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Kidney Function A plumbers view
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Kidney – basic data Urine excreted daily in adults: cca 1.5L
The renal blood flow= 20% of cardiac output Plasma renal flow= PRF ca 600 mL/Min./1.73 M2 Reflects two processes Ultrafiltration (GFR): 180 L/day Reabsorption: >99% of the amount filtered
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How do you know it’s broken?
Decreased urine production Clinical symptoms Tests
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Causes of kidney functional disorders
Pre-renal e.g. decreased intravascular volume Renal e.g. acute tubular necrosis Postrenal e.g. ureteral obstruction Oliguria is a significant finding in a patient. An example is provided by Case 3 in the Chem Path tutorials. The traditional classification of causes is into prerenal, renal and postrenal. Usually the cause of the oliguria is obvious and can be appropriately managed.
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Renal Function Tests- Urine volumes
Adults: 1.5 L/24 h typical in health, oliguria < 400 mL, anuria < 100 mL, polyuria > 3000 mL Children: ca 1.5 ml/Kg Urine volume depends on how much you drink and sweat. In health it is closely matched to water balance by the hormone ADH or vasopressin, AVP. We define abnormally low urine volume as a 24 hour volume less than 400 mL. This is known as oliguria. A patient is considered anuric when there is no or little urine, less than 100 mL/24 h. There is no absolute definition for polyuria as some people can drink an awful lot and match it with a high urine output. If a patient has a urine volume greater than 3 litres per day and is not drinking then this is polyuria.
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Principle of Clearance
Some substances when filtered enter the tubules are not reabsorbed and so 100% excreted and so they will be equal to GFR An example is creatinine which is an endogenous substances formed constantly in the body Clearance= GFR = U/P * V (V=volume of urine, U= Concentration of substance in urine, P= concentration of substance in plasma) I shall review the tests in the left column today. The measurement of urine protein is important in certain conditions, e.g.diabetes. The detection of substances such as red cells or glucose could be an early indicator of renal damage.
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Plasma urea (BUN) = BUN (blood urea nitrogen)
Urea: product of protein catabolism Synthesized by liver, majority excreted by kidney, partially reabsorbed in tubuli Plasma concentration increases with decreased GFR Urea is easily measured. It has a wide reference range and the value increases after a meal. Its concentration is increased in many different conditions which makes it sensitive to the presence of disease but a non-specific test.
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Urea cycle aspartate CO2 NH3 Urea Cycle 3 ATP Urea
In health only about 60% of filtered urea is excreted the rest is reabsorbed passively by the renal tubules. The rate of urea reabsorption is variable and depends on the rate of tubular flow. More urea is reabsorbed if the flow rate is slow as there is more time for urea to diffuse into the peritubular capillaries. Flow rate is slow when there is a decrease in RBF, following myocardial infarction for example. More urea is reabsorbed and plasma urea increases. Many conditions result in renal hypoperfusion including fluid loss, circulatory insufficiency, renal artery stenosis Urea
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Enzymatic conductivity rate method for measuring urea
Urea + 3H2O urease Urease solution HCO3¯ + 2NH4 + OH¯ From a clinical perspective it is important to have test which would have these characteristics. No such test exists. An early test to detect renal damage, for instance a simple strip test for haematuria is important in screening for heavy metal poisoning. There is a clinical need to monitor a patient with renal disease and this is achieved by serial plasma measurements. We need to know when to start dialysis in renal failure and laboratory tests assist the clinical decision making. There are about a million nephrons in each kidney and this represents a considerable functional reserve. In renal disease about half the nephrons have to lose their functioning before the abnormality can be detected by conventional laboratory tests.
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Urea in patients with kidney diseases
Useful test but must be interpreted with great care, urea plasma level is more than creatinine dependent on protein intake Most useful when considered along with creatinine High in high protein intake, low in severe liver dysfunction
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Plasma creatinine and renal functions
Creatine: main storage compound of high energy phosphate needed for muscle metabolism. Creatinine: anhydride of creatine! Creatine Creatinine (Waste product) H2O In most circumstances the measurement of plasma creatinine can provide a specific test of glomerular function. The reference range is wide. A body builder may have a plasma creatinine at the top end and an old lady a value at the low end and this reflects muscle mass. Plasma creatinine should not be measured until 8 hours after a meal as there is some evidence that the concentration increases after meat ingestion. Plasma creatinine concentration increases when GFR falls. The problem is that GFR has to fall quite a bit before plasma creatinine concentration reliably increases. There are some important analytical interferences which you should check with the laboratory. A patient with ketoacidosis, jaundice or infection might have agents in the plasma which could invalidate the measurement of creatinine. Overhead 1 follows
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Jaffe´ reaction for measuring creatinine, simple, but better is enzymatic method
Creatinine + alkaline picrate solution Bright orange/red colored complex absorbs light at 485nm GFR is not often measured in clinical practice. It requires a patient to come to hospital. Currently people who are considering donating a kidney whilst they are alive have their GFR measured. Before administering a drug with potentially toxic effects some patients will require a GFR measurement before the chemotherapy. This enables the oncologist to calculate the exact dose of drug after estimating its elimination rate. GFR used to be measured by calculating the clearance of inulin. Nowadays radioactive substances are used, either technetium labelled diethylenediaminetetra acetic acid DTPA or 51-chromium labelled EDTA ethylenediaminetetra acetic acid.
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Analytical methods (Cr)
Normal range Pcr Male mg/dL, Female mg/dL
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Osmolality of urine Measures urine concentrating ability
Depends on # of particles, not size or charge Largely due to ADH (anti-diuretic hormone) Can reach maximum of 1200 mOsm/L Normal range: mOsm/L, plasma prior to collection, fluid intake restricted, first void submitted for evaluation
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