Serum creatinine is the most commonly used biochemical measure of

Serum GW9662 manufacturer creatinine is the most commonly used biochemical measure of renal function in clinical practice; however significant decline in glomerular filtration rate can occur prior to rise in creatinine (17), (18). Creatinine clearance is an estimate of glomerular filtration rate and a more sensitive measurement of renal function than creatinine (19). Creatinine clearance is measured by 24 hour urine collection. An estimated creatinine clearance

can be calculated by various formulas including the Cockcroft-Gault equation (15). While estimated creatinine clearance is not fully concordant with measured creatinine clearance, such formulas are frequently used Inhibitors,research,lifescience,medical in clinical practice as the clinical and laboratory data points needed for calculation Inhibitors,research,lifescience,medical are readily available on most patients (20), (21). Nuclear renography can provide additional clinically relevant information on renal function and can be used to determine glomerular filtration rate and differential renal function (18), (22), (23). Renal clearance by scintigraphy is an accurate estimate of glomerular filtration rate and

correlates well with creatinine clearance measured by 24 hour urine collection (24), (25). Assessment of each kidney’s relative Inhibitors,research,lifescience,medical contribution to global renal function can be done by both scintigraphy and biochemical endpoints. Techniques for measurement of unilateral creatinine clearance are available but are invasive Inhibitors,research,lifescience,medical and not practical for routine use. Correlation between split renal function as determined by renogram and lateralized creatinine clearance has been shown (26). Renal scintigraphy

can provide accurate quantitative determination of relative renal function less invasively (22), (23), (27). The normal range for symmetric split function Inhibitors,research,lifescience,medical of each kidney is between 45-55% and changes of ≥5% are considered significant (28)-(30). Renal scintigraphy can detect post radiotherapy renal damage prior to creatinine elevation (17),(31)-(33). LeBourgeois and colleagues reported their findings on the renal effects of splenic irradiation Dichloromethane dehalogenase in lymphoma patients using 197Hg neohydrin scintigrams (33). Reduced uptake of radioisotope in the irradiated kidney was detected by the eighth month following radiation, with stabilization after the twentieth month, but not recovery. Radiation induced injury to the kidney was prospectively studied by Dewit et al using scintigraphic and biochemical endpoints (6). Significant progressive renal toxicity was seen following abdominal radiation. In patients who received the highest doses to the entire left kidney, renal function assessed by scintigraphy decreased by 60-70% after 3-5 years whereas creatinine clearance decreased by 20%. In patients in who part of the kidney was shielded, relative renal function decreased by 20-25% at 5 years.

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