PURPOSE: In this study, the authors studied the use of a dual-detector gamma camera to measure the glomerular filtration rate (GFR). METHODS: Thirty-three patients with a wide range of renal function participated in this study. The GFR was measured using a dual-detector gamma camera by calculating the geometric mean of activity from each kidney and using an outline background. These results were compared with the GFR estimates obtained from Tc-99m DTPA plasma clearance using a multiple blood sample method. RESULTS: Correlation was excellent between GFR estimated using the dual-detector gamma camera and GFR measured using the plasma clearance of Tc-99m DTPA with multiple blood samples (r = 0.89). The correlation was especially strong in children younger than 13 years (r = 0.94). CONCLUSION: Measuring the GFR using a dual-detector gamma camera and calculating the geometric mean of renal activity yields relatively accurate results.
PURPOSE: In this study, the authors studied the use of a dual-detector gamma camera to measure the glomerular filtration rate (GFR). METHODS: Thirty-three patients with a wide range of renal function participated in this study. The GFR was measured using a dual-detector gamma camera by calculating the geometric mean of activity from each kidney and using an outline background. These results were compared with the GFR estimates obtained from Tc-99m DTPA plasma clearance using a multiple blood sample method. RESULTS: Correlation was excellent between GFR estimated using the dual-detector gamma camera and GFR measured using the plasma clearance of Tc-99m DTPA with multiple blood samples (r = 0.89). The correlation was especially strong in children younger than 13 years (r = 0.94). CONCLUSION: Measuring the GFR using a dual-detector gamma camera and calculating the geometric mean of renal activity yields relatively accurate results.
Authors: M Donald Blaufox; Diego De Palma; Andrew Taylor; Zsolt Szabo; Alain Prigent; Martin Samal; Yi Li; Andrea Santos; Giorgio Testanera; Mark Tulchinsky Journal: Eur J Nucl Med Mol Imaging Date: 2018-08-30 Impact factor: 9.236