Youssef Chahid1,2, Nienke M G Rorije3, Soufian El Boujoufi4, Ron A A Mathôt5, Liffert Vogt3, Hein J Verberne4. 1. Department of Radiology and Nuclear Medicine, Amsterdam University Medical Centers, University of Amsterdam, Amsterdam, The Netherlands. y.chahid@amsterdamumc.nl. 2. Department of Clinical Pharmacy, Amsterdam University Medical Centers, University of Amsterdam, Amsterdam, The Netherlands. y.chahid@amsterdamumc.nl. 3. Department of Internal Medicine, Section of Nephrology, Amsterdam University Medical Centers, Amsterdam Cardiovascular Sciences, University of Amsterdam, Amsterdam, The Netherlands. 4. Department of Radiology and Nuclear Medicine, Amsterdam University Medical Centers, University of Amsterdam, Amsterdam, The Netherlands. 5. Department of Clinical Pharmacy, Amsterdam University Medical Centers, University of Amsterdam, Amsterdam, The Netherlands.
Abstract
BACKGROUND: Increased vascular permeability is an early sign of vascular damage and can be measured with the transcapillary escape rate of albumin (TERalb). Although TERalb has a multi-exponential kinetic model, most published TERalb data are based on mono-exponential kinetic models with variation in blood sampling schemes. Aim of this posthoc study was to evaluate the influence of variation in blood sampling schemes and the impact of mono- or bi-exponential analyses on the calculation of TERalb. Study participants were part of a cross-over intervention study protocol, investigating effects of sodium loading on blood pressure, endothelial surface layer and microcirculation. Multiple blood samples were drawn between 3 and 60 min after injection of radioactive iodide labeled human serum albumin (rHSA). RESULTS: In total 27 male participants with 54 measurements were included. For all participants the maximum serum radioactivity was reached within 20 min, while 85% of the participants had their maximum serum activity within 10 min. The TERalb calculated with the subsequently chosen T20-60 min reference scheme (6.19 ± 0.49%/h) was significantly lower compared to the TERalb of the T3-60 min, T5-60 min, and Tmax - 60 min schemes. There was no significant difference between the T20-60 min reference scheme and the T10-60 min and T15-60 min schemes. Bi-exponential kinetic modeling did not result in significant different observations compared to the mono-exponential kinetic analysis. CONCLUSIONS: As there is variation in the timing of the maximum serum radioactivity of rHSA, blood sampling schemes starting before 10 min after administration of rHSA will result in a significant overestimation of TERalb. In addition, variation in kinetic modeling did not result in significant changes in TERalb. Therefore, we emphasize the need to standardize TERalb and for practical and logistical reasons advocate the use of a mono-exponential model with blood sampling starting 20 min after rHSA administration.
BACKGROUND: Increased vascular permeability is an early sign of vascular damage and can be measured with the transcapillary escape rate of albumin (TERalb). Although TERalb has a multi-exponential kinetic model, most published TERalb data are based on mono-exponential kinetic models with variation in blood sampling schemes. Aim of this posthoc study was to evaluate the influence of variation in blood sampling schemes and the impact of mono- or bi-exponential analyses on the calculation of TERalb. Study participants were part of a cross-over intervention study protocol, investigating effects of sodium loading on blood pressure, endothelial surface layer and microcirculation. Multiple blood samples were drawn between 3 and 60 min after injection of radioactive iodide labeled humanserum albumin (rHSA). RESULTS: In total 27 male participants with 54 measurements were included. For all participants the maximum serum radioactivity was reached within 20 min, while 85% of the participants had their maximum serum activity within 10 min. The TERalb calculated with the subsequently chosen T20-60 min reference scheme (6.19 ± 0.49%/h) was significantly lower compared to the TERalb of the T3-60 min, T5-60 min, and Tmax - 60 min schemes. There was no significant difference between the T20-60 min reference scheme and the T10-60 min and T15-60 min schemes. Bi-exponential kinetic modeling did not result in significant different observations compared to the mono-exponential kinetic analysis. CONCLUSIONS: As there is variation in the timing of the maximum serum radioactivity of rHSA, blood sampling schemes starting before 10 min after administration of rHSA will result in a significant overestimation of TERalb. In addition, variation in kinetic modeling did not result in significant changes in TERalb. Therefore, we emphasize the need to standardize TERalb and for practical and logistical reasons advocate the use of a mono-exponential model with blood sampling starting 20 min after rHSA administration.
Entities:
Keywords:
Radioactive iodide labeled human serum albumin; TERalb; Transcapillary escape rate of albumin; Vascular permeability
Authors: Aida Kulo; Anne Smits; Sanita Maleškić; Marc Van de Velde; Kristel Van Calsteren; Jan De Hoon; Rene Verbesselt; Jan Deprest; Karel Allegaert Journal: Bosn J Basic Med Sci Date: 2017-02-21 Impact factor: 3.363