A novel analysis technique for transcutaneous measurement of glomerular filtration rate with ultra-low dose marker concentrations.

TitleA novel analysis technique for transcutaneous measurement of glomerular filtration rate with ultra-low dose marker concentrations.
Publication TypeJournal Article
Year of Publication2016
AuthorsShmarlouski, A, Schock-Kusch, D, Shulhevich, Y, Buschmann, V, Rohlicke, T, Herdt, D, Radle, M, Hesser, J, Stsepankou, D
JournalIEEE Trans Biomed Eng
Date Published2015 Nov 18
ISSN1558-2531
Abstract

A novel, high-precision approach (lifetime-decomposition measurement (LTDM)) for the assessment of the glomerular filtration rate (GFR) based on clearance measurements of exogenous filtration marker.

METHODS: The time-correlated single photon counting (TCSPC) acquisition in combination with a new decomposition method allows the separation of signal and background from transcutaneous measurements of GFR.

RESULTS: The performance of LTDM is compared versus the commercially available NICKidney patch-based system for transcutaneous GFR measurement. Measurements are performed in awake Sprague Dawley (SD) rats. Using the standard concentration required for the NIC-Kidney system (7mg/100g body weight (b.w.) FITCSinistrin) as reference, the mean difference (bias) of the elimination curves GFR between LTDM and NIC-Kidney was 4.8%. On the same animal and same day, the capability of LTDM to measure GFR with a FITC-Sinistrin dose reduced by a factor of 200 (35μg/100g b.w.) was tested as well. The mean differences (half-lives with low dose using LTDM compared with those using first, the NIC-Kidney system and its standard concentration, and second, LTDM with the same concentration as for the NIC-Kidney system) were 3.4% and 4.5%, respectively.

CONCLUSION: We demonstrate that with the LTDM strategy substantial reductions in marker concentrations are possible at the same level of accuracy.

SIGNIFICANCE: LTDM aims to resolve the issue of the currently necessary large doses of fluorescence tracer required for transcutaneous GFR measurement. Due to substantially less influences from autofluorescence and artifacts, the proposed method outperforms other existing techniques for accurate percutaneous organ function measurement.

DOI10.1109/TBME.2015.2501544
Alternate JournalIEEE Trans Biomed Eng
Citation Key362
PubMed ID26595905