Quantification of Tau Load Using [18F]AV1451 PET

Sandeep S V Golla; Tessa Timmers; Rik Ossenkoppele; Colin Groot; Sander Verfaillie; Philip Scheltens; Wiesje M van der Flier; Lothar Schwarte; Mark A Mintun; Michael Devous; Robert C Schuit; Albert D Windhorst; Adriaan A Lammertsma; Ronald Boellaard; Bart N M van Berckel; Maqsood Yaqub

doi:10.1007/s11307-017-1080-z

Quantification of Tau Load Using [¹⁸F]AV1451 PET

Mol Imaging Biol. 2017 Dec;19(6):963-971. doi: 10.1007/s11307-017-1080-z.

Authors

Sandeep S V Golla¹, Tessa Timmers^{2

3}, Rik Ossenkoppele^{2

3}, Colin Groot², Sander Verfaillie³, Philip Scheltens³, Wiesje M van der Flier^{3

4}, Lothar Schwarte⁵, Mark A Mintun⁶, Michael Devous⁶, Robert C Schuit², Albert D Windhorst², Adriaan A Lammertsma², Ronald Boellaard^{2

7}, Bart N M van Berckel^{2

3}, Maqsood Yaqub²

Affiliations

¹ Department of Radiology and Nuclear Medicine, VU University Medical Center, Amsterdam, Netherlands. s.golla@vumc.nl.
² Department of Radiology and Nuclear Medicine, VU University Medical Center, Amsterdam, Netherlands.
³ Alzheimer Center & Department of Neurology, VU University Medical Center, Amsterdam, Netherlands.
⁴ Department of Epidemiology & Biostatistics, VU University Medical Center, Amsterdam, Netherlands.
⁵ Department of Anaesthesiology, VU University Medical center, Amsterdam, Netherlands.
⁶ Avid Radiopharmaceuticals, Inc., Philadelphia, USA.
⁷ Department of Nuclear Medicine & Molecular Imaging, University of Groningen, University Medical Center Groningen, Groningen, The Netherlands.

Abstract

Purpose: The tau tracer [¹⁸F]AV1451, also known as flortaucipir, is a promising ligand for imaging tau accumulation in Alzheimer's disease (AD). Most of the previous studies have quantified tau load using standardized uptake value ratios (SUVr) derived from a static [¹⁸F]AV1451 scan. SUVr may, however, be flow dependent and, especially for longitudinal studies, should be validated against a fully quantitative approach. The objective of this study was to identify the optimal tracer kinetic model for measuring tau load using [¹⁸F]AV1451.

Procedures: Following intravenous injection of 225 ± 16 MBq [¹⁸F]AV1451, 130 min dynamic PET scans were performed in five biomarker confirmed AD patients and five controls. Arterial blood sampling was performed to obtain a metabolite-corrected plasma input function. Next, regional time-activity curves were generated using PVElab software. These curves were analysed using several pharmacokinetic models.

Results: The reversible single tissue compartment model (1T2k_V_B) was the preferred model for all but one control. For AD patients, however, model preference shifted towards a reversible two tissue compartmental model (2T4k_V_B). The simplified reference tissue model (SRTM) derived binding potential (BP_ND) showed good correlation (AD: r ² = 0.87, slope = 1.06; controls: r ² = 0.87, slope = 0.86) with indirect plasma input binding (distribution volume ratio-1). Standardized uptake value ratios (80-100 min) correlated well with DVR (r ² = 0.93, slope = 1.07) and SRTM-derived BP_ND (r ² = 0.84, slope = 0.95). In addition, regional differences in tracer binding between subject groups in different tau-specific regions were observed.

Conclusions: Model preference of [¹⁸F]AV1451 appears to depend on subject status and, in particular, V_T. The relationship between model preference and V_T suggests that (higher) tau load may be reflected by a second tissue compartment. Nevertheless, consistent results can be obtained using a 2T4k_V_B model. In addition, SRTM can be used to derive BP_ND.

Keywords: Alzheimer’s Disease; Flortaucipir; PET Pharmacokinetic Modeling; Tau Imaging; [18F]AV1451.

MeSH terms

Aged
Alzheimer Disease / diagnostic imaging
Carbolines / blood
Carbolines / chemistry*
Case-Control Studies
Humans
Kinetics
Positron-Emission Tomography*
tau Proteins / metabolism*

Substances

Carbolines
tau Proteins
7-(6-fluoropyridin-3-yl)-5H-pyrido(4,3-b)indole