PT  - JOURNAL ARTICLE
AU  - Cui, Grace
AU  - Akers, Walter
AU  - Scott, Michael
AU  - Allen, John
AU  - Itoh, Akinobu
AU  - Silvestry, Scott
AU  - Tai, Yuan-chuan
AU  - Achilefu, Samuel
AU  - Ewald, Gregory
AU  - Lanza, Gregory
TI  - Diagnosis of ventricular assist device (LVAD) thrombosis using fibrin-specific 99mTc imaging agent
DP  - 2014 May 01
TA  - Journal of Nuclear Medicine
PG  - 405--405
VI  - 55
IP  - supplement 1
4099  - http://jnm.snmjournals.org/content/55/supplement_1/405.short
4100  - http://jnm.snmjournals.org/content/55/supplement_1/405.full
SO  - J Nucl Med2014 May 01; 55
AB  - 405 Objectives To develop a high avidity anti-fibrin 99mTc probe to localize and quantify thrombus within the high shear environment of titanium axial-flow pumps. Methods Monomeric bifunctional ligands with a fibrin-specific peptide, a short spacer, and technetium chelating amino acid sequence (F1A) were covalently inter-coupled via a 4-arm-PEG2000-tetramer to form F4A and each was radiolabeled with 99mTc using the IsoLink procedure. Results LVAD titanium (1mm) housing attenuated the gamma rays by 20%. 99mTc-F1A bound to fibrin with a Kd~4.5 nM, whereas 99mTc-F4A bound more avidly and was not displaced by F1A competition at 120,000:1. 99mTc-F1A binding to fibrin clots was severely impaired by plasma (p&amp;lt;0.05), but no plasma interference was detected for 99mTc-F4A (p&amp;gt;0.05). Pharmacokinetic studies revealed a faster beta-elimination half-life for 99mTc-F4A (124±41min) versus 99mTc-F1A (176±26min). 99mTc-F1A and 99mTc-F4A were both cleared into urine rapidly with negligible liver or spleen accumulation. In vivo studies in mice (n=4/treatment) with carotid thrombus demonstrated an ROI signal intensity (normalized for dose and animal weight) with 99mTc-F4A (0.93±0.11), which was competitively inhibited by 35% (p&amp;lt;0.05) with 3:1 blockade using unlabeled F4A. Using a mock flow-loop (200ml, 50:50, PBS: plasma) with LVAD operating at 10,000 RPM (6 L/min), inline clots exposed to 99mTc-F4A accumulated 0.745±0.04% of the radioactivity dosed (250 µCi) in 2 min compared with clots targeted with 99mTc-F1A (0.16±0.11%), which remained at background levels. Conclusions A novel, fibrin-specific 99mTc small tetrameric molecular imaging agent (99mTc-F4A) was developed to detect, localize, and quantify intra-LVAD thrombosis noninvasively under high-shear conditions and improve medical and surgical management of LVAD patients.