Pre-clinical Evaluation of a Cyanine-Based SPECT Probe for Multimodal Tumor Necrosis Imaging

Marieke A Stammes; Vicky T Knol-Blankevoort; Luis J Cruz; Hans R I J Feitsma; Laura Mezzanotte; Robert A Cordfunke; Riccardo Sinisi; Elena A Dubikovskaya; Azusa Maeda; Ralph S DaCosta; Katja Bierau; Alan Chan; Eric L Kaijzel; Thomas J A Snoeks; Ermond R van Beek; Clemens W G M Löwik

doi:10.1007/s11307-016-0972-7

Pre-clinical Evaluation of a Cyanine-Based SPECT Probe for Multimodal Tumor Necrosis Imaging

Marieke A Stammes, Vicky T Knol-Blankevoort, Luis J Cruz, Hans R I J Feitsma, Laura Mezzanotte, Robert A Cordfunke, Riccardo Sinisi, Elena A Dubikovskaya, Azusa Maeda, Ralph S DaCosta, Katja Bierau, Alan Chan, Eric L Kaijzel, Thomas J A Snoeks, Ermond R van Beek, Clemens W G M Löwik

Radiology & Nuclear Medicine

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

PURPOSE: Recently we showed that a number of carboxylated near-infrared fluorescent (NIRF) cyanine dyes possess strong necrosis avid properties in vitro as well as in different mouse models of spontaneous and therapy-induced tumor necrosis, indicating their potential use for cancer diagnostic- and prognostic purposes. In the previous study, the detection of the cyanines was achieved by whole body optical imaging, a technique that, due to the limited penetration of near-infrared light, is not suitable for investigations deeper than 1 cm within the human body. Therefore, in order to facilitate clinical translation, the purpose of the present study was to generate a necrosis avid cyanine-based NIRF probe that could also be used for single photon emission computed tomography (SPECT). For this, the necrosis avid NIRF cyanine HQ4 was radiolabeled with 111indium, via the chelate diethylene triamine pentaacetic acid (DTPA).

PROCEDURES: The necrosis avid properties of the radiotracer [111In]DTPA-HQ4 were examined in vitro and in vivo in different breast tumor models in mice using SPECT and optical imaging. Moreover, biodistribution studies were performed to examine the pharmacokinetics of the probe in vivo.

RESULTS: Using optical imaging and radioactivity measurements, in vitro, we showed selective accumulation of [111In]DTPA-HQ4 in dead cells. Using SPECT and in biodistribution studies, the necrosis avidity of the radiotracer was confirmed in a 4T1 mouse breast cancer model of spontaneous tumor necrosis and in a MCF-7 human breast cancer model of chemotherapy-induced tumor necrosis.

CONCLUSIONS: The radiotracer [111In]DTPA-HQ4 possessed strong and selective necrosis avidity in vitro and in various mouse models of tumor necrosis in vivo, indicating its potential to be clinically applied for diagnostic purposes and to monitor anti-cancer treatment efficacy.

Original language	English
Pages (from-to)	905-915
Number of pages	11
Journal	Molecular Imaging and Biology
Volume	18
Issue number	6
Early online date	8 Jun 2016
DOIs	https://doi.org/10.1007/s11307-016-0972-7
Publication status	Published - Dec 2016

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Stammes, M. A., Knol-Blankevoort, V. T., Cruz, L. J., Feitsma, H. R. I. J., Mezzanotte, L., Cordfunke, R. A., Sinisi, R., Dubikovskaya, E. A., Maeda, A., DaCosta, R. S., Bierau, K., Chan, A., Kaijzel, E. L., Snoeks, T. J. A., van Beek, E. R., & Löwik, C. W. G. M. (2016). Pre-clinical Evaluation of a Cyanine-Based SPECT Probe for Multimodal Tumor Necrosis Imaging. Molecular Imaging and Biology, 18(6), 905-915. https://doi.org/10.1007/s11307-016-0972-7

@article{2ef2fd3d410142d2ae9f8c174a50aa77,

title = "Pre-clinical Evaluation of a Cyanine-Based SPECT Probe for Multimodal Tumor Necrosis Imaging",

abstract = "PURPOSE: Recently we showed that a number of carboxylated near-infrared fluorescent (NIRF) cyanine dyes possess strong necrosis avid properties in vitro as well as in different mouse models of spontaneous and therapy-induced tumor necrosis, indicating their potential use for cancer diagnostic- and prognostic purposes. In the previous study, the detection of the cyanines was achieved by whole body optical imaging, a technique that, due to the limited penetration of near-infrared light, is not suitable for investigations deeper than 1 cm within the human body. Therefore, in order to facilitate clinical translation, the purpose of the present study was to generate a necrosis avid cyanine-based NIRF probe that could also be used for single photon emission computed tomography (SPECT). For this, the necrosis avid NIRF cyanine HQ4 was radiolabeled with 111indium, via the chelate diethylene triamine pentaacetic acid (DTPA).PROCEDURES: The necrosis avid properties of the radiotracer [111In]DTPA-HQ4 were examined in vitro and in vivo in different breast tumor models in mice using SPECT and optical imaging. Moreover, biodistribution studies were performed to examine the pharmacokinetics of the probe in vivo.RESULTS: Using optical imaging and radioactivity measurements, in vitro, we showed selective accumulation of [111In]DTPA-HQ4 in dead cells. Using SPECT and in biodistribution studies, the necrosis avidity of the radiotracer was confirmed in a 4T1 mouse breast cancer model of spontaneous tumor necrosis and in a MCF-7 human breast cancer model of chemotherapy-induced tumor necrosis.CONCLUSIONS: The radiotracer [111In]DTPA-HQ4 possessed strong and selective necrosis avidity in vitro and in various mouse models of tumor necrosis in vivo, indicating its potential to be clinically applied for diagnostic purposes and to monitor anti-cancer treatment efficacy.",

author = "Stammes, {Marieke A} and Knol-Blankevoort, {Vicky T} and Cruz, {Luis J} and Feitsma, {Hans R I J} and Laura Mezzanotte and Cordfunke, {Robert A} and Riccardo Sinisi and Dubikovskaya, {Elena A} and Azusa Maeda and DaCosta, {Ralph S} and Katja Bierau and Alan Chan and Kaijzel, {Eric L} and Snoeks, {Thomas J A} and {van Beek}, {Ermond R} and L{\"o}wik, {Clemens W G M}",

year = "2016",

month = dec,

doi = "10.1007/s11307-016-0972-7",

language = "English",

volume = "18",

pages = "905--915",

journal = "Molecular Imaging and Biology",

issn = "1536-1632",

publisher = "Springer Science+Business Media",

number = "6",

}

Stammes, MA, Knol-Blankevoort, VT, Cruz, LJ, Feitsma, HRIJ, Mezzanotte, L, Cordfunke, RA, Sinisi, R, Dubikovskaya, EA, Maeda, A, DaCosta, RS, Bierau, K, Chan, A, Kaijzel, EL, Snoeks, TJA, van Beek, ER & Löwik, CWGM 2016, 'Pre-clinical Evaluation of a Cyanine-Based SPECT Probe for Multimodal Tumor Necrosis Imaging', Molecular Imaging and Biology, vol. 18, no. 6, pp. 905-915. https://doi.org/10.1007/s11307-016-0972-7

TY - JOUR

T1 - Pre-clinical Evaluation of a Cyanine-Based SPECT Probe for Multimodal Tumor Necrosis Imaging

AU - Stammes, Marieke A

AU - Knol-Blankevoort, Vicky T

AU - Cruz, Luis J

AU - Feitsma, Hans R I J

AU - Mezzanotte, Laura

AU - Cordfunke, Robert A

AU - Sinisi, Riccardo

AU - Dubikovskaya, Elena A

AU - Maeda, Azusa

AU - DaCosta, Ralph S

AU - Bierau, Katja

AU - Chan, Alan

AU - Kaijzel, Eric L

AU - Snoeks, Thomas J A

AU - van Beek, Ermond R

AU - Löwik, Clemens W G M

PY - 2016/12

Y1 - 2016/12

N2 - PURPOSE: Recently we showed that a number of carboxylated near-infrared fluorescent (NIRF) cyanine dyes possess strong necrosis avid properties in vitro as well as in different mouse models of spontaneous and therapy-induced tumor necrosis, indicating their potential use for cancer diagnostic- and prognostic purposes. In the previous study, the detection of the cyanines was achieved by whole body optical imaging, a technique that, due to the limited penetration of near-infrared light, is not suitable for investigations deeper than 1 cm within the human body. Therefore, in order to facilitate clinical translation, the purpose of the present study was to generate a necrosis avid cyanine-based NIRF probe that could also be used for single photon emission computed tomography (SPECT). For this, the necrosis avid NIRF cyanine HQ4 was radiolabeled with 111indium, via the chelate diethylene triamine pentaacetic acid (DTPA).PROCEDURES: The necrosis avid properties of the radiotracer [111In]DTPA-HQ4 were examined in vitro and in vivo in different breast tumor models in mice using SPECT and optical imaging. Moreover, biodistribution studies were performed to examine the pharmacokinetics of the probe in vivo.RESULTS: Using optical imaging and radioactivity measurements, in vitro, we showed selective accumulation of [111In]DTPA-HQ4 in dead cells. Using SPECT and in biodistribution studies, the necrosis avidity of the radiotracer was confirmed in a 4T1 mouse breast cancer model of spontaneous tumor necrosis and in a MCF-7 human breast cancer model of chemotherapy-induced tumor necrosis.CONCLUSIONS: The radiotracer [111In]DTPA-HQ4 possessed strong and selective necrosis avidity in vitro and in various mouse models of tumor necrosis in vivo, indicating its potential to be clinically applied for diagnostic purposes and to monitor anti-cancer treatment efficacy.

AB - PURPOSE: Recently we showed that a number of carboxylated near-infrared fluorescent (NIRF) cyanine dyes possess strong necrosis avid properties in vitro as well as in different mouse models of spontaneous and therapy-induced tumor necrosis, indicating their potential use for cancer diagnostic- and prognostic purposes. In the previous study, the detection of the cyanines was achieved by whole body optical imaging, a technique that, due to the limited penetration of near-infrared light, is not suitable for investigations deeper than 1 cm within the human body. Therefore, in order to facilitate clinical translation, the purpose of the present study was to generate a necrosis avid cyanine-based NIRF probe that could also be used for single photon emission computed tomography (SPECT). For this, the necrosis avid NIRF cyanine HQ4 was radiolabeled with 111indium, via the chelate diethylene triamine pentaacetic acid (DTPA).PROCEDURES: The necrosis avid properties of the radiotracer [111In]DTPA-HQ4 were examined in vitro and in vivo in different breast tumor models in mice using SPECT and optical imaging. Moreover, biodistribution studies were performed to examine the pharmacokinetics of the probe in vivo.RESULTS: Using optical imaging and radioactivity measurements, in vitro, we showed selective accumulation of [111In]DTPA-HQ4 in dead cells. Using SPECT and in biodistribution studies, the necrosis avidity of the radiotracer was confirmed in a 4T1 mouse breast cancer model of spontaneous tumor necrosis and in a MCF-7 human breast cancer model of chemotherapy-induced tumor necrosis.CONCLUSIONS: The radiotracer [111In]DTPA-HQ4 possessed strong and selective necrosis avidity in vitro and in various mouse models of tumor necrosis in vivo, indicating its potential to be clinically applied for diagnostic purposes and to monitor anti-cancer treatment efficacy.

U2 - 10.1007/s11307-016-0972-7

DO - 10.1007/s11307-016-0972-7

M3 - Article

C2 - 27277828

SN - 1536-1632

VL - 18

SP - 905

EP - 915

JO - Molecular Imaging and Biology

JF - Molecular Imaging and Biology

IS - 6

ER -

Pre-clinical Evaluation of a Cyanine-Based SPECT Probe for Multimodal Tumor Necrosis Imaging

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