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1. WIN-PDQ: A Wiener-estimator-based projection-domain quantitative SPECT method that accounts for intra-regional uptake heterogeneity

Author

Li, Zekun, Benabdallah, Nadia, Thorek, Daniel L. J., and Jha, Abhinav K.

Subjects
Physics - Medical Physics
Abstract

SPECT can enable the quantification of activity uptake in lesions and at-risk organs in {\alpha}-particle-emitting radiopharmaceutical therapies ({\alpha}-RPTs). But this quantification is challenged by the low photon counts, complicated isotope physics, and the image-degrading effects in {\alpha}-RPT SPECT. Thus, strategies to optimize the SPECT system and protocol designs for the task of regional uptake quantification are needed. Objectively performing this task-based optimization requires a reliable (accurate and precise) regional uptake quantification method. Conventional reconstruction-based quantification (RBQ) methods have been observed to be erroneous for {\alpha}-RPT SPECT. Projection-domain quantification methods, which estimate regional uptake directly from SPECT projections, have demonstrated potential in providing reliable regional uptake estimates, but these methods assume constant uptake within the regions, an assumption that may not hold. To address these challenges, we propose WIN-PDQ, a Wiener-estimator-based projection-domain quantitative SPECT method. The method accounts for the heterogeneity within the regions of interest while estimating mean uptake. An early-stage evaluation of the method was conducted using 3D Monte Carlo-simulated SPECT of anthropomorphic phantoms with radium-223 uptake and lumpy-model-based intra-regional uptake heterogeneity. In this evaluation with phantoms of varying mean regional uptake and intra-regional uptake heterogeneity, the WIN-PDQ method yielded ensemble unbiased estimates and significantly outperformed both reconstruction-based and previously proposed projection-domain quantification methods. In conclusion, based on these preliminary findings, the proposed method is showing potential for estimating mean regional uptake in {\alpha}-RPTs and towards enabling the objective task-based optimization of SPECT system and protocol designs., Comment: The work has been accepted for publication in 2024 SPIE Medical Imaging conference proceedings

Published
2024

2. PYTA: a universal chelator for advancing the theranostic palette of nuclear medicine

Author

Simms, Megan E, Li, Zhiyao, Sibley, Megan M, Ivanov, Alexander S, Lara, Caroline M, Johnstone, Timothy C, Kertesz, Vilmos, Fears, Amanda, White, Frankie D, Thorek, Daniel LJ, and Thiele, Nikki A

Subjects
Inorganic Chemistry, Chemical Sciences, Biomedical Imaging, Bioengineering, Chemical sciences
Abstract

PYTA is demonstrated to rapidly and stably complex 225Ac, 177Lu, 111In, and 44Sc, a “superfecta” of complementary but chemically distinct radiometals for targeted theranostic applications.

Published
2024

3. Joint regional uptake quantification of Thorium-227 and Radium-223 using a multiple-energy-window projection-domain quantitative SPECT method

Author

Li, Zekun, Benabdallah, Nadia, Laforest, Richard, Wahl, Richard L., Thorek, Daniel L. J., and Jha, Abhinav K.

Subjects
Physics - Medical Physics
Abstract

Thorium-227-based alpha-particle radiopharmaceutical therapies ({\alpha}-RPTs) are being investigated in several clinical and pre-clinical studies. After administration, Thorium-227 decays to Radium-223, another alpha-particle-emitting isotope, which redistributes within the patient. Reliable dose quantification of both Thorium-227 and Radium-223 is clinically important, and SPECT may perform this quantification as these isotopes also emit X- and gamma-ray photons. However, reliable quantification is challenged by the orders-of-magnitude lower activity compared to conventional SPECT, resulting in a very low number of detected counts, the presence of multiple photopeaks, substantial overlap in the emission spectra of these isotopes, and the image-degrading effects in SPECT. To address these issues, we propose a multiple-energy-window projection-domain quantification (MEW-PDQ) method that jointly estimates the regional activity uptake of both Thorium-227 and Radium-223 directly using the SPECT projection from multiple energy windows. We evaluated the method with realistic simulation studies using anthropomorphic digital phantoms, in the context of imaging patients with bone metastases of prostate cancer and treated with Thorium-227-based {\alpha}-RPTs. The proposed method yielded reliable (accurate and precise) regional uptake estimates of both isotopes and outperformed state-of-the-art methods across different lesion sizes and contrasts, in a virtual imaging trial, as well as with moderate levels of intra-regional heterogeneous uptake and with moderate inaccuracies in the definitions of the support of various regions. Additionally, we demonstrated the effectiveness of using multiple energy windows and the variance of the estimated uptake using the proposed method approached the Cram\'er-Rao-lower-bound-defined theoretical limit.

Published
2023

4. A list-mode multi-energy window low-count SPECT reconstruction method for isotopes with multiple emission peaks

Author

Rahman, Md Ashequr, Li, Zekun, Yu, Zitong, Laforest, Richard, Thorek, Daniel L. J., and Jha, Abhinav K.

Subjects
Physics - Medical Physics
Abstract

SPECT provides a mechanism to perform absorbed-dose quantification tasks for $\alpha$-particle radiopharmaceutical therapies ($\alpha$-RPTs). However, quantitative SPECT for $\alpha$-RPT is challenging due to the low number of detected counts, the complex emission spectrum, and other image-degrading artifacts. Towards addressing these challenges, we propose a low-count quantitative SPECT reconstruction method for isotopes with multiple emission peaks. Given the low-count setting, it is important that the reconstruction method extract the maximal possible information from each detected photon. Processing data over multiple energy windows and in list-mode (LM) format provide mechanisms to achieve that objective. Towards this goal, we propose a list-mode multi-energy window (LM-MEW) OSEM-based SPECT reconstruction method that uses data from multiple energy windows in LM format, and includes the energy attribute of each detected photon. For computational efficiency, we developed a multi-GPU-based implementation of this method. The method was evaluated using 2-D SPECT simulation studies in a single-scatter setting conducted in the context of imaging [$^{223}$Ra]RaCl${_2}$. The proposed method yielded improved performance on the task of estimating activity uptake within known regions of interest in comparison to approaches that use a single energy window or use binned data. The improved performance was observed in terms of both accuracy and precision and for different sizes of the region of interest. Results of our studies show that the use of multiple energy windows and processing data in LM format with the proposed LM-MEW method led to improved quantification performance in low-count SPECT of isotopes with multiple emission peaks. These results motivate further development and validation of the LM-MEW method for such imaging applications, including for $\alpha$-RPT SPECT.

Published
2023

5. Quantitative In Vivo Imaging of the Androgen Receptor Axis Reveals Degree of Prostate Cancer Radiotherapy Response.

Author

Storey, Claire M, Altai, Mohamed, Bicak, Mesude, Veach, Darren R, Lückerath, Katharina, Adrian, Gabriel, McDevitt, Michael R, Kalidindi, Teja, Park, Julie E, Herrmann, Ken, Abou, Diane, Zedan, Wahed, Peekhaus, Norbert, Klein, Robert J, Damoiseaux, Robert, Larson, Steven M, Lilja, Hans, Thorek, Daniel, and Ulmert, David

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Biomedical Imaging, Prostate Cancer, Aging, Cancer, Radiation Oncology, Urologic Diseases, 2.1 Biological and endogenous factors, Animals, Humans, Male, Mice, Cell Line, Tumor, Positron Emission Tomography Computed Tomography, Prostatic Neoplasms, Radioisotopes, Receptors, Androgen, Zirconium, Developmental Biology, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Noninvasive biomarkers for androgen receptor (AR) pathway activation are urgently needed to better monitor patient response to prostate cancer therapies. AR is a critical driver and mediator of resistance of prostate cancer but currently available noninvasive prostate cancer biomarkers to monitor AR activity are discordant with downstream AR pathway activity. External beam radiotherapy (EBRT) remains a common treatment for all stages of prostate cancer, and DNA damage induced by EBRT upregulates AR pathway activity to promote therapeutic resistance. [89Zr]11B6-PET is a novel modality targeting prostate-specific protein human kallikrein 2 (hK2), which is a surrogate biomarker for AR activity. Here, we studied whether [89Zr]11B6-PET can accurately assess EBRT-induced AR activity.Genetic and human prostate cancer mouse models received EBRT (2-50 Gy) and treatment response was monitored by [89Zr]11B6-PET/CT. Radiotracer uptake and expression of AR and AR target genes was quantified in resected tissue.EBRT increased AR pathway activity and [89Zr]11B6 uptake in LNCaP-AR and 22RV1 tumors. EBRT increased prostate-specific [89Zr]11B6 uptake in prostate cancer-bearing mice (Hi-Myc x Pb_KLK2) with no significant changes in uptake in healthy (Pb_KLK2) mice, and this correlated with hK2 protein levels.ImplicationshK2 expression in prostate cancer tissue is a proxy of EBRT-induced AR activity that can noninvasively be detected using [89Zr]11B6-PET; further clinical evaluation of hK2-PET for monitoring response and development of resistance to EBRT in real time is warranted.

Published
2023

9. A projection-domain low-count quantitative SPECT method for alpha-particle emitting radiopharmaceutical therapy

Author

Li, Zekun, Benabdallah, Nadia, Abou, Diane S., Baumann, Brian C., Dehdashti, Farrokh, Ballard, David H., Liu, Jonathan, Jammalamadaka, Uday, Laforest, Richard, Wahl, Richard L., Thorek, Daniel L. J., and Jha, Abhinav K.

Subjects
Physics - Medical Physics
Abstract

Single-photon emission computed tomography (SPECT) provides a mechanism to estimate regional isotope uptake in lesions and at-risk organs after administration of {\alpha}-particle-emitting radiopharmaceutical therapies ({\alpha}-RPTs). However, this estimation task is challenging due to the complex emission spectra, the very low number of detected counts, the impact of stray-radiation-related noise at these low counts, and the multiple image-degrading processes in SPECT. The conventional reconstruction-based quantification methods are observed to be erroneous for {\alpha}-RPT SPECT. To address these challenges, we developed a low-count quantitative SPECT (LC-QSPECT) method that directly estimates the regional activity uptake from the projection data, compensates for stray-radiation-related noise, and for the radioisotope and SPECT physics. The method was validated in the context of three-dimensional SPECT with 223 Ra. Validation was performed using both realistic simulation studies, including a virtual clinical trial, and synthetic and anthropomorphic physical-phantom studies. Across all studies, the LC-QSPECT method yielded reliable regional-uptake estimates and outperformed the conventional ordered subset expectation maximization (OSEM)-based reconstruction and geometric transfer matrix (GTM)-based post-reconstruction partial-volume compensation methods. Further, the method yielded reliable uptake across different lesion sizes, contrasts, and different levels of intra-lesion heterogeneity. Additionally, the variance of the estimated uptake approached the Cram\'e-Rao bound-defined theoretical limit.

Published
2021

10. Stable Chelation of the Uranyl Ion by Acyclic Hexadentate Ligands: Potential Applications for 230U Targeted α-Therapy.

Author

Unnerstall, Ryan, Hasson, Abbie, Abou, Diane, Radchenko, Valery, Thorek, Daniel, Woods, Joshua, and Wilson, Justin

Subjects
Chelating Agents
Abstract

Uranium-230 is an α-emitting radionuclide with favorable properties for use in targeted α-therapy (TAT), a type of nuclear medicine that harnesses α particles to eradicate cancer cells. To successfully implement this radionuclide for TAT, a bifunctional chelator that can stably bind uranium in vivo is required. To address this need, we investigated the acyclic ligands H2dedpa, H2CHXdedpa, H2hox, and H2CHXhox as uranium chelators. The stability constants of these ligands with UO22+ were measured via spectrophotometric titrations, revealing log βML values that are greater than 18 and 26 for the pa and hox chelators, respectively, signifying that the resulting complexes are exceedingly stable. In addition, the UO22+ complexes were structurally characterized by NMR spectroscopy and X-ray crystallography. Crystallographic studies reveal that all six donor atoms of the four ligands span the equatorial plane of the UO22+ ion, giving rise to coordinatively saturated complexes that exclude solvent molecules. To further understand the enhanced thermodynamic stabilities of the hox chelators over the pa chelators, density functional theory (DFT) calculations were employed. The use of the quantum theory of atoms in molecules revealed that the extent of covalency between all four ligands and UO22+ was similar. Analysis of the DFT-computed ligand strain energy suggested that this factor was the major driving force for the higher thermodynamic stability of the hox ligands. To assess the suitability of these ligands for use with 230U TAT in vivo, their kinetic stabilities were probed by challenging the UO22+ complexes with the bone model hydroxyapatite (HAP) and human plasma. All four complexes were >95% stable in human plasma for 14 days, whereas in the presence of HAP, only the complexes of H2CHXdedpa and H2hox remained >80% intact over the same period. As a final validation of the suitability of these ligands for radiotherapy applications, the in vivo biodistribution of their UO22+ complexes was determined in mice in comparison to unchelated [UO2(NO3)2]. In contrast to [UO2(NO3)2], which displays significant bone uptake, all four ligand complexes do not accumulate in the skeletal system, indicating that they remain stable in vivo. Collectively, these studies suggest that the equatorial-spanning ligands H2dedpa, H2CHXdedpa, H2hox, and H2CHXhox are highly promising candidates for use in 230U TAT.

Published
2022

11. Towards the stable chelation of radium for biomedical applications with an 18-membered macrocyclic ligand

Author

Abou, Diane S, Thiele, Nikki A, Gutsche, Nicholas T, Villmer, Alexandria, Zhang, Hanwen, Woods, Joshua J, Baidoo, Kwamena E, Escorcia, Freddy E, Wilson, Justin J, and Thorek, Daniel LJ

Subjects
Urologic Diseases, Cancer, Chemical Sciences
Abstract

Targeted alpha therapy is an emerging strategy for the treatment of disseminated cancer. [223Ra]RaCl2 is the only clinically approved alpha particle-emitting drug, and it is used to treat castrate-resistant prostate cancer bone metastases, to which [223Ra]Ra2+ localizes. To specifically direct [223Ra]Ra2+ to non-osseous disease sites, chelation and conjugation to a cancer-targeting moiety is necessary. Although previous efforts to stably chelate [223Ra]Ra2+ for this purpose have had limited success, here we report a biologically stable radiocomplex with the 18-membered macrocyclic chelator macropa. Quantitative labeling of macropa with [223Ra]Ra2+ was accomplished within 5 min at room temperature with a radiolabeling efficiency of >95%, representing a significant advancement over conventional chelators such as DOTA and EDTA, which were unable to completely complex [223Ra]Ra2+ under these conditions. [223Ra][Ra(macropa)] was highly stable in human serum and exhibited dramatically reduced bone and spleen uptake in mice in comparison to bone-targeted [223Ra]RaCl2, signifying that [223Ra][Ra(macropa)] remains intact in vivo. Upon conjugation of macropa to a single amino acid β-alanine as well as to the prostate-specific membrane antigen-targeting peptide DUPA, both constructs retained high affinity for 223Ra, complexing >95% of Ra2+ in solution. Furthermore, [223Ra][Ra(macropa-β-alanine)] was rapidly cleared from mice and showed low 223Ra bone absorption, indicating that this conjugate is stable under biological conditions. Unexpectedly, this stability was lost upon conjugation of macropa to DUPA, which suggests a role of targeting vectors in complex stability in vivo for this system. Nonetheless, our successful demonstration of efficient radiolabeling of the β-alanine conjugate with 223Ra and its subsequent stability in vivo establishes for the first time the possibility of delivering [223Ra]Ra2+ to metastases outside of the bone using functionalized chelators, marking a significant expansion of the therapeutic utility of this radiometal in the clinic.

Published
2021

12. Harnessing Androgen Receptor Pathway Activation for Targeted Alpha Particle Radioimmunotherapy of Breast Cancer

Author

Thorek, Daniel LJ, Ku, Anson T, Mitsiades, Nicholas, Veach, Darren, Watson, Philip A, Metha, Dipti, Strand, Sven-Erik, Sharma, Sai Kiran, Lewis, Jason S, Abou, Diane S, Lilja, Hans G, Larson, Steven M, McDevitt, Michael R, and Ulmert, David

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Biotechnology, Breast Cancer, Estrogen, 2.1 Biological and endogenous factors, Aetiology, Alpha Particles, Animals, Biomarkers, Tumor, Breast Neoplasms, Cell Line, Tumor, Disease Models, Animal, Dose-Response Relationship, Drug, Dose-Response Relationship, Radiation, Female, Hexokinase, Humans, Immunoconjugates, Mice, Molecular Targeted Therapy, Radioimmunotherapy, Radiometry, Receptors, Androgen, Signal Transduction, Tissue Distribution, Xenograft Model Antitumor Assays, Oncology & Carcinogenesis, Clinical sciences, Oncology and carcinogenesis
Abstract

PurposeThe impact of androgen receptor (AR) activity in breast cancer biology is unclear. We characterized and tested a novel therapy to an AR-governed target in breast cancer.Experimental Design: We evaluated the expression of prototypical AR gene products human kallikrein 2 (hK2) and PSA in breast cancer models. We screened 13 well-characterized breast cancer cell lines for hK2 and PSA production upon in vitro hormone stimulation by testosterone [dihydrotestosterone (DHT)]. AR-positive lines were further evaluated by exposure to estrogen (17β-Estradiol) and the synthetic progestin D-Norgestrel. We then evaluated an anti-hK2-targeted radiotherapy platform (hu11B6), labeled with alpha (α)-particle emitting Actinium-225, to specifically treat AR-expressing breast cancer xenografts under hormone stimulation.ResultsD-Norgestrel and DHT activated the AR pathway, while 17β-Estradiol did not. Competitive binding for AR protein showed similar affinity between DHT and D-Norgestrel, indicating direct AR-ligand interaction. In vivo production of hK2 was sufficient to achieve site-specific delivery of therapeutic radionuclide to tumor tissue at >20-fold over background muscle uptake; effecting long-term local tumor control.Conclusions[225Ac]hu11B6 targeted radiotherapy was potentiated by DHT and by D-Norgestrel in murine xenograft models of breast cancer. AR activity in breast cancer correlates with kallikrein-related peptidase-2 and can be activated by D-Norgestrel, a common contraceptive, and AR induction can be harnessed for hK2-targeted breast cancer α-emitter radiotherapy.

Published
2019

13. Noninvasive optical and nuclear imaging of Staphylococcus-specific infection with a human monoclonal antibody-based probe

Author

Pastrana, Francisco Romero, Thompson, John M, Heuker, Marjolein, Hoekstra, Hedzer, Dillen, Carly A, Ortines, Roger V, Ashbaugh, Alyssa G, Pickett, Julie E, Linssen, Matthijs D, Bernthal, Nicholas M, Francis, Kevin P, Buist, Girbe, van Oosten, Marleen, van Dam, Gooitzen M, Thorek, Daniel LJ, Miller, Lloyd S, and van Dijl, Jan Maarten

Subjects
Infectious Diseases, Emerging Infectious Diseases, Biomedical Imaging, Prevention, Biotechnology, Infection, Animals, Antibodies, Monoclonal, Antigens, Bacterial, Cadaver, Disease Models, Animal, Fluorescent Dyes, Humans, Mice, Optical Imaging, Staphylococcal Infections, Staphylococcal Skin Infections, Staphylococcus aureus, human monoclonal antibody, immunodominant staphylococcal antigen A, IsaA, PET, Zr-89, 89Zr, Ecological Applications, Microbiology, Medical Microbiology
Abstract

Staphylococcus aureus infections are a major threat in healthcare, requiring adequate early-stage diagnosis and treatment. This calls for novel diagnostic tools that allow noninvasive in vivo detection of staphylococci. Here we performed a preclinical study to investigate a novel fully-human monoclonal antibody 1D9 that specifically targets the immunodominant staphylococcal antigen A (IsaA). We show that 1D9 binds invariantly to S. aureus cells and may further target other staphylococcal species. Importantly, using a human post-mortem implant model and an in vivo murine skin infection model, preclinical feasibility was demonstrated for 1D9 labeled with the near-infrared fluorophore IRDye800CW to be applied for direct optical imaging of in vivo S. aureus infections. Additionally, 89Zirconium-labeled 1D9 could be used for positron emission tomography imaging of an in vivo S. aureus thigh infection model. Our findings pave the way towards clinical implementation of targeted imaging of staphylococcal infections using the human monoclonal antibody 1D9.

Published
2018

16. Chelation of [111In]In3+ with the dual-size-selective macrocycles py-macrodipa and py2-macrodipa.

Author

Lee, Kevin K., Chakraborty, Mou, Hu, Aohan, Kanagasundaram, Thines, Thorek, Daniel L. J., and Wilson, Justin J.

Subjects
SINGLE-photon emission computed tomography, STABILITY constants, RARE earth metals, RARE earth ions, X-ray crystallography
Abstract

Indium-111 (111In) is a diagnostic radiometal that is important in nuclear medicine for single-photon emission computed tomography (SPECT). In order to apply this radiometal, it needs to be stably chelated and conjugated to a targeting vector that delivers it to diseased tissue. Identifying effective chelators that are capable of binding and retaining [111In]In3+ in vivo is an important research area. In this study, two 18-membered macrocyclic chelators, py-macrodipa and py2-macrodipa, were investigated for their ability to form stable coordination complexes with In3+ and to be effectively radiolabeled with [111In]In3+. The In3+ complexes of these two chelators were characterized by NMR spectroscopy, X-ray crystallography, and density functional theory calculations. These studies show that both py-macrodipa and py2-macrodipa form 8-coordinate In3+ complexes and attain an asymmetric conformation, consistent with prior studies on this ligand class with small rare earth metal ions. Spectrophotometric titrations were carried out to determine the thermodynamic stability constants (log KML) of [In(py-macrodipa)]+ and [In(py2- macrodipa)]+, which were found to be 18.96(6) and 19.53(5), respectively, where the values in parentheses are the errors of the last significant figures obtained from the standard deviation from three independent replicates. Radiolabeling studies showed that py-macrodipa and py2-macrodipa can quantitatively be radiolabeled with [111In]In3+ at 25 °C within 5 min, even at ligand concentrations as low as 1 μM. The in vitro stability of the radiolabeled complexes was investigated in human serum at 37 °C, revealing that ∼90% of [111In][In(py-macrodipa)]+ and [111In][In(py2-macrodipa)]+ remained intact after 7 days. The biodistribution of these radiolabeled complexes in mice was investigated, showing lower uptake in the kidneys, liver, and blood at the 24 h mark compared to [111In]InCl3. These results demonstrate the potential of py-macrodipa and py2-macrodipa as chelators for [111In]In3+, suggesting their value for SPECT radiopharmaceuticals. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Mouse model of Gram-negative prosthetic joint infection reveals therapeutic targets.

Author

Thompson, John, Miller, Robert, Ashbaugh, Alyssa, Dillen, Carly, Pickett, Julie, Wang, Yu, Ortines, Roger, Sterling, Robert, Francis, Kevin, Cohen, Taylor, Tkaczyk, Christine, Yu, Li, Stover, C, DiGiandomenico, Antonio, Sellman, Bret, Thorek, Daniel, Miller, Lloyd, and Bernthal, Nicholas

Subjects
Bacterial infections, Infectious disease, Mouse models, Therapeutics, Animals, Anti-Bacterial Agents, Antigens, Bacterial, Bacterial Toxins, Biofilms, Disease Models, Animal, Escherichia coli, Femur, Gram-Negative Bacteria, Gram-Negative Bacterial Infections, Inflammation, Knee Joint, Male, Mice, Mice, Inbred C57BL, Orthopedics, Pore Forming Cytotoxic Proteins, Prostheses and Implants, Prosthesis-Related Infections, Pseudomonas aeruginosa, Titanium, Virulence Factors
Abstract

Bacterial biofilm infections of implantable medical devices decrease the effectiveness of antibiotics, creating difficult-to-treat chronic infections. Prosthetic joint infections (PJI) are particularly problematic because they require prolonged antibiotic courses and reoperations to remove and replace the infected prostheses. Current models to study PJI focus on Gram-positive bacteria, but Gram-negative PJI (GN-PJI) are increasingly common and are often more difficult to treat, with worse clinical outcomes. Herein, we sought to develop a mouse model of GN-PJI to investigate the pathogenesis of these infections and identify potential therapeutic targets. An orthopedic-grade titanium implant was surgically placed in the femurs of mice, followed by infection of the knee joint with Pseudomonas aeruginosa or Escherichia coli. We found that in vitro biofilm-producing activity was associated with the development of an in vivo orthopedic implant infection characterized by bacterial infection of the bone/joint tissue, biofilm formation on the implants, reactive bone changes, and inflammatory immune cell infiltrates. In addition, a bispecific antibody targeting P. aeruginosa virulence factors (PcrV and Psl exopolysaccharide) reduced the bacterial burden in vivo. Taken together, our findings provide a preclinical model of GN-PJI and suggest the therapeutic potential of targeting biofilm-associated antigens.

Published
2018

18. Noninvasive optical and nuclear imaging of Staphylococcus-specific infection with a human monoclonal antibody-based probe.

Author

Romero Pastrana, Francisco, Thompson, John M, Heuker, Marjolein, Hoekstra, Hedzer, Dillen, Carly A, Ortines, Roger V, Ashbaugh, Alyssa G, Pickett, Julie E, Linssen, Matthijs D, Bernthal, Nicholas M, Francis, Kevin P, Buist, Girbe, van Oosten, Marleen, van Dam, Gooitzen M, Thorek, Daniel LJ, Miller, Lloyd S, and van Dijl, Jan Maarten

Subjects
Animals, Humans, Mice, Staphylococcus aureus, Staphylococcal Infections, Staphylococcal Skin Infections, Disease Models, Animal, Cadaver, Antibodies, Monoclonal, Antigens, Bacterial, Fluorescent Dyes, Optical Imaging, 89Zr, IsaA, PET, human monoclonal antibody, immunodominant staphylococcal antigen A, Zr-89, Disease Models, Animal, Antibodies, Monoclonal, Antigens, Bacterial, Ecological Applications, Microbiology, Medical Microbiology
Abstract

Staphylococcus aureus infections are a major threat in healthcare, requiring adequate early-stage diagnosis and treatment. This calls for novel diagnostic tools that allow noninvasive in vivo detection of staphylococci. Here we performed a preclinical study to investigate a novel fully-human monoclonal antibody 1D9 that specifically targets the immunodominant staphylococcal antigen A (IsaA). We show that 1D9 binds invariantly to S. aureus cells and may further target other staphylococcal species. Importantly, using a human post-mortem implant model and an in vivo murine skin infection model, preclinical feasibility was demonstrated for 1D9 labeled with the near-infrared fluorophore IRDye800CW to be applied for direct optical imaging of in vivo S. aureus infections. Additionally, 89Zirconium-labeled 1D9 could be used for positron emission tomography imaging of an in vivo S. aureus thigh infection model. Our findings pave the way towards clinical implementation of targeted imaging of staphylococcal infections using the human monoclonal antibody 1D9.

Published
2018

19. Preclinical Evaluation and Pilot Clinical Study of 18F-Labeled Inhibitor Peptide for Noninvasive Positron Emission Tomography Mapping of Angiotensin Converting Enzyme 2

Author

Ding, Jin, primary, Zhang, Qian, additional, Jiang, Jinquan, additional, Zhou, Nina, additional, Yu, Ziyu, additional, Wang, Zilei, additional, Meng, Xiangxi, additional, Daggumati, Lasya, additional, Liu, Teli, additional, Wang, Feng, additional, Lu, Zhihao, additional, Yang, Xing, additional, Yang, Zhi, additional, Zhang, Hanwen, additional, Thorek, Daniel L. J., additional, Du, Peng, additional, and Zhu, Hua, additional

Published
2024
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24. Development of a LRRC15-Targeted Radio-Immunotheranostic Approach to Deplete Pro-tumorigenic Mechanisms and Immunotherapy Resistance

Author

Storey, Claire M, primary, Altai, Mohamed, additional, Lückerath, Katharina, additional, Zedan, Wahed, additional, Zhu, Henan, additional, Trajkovic-Arsic, Marija, additional, Park, Julie, additional, Peekhaus, Norbert, additional, Siveke, Jens, additional, Lilljebjörn, Henrik, additional, Abou, Diane, additional, Marks, Haley, additional, Ulmert, Enna, additional, Lilja, Hans, additional, Ridley, Alexander, additional, Safi, Marcella, additional, Yuen, Constance, additional, Geres, Susanne, additional, Mao, Liqun, additional, Cheng, Michael, additional, Czernin, Johannes, additional, Herrmann, Ken, additional, Bentolila, Laurent, additional, Yang, Xia, additional, Fioretos, Thoas, additional, Graeber, Thomas, additional, Sjöström, Kjell, additional, Damoiseaux, Robert, additional, Thorek, Daniel, additional, and Ulmert, David, additional

Published
2024
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25. Deconvoluting hepatic processing of carbon nanotubes.

Author

Alidori, Simone, Bowman, Robert L, Yarilin, Dmitry, Romin, Yevgeniy, Barlas, Afsar, Mulvey, J Justin, Fujisawa, Sho, Xu, Ke, Ruggiero, Alessandro, Riabov, Vladimir, Thorek, Daniel LJ, Ulmert, Hans David S, Brea, Elliott J, Behling, Katja, Kzhyshkowska, Julia, Manova-Todorova, Katia, Scheinberg, David A, and McDevitt, Michael R

Subjects
Liver, Animals, Mice, Inbred BALB C, Macaca fascicularis, Mice, Nanotubes, Carbon, Materials Testing, Endocytosis, Pharmacokinetics, Female, Male, Inbred BALB C, Nanotubes, Carbon
Abstract

Single-wall carbon nanotubes present unique opportunities for drug delivery, but have not advanced into the clinic. Differential nanotube accretion and clearance from critical organs have been observed, but the mechanism not fully elucidated. The liver has a complex cellular composition that regulates a range of metabolic functions and coincidently accumulates most particulate drugs. Here we provide the unexpected details of hepatic processing of covalently functionalized nanotubes including receptor-mediated endocytosis, cellular trafficking and biliary elimination. Ammonium-functionalized fibrillar nanocarbon is found to preferentially localize in the fenestrated sinusoidal endothelium of the liver but not resident macrophages. Stabilin receptors mediate the endocytic clearance of nanotubes. Biocompatibility is evidenced by the absence of cell death and no immune cell infiltration. Towards clinical application of this platform, nanotubes were evaluated for the first time in non-human primates. The pharmacologic profile in cynomolgus monkeys is equivalent to what was reported in mice and suggests that nanotubes should behave similarly in humans.

Published
2016

26. Beyond Average: α-Particle Distribution and Dose Heterogeneity in Bone Metastatic Prostate Cancer

Author

Benabdallah, Nadia, primary, Lu, Peng, additional, Abou, Diane S., additional, Zhang, Hanwen, additional, Ulmert, David, additional, Hobbs, Robert F., additional, Gay, Hiram A., additional, Simons, Brian W., additional, Saeed, Muhammad A., additional, Rogers, Buck E., additional, Jha, Abhinav K., additional, Tai, Yuan-Chuan, additional, Malone, Christopher D., additional, Ippolito, Joseph E., additional, Michalski, Jeff, additional, Jennings, Jack W., additional, Baumann, Brian C., additional, Pachynski, Russell K., additional, and Thorek, Daniel L.J., additional

Published
2023
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27. Anthropometric Measures at Multiple Times Throughout Life and Prostate Cancer Diagnosis, Metastasis, and Death

Author

Gerdtsson, Axel, Poon, Jessica B, Thorek, Daniel L, Mucci, Lorelei A, Evans, Michael J, Scardino, Peter, Abrahamsson, Per-Anders, Nilsson, Peter, Manjer, Jonas, Bjartell, Anders, Malm, Johan, Vickers, Andrew, Freedland, Stephen J, Lilja, Hans, and Ulmert, David

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Aging, Urologic Diseases, Nutrition, Obesity, Cancer, Clinical Research, Prevention, Prostate Cancer, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Adolescent, Adult, Age Factors, Aged, Body Weights and Measures, Case-Control Studies, Humans, Infant, Newborn, Male, Middle Aged, Neoplasm Metastasis, Prostatic Neoplasms, Retrospective Studies, Young Adult, Metabolic syndrome-associated anthropometrics Risk factors, Long-term risk predictions, Exposure windows, Prostate cancer, Metabolic syndrome–associated anthropometrics, Risk factors, Urology & Nephrology, Clinical sciences
Abstract

BackgroundPrevious studies of prostate cancer (PCa) risk and anthropometrics (ie, body measurements) were based on single measurements or obtained over limited time spans.ObjectiveTo study the association between anthropometrics measured at multiple time points in life and their relation to later diagnosis, metastasis, or death from PCa.Design, setting, and participantsThis case-control study includes 27 167 Swedish men enrolled in two population-based projects from 1974 to 1996. PCa diagnosis up to December 31, 2006, disease information, gestation time, and anthropometrics at birth, military conscript testing, and adulthood were collected. A total of 1355 PCa cases were matched with 5271 controls.Outcome measurements and statistical analysisUnivariate conditional logistic regression was used to determine whether clinical diagnosis, metastasis, or PCa death was associated with low birth weight (weight

Published
2015

29. 377 IL-15 treatment enhances the in vivo anti-tumor efficacy of sipuleucel-T by activating CD8+ T and NKT effector cells, augmenting tumor infiltration, and reversing immunoresistance pathways

Author

Pachynski, Russell, primary, Saeed, Muhammad A, additional, Peng, Bo, additional, Kim, Kevin, additional, Borkowski, Ariel, additional, Tine, Brian Van, additional, Sheikh, Nadeem, additional, Vu, Tuyen, additional, Thorek, Daniel, additional, and Fehniger, Todd, additional

Published
2023
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33. Prostate-specific kallikrein-related peptidases and their relation to prostate cancer biology and detection

Author

Thorek, Daniel LJ, Evans, Michael J, Carlsson, Sigrid V, Ulmert, David, and Lilja, Hans

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Prostate Cancer, Urologic Diseases, Cancer, Aging, 2.1 Biological and endogenous factors, Aetiology, Biomarkers, Tumor, Disease Progression, Enzyme-Linked Immunosorbent Assay, Equipment Design, Gene Expression Regulation, Neoplastic, Humans, Male, Models, Molecular, Neovascularization, Pathologic, Prostate, Prostate-Specific Antigen, Prostatic Neoplasms, Protein Conformation, Receptors, Androgen, Tissue Kallikreins, Trypsin, Cardiorespiratory Medicine and Haematology, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences
Abstract

Kallikreins are a family of serine proteases with a range of tissue-specific and essential proteolytic functions. Among the best studied are the prostate tissue-specific KLK2 and KLK3 genes and their secreted protease products, human kallikrein 2, hk2, and prostate-specific antigen (PSA). Members of the so-called classic kallikreins, these highly active trypsin-like serine proteases play established roles in human reproduction. Both hK2 and PSA expression is regulated by the androgen receptor which has a fundamental role in prostate tissue development and progression of disease. This feature, combined with the ability to sensitively detect different forms of these proteins in blood and biopsies, result in a crucially important biomarker for the presence and recurrence of cancer. Emerging evidence has begun to suggest a role for these kallikreins in critical vascular events. This review discusses the established and developing biological roles of hK2 and PSA, as well as the historical and advanced use of their detection to accurately and non-invasively detect and guide treatment of prostatic disease.

Published
2013

36. Evaluation of Candidate Theranostics for227Th/89Zr Paired Radioimmunotherapy of Lymphoma

Author

Abou, Diane S., primary, Longtine, Mark, additional, Fears, Amanda, additional, Benabdallah, Nadia, additional, Unnerstall, Ryan, additional, Johnston, Hannah, additional, Shim, Kyuhwan, additional, Hasson, Abbie, additional, Zhang, Hanwen, additional, Ulmert, David, additional, Mangin, Floriane, additional, Ozen, Serife, additional, Raibaut, Laurent, additional, Brandès, Stéphane, additional, Meyer, Michel, additional, Chambron, Jean-Claude, additional, Tatum, David S., additional, Magda, Darren, additional, Wahl, Richard L., additional, and Thorek, Daniel L.J., additional

Published
2023
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39. Supplementary Figures 1 and 2 from Quantitative In Vivo Imaging of the Androgen Receptor Axis Reveals Degree of Prostate Cancer Radiotherapy Response

Author

Storey, Claire M., primary, Altai, Mohamed, primary, Bicak, Mesude, primary, Veach, Darren R., primary, Lückerath, Katharina, primary, Adrian, Gabriel, primary, McDevitt, Michael R., primary, Kalidindi, Teja, primary, Park, Julie E., primary, Herrmann, Ken, primary, Abou, Diane, primary, Zedan, Wahed, primary, Peekhaus, Norbert, primary, Klein, Robert J., primary, Damoiseaux, Robert, primary, Larson, Steven M., primary, Lilja, Hans, primary, Thorek, Daniel, primary, and Ulmert, David, primary

Published
2023
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40. Data from Quantitative In Vivo Imaging of the Androgen Receptor Axis Reveals Degree of Prostate Cancer Radiotherapy Response

Author

Storey, Claire M., primary, Altai, Mohamed, primary, Bicak, Mesude, primary, Veach, Darren R., primary, Lückerath, Katharina, primary, Adrian, Gabriel, primary, McDevitt, Michael R., primary, Kalidindi, Teja, primary, Park, Julie E., primary, Herrmann, Ken, primary, Abou, Diane, primary, Zedan, Wahed, primary, Peekhaus, Norbert, primary, Klein, Robert J., primary, Damoiseaux, Robert, primary, Larson, Steven M., primary, Lilja, Hans, primary, Thorek, Daniel, primary, and Ulmert, David, primary

Published
2023
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41. Supplementary Data from Asporin Restricts Mesenchymal Stromal Cell Differentiation, Alters the Tumor Microenvironment, and Drives Metastatic Progression

Author

Hughes, Robert M., primary, Simons, Brian W., primary, Khan, Hamda, primary, Miller, Rebecca, primary, Kugler, Valentina, primary, Torquato, Samantha, primary, Theodros, Debebe, primary, Haffner, Michael C., primary, Lotan, Tamara, primary, Huang, Jessie, primary, Davicioni, Elai, primary, An, Steven S., primary, Riddle, Ryan C., primary, Thorek, Daniel L.J., primary, Garraway, Isla P., primary, Fertig, Elana J., primary, Isaacs, John T., primary, Brennen, W. Nathaniel, primary, Park, Ben H., primary, and Hurley, Paula J., primary

Published
2023
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42. Supplementary Figure S1 from PSA-Targeted Alpha-, Beta-, and Positron-Emitting Immunotheranostics in Murine Prostate Cancer Models and Nonhuman Primates

Author

Veach, Darren R., primary, Storey, Claire M., primary, Lückerath, Katharina, primary, Braun, Katharina, primary, von Bodman, Christian, primary, Lamminmäki, Urpo, primary, Kalidindi, Teja, primary, Strand, Sven-Erik, primary, Strand, Joanna, primary, Altai, Mohamed, primary, Damoiseaux, Robert, primary, Zanzonico, Pat, primary, Benabdallah, Nadia, primary, Pankov, Dmitry, primary, Scher, Howard I., primary, Scardino, Peter, primary, Larson, Steven M., primary, Lilja, Hans, primary, McDevitt, Michael R., primary, Thorek, Daniel L.J., primary, and Ulmert, David, primary

Published
2023
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43. Data from Asporin Restricts Mesenchymal Stromal Cell Differentiation, Alters the Tumor Microenvironment, and Drives Metastatic Progression

Author

Hughes, Robert M., primary, Simons, Brian W., primary, Khan, Hamda, primary, Miller, Rebecca, primary, Kugler, Valentina, primary, Torquato, Samantha, primary, Theodros, Debebe, primary, Haffner, Michael C., primary, Lotan, Tamara, primary, Huang, Jessie, primary, Davicioni, Elai, primary, An, Steven S., primary, Riddle, Ryan C., primary, Thorek, Daniel L.J., primary, Garraway, Isla P., primary, Fertig, Elana J., primary, Isaacs, John T., primary, Brennen, W. Nathaniel, primary, Park, Ben H., primary, and Hurley, Paula J., primary

Published
2023
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44. Supplementary Materials and Methods from Asporin Restricts Mesenchymal Stromal Cell Differentiation, Alters the Tumor Microenvironment, and Drives Metastatic Progression

Author

Hughes, Robert M., primary, Simons, Brian W., primary, Khan, Hamda, primary, Miller, Rebecca, primary, Kugler, Valentina, primary, Torquato, Samantha, primary, Theodros, Debebe, primary, Haffner, Michael C., primary, Lotan, Tamara, primary, Huang, Jessie, primary, Davicioni, Elai, primary, An, Steven S., primary, Riddle, Ryan C., primary, Thorek, Daniel L.J., primary, Garraway, Isla P., primary, Fertig, Elana J., primary, Isaacs, John T., primary, Brennen, W. Nathaniel, primary, Park, Ben H., primary, and Hurley, Paula J., primary

Published
2023
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45. Supplementary Data from Harnessing Androgen Receptor Pathway Activation for Targeted Alpha Particle Radioimmunotherapy of Breast Cancer

Author

Thorek, Daniel L.J., primary, Ku, Anson T., primary, Mitsiades, Nicholas, primary, Veach, Darren, primary, Watson, Philip A., primary, Metha, Dipti, primary, Strand, Sven-Erik, primary, Sharma, Sai Kiran, primary, Lewis, Jason S., primary, Abou, Diane S., primary, Lilja, Hans G., primary, Larson, Steven M., primary, McDevitt, Michael R., primary, and Ulmert, David, primary

Published
2023
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46. Supplementary Methods from PSA-Targeted Alpha-, Beta-, and Positron-Emitting Immunotheranostics in Murine Prostate Cancer Models and Nonhuman Primates

Author

Veach, Darren R., primary, Storey, Claire M., primary, Lückerath, Katharina, primary, Braun, Katharina, primary, von Bodman, Christian, primary, Lamminmäki, Urpo, primary, Kalidindi, Teja, primary, Strand, Sven-Erik, primary, Strand, Joanna, primary, Altai, Mohamed, primary, Damoiseaux, Robert, primary, Zanzonico, Pat, primary, Benabdallah, Nadia, primary, Pankov, Dmitry, primary, Scher, Howard I., primary, Scardino, Peter, primary, Larson, Steven M., primary, Lilja, Hans, primary, McDevitt, Michael R., primary, Thorek, Daniel L.J., primary, and Ulmert, David, primary

Published
2023
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47. Supplementary Table S1 from PSA-Targeted Alpha-, Beta-, and Positron-Emitting Immunotheranostics in Murine Prostate Cancer Models and Nonhuman Primates

Author

Veach, Darren R., primary, Storey, Claire M., primary, Lückerath, Katharina, primary, Braun, Katharina, primary, von Bodman, Christian, primary, Lamminmäki, Urpo, primary, Kalidindi, Teja, primary, Strand, Sven-Erik, primary, Strand, Joanna, primary, Altai, Mohamed, primary, Damoiseaux, Robert, primary, Zanzonico, Pat, primary, Benabdallah, Nadia, primary, Pankov, Dmitry, primary, Scher, Howard I., primary, Scardino, Peter, primary, Larson, Steven M., primary, Lilja, Hans, primary, McDevitt, Michael R., primary, Thorek, Daniel L.J., primary, and Ulmert, David, primary

Published
2023
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48. Supplementary Figure 1 from Elective Nodal Irradiation Attenuates the Combinatorial Efficacy of Stereotactic Radiation Therapy and Immunotherapy

Author

Marciscano, Ariel E., primary, Ghasemzadeh, Ali, primary, Nirschl, Thomas R., primary, Theodros, Debebe, primary, Kochel, Christina M., primary, Francica, Brian J., primary, Muroyama, Yuki, primary, Anders, Robert A., primary, Sharabi, Andrew B., primary, Velarde, Esteban, primary, Mao, Wendy, primary, Chaudhary, Kunal R., primary, Chaimowitz, Matthew G., primary, Wong, John, primary, Selby, Mark J., primary, Thudium, Kent B., primary, Korman, Alan J., primary, Ulmert, David, primary, Thorek, Daniel L.J., primary, DeWeese, Theodore L., primary, and Drake, Charles G., primary

Published
2023
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