Evgeniya Goldman scite author profile

Personalized medicine promises to revolutionize cancer therapy by matching the most effective treatment to the individual patient. Using a nanoparticle-based system, we predict the therapeutic potency of anticancer medicines in a personalized manner. We carry out the diagnostic stage through a multidrug screen performed inside the tumour, extracting drug activity information with single cell sensitivity. By using 100 nm liposomes, loaded with various cancer drugs and corresponding synthetic DNA barcodes, we find a correlation between the cell viability and the drug it was exposed to, according to the matching barcodes. Based on this screen, we devise a treatment protocol for mice bearing triple-negative breast-cancer tumours, and its results confirm the diagnostic prediction. We show that the use of nanotechnology in cancer care is effective for generating personalized treatment protocols.

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Nanoparticles target early-stage breast cancer metastasisin vivo

Goldman

Zinger

Silva

et al. 2017

Nanotechnology

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Despite advances in cancer therapy, treating cancer after it has metastasized remains an unmet clinical challenge. In this study we demonstrate that 100 nm liposomes target triple-negative murine breast-cancer metastases post intravenous administration. Metastatic breast cancer was induced in BALB/c mice either experimentally, by a tail vein injection of 4T1 cells, or spontaneously, after implanting a primary tumor xenograft. To track their biodistribution in vivo the liposomes were labeled with multi-modal diagnostic agents, including indocyanine green and rhodamine for whole-animal fluorescent imaging, gadolinium for magnetic resonance imaging (MRI), and europium for a quantitative biodistribution analysis. The accumulation of liposomes in the metastases peaked at 24 h post the intravenous administration, similar to the time they peaked in the primary tumor. The efficiency of liposomal targeting to the metastatic tissue exceeded that of a non-liposomal agent by 4.5-fold. Liposomes were detected at very early stages in the metastatic progression, including metastatic lesions smaller than 2 mm in diameter. Surprisingly, while nanoparticles target breast cancer metastasis, they may also be found in elevated levels in the pre-metastatic niche, several days before metastases are visualized by MRI or histologically in the tissue. This study highlights the promise of diagnostic and therapeutic nanoparticles for treating metastatic cancer, possibly even for preventing the onset of the metastatic dissemination by targeting the pre-metastatic niche.

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Fabrication of antimicrobial polymeric films by compression molding of peptide assemblies and polyethylene

et al. 2022

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Microbe Killer Polymeric Films Made by Melt-Compounding and Compression of Peptide Assemblies and Polyethylene

Kaganovich

Shlosman²,

Goldman³

et al. 2022

Preprint

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This paper presents, for the first time, compression molding of peptide assemblies with low-density polyethylene (LDPE) for the robust production of antimicrobial polymeric films. The peptide self-assembles in an aqueous medium into spherical structures with antimicrobial properties. After lyophilization, used to yield a fine powder, these particles were melt-compounded at 160°C with LDPE, followed by compression molding to produce 100 µm thick polymeric films. These films showed a significant reduction in the number of bacteria, viruses, and fungi. These innovative active polymeric films can potentially be applied for medical device wrapping, food packaging, and agriculture applications where crop protection is needed.

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Synthesis and Characterization of NIR Fluorescent Polystyrene/Polystyrylbisphosphonate Core Shell Microspheres

Chen

Goldman

Margel

2015

Phosphorus, Sulfur, and Silicon and the Related Elements

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