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1. Effects of shape and structure of a new 3D-printed personalized bioresorbable tracheal stent on fit and biocompatibility in a rabbit model.

Author

Schleich, Sarah, Kronen, Peter, Krivitsky, Adva, Paunović, Nevena, Brian, Coulter Fergal, Karol, Agnieszka Anna, Geks, Anna, Bao, Yinyin, Leroux, Jean-Christophe, von Rechenberg, Brigitte, Franzen, Daniel, and Klein, Karina

Subjects
BIOCOMPATIBILITY, VENTILATION, RABBITS, ANIMAL models in research, SURFACE structure, RESPIRATORY obstructions
Abstract

To date, several types of airway stents are available to treat central airway obstructions. However, the ideal stent that can overcome anatomical, mechanical and microbiological issues is still awaited. In addition, therapeutic effect and self-elimination of these stents are desirable properties, which pose an additional challenge for development and manufacturing. We aimed to create a prototype bioresorbable tracheal stent with acceptable clinical tolerance, fit and biocompatibility, that could be tested in a rabbit model and in the future be further optimized to enable drug-elution and ensure local therapeutic effect. Twenty-one New Zealand White Rabbits received five different types of bioresorbable tracheal stents, 3D-printed from poly(D,L-lactide-co-ε-caprolactone) metacrylates. Various configurations were tested for their functionality and improved until the best performing prototype could undergo detailed in vivo assessment, regarding clinical tolerance, migration and biocompatibility. Previously tested types of 3D printed stents in our preliminary study required improvement due to several problems, mainly related to breakage, unreliable stability and/or migration within the trachea. Abandoned or refined pre-prototypes were not analyzed in a comparative way. The final best performing prototype stent (GSP2 (Group Stent Prototype 2), n = 8) allowed a transoral application mode and showed good clinical tolerance, minimal migration and acceptable biocompatibility. The good performance of stent type GSP2 was attributed to the helix-shaped surface structure, which was therefore regarded as a key-feature. This prototype stent offers the possibility for further research in a large animal model to confirm the promising data and assess other properties such as bioresorption. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Inside Back Cover: Tough PEG‐only hydrogels with complex 3D structure enabled by digital light processing of “all‐PEG” resins

Author

Anindita, Safira Noor, primary, Conti, Riccardo, additional, Zauchner, Doris, additional, Paunović, Nevena, additional, Qiu, Wanwan, additional, Buzhor, Marina Green, additional, Krivitsky, Adva, additional, Luo, Zhi, additional, Müller, Ralph, additional, Grützmacher, Hansjörg, additional, Qin, Xiao‐Hua, additional, Leroux, Jean‐Christophe, additional, and Bao, Yinyin, additional

Published
2023
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5. Ultrafast and Controlled Capturing, Loading, and Release of Extracellular Vesicles by a Portable Microstructured Electrochemical Fluidic Device

Author

Krivitsky, Vadim, primary, Krivitsky, Adva, additional, Mantella, Valeria, additional, Ben‐Yehuda Greenwald, Maya, additional, Sankar, Devanarayanan Siva, additional, Betschmann, Jil, additional, Bader, Johannes, additional, Zoratto, Nicole, additional, Schreier, Kento, additional, Feiss, Sarah, additional, Walker, Dario, additional, Dengjel, Jörn, additional, Werner, Sabine, additional, and Leroux, Jean‐Christophe, additional

Published
2023
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7. Tough PEG‐only hydrogels with complex 3D structure enabled by digital light processing of “all‐PEG” resins

Author

Anindita, Safira Noor, primary, Conti, Riccardo, additional, Zauchner, Doris, additional, Paunović, Nevena, additional, Qiu, Wanwan, additional, Buzhor, Marina Green, additional, Krivitsky, Adva, additional, Luo, Zhi, additional, Müller, Ralph, additional, Grützmacher, Hansjörg, additional, Qin, Xiao‐Hua, additional, Leroux, Jean‐Christophe, additional, and Bao, Yinyin, additional

Published
2023
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9. Photopolymerization Inks for 3D Printing of Elastic, Strong, and Biodegradable Oral Delivery Devices.

Author

Yuts, Yulia, Bohley, Marilena, Krivitsky, Adva, Bao, Yinyin, Luo, Zhi, and Leroux, Jean‐Christophe

Subjects
THREE-dimensional printing, DRUG delivery devices, PHOTOPOLYMERIZATION, DRUG delivery systems, PRINTING ink
Abstract

Three‐dimensional (3D) printing via vat photopolymerization is transforming the manufacturing paradigms of biomedical devices, offering tremendous advantages for the production of customized advanced drug delivery systems. However, the existing commercial inks often lack the ability to simultaneously provide elasticity, strength, and biodegradability. Herein, photopolymerizable inks based on poly(β‐aminoester) diacrylates and N‐vinyl pyrrolidone are used to address these limitations. These biodegradable polymers enable the digital light processing 3D printing of elastomers with adjustable elongation at break (103–762%), stress at failure (0.2–8.3 MPa), and hydrolysis rates ranging from 25 min to 80 days. The authors are able to synthesize a soft polymer that possess properties akin to natural latex, which can enhance its elastic modulus when subjected to high strains. It can withstand 762% stretch with a maximum strength of 8.3 MPa. In addition, this polymer demonstrates cytocompatibility and unique biodegradation properties under simulated gastrointestinal conditions (within hours at pH 6.8). By utilizing this elastomer, a prototype of an expandable oral drug delivery device that has the ability to degrade within the average transit time in the jejunum is manufactured. This study paves the way to leverage vat photopolymerization 3D printing in the creation of complex prototypes of biomedical devices where strength, elasticity and biodegradability are essential. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Tough PEG-only hydrogels with complex 3D structure enabled by digital light processing of 'all-PEG' resins

Author

Anindita, Safira Noor, Conti, Riccardo, Zauchner, Doris, Paunović, Nevena, Qiu, Wanwan, Buzhor, Marina Green, Krivitsky, Adva, Luo, Zhi, Müller, Ralph, Grützmacher, Hansjörg, Qin, Xiao-Hua, Leroux, Jean-Christophe, and Bao, Yinyin

Subjects
digital light processing, 3D printing, PEG hydrogels
Abstract

Digital light processing (DLP) of structurally complex poly(ethylene glycol) (PEG) hydrogels with high mechanical toughness represents a long-standing challenge in the field of 3D printing. Here, we report a 3D printing approach for the high-resolution manufacturing of structurally complex and mechanically strong PEG hydrogels via heat-assisted DLP. Instead of using aqueous solutions of photo-crosslinkable monomers, PEG macromonomer melts were first printed in the absence of water, resulting in bulk PEG networks. Then, post-printing swelling of the printed networks was achieved in water, producing high-fidelity 3D hydrogels with complex structures. By employing a dual-macromonomer resin containing a PEG-based four-arm macrophotoinitiator, "all-PEG" hydrogel constructs were produced with compressive toughness up to 1.3 MJ m(-3). By this approach, porous 3D hydrogel scaffolds with trabecular-like architecture were fabricated, and the scaffold surface supported cell attachment and the formation of a monolayer mimicking bone-lining cells. This study highlights the promises of heat-assisted DLP of PEG photopolymers for hydrogel fabrication, which may accelerate the development of 3D tissue-like constructs for regenerative medicine., Aggregate

Published
2023

15. Polyglutamate-based nanoconjugates for image-guided surgery and post-operative melanoma metastases prevention

Author

Epshtein, Yana, primary, Blau, Rachel, additional, Pisarevsky, Evgeni, additional, Koshrovski-Michael, Shani, additional, Ben-Shushan, Dikla, additional, Pozzi, Sabina, additional, Shenbach-Koltin, Gal, additional, Fridrich, Lidar, additional, Buzhor, Marina, additional, Krivitsky, Adva, additional, Dey, Pradip, additional, and Satchi-Fainaro, Ronit, additional

Published
2022
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16. Sulfonated Amphiphilic Poly(α)glutamate Amine—A Potential siRNA Nanocarrier for the Treatment of Both Chemo-Sensitive and Chemo-Resistant Glioblastoma Tumors

Author

Krivitsky, Adva, primary, Pozzi, Sabina, additional, Yeini, Eilam, additional, Israeli Dangoor, Sahar, additional, Zur, Tal, additional, Golan, Sapir, additional, Krivitsky, Vadim, additional, Albeck, Nitzan, additional, Pisarevsky, Evgeny, additional, Ofek, Paula, additional, Madi, Asaf, additional, and Satchi-Fainaro, Ronit, additional

Published
2021
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17. Meet me halfway: Are in vitro 3D cancer models on the way to replace in vivo models for nanomedicine development?

Author

Pozzi, Sabina, primary, Scomparin, Anna, additional, Israeli Dangoor, Sahar, additional, Rodriguez Ajamil, Daniel, additional, Ofek, Paula, additional, Neufeld, Lena, additional, Krivitsky, Adva, additional, Vaskovich-Koubi, Daniella, additional, Kleiner, Ron, additional, Dey, Pradip, additional, Koshrovski-Michael, Shani, additional, Reisman, Noa, additional, and Satchi-Fainaro, Ronit, additional

Published
2021
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18. Targeting Glioblastoma: Advances in Drug Delivery and Novel Therapeutic Approaches

Author

Yeini, Eilam, primary, Ofek, Paula, additional, Albeck, Nitzan, additional, Rodriguez Ajamil, Daniel, additional, Neufeld, Lena, additional, Eldar‐Boock, Anat, additional, Kleiner, Ron, additional, Vaskovich, Daniella, additional, Koshrovski‐Michael, Shani, additional, Dangoor, Sahar Israeli, additional, Krivitsky, Adva, additional, Burgos Luna, Christian, additional, Shenbach‐Koltin, Gal, additional, Goldenfeld, Miki, additional, Hadad, Ori, additional, Tiram, Galia, additional, and Satchi‐Fainaro, Ronit, additional

Published
2020
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19. Melanoma: Rational Design of Polyglutamic Acid Delivering an Optimized Combination of Drugs Targeting Mutated BRAF and MEK in Melanoma (Adv. Therap. 8/2020)

Author

Pisarevsky, Evgeni, primary, Blau, Rachel, additional, Epshtein, Yana, additional, Ben‐Shushan, Dikla, additional, Eldar‐Boock, Anat, additional, Tiram, Galia, additional, Koshrovski‐Michael, Shani, additional, Scomparin, Anna, additional, Pozzi, Sabina, additional, Krivitsky, Adva, additional, Shenbach‐Koltin, Gal, additional, Yeini, Eilam, additional, Fridrich, Lidar, additional, White, Richard, additional, and Satchi‐Fainaro, Ronit, additional

Published
2020
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20. Rational Design of Polyglutamic Acid Delivering an Optimized Combination of Drugs Targeting Mutated BRAF and MEK in Melanoma

Author

Pisarevsky, Evgeni, primary, Blau, Rachel, additional, Epshtein, Yana, additional, Ben‐Shushan, Dikla, additional, Eldar‐Boock, Anat, additional, Tiram, Galia, additional, Koshrovski‐Michael, Shani, additional, Scomparin, Anna, additional, Pozzi, Sabina, additional, Krivitsky, Adva, additional, Shenbach‐Koltin, Gal, additional, Yeini, Eilam, additional, Fridrich, Lidar, additional, White, Richard, additional, and Satchi‐Fainaro, Ronit, additional

Published
2020
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21. Light-Controlled Selective Collection-and-Release of Biomolecules by an On-Chip Nanostructured Device

Author

Borberg, Ella, primary, Zverzhinetsky, Marina, additional, Krivitsky, Adva, additional, Kosloff, Alon, additional, Heifler, Omri, additional, Degabli, Gal, additional, Soroka, Hagit Peretz, additional, Fainaro, Ronit Satchi, additional, Burstein, Larisa, additional, Reuveni, Shlomi, additional, Diamant, Haim, additional, Krivitsky, Vadim, additional, and Patolsky, Fernando, additional

Published
2019
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24. Reverting the molecular fingerprint of tumor dormancy as a therapeutic strategy for glioblastoma

Author

Tiram, Galia, primary, Ferber, Shiran, additional, Ofek, Paula, additional, Eldar-Boock, Anat, additional, Ben-Shushan, Dikla, additional, Yeini, Eilam, additional, Krivitsky, Adva, additional, Blatt, Roni, additional, Almog, Nava, additional, Henkin, Jack, additional, Amsalem, Orit, additional, Yavin, Eylon, additional, Cohen, Gadi, additional, Lazarovici, Philip, additional, Lee, Joo Sang, additional, Ruppin, Eytan, additional, Milyavsky, Michael, additional, Grossman, Rachel, additional, Ram, Zvi, additional, Calderón, Marcelo, additional, Haag, Rainer, additional, and Satchi-Fainaro, Ronit, additional

Published
2018
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26. Amphiphilic nanocarrier-induced modulation of PLK1 and miR-34a leads to improved therapeutic response in pancreatic cancer

Author

Gibori, Hadas, primary, Eliyahu, Shay, additional, Krivitsky, Adva, additional, Ben-Shushan, Dikla, additional, Epshtein, Yana, additional, Tiram, Galia, additional, Blau, Rachel, additional, Ofek, Paula, additional, Lee, Joo Sang, additional, Ruppin, Eytan, additional, Landsman, Limor, additional, Barshack, Iris, additional, Golan, Talia, additional, Merquiol, Emmanuelle, additional, Blum, Galia, additional, and Satchi-Fainaro, Ronit, additional

Published
2018
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27. Image-guided surgery using near-infrared Turn-ON fluorescent nanoprobes for precise detection of tumor margins

Author

Blau, Rachel, primary, Epshtein, Yana, additional, Pisarevsky, Evgeni, additional, Tiram, Galia, additional, Dangoor, Sahar Israeli, additional, Yeini, Eilam, additional, Krivitsky, Adva, additional, Eldar-Boock, Anat, additional, Ben-Shushan, Dikla, additional, Gibori, Hadas, additional, Scomparin, Anna, additional, Green, Ori, additional, Ben-Nun, Yael, additional, Merquiol, Emmanuelle, additional, Doron, Hila, additional, Blum, Galia, additional, Erez, Neta, additional, Grossman, Rachel, additional, Ram, Zvi, additional, Shabat, Doron, additional, and Satchi-Fainaro, Ronit, additional

Published
2018
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28. Co-targeting the tumor endothelium and P-selectin-expressing glioblastoma cells leads to a remarkable therapeutic outcome

Author

Ferber, Shiran, primary, Tiram, Galia, additional, Sousa-Herves, Ana, additional, Eldar-Boock, Anat, additional, Krivitsky, Adva, additional, Scomparin, Anna, additional, Yeini, Eilam, additional, Ofek, Paula, additional, Ben-Shushan, Dikla, additional, Vossen, Laura Isabel, additional, Licha, Kai, additional, Grossman, Rachel, additional, Ram, Zvi, additional, Henkin, Jack, additional, Ruppin, Eytan, additional, Auslander, Noam, additional, Haag, Rainer, additional, Calderón, Marcelo, additional, and Satchi-Fainaro, Ronit, additional

Published
2017
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29. Author response: Co-targeting the tumor endothelium and P-selectin-expressing glioblastoma cells leads to a remarkable therapeutic outcome

Author

Ferber, Shiran, primary, Tiram, Galia, additional, Sousa-Herves, Ana, additional, Eldar-Boock, Anat, additional, Krivitsky, Adva, additional, Scomparin, Anna, additional, Yeini, Eilam, additional, Ofek, Paula, additional, Ben-Shushan, Dikla, additional, Vossen, Laura Isabel, additional, Licha, Kai, additional, Grossman, Rachel, additional, Ram, Zvi, additional, Henkin, Jack, additional, Ruppin, Eytan, additional, Auslander, Noam, additional, Haag, Rainer, additional, Calderón, Marcelo, additional, and Satchi-Fainaro, Ronit, additional

Published
2017
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30. Light-Controlled Selective Collection-and-Release of Biomolecules by an On-Chip Nanostructured Device

Author

Borberg, Ella, Zverzhinetsky, Marina, Krivitsky, Adva, Kosloff, Alon, Heifler, Omri, Degabli, Gal, Soroka, Hagit Peretz, Fainaro, Ronit Satchi, Burstein, Larisa, Reuveni, Shlomi, Diamant, Haim, Krivitsky, Vadim, and Patolsky, Fernando

Abstract

The analysis of biosamples, e.g., blood, is a ubiquitous task of proteomics, genomics, and biosensing fields; yet, it still faces multiple challenges, one of the greatest being the selective separation and detection of target proteins from these complex biosamples. Here, we demonstrate the development of an on-chip light-triggered reusable nanostructured selective and quantitative protein separation and preconcentration platform for the direct analysis of complex biosamples. The on-chip selective separation of required protein analytes from raw biosamples is performed using antibody–photoacid-modified Si nanopillars vertical arrays (SiNPs) of ultralarge binding surface area and enormously high binding affinity, followed by the light-controlled rapid release of the tightly bound target proteins in a controlled liquid media. Two important experimental observations are presented: (1) the first demonstration on the control of biological reaction binding affinity by the nanostructuring of the capturing surface, leading to highly efficient protein collection capabilities, and (2) the light-triggered switching of the highly sticky binding surfaces into highly reflective nonbinding surfaces, leading to the rapid and quantitative release of the originally tightly bound protein species. Both of these two novel behaviors were theoretically and experimentally investigated. Importantly, this is the first demonstration of a three-dimensional (3D) SiNPs on-chip filter with ultralarge binding surface area and reversible light-controlled quantitative release of adsorbed biomolecules for direct purification of blood samples, able to selectively collect and separate specific low abundant proteins, while easily removing unwanted blood components (proteins, cells) and achieving desalting results, without the requirement of time-consuming centrifugation steps, the use of desalting membranes, or affinity columns.

Published
2024
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32. Identification of Dormancy-Associated MicroRNAs for the Design of Osteosarcoma-Targeted Dendritic Polyglycerol Nanopolyplexes

Author

Tiram, Galia, primary, Segal, Ehud, additional, Krivitsky, Adva, additional, Shreberk-Hassidim, Rony, additional, Ferber, Shiran, additional, Ofek, Paula, additional, Udagawa, Taturo, additional, Edry, Liat, additional, Shomron, Noam, additional, Roniger, Maayan, additional, Kerem, Batsheva, additional, Shaked, Yuval, additional, Aviel-Ronen, Sarit, additional, Barshack, Iris, additional, Calderón, Marcelo, additional, Haag, Rainer, additional, and Satchi-Fainaro, Ronit, additional

Published
2016
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33. 3D printed drug-eluting stents: Toward personalized therapy for airway stenosis.

Author

Krivitsky A, Paunović N, Klein K, Coulter FB, Schleich S, Karol AA, Bauer A, Krivitsky V, Lohmann V, Carril PC, Bao Y, von Rechenberg B, Halin C, Studart AR, Franzen D, and Leroux JC

Abstract

Airway stents are life-saving medical devices used to treat malignant or benign central airway stenoses. Unfortunately, these devices, typically manufactured from silicone alone and/or nitinol, can result in serious complications, such as stent migration, bacterial colonization, and tissue granulation, eventually forcing stent removal. Customized airway stents exhibit reduced migration and they can be tailored to address other complications by releasing drugs, such as the antibiotic levofloxacin and the antifibrotic drug nintedanib. Herein, the incorporation of these molecules in customized, bioresorbable 3D printed airway stents was investigated. Nintedanib (1.5 wt%) and levofloxacin (2.0 wt%) were incorporated in the polymer-based resin, which was used to 3D print tracheal stents with adequate mechanical and drug release properties. The drug-loaded stents were then deployed into rabbit tracheas and found to deliver the drugs locally with minimal systemic exposure. Drug activities were demonstrated by inhibition of bacterial colonization and reduced interleukin 8 (IL8) local expression. Although the application of these tracheal stents requires further exploration in larger animal models, this work paves the way for the rapid manufacturing of personalized medical devices with therapeutic functions., Competing Interests: Declaration of competing interest None., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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