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1. Artificial confocal microscopy for deep label-free imaging

Author

Chen, Xi, Kandel, Mikhail E., He, Shenghua, Hu, Chenfei, Lee, Young Jae, Sullivan, Kathryn, Tracy, Gregory, Chung, Hee Jung, Kong, Hyun Joon, Anastasio, Mark, and Popescu, Gabriel

Subjects
Physics - Optics, Physics - Biological Physics
Abstract

Widefield microscopy methods applied to optically thick specimens are faced with reduced contrast due to spatial crosstalk, in which the signal at each point is the result of a superposition from neighboring points that are simultaneously illuminated. In 1955, Marvin Minsky proposed confocal microscopy as a solution to this problem. Today, laser scanning confocal fluorescence microscopy is broadly used due to its high depth resolution and sensitivity, which come at the price of photobleaching, chemical, and photo-toxicity. Here, we present artificial confocal microscopy (ACM) to achieve confocal-level depth sectioning, sensitivity, and chemical specificity, on unlabeled specimens, nondestructively. We augmented a laser scanning confocal instrument with a quantitative phase imaging module, which provides optical pathlength maps of the specimen on the same field of view as the fluorescence channel. Using pairs of phase and fluorescence images, we trained a convolution neural network to translate the former into the latter. The training to infer a new tag is very practical as the input and ground truth data are intrinsically registered and the data acquisition is automated. Remarkably, the ACM images present significantly stronger depth sectioning than the input images, enabling us to recover confocal-like tomographic volumes of microspheres, hippocampal neurons in culture, and 3D liver cancer spheroids. By training on nucleus-specific tags, ACM allows for segmenting individual nuclei within dense spheroids for both cell counting and volume measurements. Furthermore, taking the estimated fluorescence volumes, as annotation for the phase data, we extracted dry mass information for individual nuclei. Finally, our results indicate that the network learning can be transferred between spheroids suspended in different media., Comment: 35 pages, 6 figures

Published
2021
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3. Artificial confocal microscopy for deep label-free imaging

Author

Chen, Xi, primary, Kandel, Mikhail E., additional, He, Shenghua, additional, Hu, Chenfei, additional, Lee, Young Jae, additional, Sullivan, Kathryn, additional, Tracy, Gregory, additional, Chung, Hee Jung, additional, Kong, Hyun Joon, additional, Anastasio, Mark, additional, and Popescu, Gabriel, additional

Published
2024
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4. Mind In Vitro Platforms: Versatile, Scalable, Robust, and Open Solutions to Interfacing with Living Neurons.

Author

Zhang, Xiaotian, Dou, Zhi, Kim, Seung Hyun, Upadhyay, Gaurav, Havert, Daniel, Kang, Sehong, Kazemi, Kimia, Huang, Kai‐Yu, Aydin, Onur, Huang, Raymond, Rahman, Saeedur, Ellis‐Mohr, Austin, Noblet, Hayden A., Lim, Ki H., Chung, Hee Jung, Gritton, Howard J., Saif, M. Taher A., Kong, Hyun Joon, Beggs, John M., and Gazzola, Mattia

Subjects
NEURAL stem cells, CLOUD storage, NEURONS, RAPID prototyping, COMPUTER systems, COST control
Abstract

Motivated by the unexplored potential of in vitro neural systems for computing and by the corresponding need of versatile, scalable interfaces for multimodal interaction, an accurate, modular, fully customizable, and portable recording/stimulation solution that can be easily fabricated, robustly operated, and broadly disseminated is presented. This approach entails a reconfigurable platform that works across multiple industry standards and that enables a complete signal chain, from neural substrates sampled through micro‐electrode arrays (MEAs) to data acquisition, downstream analysis, and cloud storage. Built‐in modularity supports the seamless integration of electrical/optical stimulation and fluidic interfaces. Custom MEA fabrication leverages maskless photolithography, favoring the rapid prototyping of a variety of configurations, spatial topologies, and constitutive materials. Through a dedicated analysis and management software suite, the utility and robustness of this system are demonstrated across neural cultures and applications, including embryonic stem cell‐derived and primary neurons, organotypic brain slices, 3D engineered tissue mimics, concurrent calcium imaging, and long‐term recording. Overall, this technology, termed "mind in vitro" to underscore the computing inspiration, provides an end‐to‐end solution that can be widely deployed due to its affordable (>10× cost reduction) and open‐source nature, catering to the expanding needs of both conventional and unconventional electrophysiology. [ABSTRACT FROM AUTHOR]

Published
2024
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6. `Mind in Vitro' platforms: Versatile, scalable, robust and open solutions to interfacing with living neurons

Author

Zhang, Xiaotian, primary, Dou, Zhi, additional, Kim, Seung-Hyun, additional, Upadhyay, Gaurav, additional, Havert, Daniel, additional, Kang, Sehong, additional, Kazemi, Kimia, additional, Huang, Kai-Yu, additional, Aydin, Onur, additional, Huang, Raymond, additional, Rahman, Saeedur, additional, Ellis-Mohr, Austin, additional, Noblet, Hayden A., additional, Lim, Ki H., additional, Chung, Hee Jung, additional, Gritton, Howard J., additional, Saif, M. Taher A., additional, Kong, Hyun Joon, additional, Beggs, John M., additional, and Gazzola, Mattia, additional

Published
2023
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7. COVID-19 through adverse outcome pathways: building networks to better understand the disease: report of the 3rd CIAO AOP design workshop

Author

Clerbaux, Laure-Alix, Amigó, Núria, Amorim, Maria João, Bal-Price, Anna, Leite, Sofia Batista, Beronius, Anna, Bezemer, Gillina F.G., Bostroem, Ann-Charlotte, Carusi, Annamaria, Coecke, Sandra, Concha, Rachel, Daskalopoulos, Evangelos P., Debernardi, Francesca, Edrosa, Eizleayne, Edwards, Steve W., Filipovska, Julija, Garcia-Reyero, Natàlia, Gavins, Felicity N.E., Halappanavar, Sabina, Hargreaves, Alan J., Hogberg, Helena, Huynh, Mylène T., Jacobson, Daniel, Josephs-Spaulding, Jonathan, Kim, Young Jun, Kong, Hyun Joon, Krebs, Catharine E., Lam, Ann, Landesmann, Brigitte, Racanelli Layton, Adrienne, Lee, Yong Oh, Macmillan, Donna S., Mantovani, Alberto, Margiotta-Casaluci, Luigi, Martens, Marvin, Masereeuw, Rosalinde, Mayasich, Sally A., Mei, Liang Merlin, Mortensen, Holly, Munoz Pineiro, Amalia, Nymark, Penny, Ohayon, Elan, Manoj Ojasi, Joshi, Paini, Alicia, Parissis, Nikolaos, Parvatam, Surat, Pistollato, Francesca, Sachana, Magdalini, Birkelund Sørli, Jorid, Sullivan, Kristie M., Sund, Jukka, Tanabe, Shihori, Tsaioun, Katya, Vinken, Mathieu, Viviani, Laura, Waspe, Jennifer, Willett, Catherine, Wittwehr, Clemens, Pharmaceutical and Pharmacological Sciences, and Experimental in vitro toxicology and dermato-cosmetology

Abstract

On April 28-29, 2021, 50 scientists from different fields of expertise met for the 3rd online CIAO workshop. The CIAO project “Modelling the Pathogenesis of COVID-19 using the Adverse Outcome Pathway (AOP) framework” aims at building a holistic assembly of the available scientific knowledge on COVID-19 using the AOP framework. An individual AOP depicts the disease progression from the initial contact with the SARS-CoV-2 virus through biological key events (KE) toward an adverse outcome such as respiratory distress, anosmia or multiorgan failure. Assembling the individual AOPs into a network highlights shared KEs as central biological nodes involved in multiple outcomes observed in COVID-19 patients. During the workshop, the KEs and AOPs established so far by the CIAO members were presented and posi­tioned on a timeline of the disease course. Modulating factors influencing the progression and severity of the disease were also addressed as well as factors beyond purely biological phenomena. CIAO relies on an interdisciplinary crowd­sourcing effort, therefore, approaches to expand the CIAO network by widening the crowd and reaching stakeholders were also discussed. To conclude the workshop, it was decided that the AOPs/KEs will be further consolidated, inte­grating virus variants and long COVID when relevant, while an outreach campaign will be launched to broaden the CIAO scientific crowd.

Published
2022

8. COVID-19 through Adverse Outcome Pathways: Building networks to better understand the disease - 3rd CIAO AOP Design Workshop

Author

Clerbaux, Laure-Alix, Amigó, Núria, Amorim, Maria João, Bal-Price, Anna, Batista Leite, Sofia, Beronius, Anna, Bostroem, Ann-Charlotte, Carusi, Annamaria, Coecke, Sandra, Concha, Rachel, Daskalopoulos, Evangelos P, Debernardi, Francesca, Edrosa, Eizleayne, Edwards, Steve W, Filipovska, Julija, Garcia-Reyero, Natàlia, Gavins, Felicity N E, Halappanavar, Sabina, Hargreaves, Alan J, Hogberg, Helena T, Huynh, Mylène T, Jacobson, Daniel, Josephs-Spaulding, Jonathan, Kim, Young Jun, Kong, Hyun Joon, Krebs, Catharine E, Lam, Ann, Landesmann, Brigitte, Layton, Adrienne, Lee, Yong Oh, Macmillan, Donna S, Mantovani, Alberto, Margiotta-Casaluci, Luigi, Martens, Marvin, Masereeuw, Rosalinde, Mayasich, Sally A, Mei, Liang Merlin, Mortensen, Holly, Munoz Pineiro, Amalia, Nymark, Penny, Ohayon, Elan, Ojasi, Joshi, Paini, Alicia, Parissis, Nikolaos, Parvatam, Surat, Pistollato, Francesca, Sachana, Magdalini, Sørli, Jorid Birkelund, Sullivan, Kristie M, Sund, Jukka, Tanabe, Shihori, Tsaioun, Katya, Vinken, Mathieu, Viviani, Laura, Waspe, Jennifer, Willett, Catherine, Wittwehr, Clemens, Clerbaux, Laure-Alix, Amigó, Núria, Amorim, Maria João, Bal-Price, Anna, Batista Leite, Sofia, Beronius, Anna, Bostroem, Ann-Charlotte, Carusi, Annamaria, Coecke, Sandra, Concha, Rachel, Daskalopoulos, Evangelos P, Debernardi, Francesca, Edrosa, Eizleayne, Edwards, Steve W, Filipovska, Julija, Garcia-Reyero, Natàlia, Gavins, Felicity N E, Halappanavar, Sabina, Hargreaves, Alan J, Hogberg, Helena T, Huynh, Mylène T, Jacobson, Daniel, Josephs-Spaulding, Jonathan, Kim, Young Jun, Kong, Hyun Joon, Krebs, Catharine E, Lam, Ann, Landesmann, Brigitte, Layton, Adrienne, Lee, Yong Oh, Macmillan, Donna S, Mantovani, Alberto, Margiotta-Casaluci, Luigi, Martens, Marvin, Masereeuw, Rosalinde, Mayasich, Sally A, Mei, Liang Merlin, Mortensen, Holly, Munoz Pineiro, Amalia, Nymark, Penny, Ohayon, Elan, Ojasi, Joshi, Paini, Alicia, Parissis, Nikolaos, Parvatam, Surat, Pistollato, Francesca, Sachana, Magdalini, Sørli, Jorid Birkelund, Sullivan, Kristie M, Sund, Jukka, Tanabe, Shihori, Tsaioun, Katya, Vinken, Mathieu, Viviani, Laura, Waspe, Jennifer, Willett, Catherine, and Wittwehr, Clemens

Abstract

On April 28-29, 2021, 50 scientists from different fields of expertise met for the 3rd online CIAO workshop. The CIAO project “Modelling the Pathogenesis of COVID-19 using the Adverse Outcome Pathway (AOP) framework” aims at building a holistic assembly of the available scientific knowledge on COVID-19 using the AOP framework. An individual AOP depicts the disease progression from the initial contact with the SARS-CoV-2 virus through biological key events (KE) toward an adverse outcome such as respiratory distress, anosmia or multiorgan failure. Assembling the individual AOPs into a network highlights shared KEs as central biological nodes involved in multiple outcomes observed in COVID-19 patients. During the workshop, the KEs and AOPs established so far by the CIAO members were presented and posi­tioned on a timeline of the disease course. Modulating factors influencing the progression and severity of the disease were also addressed as well as factors beyond purely biological phenomena. CIAO relies on an interdisciplinary crowd­sourcing effort, therefore, approaches to expand the CIAO network by widening the crowd and reaching stakeholders were also discussed. To conclude the workshop, it was decided that the AOPs/KEs will be further consolidated, inte­grating virus variants and long COVID when relevant, while an outreach campaign will be launched to broaden the CIAO scientific crowd.

Published
2022

9. COVID-19 through Adverse Outcome Pathways: Building networks to better understand the disease - 3rd CIAO AOP Design Workshop

Author

Afd Pharmacology, Orphan drugs development in The Netherlands: from bench to patient, Pharmacology, Clerbaux, Laure-Alix, Amigó, Núria, Amorim, Maria João, Bal-Price, Anna, Batista Leite, Sofia, Beronius, Anna, Bostroem, Ann-Charlotte, Carusi, Annamaria, Coecke, Sandra, Concha, Rachel, Daskalopoulos, Evangelos P, Debernardi, Francesca, Edrosa, Eizleayne, Edwards, Steve W, Filipovska, Julija, Garcia-Reyero, Natàlia, Gavins, Felicity N E, Halappanavar, Sabina, Hargreaves, Alan J, Hogberg, Helena T, Huynh, Mylène T, Jacobson, Daniel, Josephs-Spaulding, Jonathan, Kim, Young Jun, Kong, Hyun Joon, Krebs, Catharine E, Lam, Ann, Landesmann, Brigitte, Layton, Adrienne, Lee, Yong Oh, Macmillan, Donna S, Mantovani, Alberto, Margiotta-Casaluci, Luigi, Martens, Marvin, Masereeuw, Rosalinde, Mayasich, Sally A, Mei, Liang Merlin, Mortensen, Holly, Munoz Pineiro, Amalia, Nymark, Penny, Ohayon, Elan, Ojasi, Joshi, Paini, Alicia, Parissis, Nikolaos, Parvatam, Surat, Pistollato, Francesca, Sachana, Magdalini, Sørli, Jorid Birkelund, Sullivan, Kristie M, Sund, Jukka, Tanabe, Shihori, Tsaioun, Katya, Vinken, Mathieu, Viviani, Laura, Waspe, Jennifer, Willett, Catherine, Wittwehr, Clemens, Afd Pharmacology, Orphan drugs development in The Netherlands: from bench to patient, Pharmacology, Clerbaux, Laure-Alix, Amigó, Núria, Amorim, Maria João, Bal-Price, Anna, Batista Leite, Sofia, Beronius, Anna, Bostroem, Ann-Charlotte, Carusi, Annamaria, Coecke, Sandra, Concha, Rachel, Daskalopoulos, Evangelos P, Debernardi, Francesca, Edrosa, Eizleayne, Edwards, Steve W, Filipovska, Julija, Garcia-Reyero, Natàlia, Gavins, Felicity N E, Halappanavar, Sabina, Hargreaves, Alan J, Hogberg, Helena T, Huynh, Mylène T, Jacobson, Daniel, Josephs-Spaulding, Jonathan, Kim, Young Jun, Kong, Hyun Joon, Krebs, Catharine E, Lam, Ann, Landesmann, Brigitte, Layton, Adrienne, Lee, Yong Oh, Macmillan, Donna S, Mantovani, Alberto, Margiotta-Casaluci, Luigi, Martens, Marvin, Masereeuw, Rosalinde, Mayasich, Sally A, Mei, Liang Merlin, Mortensen, Holly, Munoz Pineiro, Amalia, Nymark, Penny, Ohayon, Elan, Ojasi, Joshi, Paini, Alicia, Parissis, Nikolaos, Parvatam, Surat, Pistollato, Francesca, Sachana, Magdalini, Sørli, Jorid Birkelund, Sullivan, Kristie M, Sund, Jukka, Tanabe, Shihori, Tsaioun, Katya, Vinken, Mathieu, Viviani, Laura, Waspe, Jennifer, Willett, Catherine, and Wittwehr, Clemens

Published
2022

10. Quenching Epigenetic Drug Resistance Using Antihypoxic Microparticles in Glioblastoma Patient‐Derived Chips (Adv. Healthcare Mater. 8/2022)

Author

Baek, Sewoom, primary, Yu, Seung Eun, additional, Deng, Yu‐Heng, additional, Lee, Yong‐Jae, additional, Lee, Dong Gue, additional, Kim, Surim, additional, Yoon, Seonjin, additional, Kim, Hye‐Seon, additional, Park, Jeongeun, additional, Lee, Chan Hee, additional, Lee, Jung Bok, additional, Kong, Hyun Joon, additional, Kang, Seok‐Gu, additional, Shin, Young Min, additional, and Sung, Hak‐Joon, additional

Published
2022
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11. Detection and classification of SARS-CoV-2 through phase imaging with computational specificity (PICS)

Author

Goswami, Neha, primary, He, Yuchen R., additional, Deng, Yu-Heng, additional, Oh, Chamteut, additional, Chowdhury, Sajeeb Roy, additional, Sobh, Nahil, additional, Valera, Enrique, additional, Bashir, Rashid, additional, Ismail, Nahed, additional, Kong, Hyun Joon, additional, Nguyen, Thanh H., additional, Best-Popescu, Catherine, additional, and Popescu, Gabriel, additional

Published
2022
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29. Differentiation stage alters matrix control of stem cells

Author

Department of Chemical Engineering, University of Michigan, Ann Arbor, Michigan ; School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts, School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts, School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts ; Department of Chemical and Biomolecular Engineering, University of Illinois, Urbana, Illinois, Department of Bioengineering, Hanyang University, Seoul, South Korea, Hsiong, Susan X., Carampin, Paolo, Kong, Hyun-Joon, Lee, Kuen-Yong, Mooney, David J., Department of Chemical Engineering, University of Michigan, Ann Arbor, Michigan ; School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts, School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts, School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts ; Department of Chemical and Biomolecular Engineering, University of Illinois, Urbana, Illinois, Department of Bioengineering, Hanyang University, Seoul, South Korea, Hsiong, Susan X., Carampin, Paolo, Kong, Hyun-Joon, Lee, Kuen-Yong, and Mooney, David J.

Abstract

No abstract.

Published
2008

30. AFM Imaging of RGD Presenting Synthetic Extracellular Matrix Using Gold Nanoparticles

Author

Department of Chemical Engineering, University of Michigan, Ann Arbor, MI, USA ; School of Engineering and Applied Sciences, Engineering Science Lab, Harvard University SEAS, 325 Pierce Hall Cambridge, MA 02138, USA, Eastern Regional Research Center, Agricultural Research Service, U.S. Department of Agriculture, Wyndmoor, PA, USA, Department of Chemical and Biomolecular Engineering, University of Illinois Urbana, Champaign, IL, USA, Department of Cell Biology, Harvard Medical School, Cambridge, MA, USA, School of Engineering and Applied Sciences, Engineering Science Lab, Harvard University SEAS, 325 Pierce Hall Cambridge, MA 02138, USA ; School of Engineering and Applied Sciences, Engineering Science Lab, Harvard University SEAS, 325 Pierce Hall Cambridge, MA 02138, USA. Fax: +1 617 496 5264, Hsiong, Susan X., Cooke, Peter H., Kong, Hyun-Joon, Fishman, Marshall L., Ericsson, Maria, Mooney, David J., Department of Chemical Engineering, University of Michigan, Ann Arbor, MI, USA ; School of Engineering and Applied Sciences, Engineering Science Lab, Harvard University SEAS, 325 Pierce Hall Cambridge, MA 02138, USA, Eastern Regional Research Center, Agricultural Research Service, U.S. Department of Agriculture, Wyndmoor, PA, USA, Department of Chemical and Biomolecular Engineering, University of Illinois Urbana, Champaign, IL, USA, Department of Cell Biology, Harvard Medical School, Cambridge, MA, USA, School of Engineering and Applied Sciences, Engineering Science Lab, Harvard University SEAS, 325 Pierce Hall Cambridge, MA 02138, USA ; School of Engineering and Applied Sciences, Engineering Science Lab, Harvard University SEAS, 325 Pierce Hall Cambridge, MA 02138, USA. Fax: +1 617 496 5264, Hsiong, Susan X., Cooke, Peter H., Kong, Hyun-Joon, Fishman, Marshall L., Ericsson, Maria, and Mooney, David J.

Abstract

Several high-resolution imaging techniques such as FESEM, TEM and AFM are compared with respect to their application on alginate hydrogels, a widely used polysaccharide biomaterial. A new AFM method applicable to RGD peptides covalently conjugated to alginate hydrogels is described. High-resolution images of RGD adhesion ligand distribution were obtained by labeling biotinylated RGD peptides with streptavidin-labeled gold nanoparticles. This method may broadly provide a useful tool for sECM characterization and design for tissue regeneration strategies.

Published
2008

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