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Your search keyword '"Takayama, Shuichi"' showing total 996 results
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996 results on '"Takayama, Shuichi"'

1. Rapid translocation of pluripotency-related transcription factors by external uniaxial forces

Author

Topal, Tuğba, Kim, Byoung Choul, Villa-Diaz, Luis G, Deng, Cheri X, Takayama, Shuichi, and Krebsbach, Paul H

Subjects
Stem Cell Research, Regenerative Medicine, Bioengineering, Stem Cell Research - Embryonic - Non-Human, Generic health relevance, CRM1, FAK, Mechanotransduction, Nanog, Oct4, cytoplasmic translocation, hESCs, stem cells, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Pharmacology and Pharmaceutical Sciences, General Science & Technology
Abstract

Human embryonic stem cells subjected to a one-time uniaxial stretch for as short as 30-min on a flexible substrate coated with Matrigel experienced rapid and irreversible nuclear-to-cytoplasmic translocation of NANOG and OCT4, but not Sox2. Translocations were directed by intracellular transmission of biophysical signals from cell surface integrins to nuclear CRM1 and were independent of exogenous soluble factors. On E-CADHERIN-coated substrates, presumably with minimal integrin engagement, mechanical strain-induced rapid nuclear-to-cytoplasmic translocation of the three transcription factors. These findings might provide fundamental insights into early developmental processes and may facilitate mechanotransduction-mediated bioengineering approaches to influencing stem cell fate determination.

Published
2019

4. Forced air oscillations – pneumatic capacitance in microfluidic oscillators produces non-linear responses and emergent behaviors.

Author

Lesher-Pérez, Sasha Cai, Vasani, Vishwa, So, Jihye, and Takayama, Shuichi

Subjects
NONLINEAR oscillators, GAS compressibility, COMPRESSIBILITY (Fluids), CIRCUIT elements, PNEUMATIC control
Abstract

Pneumatic control mechanisms have long been integral to microfluidic systems, primarily using solenoid valves, pressurized gases, and vacuums to direct liquid flow. Despite advancements in liquid-driven self-regulated microfluidic circuits, gas-driven systems leveraging fluid compressibility remain underexplored. This study presents a mathematical and experimental investigation of gas-driven microfluidic circuits, focusing on forced-air oscillators. We derive and validate a first-principles model of microfluidic circuit elements operated under positive pressurization, using a 'molecular packets' analogy to elucidate compressibility effects. Our findings reveal that gas compressibility impacts circuit behavior, by acting similar to a large capacitor in the system, which inherently results in longer oscillation periods. As the syringe evacuates, the capacitance decreases, which in turn reduces the oscillation period. Experimental validation of our system demonstrates persistent behavior when using forced air to drive the microfluidic oscillators, this includes assessing devices with various PDMS membrane thicknesses, as well as evaluating device performance under different flow rates and syringe sizes. The forced air oscillators exhibited decreasing periods and capacitance over time, aligning with our theoretical predictions. [ABSTRACT FROM AUTHOR]

Published
2024
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5. A guide to the organ-on-a-chip

Author

Leung, Chak Ming, de Haan, Pim, Ronaldson-Bouchard, Kacey, Kim, Ge-Ah, Ko, Jihoon, Rho, Hoon Suk, Chen, Zhu, Habibovic, Pamela, Jeon, Noo Li, Takayama, Shuichi, Shuler, Michael L., Vunjak-Novakovic, Gordana, Frey, Olivier, Verpoorte, Elisabeth, and Toh, Yi-Chin

Published
2022
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7. HIGH THROUGHPUT QUANTITATION OF HUMAN NEUTROPHIL RECRUITMENT AND FUNCTIONAL RESPONSES IN AN AIR-BLOOD BARRIER ARRAY

Author

Viola, Hannah, primary, Chen, Liang Hsin, additional, Jo, Seongbin, additional, Washington, Kendra, additional, Selva, Cauviya, additional, Li, Andrea, additional, Feng, Daniel, additional, Giacalone, Vincent, additional, Stephenson, Susan, additional, Cottrill, Kirsten, additional, Mohammed, Ahmad, additional, Williams, Evelyn, additional, Qu, Xianggui, additional, Lam, Wilbur A., additional, Ng, Nga Lee, additional, Fitzpatrick, Anne, additional, Grunwell, Jocelyn, additional, Tirouvanziam, Rabindra, additional, and Takayama, Shuichi, additional

Published
2024
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9. MISpheroID: a knowledgebase and transparency tool for minimum information in spheroid identity

Author

Peirsman, Arne, Blondeel, Eva, Ahmed, Tasdiq, Anckaert, Jasper, Audenaert, Dominique, Boterberg, Tom, Buzas, Krisztina, Carragher, Neil, Castellani, Gastone, Castro, Flávia, Dangles-Marie, Virginie, Dawson, John, De Tullio, Pascal, De Vlieghere, Elly, Dedeyne, Sándor, Depypere, Herman, Diosdi, Akos, Dmitriev, Ruslan I., Dolznig, Helmut, Fischer, Suzanne, Gespach, Christian, Goossens, Vera, Heino, Jyrki, Hendrix, An, Horvath, Peter, Kunz-Schughart, Leoni A., Maes, Sebastiaan, Mangodt, Christophe, Mestdagh, Pieter, Michlíková, Soňa, Oliveira, Maria José, Pampaloni, Francesco, Piccinini, Filippo, Pinheiro, Cláudio, Rahn, Jennifer, Robbins, Stephen M., Siljamäki, Elina, Steigemann, Patrick, Sys, Gwen, Takayama, Shuichi, Tesei, Anna, Tulkens, Joeri, Van Waeyenberge, Michiel, Vandesompele, Jo, Wagemans, Glenn, Weindorfer, Claudia, Yigit, Nurten, Zablowsky, Nina, Zanoni, Michele, Blondeel, Phillip, and De Wever, Olivier

Published
2021
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12. Stably-Inverted Apical-Out Human Upper Airway Organoids for SARS-CoV-2 Infection and Therapeutic Testing

Author

Lee, Ji-Hoon, primary, LeCher, Julia C, additional, Parigoris, Eric, additional, Shinagawa, Noriyuki, additional, Sentosa, Jason, additional, Manfredi, Candela, additional, Goh, Shu Ling, additional, De, Ramyani, additional, Tao, Sijia, additional, Zandi, Keivan, additional, Amblard, Franck, additional, Sorscher, Eric J, additional, Spence, Jason R, additional, Tirouvanziam, Rabindra, additional, Schinazi, Raymond F, additional, and Takayama, Shuichi, additional

Published
2024
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14. A cost-effective fluorescence mini-microscope for biomedical applications

Author

Zhang, Yu Shrike, Ribas, João, Nadhman, Akhtar, Aleman, Julio, Selimović, Šeila, Lesher-Perez, Sasha Cai, Wang, Ting, Manoharan, Vijayan, Shin, Su-Ryon, Damilano, Alessia, Annabi, Nasim, Dokmeci, Mehmet Remzi, Takayama, Shuichi, and Khademhosseini, Ali

Subjects
Biotechnology, Bioengineering, Animals, Cell Movement, Fluorescent Dyes, Hep G2 Cells, Humans, Lab-On-A-Chip Devices, Mice, Microscopy, Fluorescence, NIH 3T3 Cells, Oxygen, Chemical Sciences, Engineering, Analytical Chemistry
Abstract

We have designed and fabricated a miniature microscope from off-the-shelf components and a webcam, with built-in fluorescence capability for biomedical applications. The mini-microscope was able to detect both biochemical parameters, such as cell/tissue viability (e.g. live/dead assay), and biophysical properties of the microenvironment such as oxygen levels in microfabricated tissues based on an oxygen-sensitive fluorescent dye. This mini-microscope has adjustable magnifications from 8-60×, achieves a resolution as high as

Published
2015

22. Liquid plug propagation in computer-controlled microfluidic airway-on-a-chip with semi-circular microchannels.

Author

Viola, Hannah L., Vasani, Vishwa, Washington, Kendra, Lee, Ji-Hoon, Selva, Cauviya, Li, Andrea, Llorente, Carlos J., Murayama, Yoshinobu, Grotberg, James B., Romanò, Francesco, and Takayama, Shuichi

Subjects
MICROFLUIDICS, RESPIRATORY mechanics, OBSTRUCTIVE lung diseases, SURFACE tension, PRESSURE drop (Fluid dynamics), LIQUIDS
Abstract

This paper introduces a two-inlet, one-outlet lung-on-a-chip device with semi-circular cross-section microchannels and computer-controlled fluidic switching that enables a broader systematic investigation of liquid plug dynamics in a manner relevant to the distal airways. A leak-proof bonding protocol for micro-milled devices facilitates channel bonding and culture of confluent primary small airway epithelial cells. Production of liquid plugs with computer-controlled inlet channel valving and just one outlet allows more stable long-term plug generation and propagation compared to previous designs. The system also captures both plug speed and length as well as pressure drop concurrently. In one demonstration, the system reproducibly generates surfactant-containing liquid plugs, a challenging process due to lower surface tension that makes the plug formation less stable. The addition of surfactant decreases the pressure required to initiate plug propagation, a potentially significant effect in diseases where surfactant in the airways is absent or dysfunctional. Next, the device recapitulates the effect of increasing fluid viscosity, a challenging analysis due to higher resistance of viscous fluids that makes plug formation and propagation more difficult particularly in airway-relevant length scales. Experimental results show that increased fluid viscosity decreases plug propagation speed for a given air flow rate. These findings are supplemented by computational modeling of viscous plug propagation that demonstrates increased plug propagation time, increased maximum wall shear stress, and greater pressure differentials in more viscous conditions of plug propagation. These results match physiology as mucus viscosity is increased in various obstructive lung diseases where it is known that respiratory mechanics can be compromised due to mucus plugging of the distal airways. Finally, experiments evaluate the effect of channel geometry on primary human small airway epithelial cell injury in this lung-on-a-chip. There is more injury in the middle of the channel relative to the edges highlighting the role of channel shape, a physiologically relevant parameter as airway cross-sectional geometry can also be non-circular. In sum, this paper describes a system that pushes the device limits with regards to the types of liquid plugs that can be stably generated for studies of distal airway fluid mechanical injury. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Manipulation of the nucleoscaffold potentiates cellular reprogramming kinetics

Author

Yang, Benjamin A., primary, da Rocha, André Monteiro, additional, Newton, Isabel, additional, Shcherbina, Anna, additional, Wong, Sing-Wan, additional, Fraczek, Paula M., additional, Larouche, Jacqueline A., additional, Hiraki, Harrison L., additional, Baker, Brendon M., additional, Shin, Jae-Won, additional, Takayama, Shuichi, additional, Thouless, M. D., additional, and Aguilar, Carlos A., additional

Published
2023
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