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Luke Herbertson

Showing results (1-10 of 8) with videos related to

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Micromachines|March 6, 2025
Development of a Tool for Verifying Leakage Detection in Microfluidic SystemsAli Bozorgnezhad, Luke Herbertson, Suvajyoti Guha
Magnetic Resonance in Medicine|August 3, 2013
A dialyzer-based flow system for validating dynamic contrast enhanced MR image acquisitionSunder Rajan, Luke Herbertson, Marcelino Bernardo, et al.
Micromachines|July 29, 2023
A Systematic Analysis of Recent Technology Trends of Microfluidic Medical Devices in the United StatesRucha Natu, Luke Herbertson, Grazziela Sena, et al.
Micromachines|September 29, 2020
Assessment of Flow through Microchannels for Inertia-Based Sorting: Steps toward Microfluidic Medical DevicesRucha Natu, Suvajyoti Guha, Seyed Ahmad Reza Dibaji, et al.
Cardiovascular Engineering and Technology|September 2, 2021
Simulating Radial Pressure Waveforms with a Mock Circulatory Flow Loop to Characterize Hemodynamic Monitoring SystemsAnna Packy, Gavin A D'Souza, Masoud Farahmand, et al.
Plos One|July 31, 2020
Technical considerations for medical device manufacturers when designing gastrostomy tubes (G-tubes) using the new ISO 80369-3 connectorSuvajyoti Guha, Alexander Herman, Luke Herbertson, et al.
Lab on a Chip|December 8, 2020
Accelerating innovation and commercialization through standardization of microfluidic-based medical devicesDarwin R Reyes, Henne van Heeren, Suvajyoti Guha, et al.
Toxicology in Vitro : an International Journal Published in Association with BIBRA|February 24, 2024
In vitro test methods for evaluating high molecular weight polyethylene oxide polymer induced hemolytic and thrombotic potentialDongjune Kim, Rucha Natu, Richard Malinauskas, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Micromachines|March 6, 2025
Development of a Tool for Verifying Leakage Detection in Microfluidic SystemsAli Bozorgnezhad, Luke Herbertson, Suvajyoti Guha
Magnetic Resonance in Medicine|August 3, 2013
A dialyzer-based flow system for validating dynamic contrast enhanced MR image acquisitionSunder Rajan, Luke Herbertson, Marcelino Bernardo, et al.
Micromachines|July 29, 2023
A Systematic Analysis of Recent Technology Trends of Microfluidic Medical Devices in the United StatesRucha Natu, Luke Herbertson, Grazziela Sena, et al.
Micromachines|September 29, 2020
Assessment of Flow through Microchannels for Inertia-Based Sorting: Steps toward Microfluidic Medical DevicesRucha Natu, Suvajyoti Guha, Seyed Ahmad Reza Dibaji, et al.
Cardiovascular Engineering and Technology|September 2, 2021
Simulating Radial Pressure Waveforms with a Mock Circulatory Flow Loop to Characterize Hemodynamic Monitoring SystemsAnna Packy, Gavin A D'Souza, Masoud Farahmand, et al.
Plos One|July 31, 2020
Technical considerations for medical device manufacturers when designing gastrostomy tubes (G-tubes) using the new ISO 80369-3 connectorSuvajyoti Guha, Alexander Herman, Luke Herbertson, et al.
Lab on a Chip|December 8, 2020
Accelerating innovation and commercialization through standardization of microfluidic-based medical devicesDarwin R Reyes, Henne van Heeren, Suvajyoti Guha, et al.
Toxicology in Vitro : an International Journal Published in Association with BIBRA|February 24, 2024
In vitro test methods for evaluating high molecular weight polyethylene oxide polymer induced hemolytic and thrombotic potentialDongjune Kim, Rucha Natu, Richard Malinauskas, et al.
Pageof 1