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Bryan A Hassell

from Medford, MA
Age ~43
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Also known as:
Bryan A Hassel
Related to:
Nicole Gentile, 28Paul Breen, 40Joseph Breen, 36Kelly M Schultz, 49
Connected to:
Alexandria G Hassell, 40Alyssa R Hassell, 30Audrey D Hassell, 89Bayly M Hassell, 32Beverly L Hassell, 82Billy E Hassell, 77Bobbi J Hassell, 35Brack S Hassell, 40Caroline L Hassell, 31Danielle Y Hassell, 48

Bryan Hassell Phones & Addresses

  • Medford, MA
  • Belmont, MA
  • 36 Oxford St APT 2, Cambridge, MA 02138
  • Arlington, MA
  • Jamaica Plain, MA
  • Philadelphia, PA
  • Carlsbad, CA
  • Tucson, AZ

Publications

Us Patents

Low Shear Microfluidic Devices And Methods Of Use And Manufacturing Thereof

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US Patent:
20210003561, Jan 7, 2021
Filed:
Sep 11, 2020
Appl. No.:
17/019102
Inventors:
- Cambridge MA, US
Kambez Hajipouran Benam - Cambridge MA, US
Remi Villenave - Boston MA, US
Geraldine A. Hamilton - Cambridge MA, US
Bryan Hassell - Cambridge MA, US
Christopher D. Hinojosa - Cambridge MA, US
Carolina Lucchesi - Westwood MA, US
International Classification:
G01N 33/50
C12M 3/06
C12M 1/12
C12M 1/42
C12M 3/00
C12M 1/34
Abstract:
Provided herein relates to systems and methods for producing and using a body having a central channel separated by one or more membranes. The membrane(s) are configured to divide the central channel into at least one mesochannel and at least one microchannel. The height of the mesochannel is substantially greater than the height of the microchannel. A gaseous fluid can be applied through the mesochannel while a liquid fluid flowing through the microchannel. The systems and methods described herein can be used for various applications, including, e.g., growth and differentiation of primary cells such as human lung cells, as well as any other cells requiring low shear and/also stratified structures, or simulation of a microenvironment in living tissues and/or organs (to model physiology or disease states, and/or to identify therapeutic agents and/or vaccines). The systems and methods can also permit co-culture with one or more different cell types.

Human In Vitro Orthotopic And Metastatic Models Of Cancer

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US Patent:
20200270557, Aug 27, 2020
Filed:
Sep 18, 2018
Appl. No.:
16/648050
Inventors:
- Cambridge MA, US
Bryan HASSELL - Arlington MA, US
Donald E. Ingber - Boston MA, US
Assignee:
PRESIDENT AND FELLOWS OF HARVARD COLLEGE - Cambridge MA
International Classification:
C12M 3/06
C12M 3/00
C12M 1/12
C12M 1/42
C12N 5/09
C12N 5/071
Abstract:
Disclosed herein are devices and methods for generating orthotopic models of cancer. The devices and methods include providing a microfluidic device having a body, the body including a first microchannel separated from a second microchannel by an at least partially porous membrane, the membrane having a first side facing the first microchannel and a second side facing the second microchannel, seeding the first side of the membrane with healthy cells and cancer cells such that the cancer cells are seeded with a differentiated tissue layer, and culturing the healthy cells and the cancer cells within the microfluidic device by flowing medium through one or more of the first and second microchannels with or without endothelium in the second channel.

Low Shear Microfluidic Devices And Methods Of Use And Manufacturing Thereof

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US Patent:
20160313306, Oct 27, 2016
Filed:
Dec 19, 2014
Appl. No.:
15/105962
Inventors:
- Cambridge MA, US
Kambez Hajipouran Benam - Cambridge MA, US
Remi Villenave - Boston MA, US
Geraldine A. Hamilton - Cambridge MA, US
Bryan Hassell - Cambridge MA, US
Christopher D. Hinojosa - Cambridge MA, US
International Classification:
G01N 33/50
C12M 1/42
C12M 1/34
C12M 3/06
C12M 1/12
Abstract:
Provided herein relates to systems and methods for producing and using a body having a central channel separated by one or more membranes. The membrane(s) are configured to divide the central channel into at least one mesochannel and at least one microchannel. The height of the mesochannel is substantially greater than the height of the microchannel. A gaseous fluid can be applied through the mesochannel while a liquid fluid flowing through the microchannel. The systems and methods described herein can be used for various applications, including, e.g., growth and differentiation of primary cells such as human lung cells, as well as any other cells requiring low shear and/also stratified structures, or simulation of a microenvironment in living tissues and/or organs (to model physiology or disease states, and/or to identify therapeutic agents and/or vaccines). The systems and methods can also permit co-culture with one or more different cell types.
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Bryan A Hassell from Medford, MA, age ~43 Get Report