hatem+sabaawy - Available Technologies | Rutgers University Innovation Ventures

Search Results - hatem+sabaawy

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New Cell Therapy Device for Isolating Cells and Exosomes
GMP-grade closed-system clinical cell therapy device for isolation and delivery of cells and exosomes. Invention Summary: Regenerative medicine research has become an important field of study due to the ability of regenerating cells to restore a wide variety of cell types. Regenerating cells can be isolated from multiple sources and can be used...
Published: 2/2/2021   |   Inventor(s): Hatem Sabaawy
Keywords(s): Stem Cells
Category(s): Technology Classifications > Healthcare & Life Sciences, Technology Classifications > Medical Devices
New Cell Therapy Strategy for Treatment of Spinal Cord Injuries
Cell therapy strategy for spinal cord injuries and regenerative diseases. Invention Summary: Spinal cord injuries (SCI) are damages to the spinal cord neural tissues that cause sensory loss and motor paralysis. SCI patients have no options for curative therapy. Thus, a mild contusion to the spinal cord results in massive neuronal and glial cell...
Published: 2/2/2021   |   Inventor(s): Hatem Sabaawy
Keywords(s): Spinal Cord, Stem Cells
Category(s): Technology Classifications > Healthcare & Life Sciences, Technology Classifications > Therapeutics
Human Normal and Cancer Organoid Culture with Defined Components for Six Different Tissue Types
Invention Summary: An organoid is a small three-dimensional (3-D) cellular tissue structure that highly resembles the in-vivo organ from which it is originated. New technology developed at Rutgers Cancer Institute of New Jersey enables researchers to generate organoids from six different cancer types and normal tissues derived from patients suffering...
Published: 11/13/2020   |   Inventor(s): Hatem Sabaawy, Monica Bartucci
Keywords(s): Drug Discovery/Screening
Category(s): Technology Classifications > Healthcare & Life Sciences, Technology Classifications > Diagnostics
Novel Array Insert for One-Step 3D Cultures and Histological Processing
Schematic diagram of the technology. Organoid cultures can be grown in a basket array the size of a 96-well plate. The array can be shrunk down to fit into a histology cassette without need to transfer the culture. Invention Summary: Organoids are multicellular 3D structures that faithfully mimic their in vivo organ counterparts and are valuable...
Published: 9/3/2020   |   Inventor(s): Hatem Sabaawy, Howon Lee, Chen Yang, Daehoon Han
Keywords(s): Drug Discovery/Screening
Category(s): Technology Classifications > Physical Sciences & Engineering, Technology Classifications > Research Tools, Technology Classifications > Healthcare & Life Sciences
Human Normal and Cancer Organoid Culture with Defined Components for Six Different Tissue Types
Invention Summary: An organoid is a small three-dimensional (3-D) cellular tissue structure that highly resembles the in-vivo organ from which it is originated. New technology developed at Rutgers Cancer Institute of New Jersey enables researchers to generate organoids from six different cancer types and normal tissues derived from patients suffering...
Published: 6/7/2019   |   Inventor(s): Hatem Sabaawy
Keywords(s): Anti-cancer, Drug Discovery/Screening
Category(s): Technology Classifications > Healthcare & Life Sciences, Technology Classifications > Research Tools