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In‑Vitro Contractile Force Sensing Platform for Quantitative Tissue Mechanics
In‑Vitro Contractile Force Sensing Platform for Quantitative Tissue Mechanics (In‑Vitro Contractile Force Indicator, Tech ID: 21‑024)
Technology Overview: This technology provides an in‑vitro contractile force indicator that enables quantitative measurement of cellular and tissue‑level mechanical forces. The platform converts contractile activity into...
Published: 2/13/2026
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Inventor(s): Jessica Pridmore, Cassandra Martin, Jonathan Grasman, Katherine Coombs
Keywords(s): Drug Discovery Technologies, in vitro model, Mechanobiology, Patent Issued, Quantitative Measurement, Real-time, Tissue Engineering
Category(s): Diagnostics, Sensors & Analytical Platforms
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Chitosan–FGF Matrices for Stem Cell Culture
Chitosan–FGF Matrices for Stem Cell Culture (Growth Matrices for Stem Cell Propagation in vitro and in Tissue Regeneration, Tech ID: 13‑013)
Technology Overview: A family of biomaterial growth matrices (e.g., chitosan‑based systems with FGF and defined components) that support robust in‑vitro stem cell propagation and promote tissue regeneration....
Published: 2/13/2026
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Inventor(s): Steven Levison, Cheul Cho, Nolan Skop, Frances Calderon, Chirag Gandhi
Keywords(s): Biomaterials, Bioprocessing, Cell Therapy, Patent Issued, Regenerative Medicine, Scaffold, Stem Cell Bioengineering, Tissue Engineering
Category(s): Drug Delivery, Excipients & Biopharma Manufacturing
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Electroactive, Electrospun Polymer Scaffolds for Regenerative Medicine
Electroactive, Electrospun Polymer Scaffolds for Regenerative Medicine (Electrospun Electroactive Polymers for Regenerative Medicine Applications, Tech ID: 08‑018)
Technology Overview: This technology creates electrospun, electroactive polymer scaffolds that provide biophysical cues to cells, mimicking native extracellular matrix while enabling electrostimulation....
Published: 2/13/2026
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Inventor(s): Treena Arinzeh, Michael Jaffe, Norbert Weber
Keywords(s): Patent Issued, Regenerative Medicine, Scaffold, Tissue Engineering, Wound Healing
Category(s): Biomaterials & Regenerative Therapies
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Additive Biomanufacturing Platform for Cell Laden Hydrogels and Living Constructs
Additive Biomanufacturing Platform for Cell‑Laden Hydrogels and Living Constructs (Additive Manufacturing of Cell‑Laden Functional Hydrogel and Live Cell Constructs, Tech ID: 18‑038)
Technology Overview: This technology enables additive manufacturing of hydrogels containing living cells, allowing precise spatial control over biological and structural...
Published: 2/13/2026
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Inventor(s): Alperen Abaci, Murat Guvendiren, Shen Ji
Keywords(s): Bioprinting, Hydrogel, in vitro model, Patent Issued, Regenerative Medicine, Tissue Engineering
Category(s): Biomaterials & Regenerative Therapies
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Dual Material 3D Printing Platform for Perfusable Tissue Scaffolds
Dual‑Material 3D Printing Platform for Perfusable Tissue Scaffolds (Dual Printing Additive Manufacturing of 3D Scaffolds with Channel Diameters Ranging from 100–500 Microns, Tech ID: 18‑038)
Technology Overview: This technology enables dual‑material additive manufacturing of 3D scaffolds with precisely controlled channel diameters suitable for...
Published: 2/13/2026
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Inventor(s): Murat Guvendiren, Shen Ji
Keywords(s): Biomanufacturing, Bioprinting, in vitro model, Patent Issued, Regenerative Medicine, Scaffold, Tissue Engineering
Category(s): Biomaterials & Regenerative Therapies
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Regenerative Scaffold Platform for Accelerated Tissue Growth and Repair
Regenerative Scaffold Platform for Accelerated Tissue Growth and Repair (Scaffold for Tissue Growth and Repair, Tech ID: 12‑012)
This is a bioengineered scaffold designed to support tissue regeneration and functional repair by mimicking the structural and mechanical characteristics of native extracellular matrices. The scaffold provides a three‑dimensional...
Published: 2/13/2026
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Inventor(s): Treena Arinzeh
Keywords(s): Biomedical, Implants, Orthopaedic Applications, Patent Issued, Regenerative Medicine, Scaffold, Tissue Engineering
Category(s): Biomaterials & Regenerative Therapies
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Photoluminescent Hydrogel Platform for Bioimaging and Therapeutic Applications
Photoluminescent Hydrogel Platform for Bioimaging and Therapeutic Applications (Photoluminescent Hydrogel, Tech ID: 17‑010)
Technology Overview: This NJIT technology is a photoluminescent hydrogel that combines soft, biocompatible polymer networks with intrinsic light‑emitting properties. The hydrogel can be engineered to emit fluorescence under specific...
Published: 2/13/2026
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Inventor(s): Yunghao Tsou, Xiaoyang Xu
Keywords(s): Biocompatible, Biomedical, Hydrogel, Medical Imaging, Patent Issued, Photoluminescence, Sensor, Tissue Engineering
Category(s): Life Science and Engineering > Diagnosis/Therapeutics, Biomaterials & Regenerative Therapies
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