Search Results - anirudha+singh

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A Compliant, Strong, Suturable Collagen-based Biomaterial

Unmet NeedTissue engineering and regenerative medicine hold immense promise for the future as new ways to regenerate and regrow biological tissues. An ideal tissue engineering scaffold is able to completely approximate the biochemical and mechanical properties of the tissue it is replacing, fully absorb into the body after new tissue has been established,...

Published: 6/27/2024 | Inventor(s): Anirudha Singh

Keywords(s): Industrial Manufacturing, Interventional and Surgical Systems, Novel Materials, Surgical Instruments, Suture Insertion/Removal

Category(s): Technology Classifications > Medical Devices > Regenerative Medicine

Cornea Mimetic Biomaterials: Vitrified Collagen-cyclodextrin Implants

Unmet Need:Due to eye injuries and ocular diseases such as keratitis and keratoconus, nearly 5 million patients in the world suffer from corneal blindness. The cornea is a transparent multilayered tissue of the eye that consists of epithelial and endothelial layers and helps focus the light on the retina. However, injuries to the cornea can cause corneal...

Published: 6/27/2024 | Inventor(s): Jennifer Elisseeff, Qiongyu Guo, Shoumyo Majumdar, Anirudha Singh

Keywords(s): Disease Indication, Eye Disorders, Implanted Device, Implants, Keratoconus, Therapeutic Devices, Therapeutics, Tissue Engineering/Regenerative Devices

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Rare Diseases, Technology Classifications > Medical Devices > Regenerative Medicine, Technology Classifications > Medical Devices > Therapeutic Devices, Technology Classifications > Therapeutic Modalities, Technology Classifications > Medical Devices, Clinical and Disease Specializations > Ophthalmology, Clinical and Disease Specializations > Ophthalmology > Keratoconus

Hyaluronic Acid Binding Polymer System Transforms Tissue and Biomaterial Surfaces

We introduce a transformational biomaterial approach to engineering lubrication at the tissue surface that can be applied in a single application. Articular cartilage explants were modified with a synthetic peptide-polymer system designed to non-covalently bind HA to the tissue surface and work synergistically with HA in the local fluid environment....

Published: 6/27/2024 | Inventor(s): Michael Corvelli, Anirudha Singh, Shimon Unterman, Jennifer Elisseeff

Keywords(s): Drug Delivery Vehicle, Implanted Device, Implants, Therapeutic Devices, Therapeutic Matter, Therapeutics, Tissue Engineering/Regenerative Devices

Category(s): Technology Classifications > Medical Devices > Regenerative Medicine, Technology Classifications > Medical Devices > Therapeutic Devices, Technology Classifications > Therapeutic Modalities, Technology Classifications > Medical Devices