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Applied Category Filter (Click To Remove): Wound Healing


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Skin Healing Technology: Dermal Substitutes and Engineered Skin with Rete Ridges
TS-064046 — Dermal substitute with engineered rete ridges improves epidermal-dermal communication and enhances burn wound treatment.
Massive burn injuries present a critical challenge in wound healing and prevention of infection. Current treatment methods are susceptible to blistering and other problems that can reduce engraftment. The Need Cultured epithelial autografts (CEAs) are a vital component in treating large burns, but…
  • College: College of Engineering (COE)
  • Inventors: Powell, Heather; Bailey, John; Blackstone, Britani "Niki"
  • Licensing Officer: Schultz, Teri

Smart Platform for Engineered Electroceutical Dressings (SPEEDs) Enables Better Wound Care
TS-050245 — An integrated platform with multiple sensing modalities to actively orchestrate antimicrobial activity and wound healing.
Wound healing and disinfection for chronic wounds presents significant hurdles within the medical industry. Current state of art is inadequate and adds a significant cost burden to the healthcare system with many health and life-quality challenges for patients. After the formation of an open wound…
  • College: College of Engineering (COE)
  • Inventors: Prakash, Shaurya; Heald, Rachel; Mohana Sundaram, Prashanth; Narayanan, Kavya; Stoodley, Paul; Subramaniam, Vishwanath; Vilku, Gurleen; Wilgus, Traci; Wozniak, Daniel
  • Licensing Officer: He, Panqing

Transdermal Drug and Gene Therapy Delivery
TS-045224 — A new modality for delivering drugs and gene therapies.
Gene therapy is an emerging technology that replaces a faulty gene or adds a new gene to cure disease or improve your body's ability to fight disease. These next-generation treatments hold promise for treating various genetic and chronic diseases, including but not limited to cancer, cystic fibr…
  • College: College of Medicine (COM)
  • Inventors: Gallego Perez, Daniel; Higuita Castro, Natalia; Johnson, Jed; Ohst, Devan
  • Licensing Officer: Schultz, Teri

Non-Contact Method for Accelerating Wound Healing
TS-015075 — Novel non-contact method for healing surface or deep wounds by inducing electric fields by applying time-varying magnetic fields.
The directional movement of biological cells in the presence of an applied electric field is known as galvanotaxis or electrotaxis. The majority of experiments related to galvanotaxis over the past two centuries have involved steady electric fields applied via electrodes placed in contact with a m…
  • College: College of Engineering (COE)
  • Inventors: Subramaniam, Vishwanath; Das Ghatak, Piya; Roy, Sashwati; Sen, Chandan; Sequin, Emily; West, Joseph
  • Licensing Officer: He, Panqing

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