Available Technologies
# of Displayed Technologies: 5 / 5
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Endoscopic additive manufacturing of biomaterials
TS-063919 — An articulating end effector for additive manufacturing that utilizes robot-assisted endoscopic surgery to implant synthetic tissues at local defects through “keyhole” incisions in patients.
This innovative technology T2019-145 is part of a portfolio that also includes T2017-363. To learn more about both technologies, please visit https://oied.osu.edu/find-technologies and search using the phrase: Endoscopic additive manufacturing of biomaterials.
Robot-assisted surgery, tissue engineering, and additive manufacturing (AM) are emerging techniques in healthcare. Currently AM is used to develop synthetic tissues and organs, but open surgery is typically used to implant these scaffolds within the patient. This invasive procedure can subject pat…
- College: College of Engineering (COE)
- Inventors: Hoelzle, David; Asghari Adib, Ali; D'Souza, Desmond; Mansour, Daniel; Simeunovic, Andrej
- Licensing Officer: Zinn, Ryan
Tracking Breast Tissue Tumor Cavity after Lumpectomy
TS-062715 — Radiopaque biodegradable polymer for the tracking of the breast tissue tumor cavity after lumpectomy and other radiation therapy applications
Approximately 40% of women diagnosed with breast cancer undergo a lumpectomy procedure. Approximately 170,000 lumpectomie are performed each yaer in the United States. Typically, this operation is followed by radiation therapy to ensure there are no remaining cancerous cells in the region. It is t…
- College: College of Engineering (COE)
- Inventors: Metzler, Sandra; Elisha, Deji; Evans, Izzy; Fedro, Joseph; Krakovsky, Mia; Sherry, Adam; Skoracki, Roman
- Licensing Officer: Zinn, Ryan
Folding Transducer Array for Compact and Deployable Wave-Energy Guiding System
TS-043186 — A novel acoustic/ultrasonic wave-energy guiding system that utilizes structural topology to enhance directional and spectral sensitivities instead of phase delay, offering exceptional versatility and adaptable performance.
Although acoustic beamforming systems that are based on phase delays can be used to enhance directional and spectral sensitivities, each source or receiver must be individually controlled by appropriate phase delays to guide the acoustic energy radiation/reception sensitivities. This results in a …
- College: College of Engineering (COE)
- Inventors: Harne, Ryan
- Licensing Officer: Zinn, Ryan
Endoscopic additive manufacturing of biomaterials
TS-037031 — An articulating end effector for additive manufacturing that utilizes robot-assisted endoscopic surgery to implant synthetic tissues at local defects through “keyhole” incisions in patients.
This innovative technology T2017-363 is part of a portfolio that also includes T2019-145. To learn more about both technologies, please visit https://oied.osu.edu/find-technologies and search using the phrase: Endoscopic additive manufacturing of biomaterials.
Robot-assisted surgery, tissue engineering, and additive manufacturing (AM) are emerging techniques in healthcare. Currently AM is used to develop synthetic tissues and organs, but open surgery is typically used to implant these scaffolds within the patient. This invasive procedure can subject pat…
- College: College of Engineering (COE)
- Inventors: Hoelzle, David; Simeunovic, Andrej
- Licensing Officer: Zinn, Ryan
Laparoscopic Circular Stapler Device with a Collapsible Anvil
TS-014834 — An improved device for surgical end-to-end anastomosis, a procedure common in Roux-en-Y gastric bypass
Roux-en-Y laparoscopic gastric bypass is regarded as the ‘gold-standard-of-care’ for morbidly obese patients, classified as individuals with a body mass index (BMI) > 40. During the procedure, the surgeon creates a small hole, called an anastomosis, to reconnect the newly created st…
- College: College of Engineering (COE)
- Inventors: Nelson, Mark; Hoffman, Joshua; Hogrebe, Nathaniel; Liu, Xiaoli; Scheitlin, Christopher
- Licensing Officer: Zinn, Ryan
