Joseph T Samosky

USPTO Granted Patents = 9 (Patent Applications = 1)

Average Co-Inventor Count = 2.4

ph-index = 6

Forward Citations = 140(Granted Patents)

Location History:

Newton, MA (US) (2013)
Pittsburgh, PA (US) (2014 - 2020)

Company Filing History:

7 out of 1,874

University of Pittsburgh

patents

2 out of 2,903

The General Hospital Corporation

patents

Years Active: 2013-2020

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9 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 10748453 - Myringotomy surgical training device with real-time and stored feedback on performance (2020-08-18),

2. 10417936 - Hybrid physical-virtual reality simulation for clinical training capable of providing feedback to a physical anatomic model (2019-09-17),

3. 10325522 - Medical training system and method of employing (2019-06-18),

4. 10083630 - Modular, wireless, drug simulant injection sensor system and methods of employing (2018-09-25),

5. 10060936 - Drug simulant recognition system and method of employing (2018-08-28),

6. 9318032 - Hybrid physical-virtual reality simulation for clinical training capable of providing feedback to a physical anatomic model (2016-04-19),

7. 9053641 - Real-time X-ray vision for healthcare simulation (2015-06-09),

8. 8647124 - Methods and apparatus for providing realistic medical training (2014-02-11),

9. 8382485 - Methods and apparatus for providing realistic medical training (2013-02-26),

Title: Innovations by Joseph T Samosky

Introduction

Joseph T Samosky is a notable inventor based in Pittsburgh, PA. He has made significant contributions to the field of medical training devices, holding a total of 9 patents. His work focuses on enhancing surgical training through innovative technologies.

Latest Patents

One of his latest patents is a myringotomy surgical training device that provides real-time and stored feedback on performance. This system is designed for performing a myringotomy training procedure, which involves placing a tympanostomy tube in a simulated ear drum. The device includes a canal structure with a tubular portion made from a conductive material and a thin membrane selectively coupled to one end.

Another significant patent is a hybrid physical-virtual reality simulation for clinical training. This system facilitates training in clinical procedures through mixed reality simulations. It comprises both a physical model and a virtual model of an anatomic region, allowing for interaction between clinical instruments and the models. The system can track the locations of clinical instruments and provide feedback based on their interaction with the virtual model. This innovation can simulate anesthesiology procedures, such as local nerve blockade.

Career Highlights

Joseph has worked with esteemed institutions, including the University of Pittsburgh and The General Hospital Corporation. His contributions to these organizations have been instrumental in advancing medical training technologies.

Collaborations

He has collaborated with notable individuals in his field, including Ryan Scott Bardsley and Mark Peter Ottensmeyer. Their combined expertise has furthered the development of innovative training solutions.

Conclusion

Joseph T Samosky's work exemplifies the intersection of technology and medical training. His patents reflect a commitment to improving surgical education through innovative devices and simulations. His contributions continue to impact the field positively.

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