- Patent Title: Artificial organ model for training for surgical technique, method for manufacturing artificial organ model, and method for training for surgical technique using artificial organ model
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Application No.: US17253347Application Date: 2019-04-01
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Publication No.: US11645951B2Publication Date: 2023-05-09
- Inventor: Young-Kwang Park , Manabu Shinke , Masaaki Ito
- Applicant: EBM CORPORATION
- Applicant Address: JP Tokyo
- Assignee: EBM CORPORATION
- Current Assignee: EBM CORPORATION
- Current Assignee Address: JP Tokyo
- Agent Taro Yaguchi
- Priority: JP 2018115853 2018.06.19 JP 2019021676 2019.02.08 JP 2019069815 2019.04.01
- International Application: PCT/JP2019/014532 2019.04.01
- International Announcement: WO2019/244436A 2019.12.26
- Date entered country: 2020-12-17
- Main IPC: G09B23/34
- IPC: G09B23/34 ; G09B23/30 ; B29C65/00 ; B29C65/48 ; B29L31/40

Abstract:
[Problem to be Solved by the Invention]
To provide an artificial tissue model that can be more advantageously used in surgical technique training compared to previous artificial tissues, as well as a method of fabricating the same.
[Solution]
An artificial organ model for surgical technique training comprising two or more fibrous layers 2, 3 layered and bonded to each other so as to be peelable by a surgical technique performed by a surgical technique trainee; the layered and bonded two or more fibrous layers 2, 3 as a whole being saturated with an electroconductive liquid or gel; and two adjacent fibrous layers out of the two or more fibrous layers being formed from different materials or substances or in different colors so as to be recognizable as different membranes by the surgical technique trainee.
To provide an artificial tissue model that can be more advantageously used in surgical technique training compared to previous artificial tissues, as well as a method of fabricating the same.
[Solution]
An artificial organ model for surgical technique training comprising two or more fibrous layers 2, 3 layered and bonded to each other so as to be peelable by a surgical technique performed by a surgical technique trainee; the layered and bonded two or more fibrous layers 2, 3 as a whole being saturated with an electroconductive liquid or gel; and two adjacent fibrous layers out of the two or more fibrous layers being formed from different materials or substances or in different colors so as to be recognizable as different membranes by the surgical technique trainee.
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