Novel minimally-invasive-surgery operating platform

A minimally invasive surgery, operating platform technology, applied in the field of medical devices, can solve the problems of not fundamentally reducing the difficulty of the operator's operation, small scope of application, affecting the entry of instruments, etc., to reduce the recovery time of surgery, increase the scope of application, The effect of reducing the intensity of the operation

Active Publication Date: 2015-08-26
NINGBO SHENGJIEKANG BIOTECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] Patent EP1702575 describes a radially expandable channel and puncture device, which achieves the purpose of reducing the size of the wound, but still requires the operator to insert a puncture device to achieve expansion, which does not fundamentally reduce the operation of the operator difficulty
[0009] Patent EP1970012 describes a thoracentesis device. This patent uses a mechanical structure and adopts a three-piece rotating expansion method to achieve the purpose of reducing the size of the wound. The operator only needs to perform certain operations to complete the expansion. However, the structure The three pieces are separated structures, making it unsuitable for pneumoperitoneum surgery, with a small scope of application, more complicated structure, and higher cost
[0010] Patent US8142467 describes a trocar that uses a bal

Method used

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  • Novel minimally-invasive-surgery operating platform
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  • Novel minimally-invasive-surgery operating platform

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specific Embodiment 2

[0082] The novel minimally invasive surgery operating platform of the present invention includes a platform unit 1 and a tube unit 2 connected to the platform unit 1, such as Figure 21As shown, the tube unit 2 includes a connecting piece 22 arranged at its proximal end and a tube body 21 fixedly connected with the connecting piece 22, the connecting piece 22 is connected with the platform unit 1, and the tube body 21 The interior or inner surface of the wall is provided with a self-expanding stent 23 . The tube body 21 is a passage for instruments and endoscopes to enter the human body. The distal end of the tube body 21 is also provided with a channel 213 that runs through the tube wall transversely. The connecting piece 22 is located at the proximal end of the tube unit 2 , the connecting piece 22 is fixedly or detachably connected to the platform unit 1, the connecting piece 22 is fixedly connected or integrally formed with the pipe body 21, and a fixing piece 221 is also ...

specific Embodiment 3

[0083] The novel minimally invasive operation platform of the present invention includes a platform unit 1 and a tube unit 2 connected to the platform unit 1, and the tube unit 2 includes a connecting piece 22 arranged at its proximal end and connected to the connecting piece. 22 fixedly connected pipe body 21, the connector 22 is connected to the platform unit 1, the pipe body 21 is made of flexible material or elastic polymer material, and the inside or inner surface of the pipe body 21 wall is provided with The self-expanding stent 23, the pipe unit 2 has a first state and a second state. As shown in FIGS. 28-32 , the diameter limiting unit 3 is composed of a sheet material 31 and a control wire 32 . Such as Figures 28a-28c As shown, the two sides of the sheet material 31 are staggered structures corresponding to each other, and the shape of the staggered structures may preferably be polygonal or arc-shaped. Such as Figures 28a-29 As shown, a sleeve 311 is arranged on ...

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Abstract

The invention discloses a novel minimally-invasive-surgery operating platform. The novel minimally-invasive-surgery operating platform comprises a platform unit and a pipe unit. The pipe unit comprises a pipe body and a connecting piece connected with the platform unit. A self-expansion support is arranged inside or on the inner surface of the wall of the pipe body. The platform further comprises a diameter limiting unit composed of flaky materials and a control wire. The pipe unit has the first state and the second state. The first state is the state that the pipe unit is compressed. The second state is the natural state of the pipe unit. When the pipe unit is in the first state, the control wire is detachably sewed to the flaky materials so that the flaky materials can be of a cylindrical structure, and the pipe unit is restrained in the diameter limiting unit; when the control wire is disassembled to release restraining of the pipe unit by the diameter limiting unit, the pipe unit is in the second state. By means of the novel minimally-invasive-surgery operating platform, the requirement for the size of a surgical incision or a natural cavity channel is lower, embedding is easier and more convenient, operation of a surgeon is simplified, and the application range of the product is expanded.

Description

technical field [0001] The invention belongs to the field of medical equipment, and in particular relates to a novel minimally invasive operation platform. Background technique [0002] The minimally invasive surgical operation platform is a platform that communicates with the inside and outside of the human body and provides surgical channels and surgical operations for endoscopes and surgical instruments. It belongs to a minimally invasive surgical instrument. [0003] It is the eternal pursuit of surgeons and patients to complete the best treatment of diseases with minimal trauma, and it is this desire that drives the continuous development of surgery. The development of minimally invasive surgery has a history of more than 100 years. As early as 1901, German surgeon Georg Kelling used a cystoscope to perform cystoscopy on dogs. Until 1987, French surgeon Phillipe Mouret used video technology to perform the world's first laparoscopic cholecystectomy, which achieved great...

Claims

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Application Information

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IPC IPC(8): A61B19/00A61B17/00
Inventor 戚迪波任振俶朱春林李旭
Owner NINGBO SHENGJIEKANG BIOTECH
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