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Magnetic anchoring laparoscope system based on near-infrared light vision diagnosis

A near-infrared light and laparoscopic technology, applied in laparoscopy, inoculation and ovulation diagnosis, diagnosis, etc., can solve problems such as aggravating patient trauma and failing to provide liver tumor diagnosis, avoiding open surgery, improving minimally invasiveness, and improving operational effects

Active Publication Date: 2016-02-17
崇好科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In addition, the current laparoscope only has lighting and camera functions, and cannot provide more information for the diagnosis of liver tumors, so the exploration and biopsy of liver tumors often need to be performed under laparotomy conditions, which greatly increases the trauma of patients

Method used

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  • Magnetic anchoring laparoscope system based on near-infrared light vision diagnosis
  • Magnetic anchoring laparoscope system based on near-infrared light vision diagnosis
  • Magnetic anchoring laparoscope system based on near-infrared light vision diagnosis

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Embodiment Construction

[0030] The following describes the implementation of the present invention in detail with reference to the drawings and embodiments.

[0031] A magnetic anchoring laparoscope system based on near-infrared light vision diagnosis mainly includes a dual-light source magnetic anchoring laparoscope 1, an extracorporeal magnetic unit 2, a hydraulic button 3, and an extracorporeal workstation 4.

[0032] The structure of the dual-light source magnetic anchoring laparoscope 1 of the present invention is as follows figure 1 As shown, the dual-light source magnetically anchored laparoscope 1 is a cylindrical structure with an inner diameter of 10mm and a length of 70mm. The shell material is photosensitive resin. The interior is in turn from the head end to the end of the inner magnet 9, high color temperature white LED 11, CCD camera 13, hydraulic biopsy forceps 14, near-infrared light LED12 and inner magnet 2 10; the inner magnet 9 has the same shape and material as the inner magnet 2 10, b...

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Abstract

The invention provides a magnetic anchoring laparoscope system based on near-infrared light vision diagnosis. The magnetic anchoring laparoscope system comprises a dual-light-source magnetic anchoring laparoscope, an in-vitro magnetic unit, a hydraulic button and an in-vitro working station, wherein an inner magnet, a white light LED, a near-infrared light LED, a CCD camera and hydraulic biopsy forceps are arranged in the dual-light-source magnetic anchoring laparoscope, the hydraulic biopsy forceps comprise a first hydraulic cavity and elastic biopsy forceps, forceps heads extend out of the dual-light-source magnetic anchoring laparoscope, the in-vitro magnetic unit is matched with the inner magnet to locate the dual-light-source magnetic anchoring laparoscope, the hydraulic button is arranged externally, and connected with the hydraulic biopsy forceps through a hydraulic line to control opening and closing of the forceps heads, and the in-vitro working station comprises a displayer and a processor and is connected with the white light LED, the near-infrared light LED and the CCD camera through data lines. The laparoscope, the magnetic anchoring technology and the near-infrared light tumor developing technology are combined, the size is small, a magnetic anchoring mode is adopted for locating, a traditional laparoscope can be used for trocar, during an operation, the trocar space is not occupied, and under the condition of using the single traditional laparoscope for trocar, liver tumor probing and biopsy obtaining can be completed.

Description

Technical field [0001] The invention belongs to the technical field of medical equipment laparoscopy, and particularly relates to a magnetic anchoring laparoscopy system based on near-infrared light vision diagnosis. Background technique [0002] The laparoscopic technology that emerged in the 1990s brought surgery into the era of minimally invasive surgery. Taking cholecystectomy as an example, traditional open surgery requires an incision of about 15 cm, while laparoscopic surgery only requires 3-4 pokes with a diameter of 5-10 mm. The card can be completed by inserting the laparoscope, pulling instrument and cutting instrument. On this basis, surgeons have been exploring more minimally invasive surgical methods, so that patients can get the most benefits with minimal trauma. In recent years, the development of transumbilical single port laparoscopic surgery (LESS) is the practice result of surgeons pursuing ultra-minimal invasiveness. In single-port laparoscopic surgery, bec...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B1/313A61B10/04A61B17/94
Inventor 吕毅董鼎辉吴荣谦朱皓阳徐向华杨桓马锋
Owner 崇好科技有限公司
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