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Device for rercutaneous interventional minimally-invasive treatment of tuberculosis focus in vivo

A tuberculosis and percutaneous technology, applied in the parts of surgical instruments, medical science, surgery, etc., can solve problems such as inability to cure completely, remove large lesions and wounds, prevent ultraviolet damage, expand the irradiation area, and shorten the effective irradiation time. Effect

Inactive Publication Date: 2010-12-15
郭从涛
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

With the continuous improvement of surgical techniques, the clinical tuberculosis treatment of bone tuberculosis in the body has added an auxiliary method of surgical removal of tuberculosis pustules, but surgical removal of lesions has a large wound and often brings huge trauma to the patient's body. Many patients have no choice but to give up treatment because they cannot tolerate the trauma left by the operation; moreover, patients who receive surgical treatment often still relapse after surgery due to drug resistance of tuberculosis, and cannot be completely cured

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  • Device for rercutaneous interventional minimally-invasive treatment of tuberculosis focus in vivo
  • Device for rercutaneous interventional minimally-invasive treatment of tuberculosis focus in vivo
  • Device for rercutaneous interventional minimally-invasive treatment of tuberculosis focus in vivo

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Embodiment Construction

[0034] see Figure 1 to Figure 7 , a device for percutaneous minimally invasive treatment of tuberculosis lesions in the body, the device includes a fiber optic lens assembly 1, a light source generating device 2, a negative pressure suction device 3, a high-pressure water pump 4, a high-pressure air pump 5, and an image processor 6. The fiber optic mirror assembly 1 includes a quartz glass fiber optic lens 11 for transmitting ultraviolet rays and illumination light, a mirror body 12 for in vitro operation control, a mirror tail 13 with multiple interfaces, and a mirror tail 13 connected to the quartz glass The scope front pipe 14 between the fiber optic lens 11 and the scope 12 is connected to the scope rear pipe 15 between the scope 12 and the mirror tail 13 . The quartz glass fiber optic lens 11 is an unshielded transparent cylinder, the axial length of the quartz glass fiber optic lens 11 is 10-20mm, the front end diameter of the lens is 5mm, and the rear end diameter is 8...

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Abstract

The invention relates to a device for rercutaneous interventional minimally-invasive treatment of a tuberculosis focus in vivo, which comprises a fiberscope assembly with light guide, a light source generating device, an image processor, a negative pressure suction device, a high-pressure water pump, an air pump and the like, wherein the fiberscope assembly with the light guide comprises a quartz glass optical fiber lens for transmitting ultraviolet rays and illumination light, a lens body, a lens tail, a front tube of the lens body and a rear tube of the lens body, quartz glass optical cables for transmitting the ultraviolet rays and the illumination light are arranged in the front tube of the lens body and the rear tube of the lens body, the quartz glass optical cables are connected between the quartz glass optical fiber lens and the light source generating device, the light source generating device comprises an ultraviolet ray generator and an illumination light generator, and the ultraviolet ray generator and the illumination light generator are connected with the quartz glass optical cables in parallel. The device utilizes the quartz glass optical fiber lens and the quartz glass optical cables for transmitting the ultraviolet rays and radiating the tuberculosis focus in vivo, thereby killing mycobecterium tuberculosis of the tuberculosis focus in vivo, sucking and eliminating tuberculosis abscess in vivo through the negative pressure suction device and further realizing the minimally-invasive treatment of the tuberculosis focus in vivo.

Description

technical field [0001] The invention relates to the field of medical equipment for minimally invasive treatment, in particular to a device for percutaneous intervention and minimally invasive treatment of tuberculosis lesions in the body. Background technique [0002] As a stubborn disease, tuberculosis killed countless people in the 19th century. Since the advent of anti-tuberculosis drugs in the 20th century, there have been many ways for people to deal with tuberculosis. Anti-tuberculosis drugs are used for treatment, the third is to use surgical opening to drain pus for suppurative tuberculosis, and the fourth is to strengthen diet and nutrition. At present, the main method of treatment is chemotherapy, which combines multiple anti-tuberculosis drugs to treat patients. Treating tuberculosis with a combination of multiple anti-tuberculosis drugs can achieve better results, but the side effects of combining multiple anti-tuberculosis drugs for tuberculosis are relatively ...

Claims

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Application Information

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IPC IPC(8): A61B18/18
Inventor 郭从涛周强孙天胜许建中谷晓波
Owner 郭从涛
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