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Laser therapeutic system

A laser treatment, laser technology, applied in treatment, radiotherapy, medical science, etc., can solve the problems of difficult wound healing, poor effect, large amount of bleeding, etc., and achieve the effect of good coagulation tissue and hemostasis effect

Active Publication Date: 2007-11-21
BEIJING INST OF OPTO-ELECTRONIC TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Therefore, in medical treatment, both pulses with strong peak power can effectively cut the body, but the hemostatic effect of the laser operating in this form is too poor, the amount of bleeding during the operation is large, and the wound healing is difficult, directly increasing the patient Pain and difficulty of surgery
Therefore, the pulsed laser has the defect of insufficient hemostatic ability
Moreover, the improvement of the green light power also increases the pump power, which increases the system cost accordingly.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033]As shown in Figure 2, it is a structural schematic diagram of the present invention, including a first laser generator 1, which is a semiconductor pumped Nd:YAG crystal, a 532-nm pulse all-solid-state laser with acousto-optic Q-switching and intracavity frequency doubling, and a first laser The 532nm intense pulse vaporization cutting laser 10 emitted by the generator 1 is incident on the first light-combining mirror 4 along 45 degrees, and the first light-combining mirror 4 facing the first laser generator 1 is coated with a film with high transmittance to the 532nm laser Layer; a second laser generator 2, which is a semiconductor-pumped Nd:YAG crystal continuously operating all-solid-state laser that can emit a 1.06 μm continuous coagulation and hemostasis laser, and a 1.06 μm continuous coagulation and hemostasis laser that the second laser generator 2 sends 20 is incident on the first light combining mirror 4 along 45 degrees, and is perpendicular to the vaporized cut...

Embodiment 2

[0038] As shown in Figure 4, it is a schematic structural view of Embodiment 2 of the present invention. In this embodiment, it is roughly the same as Embodiment 1, except that the first laser generator 1 and the second laser generator 2 exchange positions. In this way, the first combination The side of the optical mirror 4 facing the second laser generator 2 is coated with a film layer highly transmissive to the coagulation and hemostasis laser 20 , and the side facing the first laser generator 1 is coated with a film layer highly reflective of the vaporization cutting laser 10 . The coagulation and hemostasis laser 20 emitted by the second laser generator 2 enters the first light combining mirror 4 along an angle of 45 degrees, and after being transmitted by the first light combining mirror 4, enters the first reflector 5. The vaporized cutting laser 10 enters the first reflecting mirror 5 after being reflected by the first light combining mirror 4 .

[0039] Of course, the ...

Embodiment 3

[0041] As shown in Figure 5, it is a schematic structural view of Embodiment 3 of the present invention, its structure is substantially the same as that of Embodiment 1, the difference is that the first laser generator 1 emits a 440nm intense pulse vaporization cutting laser 10 which is reflected by the second reflector 11 into the first light combining mirror 4, and the second reflecting mirror 11 is coated with a film layer that is highly reflective to the vaporization cutting laser 10. There is a first shutter 91 and a second shutter 92 between the first light combining mirror 4 and the first reflection mirror 5, both of which are connected with the controller 90, and the second shutter 92 is coated with a coating for vaporization cutting laser 10 and coagulation. The hemostatic laser 20 has a highly reflective film layer, and the reflected vaporization cutting laser 10 and coagulation hemostatic laser 20 are injected into the energy absorber 94, and the third laser generato...

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Abstract

The invention relates to a laser therapy system comprising: a first laser generator for generating vaporized slicing laser; a first light-combine mirror which has an angle of 45 degrees to said vaporized slicing laser; a second laser generator for generating coagulated hemostasis laser which has an angle of 45 degrees to the first light-combine mirror and vertical to the vaporized slicing laser; a first reflection mirror with a angle of 45 degrees to the vaporized slicing laser; a third laser generator for generating the guiding laser with an angle of 45 degrees to the first laser reflection mirror and vertical to the vaporized slicing laser; a optical fiber coupler vertical to the guide laser; a optical fiber connected to the optical fiber coupler; a endoscope connected to the optical fiber; and a optical filter connected to the endoscope. Wherein, the first light-combine mirror is plated a layer which is high transparent to the vaporized slicing laser and high reflective to the coagulated hemostasis laser; the first reflection mirror is plated a layer which is high reflective to the vaporized slicing laser and the coagulated hemostasis laser; and the input end of optical fiber coupler is plated a layer which is high transparent to the vaporized slicing laser and the coagulated hemostasis laser.

Description

technical field [0001] The present invention relates to a laser treatment system, especially a laser treatment system which can not only effectively vaporize and cut hemoglobin tissue, but also has good effects of coagulation tissue and hemostasis, and clearly indicates the treatment target. Background technique [0002] The laser has high brightness and high directionality, is easy to control and can be optically focused, and the laser can also be transported into the body cavity by optical fiber. Laser also has the characteristics of monochromaticity and coherence, which makes laser widely used in medicine. Most of the medical applications use the thermal effect of laser energy to coagulate, carbonize and vaporize tissues, so that the body tissues can be ablated or cut to achieve the purpose of treatment. [0003] The 532nm green laser is more suitable for ablation or cutting hemoglobin tissue. Because the 532nm green laser penetrates the tissue at a shallow depth of onl...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B18/20A61N5/067
Inventor 梁志远
Owner BEIJING INST OF OPTO-ELECTRONIC TECH
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