Wireless transmission type pleuroperitoneal minimally-invasive device carrying with OCT technology

Abstract

The invention provides a wireless transmission type pleuroperitoneal minimally-invasive device carrying with an OCT technology, and belongs to the technical field of medical treatment and public health. The wireless transmission type pleuroperitoneal minimally-invasive device is characterized in that a wireless emitting device is installed in a pleuroperitoneal minimally-invasive endoscope device, image information obtained by an endoscope head sensor through the OCT technology is transmitted to a wireless receiver in a display screen viewed by an operator in a wireless mode, the output end of the wireless receiver is connected with the input end of the display screen, and therefore the image information can be displayed by the display screen; the wireless emitting device in the display screen transmits display information to a remote computer, wireless type high-frequency ultrasonic knives capable of entering from different minimally-invasive openings are arranged for selecting operation. The wireless transmission type pleuroperitoneal minimally-invasive device carrying with the OCT technology has the advantages that miniaturization is conducted on the wireless transmission type pleuroperitoneal minimally-invasive device, and carrying is convenient; meanwhile, an OCT system is integrated, minimally-invasive operation instruments used in hospital operations currently can be carried to a rescue and treatment site from hospitals, the advanced minimally-invasive operation instruments can be applied to remote areas and field sites without alternating current power supply, and application of on-site rescue and treatment is achieved.

Description

technical field [0001] It belongs to the field of medical and health technology, specifically involves minimally invasive thoracic and abdominal cavity surgery technology, electronic display technology, tissue imaging technology, digital wireless transmission technology and its application technology in the field. Background technique [0002] With the rapid development of modern medicine, minimally invasive technology has been greatly recognized by medical experts at home and abroad. Minimally invasive surgery is a century-old high-tech in the field of clinical medicine. More and more minimally invasive techniques are gradually replacing traditional surgical operations. A large number of advanced surgical instruments and surgical equipment have promoted the development of minimally invasive surgery. [0003] In recent years, in the application of minimally invasive technology, the use of thoracoscopy and laparoscopy for related operations has been widely promoted. The opera...

AI Technical Summary

Problems solved by technology

At present, the minimally invasive surgery equipment in clinical application is an independent component, and the space occupation rate is relatively large.

At the same time, more cables are needed to connect each device, which makes the communication transmission more cumbersome

It takes a lot of time to move, adjust, connect and fix these devices before and after the operation, wasting a lot of manpower and material resources

These devices can still be deployed and operated in the operating rooms of large hospitals, but in the first-line rescue work in disaster areas and military wars, due to the lack of more favorable space and manpower, they are often unusable, so advanced minimally invasive surgery cannot be applied to the frontline On the other hand, at the current stage of minimally invasive surgery, the endoscopic lens can only obtain intuitive images of the internal surface tissues of the human body, but cannot observe important organizational structures such as the lesion location, lesion size, and blood vessel distribution inside the tissue. Although the relevant preoperative examinations help us make a good assessment, for such a complex and active organ as the human body, it often increases the difficulty of operation during surgery and increases the risk of surgery

[0005] Optical coherence tomography (Optical Coherence Tomography, OCT) is a new type of tomography that has developed rapidly in recent years and is the most promising new tomography technology. It is a non-contact, high-resolution tomography and biological microscope imaging equipment. , which uses the basic principle of weakly coherent light interferometer to detect the back reflection or several scattered signals of incident weakly coherent light at different depths of biological tissue. These light signals can be processed by computer to obtain tissue tomographic images, especially biological tissue Live detection and imaging have attractive application prospects, and they were early used in clinical diagnosis of ophthalmology, dentistry and dermatology. Although there are related patents in recent years that propose the application of OCT technology to thoracic and abdominal endoscopic lenses, the content of the invention is still not clear. Get rid of the need for the connection of various minimally invasive equipment, and it is impossible to integrate this technology

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