RU117813U1 - DEVICE FOR INTRAOPERATIVE PHOTODYNAMIC THERAPY OF BRITISH - Google Patents

Abstract

A device for intraoperative photodynamic therapy of the peritoneum, including a light guide equipped with a diffuser and placed inside a cylindrical hollow conductor made of plastic impervious to laser radiation, the distal end of which is equipped with a working window, the size of which corresponds to the length of the diffuser, providing a distribution of laser radiation 180 °.

Description

The utility model relates to medical equipment and can be used to influence the peritoneum during surgical treatment of locally advanced and disseminated cancer of the abdominal cavity and small pelvis.

Currently, oncology is the problem of treatment of locally advanced and metastatic tumors of the abdominal cavity. Complete removal of the primary tumor and defined intraoperative metastatic foci, performing extended and combined operations, accompanied by extensive intervention on the lymphatic tract, with resection of neighboring organs, vascular and nerve structures, does not lead to a stable recovery due to the high frequency of progression of the tumor process, realized through subclinical metastases . One of the mechanisms of the postoperative spread of the cancer process, including peritoneal carcinomatosis, is the implantation and dissemination of tumor cells in the abdominal cavity.

One of the ways to solve this problem is intraoperative photodynamic therapy (PDT), which includes systemic administration of a photosensitizer with subsequent exposure to the parietal and visceral peritoneum of uniform laser radiation. To solve this problem, the use of special devices is required.

A known optical fiber diffuser for cylindrical radiation along the length of the fiber with a pre-selected radiation density (US 6398778 B1). The working part of the diffuser is represented by a distributed Bragg reflector type Bragg II. The shell used covers the entire diffuser and serves to enhance refraction, but it does not have screening properties. In the description of the invention, an example of a medical optical fiber diffuser for irradiating hollow organs with a light distribution of 360 ° is given.

The description of this invention also provides an example of the use of this fiber with a silver mirror (mirror parameters are not specified, shape and size are arbitrary). This embodiment of the device is also used to increase the radiation density by reflecting light. However, in the design of the known device there is no shielding element that provides 180 ° light distribution, which allows delivering radiation directly to the peritoneum and shielding other organs of the abdominal cavity.

Using in clinical practice the inventive device allows to achieve several technical results:

- the possibility of exposure of laser radiation directly to the peritoneum, without exposing the parenchymal organs of the abdominal cavity;

- the possibility of PDT with the same dose of laser radiation for all sections of the parietal and visceral peritoneum;

The inventive device includes a fiber equipped with a diffuser and placed inside a cylindrical hollow conductor made of plastic impervious to laser radiation. The working end of the conductor is equipped with a working window, the length of which corresponds to the length of the diffuser with the possibility of distribution of laser radiation by 180 degrees.

To implement the utility model, a working window is formed at the working end of the prepared conductor, the length of which corresponds to the length of the diffuser. Before the intraperitoneal intra-abdominal PDT procedure, a fiber with a diffuser is placed inside the conductor, while the diffuser is in the working window.

Figure 1 presents a photo of the inventive device for intraoperative photodynamic therapy of the peritoneum, on which are indicated:

1. device case

2. working window,

3. cylindrical diffuser,

4. light guide.

Claims (1)

A device for intraoperative photodynamic therapy of the peritoneum, including a fiber equipped with a diffuser and placed inside a cylindrical hollow conductor made of plastic impervious to laser radiation, the distal end of which is equipped with a working window, the size of which corresponds to the length of the diffuser, providing a distribution of 180 ° laser radiation.