RU2553189C2 - Luminous probe - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment, particularly to probing and endoscopic instrumentation, and can be used for continuous trans-illumination of tissues and walls of hollow organs. A luminous probe has a working portion completely made of an optically transparent material, a hollow elastic bulb syringe hermetically sealed to a connector at the end of the probe, a cavity of which is connected to a cavity of passages and a stud olive, whereas a light source is a two-component chemiluminescent solution filling a common closed cavity and containing the ingredients separated by two tap valves mounted nearby the bulb syringe.

EFFECT: using the probe extends the range of application, increases independence and safety by making its working portion completely optically transparent and having self-luminescent properties; the probe has the working portion long enough, not reciprocating and causing no local mechanical irritation and tissue injuries.

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Description

The invention relates to medical equipment, in particular to a probe and endoscopic instrument, and can be used for continuous transmission of tissues and walls of hollow organs.

A device is known for a probe for intubation of the small intestine, consisting of two detachable links with a total length of at least 3 m, the working part of which has oval holes located in three planes with a pitch of not more than 5 cm, and a conductor made in the form of a thick-walled PVC pipe with a light source in its distal section, conductors and a connector at the proximal end for connecting to a voltage source of 9-12 V (RU 2143284).

A disadvantage of the known device is the narrow scope, low autonomy and safety of the use of the light source during surgical and diagnostic manipulations using endoscopic and probe instruments. The fact is that the use of a miniature lamp by 9-12 V narrows the area of the illuminated surgical field, which reduces the quality of the surgical aid, and the use of a lamp that requires wires, a step-down transformer and a power supply at the time of surgery is deprived of light the possibility of using the probe in the absence of electricity. In addition, the presence of wires around the patient's body limits the freedom of action of medical personnel performing a surgical operation and providing anesthetic and resuscitation benefits.

A device of a chemical light source is known having a transparent polyethylene housing filled with one of the two reagents of a chemiluminescent solution and a glass ampoule inside it containing a second reagent (US 3576987, RU 2091663).

The advantage of the known device is the possibility of its autonomous use in aggressive environments and high blood pressure. However, it does not provide a wide scope, autonomy and safety of the use of the light source during surgical and diagnostic procedures using endoscopic and probe instruments, since it is devoid of constructive solutions that ensure its use in medical endoscopic and probe equipment.

A known probe is used for intraoperative detection of a disabled rectal stump (RU 2317791), the working part of which is a double-lumen elastic probe equipped with olive, in the center of which is placed a light source. Moreover, in the working position, the liquid enters into the olive under positive pressure, increasing the size of the olive until it reaches a diameter of 2.5 cm. This device has technical solutions that are closest to the inventive luminous probe, so it is selected as a prototype

A disadvantage of the known device is the narrow scope and low autonomy and safety during surgical and diagnostic procedures using endoscopic and probe instruments. The fact is that the known device is not applicable in the absence of an electric power source, and in the presence of an electric power source it has narrow diagnostic capabilities, since the light source is located in the center of the olive, and this reduces the area of the illuminated surgical field. The narrowness of the illuminated surgical field reduces the safety of the device and the quality of the surgical aid, since it requires constant movement of olive along with the entire working part of the probe inside the patient’s body from one surgical field to another for the purpose of illumination, which is accompanied by additional mechanical tissue damage when moving the probe. In addition, the known device is equipped with an electric light source in a liquid medium, and this requires an external power source and electric wires, which reduces the safety of using the device with anesthesiology, resuscitation and surgical aids.

The objective of the invention is to expand the scope and increase the autonomy and safety of the device by making an elastic probe made of optically transparent material, using a chemiluminescent light source, placing it inside the entire working part of the probe, eliminating non-luminous areas and reducing mechanical damage.

The essence of the luminous probe, which is a two-lumen hollow elastic probe with an elastic hollow olive at the distal end, with a connector at the proximal end, with two hollow channels between them and with an internal light source, consists in the fact that the working part of the probe is made entirely of optically transparent material , an elastic hollow pear is hermetically connected to the connector, the cavity of which is connected to the cavity of the channels and olive, and the light source is a common closed cavity formed by them that forms two onentny chemiluminescent solution whose components are separated from each other by cranes mounted near pears.

The implementation of the working part of the probe entirely from an optically transparent material ensures the transmission of light outside from a source located along the entire length of the elastic probe and olive. This provides the working part of the probe with the ability to uniformly emit light in all directions and glow like an incandescent bulb having a primary light source in the form of a thin spiral. This ability of the working part of the probe to emit light in its entirety along the entire length makes it possible to illuminate cavities and tissues along the entire length of the working part of the probe, which speeds up and refines the diagnosis and improves the quality of the surgical aid.

Attaching an elastic hollow pear to the external connector of the probe, the cavity of which is connected to the cavity of the channels and olive, creates a common closed cavity and creates positive and negative pressure in it. This, with open taps and olive elasticity, moves the components of a two-component chemiluminescent solution inside the common cavity, which ensures their interaction with each other and the appearance of light, that is, the glow of the probe along the entire length of its working part, namely up to 3 m.

The supply of hollow channels with cranes installed near the pear provides the convenience of manually controlling the process of moving solutions that fill a common closed cavity and / or eliminates the movement of the components of a two-component chemiluminescent solution towards each other. The interaction of the reagents of a two-component chemiluminescent solution with each other ensures the timely onset of a chemical reaction, chemiluminescent light emission by a solution and the glow of the probe.

Closing the taps prevents spontaneous mixing of the components of the chemiluminescent solution, ensures the safety of storage and transportation of the luminous probe, and also eliminates its premature glow. The opening of the taps ensures the mixing of the solutions and the start of a chemical reaction that brings the light source into working condition.

In addition, the presence of cranes that overlap the channels of the double-lumen elastic probe allows the olive to be held in a stretched position, which with open taps is achieved by transferring the chemiluminescent solution into the olive cavity from the pear cavity by manually deforming (squeezing) the last operator and expanding the olive volume. And the fixation of the “necessary” form of olive is ensured by transferring the taps at the “right” moment to the closed state.

The use of a chemiluminescent light source increases the safety and autonomy of the device, as eliminates the use of electric wires, fixing the light source inside the cavity of an element of variable configuration (olive) and dependence on an electric power source, which increases the mobility and safety of probe and endoscopic surgical procedures, especially when used in field medicine.

Moreover, the pear cavity, the channels of the double-lumen elastic probe and olive can be filled with components of a chemiluminescent solution at the stage of production of the probe (the most preferred option), as well as repeatedly and repeatedly with the direct preparation of the probe for surgery.

Figure 1 schematically shows a luminous probe.

The claimed luminous probe 1 contains elastic proximal 2 and distal 3 ends with channels 4, olive 5, with a cavity 6 connected to channels 4 of an elastic pear 7 at the proximal end 2 with an internal cavity 8, two cranes 9 installed near the pear 7 and connecting the cavity 8 and 6 on each of the channels 4 into a closed system, the first component of the chemiluminescent solution 10, located in the cavity 8, the second component of the chemiluminescent solution 11, placed in the cavity 6 and channels 4.

The device is used as follows.

In the initial state, the taps 9 are in the closed position and divide the closed system of channels 4, cavities 6 and 8 into two non-communicating sections, with the first component of the chemiluminescent solution 10 located in the cavity 8 and the second component of the chemiluminescent solution 11 located in the channels 4 and cavities 6. The element of variable configuration (olive) 5 is in the initial - undeformed state.

To translate the luminous probe into the working position, the taps 9 must be opened and the pear compressed, which will lead to the beginning of mixing of the components of the chemiluminescent solution 10 and 11, i.e. to start a chemical reaction that brings the light source into working condition. The duration of the glow can reach several hours.

The intensification of the mixing process can be ensured by alternately compressing the elastic pear 7 and the element of variable configuration 5. Since the system of channels 4, cavities 6 and 8 is a closed system, such alternate compression-unloading leads to the displacement of both components towards one of the cavities. For example, from cavity 8 to cavity 6, and then vice versa.

After transferring the luminous probe 1 to the working position and after the beginning of its luminescence, the probe is inserted into the study area, for example, into the rectum through the anus immediately before endoscopic intestinal surgery for adhesive disease, a luminous elastic probe 1 is placed in the working position.

In this case, the taps 9 are left in the open position.

After this, the elastic pear 7 is gradually deformed (squeezed), causing the chemiluminescent solution to move towards olive 5 and the olive to gradually grow to sizes that allow the intestines to bloat to the size necessary for the operation. After that, the taps 9 are moved to the closed position, preventing the spontaneous flow of the chemical solution back into the cavity 8 of the elastic pear 7 and reducing the size of the olive.

The element of variable configuration (olive) 5 in the extended state improves the quality of the surgical operation by stretching the intestines, smoothing its folds and adhesions, which increases the accuracy of diagnosis and surgical procedures. Illumination of tissues along the length of the entire probe design allows you to not move the probe to illuminate various parts of the intestine and reduces the likelihood of injury to the intestine and surrounding tissues during manipulations associated with the separation of adhesions.

To bring the luminous probe 1 out after the operation, it is necessary to turn the taps 9 to the open position. This provides a reduction in the size of olive 5 and pushing the excess chemiluminescent solution towards the cavity 8 of the elastic pear 7, which takes the initial undeformed position. Then the luminous probe 1 is removed from the organ and subsequently disposed of, because preferably performed once.

The technical result of the invention is to expand the scope, increasing autonomy and safety due to the manufacture of the probe from materials with optically transparent and self-luminous properties, providing illumination of tissues over the entire area and length of the working part of the probe without its back-and-forth movement and mechanical local irritation and tissue damage .

Claims (1)

A luminous probe, which is a two-lumen hollow elastic probe with an elastic hollow olive at the distal end, with a connector at the proximal end, with two hollow channels between them and with an internal light source, characterized in that the working part of the probe is made entirely of optically transparent material, to an elastic hollow pear is tightly connected to the connector, the cavity of which is connected to the cavity of channels and olives through taps near the pear, the light source being a two-component chemiluminescent solution, about yn component which is placed in the cavity of a pear, and other - in the channels and cavities of the olive.