RU2679109C1 - Method of preparation for the operation of a surgical electromechanical instrument and a surgical electromechanical instrument for its implementation - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to the field of medical equipment, in particular to the preparation of medical instruments, their disinfection and sterilization. Task is solved by the fact that in a known method of preparation for the operation of a surgical electromechanical instrument (SEMI), based on its disinfection and sterilization, according to the invention, SEMI cutting element with a device for its attachment to the drive is connected to the capsular sleeve so that the cutting part of the element remains free for perform the cutting function, together everything is sterilized, packed in a sterile package and sent to the surgical room, where the drive, after disinfection, is also sent, with a battery attached to it, before the operation, the sterile capsular sleeve is opened, a drive with a battery is inserted into it, the drive is connected to the cutting element without disturbing the sterility of the outer surfaces of the capsular sleeve, after which the capsular sleeve is sterilely closed.EFFECT: task to be solved by the claimed invention is the complete elimination of the possibility of reducing the reliability of the electric instrument during preparation for work, simplifying the process of its sterilization, reducing the number of elements to be sterilized.1 cl, 1 dwg

Description

The invention relates to the field of medical equipment, in particular, to the preparation of medical instruments, their disinfection and sterilization. This process, which is important for the results of the operation, is regulated by orders of the Ministry of Health and instructions on organizing and conducting sanitary-hygienic measures for the prevention of nosocomial infections in medical institutions (surgical departments, in wards and intensive care units). The traditional method of sterilization using thermal exposure, for example boiling, is time-consuming. So for spore-forming microorganisms like Bacilis cereum, it takes 1.5 hours [Handbook of a Practitioner. M .: Medicine, 1982, p. 484].

A known method of microwave sterilization [US Patent N 5019359 from 05/28/91, IPC A61L 2/12]. This method consists in the fact that the tool, enclosed in a package containing a disinfectant solution and in a foil-type sheath, is placed in a microwave oven. However, this method does not allow to exclude the possible sparking of the tool due to the high intensity of the microwave fields at the tips of the tool, which is especially unacceptable when preparing a surgical power tool, because able to disable it.

A known method of preparation for surgery of a surgical instrument, based on microwave sterilization [see patent RU 2130319, dated 06/18/96, IPC A61L 9 \ 00 - prototype] when using a liquid, characterized in that ordinary water with a natural salt content is used as a liquid, and the tool is loaded into a heat-resistant container that is transparent for microwave fields so that water only partially covers the instruments, and the sterilization time is 5-10 minutes.

However, the use of this method to prepare a surgical power tool for surgery reduces the reliability of its operation, due to the likelihood of failure of its electrical component due to moisture and high microwave fields. This is especially pronounced during repeated operations, and, consequently, sterilization, since conventional electric drives are not designed to operate in such harsh conditions.

Known surgical electromechanical instrument (dermatome) containing a drive, a knife with a thickness of 0.01-1.0 mm with a device for mounting it to the drive and with a spatial orientation device, and the device for mounting the knife to the drive is made in the form of a quick-detachable nozzle, including a union nut, coupling half , nonius, spindle with a flange, a knife fixed to the flange with a nut, and the diameters of the flange and nut are proportional and less than the diameter of the knife by 5-20%. (see PM of the Russian Federation No. 151212 of 03/05/14, IPC АВВ 17/322 (2006.01) - prototype).

A disadvantage of the known technical solution is the lack of reliability of its operation, due to the likelihood of failure of its electrical part due to negative impact factors when preparing it for work and performing the sterilization operation.

The task to which the invention is directed is to completely eliminate the possibility of reducing the reliability of the power tool in preparation for work, simplifying the process of sterilization, reducing the number of elements to be sterilized.

The problem is solved in that in the known method of preparing for surgery an electromechanical surgical instrument (HEMI) based on its disinfection and sterilization, according to the invention, a HEMI cutting element with a device for attaching it to the drive is connected to the capsule sleeve so that the cutting part of the element remains free for perform the cutting function, together they sterilize everything, pack it in a sterile package and send it to the surgical one, where the drive is also sent after disinfection, with the ac cumulator, before starting the operation, the sterile capsule sleeve is opened, the drive with the battery is inserted into it, the drive is connected to the cutting element without violating the sterility of the outer surfaces of the capsule sleeve, after which the capsule sleeve is sterilely closed.

To implement this method, a surgical electromechanical tool is proposed, comprising a drive, a cutting element with a device for attaching it to the drive, in which, according to the invention, a HEMI cutting element with a device for attaching it to the drive, is provided with an capsule sleeve for placement of electromechanical units such that the cutting part of the element remains free to perform the cutting function, moreover, the capsule sleeve contains a sterile switch on / off power supply to the drive, and the drive is equipped with an accumulator the size of the free part of the capsule sleeve is commensurate with the size of the drive equipped with a battery.

HEMI for implementing the proposed method is schematically represented in FIG. 1, where:

1. drive

2. cutting element

3. mounting device to the drive of the cutting element

4. capsule sleeve

5. sterile power on / off device

6. battery

7. signal light

8. bolt calibrator

A surgical electromechanical instrument contains a drive 1, a cutting element 2 with a device for attaching it 3 to a drive 1, moreover, a cutting element 2 with a device for attaching it to a drive 3 is equipped (for placement of electromechanical units) with a capsule sleeve 4 such that the cutting part of the element 2 remains free to perform the cutting function. The capsule sleeve 4 contains a sterile power on / off device 5 of the drive 1, and the drive 1 is equipped with a battery 6, and the dimensions of the free part of the capsule sleeve 4 are commensurate with the dimensions of the drive 1 equipped with a battery 6.

Before the start of the operation, the cutting element 2 is HEMI with the device for attaching it 3 to the drive 1, connected to the capsule sleeve 4 so that the cutting part of the element remains free to perform the cutting function, sterilized, packaged in a sterile package and sent to the surgical department, where it is also sent after disinfection drive 1, with a battery attached to it 6. Before starting the operation, the sterile capsule sleeve 4 is opened, drive 1 with battery 6 is inserted into it, drive 1 is connected to the cutting element 2, without violating the sterile NOSTA outer surfaces of the capsular sleeve 4, after which the sleeve 4 capsular aseptically sealed. HEMI is ready to go.

The device operates as follows. The electrodermate is turned on using the sterile power on / off device 5, and the signal lamp 7 lights up. After the audible signal, making sure that the faceplate of the cutting head with the inserted steel blade carries out rotational movements, the electroderm is ready for operation. A sterile electrodermatome from the side of the cutting head 2 with a blade is applied to the skin, and a donor skin flap is taken. The thickness of the latter is determined by the size of the calibration gap previously set by the bolt calibrator 8. After operations, the electroderm is turned off.

Specific example. A 40-year-old victim was admitted to the Main Military Clinical Hospital of the National Guard Troops of the Russian Federation on 30.09.17 with a burn injury from a fire of the 1-2-3 degree in the lower extremities area of 11% of the body surface. The patient underwent complex treatment of burn wounds, which included dressings and directional drugs. As a result of the treatment of burns until 10/17/17, most of them were epithelized. 2% of granulating wounds of the 3rd degree remained.

10/18/17 (19 days after the burn) the patient under general anesthesia in the operating room underwent a skin grafting operation - pre-transplant resection of granulation tissue and autodermoplasty of a granulating burn wound (3 degrees) in the region of the right lower leg with a transition to the popliteal fossa region along the inner edge of area 2 %

The position of the patient on the stomach. After processing the surgical field in the region of the posterior surface of the left tibia, two autodermotransplants 0.25 mm and 0.6 mm were taken using a single-use dermatome with an electric motor-reducer electric drive. After stopping the bleeding, the places of donor wounds are closed with sterile film dressings made of food-grade polyethylene treated with vitamin B2 powder (riboflavin) and laundry soap on the inside. Then, a dermatomic resection of the surface layer of granulation tissue (PTRGT) was performed with a thickness of 0.1 mm on granulating wounds of the right lower leg and the popliteal fossa region using the same disposable dermatome with an electric battery.

In case of dermatological PTGHT on the wound of the right lower leg and in the popliteal fossa using a single-use knife with a dermatome head, high quality of acuity and accuracy of cutting the surface layer of granulation tissue, minimal blood loss and the absence of spatter during the operation were noted. After HRTGT, the bottom and edges of the wound leveled, the surface acquired a bright pink color and became the optimal receptive bed for skin grafting. After the final stop of capillary bleeding, autodermoplasty (ADP) was performed with a 0.25 mm mesh transplant with a sagittal line of epithelization with a perforation coefficient of 1: 3 processed using a perforator (RF patent No. 2594446, authored by A. Mezul). The wound on the inner surface of the right popliteal fossa was closed with a continuous autoderm graft 0.6 mm thick. Transplanted autoderm grafts are fixed from the edges of the wound and with each other using a stapler. At the end of the operation, the transplanted autograft grafts were also covered with film dressings made of food-grade polyethylene and treated with a dry mixture of vitamin B2 powder and laundry soap on the inside with fixation with gauze and fixation of the knee joint with a splint.

After the operation, the course went smoothly with complete engraftment of the transplanted skin, and the healing of the wounds of the donor sites in two weeks, the absence of flexion contracture in the right knee joint.

Thus, the use of the invention will allow to increase the reliability of the power tool in preparation for work, simplifying the process of sterilization, reducing the number of elements to be sterilized and reducing the cost of the operation.

Claims (1)

A method of preparing for operation an electromechanical surgical instrument (HEMI) based on its disinfection and sterilization, characterized in that the HEMI cutting element with the device for attaching it to the drive is connected to the capsule sleeve so that the cutting part of the element remains free to perform the cutting function, all are sterilized together , packaged in a sterile package and sent to the surgical, where the drive is also sent after disinfection, with the battery attached to it, before the operation, a sterile cap ulny opened sleeve is inserted into it with the accumulator drive, the drive connected to the cutting element without compromising the sterility of the external surfaces of the capsular sleeve, whereupon the capsular sleeve aseptically sealed.

Images