RU2000815C1 - Device for differentiated dissection of parenchymal organs - Google Patents

Abstract

Use in Surgery for Tissue Dissection SUMMARY OF THE INVENTION A needleless injector 1 type is used as a device for differentiated tissue dissection.

Description

The invention relates to medicine, namely to surgery.

Laser and plasma scalpels are known for dissecting tissues of parenchymal organs.

However, when laser and plasma scalpels are used, undifferentiated dissection of all biological tissues occurs, including blood vessels and excretory ducts. Intensive bleeding from vessels with a diameter of more than 2 mm continues, which increases the degree of operational risk, requires correction of large doses of donated blood, and increases the length of hospital stay of patients.

Known needleless injector containing a housing, a shutter button and a nozzle system.

The aim of the invention is to reduce the volume of intraoperative blood loss, reduce the degree of operational risk and save transfused donated blood.

The goal is achieved in that the differentiated dissection of the tissues of the parenchymal organs is carried out using a salt-free injector.

The drawing shows the proposed device.

The device consists of a source of compressed gas with a reducer 1. an automatic pneumatic distributor 2, an energy unit 3, a container for liquid 4, an actuator unit 5 in the form of a needleless injector having a shutter button and a nozzle system, a source of compressed gas, an energy and an executive unit are interconnected with using pneumatic and hydraulic drives.

The device is used as follows. In order to carry out a differentiated dissection of tissues of parenchymal organs, the following manipulations must be performed. Set the required pressure by means of pressure reducer 1. Optimal pressure conditions for dissection of parenchymal organs in the range of 3.5-5.5 atm. At a pressure of less than 3.5 atm. tissues hardly dissect, more than 5.5 atm. significantly differentiates the degree of differentiation of the dissection, which

leads to damage to most of the blood vessels. Take the actuator unit 5 in your hand, press the shutter button and slowly guide it along the path of the upcoming cut at a distance of 2-3 cm from the nozzle to the surface of the tissues, then release the button and perform the operation. A larger distance will degrade the dissection quality, a smaller one will lead to a decrease

degree of differentiation and vascular damage.

The data of the optimal operating modes of the proposed device were obtained in experimental studies on 32

outbred dogs, as well as in subsequent clinical use of the device in liver operations in 4 patients.

Positive effect when using a device for differentiated

dissection of tissues of the parenchymal organs consists in a significant reduction in the volume of intraoperative blood loss. For example, in experimental studies on 32 dogs weighing 10-15 kg

the intraoperative blood loss when using this device averaged 40 ml with liver resections, while performing the same operations in terms of volume, but using the usual method using

surgical scalpel and hematopoietic sutures were accompanied by a loss of at least 150 ml.

The use of the device in clinical practice allows reducing intraoperative blood loss during anatomical resection of the liver to 300 ml.

In connection with a decrease in blood loss, an appropriate amount of donated blood is saved, and the degree of operational risk is reduced.

(56) Abdullaev A.G. et al. Use of a laser scalpel in liver surgery. - Surgeons: 1991. No. 2, p. 52-55.

Morozov Yu. 1/1. et al. Clinical use of plasma scalpel in pulmonary surgery. Actual issues of surgical gastroenterology. Kharkov. 1988, p. 104-105.

USSR copyright certificate No. 835448, cl. A 61 M 5/30, 1981.

Claims (1)

The claims DEVICE FOR DIFFERENTIATED CUTTING OF PARENCHIMATOUS ORGANS Use of a needleless injector as a device for differentiated dissection of tissues of parenchymal organs.