RU202210U1 - DEVICE FOR ULTRASONIC MONITORING OF THE VOLUME AND RATE OF BLOOD LOSS IN A CLOSED TANK AT VARIOUS STAGES OF OPERATIVE INTERVENTION - Google Patents

Abstract

The utility model refers to medical equipment, namely to the group of measuring medical devices, and can be used during surgical interventions to assess the volume and rate of blood loss. Until now, there are no analogues of the presented device capable of intraoperative monitoring of the volume and rate of blood loss in real time, as well as the technical solution used - an assessment of the volume and rate of blood loss by software analysis and calculation of the streaming information on the parameters of bleeding in real time coming from an ultrasonic sensor integrated into a closed reservoir. At the moment, blood loss during a surgical operation is determined only by approximate assessment of the volume of blood in the reservoir of the surgical aspirator, as well as the number and weight of gauze pads used to drain the surgical field; according to subjective clinical signs for assessing the severity of bleeding and objective data recorded by the anesthesia team (color of the skin and mucous membranes, pulse and respiratory rate, arterial and central venous pressure, hourly urine output), as well as hemogram indicators, which gives only approximate and untimely understanding the amount of blood loss is time-consuming and does not allow for regular monitoring. The currently existing methods for assessing the volume of blood loss during a surgical operation have a number of significant drawbacks, namely: they do not have sufficient accuracy, do not allow assessing the intensity (speed) of bleeding at a certain stage of the operation, and require manual measurement of the amount of blood that has poured out by transfusing it into measured vessels , which is accompanied by the loss of time and contact of medical personnel with a potentially dangerous biological environment (blood). A device for ultrasonic monitoring of the volume and rate of blood loss in a closed reservoir at various stages of surgery is proposed, including a reservoir for collecting blood 1, a separating large-mesh foam filter 2, cover with integrated U3-sensor 3; the system of the supply pipe 4 and the tube of the vacuum compressor 5; measuring unit with microprocessor 6 and touch screen 7.

Description

The utility model relates to medical equipment, namely to a group of measuring medical devices, and can be used during surgical interventions to assess the volume and rate of blood loss.

Until now, there are no analogues of the presented device capable of intraoperative monitoring of the volume and rate of blood loss in real time, as well as the used technical solution - the assessment of the volume and rate of blood loss by software analysis and calculation of the streaming information coming from an ultrasonic sensor integrated into a closed reservoir. parameters of bleeding in real time.

At the moment, blood loss during a surgical operation is determined only by an approximate estimate of the volume of blood in the reservoir of the surgical aspirator, as well as by the number and weight of gauze napkins used to drain the surgical field; according to subjective clinical signs for assessing the severity of bleeding and objective data recorded by the anesthesia team (color of the skin and mucous membranes, pulse and respiratory rate, arterial and central venous pressure, hourly urine output), as well as hemogram indicators, which gives only approximate and untimely understanding the amount of blood loss is time consuming and does not allow for regular monitoring. The currently existing methods for assessing the volume of blood loss during a surgical operation have a number of significant disadvantages, namely: they do not have sufficient accuracy, do not allow assessing the intensity (speed) of bleeding at a certain stage of the operation, and require manual measurement of the amount of blood that has poured out by transfusing it into volumetric vessels. , which is accompanied by loss of time and contact of medical personnel with a potentially dangerous biological environment (blood).

The goal achieved with the help of the utility model is a highly accurate assessment and monitoring of the volume and rate of blood loss that occurs at various stages of emergency, urgent and planned surgical operations.

This goal is achieved by the fact that the assessment of the volume and rate of blood loss is carried out by means of software analysis and calculation of the streaming information about the parameters of bleeding in real time from an ultrasonic sensor integrated into a closed reservoir.

FIG. 1 shows a diagram of a device for ultrasonic monitoring of volume and blood loss rate in a closed reservoir.

The device includes: a reservoir for blood collection 1, a separating large-mesh foam filter 2, a cover with an integrated U3-sensor 3; the supply pipe system 4 and the vacuum compressor pipe 5; measuring unit with microprocessor 6 and touch screen 7. All elements, except for the U3-sensor, microprocessor and display, are collapsible and resistant to various types of sterilization. All elements of the device are replaceable.

The device works as follows: the ultrasonic transducer-emitter 3 integrated into the lid of the blood collection vessel is installed by the emitter inside and calibrated for a certain volume of the vessel. The ultrasonic waves generated by the transducer are reflected from the interface of media with different acoustic impedances (such as blood and air contained within the reservoir of the surgical aspirator). Reflecting from the liquid medium, ultrasonic vibrations fall on the receiving piezoelectric plate of the transducer 8. Information in the form of electrical impulses is transmitted to the operating unit of the microprocessor 6, which processes the received data and, using a specially developed script program in the Python programming language, converts them into a graphical form, and also saves to a CSV file, displays the obtained data on the touch screen 7. During an operation, the device monitors bleeding parameters in real time. After the end of the operation, the device displays data on the total intraoperative blood loss. In the future, if necessary, the obtained data can be subjected to statistical analysis using special programs.

Claims (1)

A device for ultrasonic monitoring of the volume and rate of blood loss in a closed reservoir at various stages of surgery, including a reservoir for blood collection, a separating cellular defoaming filter, a reservoir lid with an integrated U3-sensor, a supply tube system and vacuum compressor tubes and a measuring unit with a microprocessor and a touch display , while the device is configured to receive and register ultrasonic vibrations reflected from the blood, transmit the information received to the operating unit of the microprocessor for processing, converting it into quantitative indicators and graphical form, storing it in a CSV file and outputting it to the touch display.

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