RU2533005C1 - Delivery of donor blood and/or its components with help of drone - Google Patents

Abstract

FIELD: aircraft engineering.

SUBSTANCE: proposed method of delivery of donor blood and/or its components with help of drone consists in application of VTOL helicopter-type drone for execution of its mission automatically in compliance with algorithm and operation functions built therein or manually by remote control effected by operator. Drone airframe has compartment to house portable thermal container with donor blood or its components packages for their transportation.

EFFECT: perfected method.

2 cl, 2 dwg

Description

The invention relates to medicine, namely to transfusiology, as well as to the use of an unmanned aerial vehicle, and is intended for the delivery of donated blood and (or) its components to medical institutions or to an inaccessible area, if necessary, transfusion to a patient or injured donated blood and (or) its components.

It is known that transfusion of donated blood and (or) its components is an emergency vital medical procedure. Blood loss caused by damage to internal organs or blood vessels leads to a decrease in the volume of circulating blood, blood pressure indicators, the level of hemoglobin in the blood and oxygen transfer to organs and tissues with the development of oxygen starvation (ischemia) up to death. Replenishment of blood loss and normalize blood hemoglobin levels is possible only by transfusion of donated blood. The remoteness of medical hospitals from institutions that procure donor blood (blood transfusion stations), or the inaccessibility of delivery due to difficulty, speed of traffic on roads or terrain features, increase the time before donor blood transfusion begins, thereby leading to health problems patient or victim, up to death.

This problem is to some extent solved in the method of planning, parachuting, hovering, hovering, landing and landing of unmanned aerial vehicles [RF patent No. 2375255, B64D 1/08, publ. December 10, 2009], which describes a method for planning, hovering, hovering, parachuting, landing and landing unmanned aerial vehicles, the essence of which is that on the body of each of these objects moving in airspace, on its longitudinal open surface or in open or closed niches placed in a single screw, coaxial, longitudinal or combined (mixed) scheme, air two-blade or multi-blade, equipped with storage systems and In flight, the rotors are equipped with helicopter-like swashplate and elementary braking devices, then, using existing methods, an unmanned aerial vehicle, or a non-motorized flying object, or a ballistic solid is launched and carried out in airspace, and at the time of descent to the ground, on the calculated height, the rotors with the help of an elementary telescopic or other device push (raise) to a given working height or simply remove the movable shutters of a closed niche, after why the rotors are launched into working rotation, for example, using the incoming air flow (in autorotation mode), or with the help of jet starting propulsors (mounted on the rotor blades), or with the help of a traction, for example, a turboshaft engine, then, by controlling the rotor, reduction, switching to the planning or hovering, hovering and parachuting modes, followed by landing and landing by plane - with low mileage or helicopter, with virtually no mileage.

However, this method is intended and can be used only for planning, hovering, hovering, parachuting, landing and landing unmanned aerial vehicles and does not solve the problems of urgent or emergency delivery of donated blood and (or) its components in medical institutions or in an inaccessible area if necessary transfusions to the patient (recipient) or to the victim of donated blood and (or) its components.

Also, this problem is to some extent solved by the delivery of donated blood and (or) its components to medical treatment facilities or to the scene of the accident using road transport or involving civil aviation.

However, this method is intended and can be used to deliver donated blood and (or) its components only over short distances, it takes a lot of time, and for the delivery to remote areas, such as mountains, the use of road transport is simply impossible. The use of civil aviation requires a specially equipped platform for landing aircraft, attracting a significant amount of human resources and financial costs.

The closest technical solution to the claimed are publications ["Encyclopedia of Aviation", p. 108, article "Unmanned Aerial Vehicle", scientific. published “Big Russian Encyclopedia”, TsAGI, Moscow 1994] and [Wikipedia, article “Unmanned aerial vehicle”], which describes how to use small unmanned aerial vehicles in emergency services (fire safety control), police (patrolling zones), agricultural enterprises (monitoring of crops), forestry and fishing (forest conservation and fisheries control), companies engaged in geodesy (mapping), institutes of geography and geology, oil and gas companies (my itoring oil and gas facilities), construction companies (inspection of construction sites), the media (aerial and video), and others. According to publicly available documents of the EU institutions, the distribution of consumer demand for civil unmanned aerial vehicles in the period from 2015 to 2020. as follows: 45% - government agencies, 25% - firefighters, 13% - agriculture and forestry, 10% - energy, 6% - survey of the earth's surface, 1% - communication and broadcasting.

However, a description of the use of unmanned aerial vehicles for medical purposes was not found in the available literature, and according to statistics, no one uses an unmanned aerial vehicle for medical purposes, in particular for delivering donated blood and (or) its components to medical institutions or to inaccessible areas to the place incidents.

The disadvantages of the method are that with the help of an unmanned aerial vehicle only information is obtained, this method is intended and can be used only for visual monitoring from a height of a certain situation on the ground and conducting aerial and video shooting, there is no possibility of delivery using an unmanned aerial vehicle blood and (or) its components, only manual control of an unmanned aerial vehicle is used, the method of delivery of donated blood and (or) its comp entents using unmanned aerial vehicles, the process of loading blood packets into an unmanned aerial vehicle, there is no description of the algorithm for ordering donated blood and (or) its components to the blood transfusion station and the order of blood transfusion and (or) its components, there are no special compartments in the unmanned aerial vehicle and special thermal containers for transporting packages of donated blood and (or) its components, don’t take into account that donated blood and (or) its components are thermolabile and have certain temperatures urnye storage and transport, there is no description of the procedure for handling of donated blood and (or) its components.

The technical result of the claimed invention is the provision of emergency or urgent delivery of donated blood and (or) its components using an unmanned aerial vehicle to medical institutions or to an inaccessible area, if necessary, transfusion of donated blood to a patient or injured person and (or) its components to ensure donor blood integrity and (or) its components, availability and protection of donated blood and (or) its components in order to preserve its (their) biological properties, timely sintering the delivery of donated blood and (or) its components to hard-to-reach areas, reducing the number of deaths of patients or victims associated with acute blood loss, reducing the time from receipt of an application for the necessary donated blood and (or) its components to a blood transfusion station until conducting transfusion, reducing labor costs, financial costs associated with delivery, reducing the cost of transportation of donated blood and (or) its components.

The technical result is achieved by the fact that in a method for ensuring the delivery of donated blood and / or its components using an unmanned aerial vehicle to medical institutions or to an inaccessible area, if necessary, transfusion of donated blood and / or its components to a patient or victim is necessary to ensure donor blood integrity and (or) its components, availability and protection of donated blood and (or) its components in order to preserve its (their) biological properties, the new thing is that in the case of unmanned The donor unit has a closing niche (compartment) for accommodating a mobile thermal container made of heat-insulating material, designed to accommodate one or more packages of donated blood and (or) its components, the mobile thermal container provides integrity as well as protection against temperature extremes of donated blood packages and ( or) its components, the removability and mobility of the thermal container provides the convenience of transportation, loading into an unmanned aerial vehicle, unloading, delivery of packages to donor blood and (or) its components to the patient or the victim, donor blood and / or its component packages are delivered to a medical institution or to the scene of the accident anywhere in the area, inaccessible areas, a small unmanned aerial vehicle for vertical take-off and landing is used (helicopter type), realizing its functional purpose in automatic mode in accordance with the algorithm and programs of operation incorporated in it, or in manual mode under remote control and The person’s trolley, the control center for one or more unmanned aerial vehicles, and the take-off and landing site are located in a regional or territorial blood transfusion center or blood transfusion station, if necessary, transfuse a patient or injured donor blood and (or) its components, the doctor contacts a blood transfusion station with any type of communication and orders the necessary amount of donated blood and (or) its components, according to the group and Rhesus affiliation of the patient or the victim, if the blood group and the Rhesus affiliation of the blood of the patient or the victim is unknown or cannot be determined, then the attending physician orders the blood of group 0 (I) (first), Rh negative, which is universal blood, i.e. the blood that can be transfused to any person, regardless of their group and Rhesus affiliation, and the plasma AB (IV) (fourth) group, which is a universal plasma.

As well as the fact that in the case of an unmanned aerial vehicle there is a niche (compartment) for placing a mobile thermal container with packages of donated blood and (or) its components, with the aim of transporting donated blood and (or) its components.

And also because the control center for one or several unmanned aerial vehicles is located in a regional or territorial blood transfusion center, or a blood transfusion station.

As well as the fact that the runway is located in a regional or territorial blood transfusion center or blood transfusion station, which makes the delivery of donated blood and (or) its components faster, because The time from the acceptance of the application for donated blood and (or) its components to the sending of packages of donated blood and (or) its components to a medical institution or to the scene of the incident is reduced.

As well as the fact that there is a mobile thermal container that provides the convenience of transporting donated blood and (or) its components, the convenience of loading and unloading, and delivery to a patient or victim.

As well as the fact that an unmanned aerial vehicle of vertical take-off and landing (helicopter type) is used, which implements its functional purpose in automatic mode in accordance with the algorithm and programs of operation incorporated in it or in manual mode under remote control and human control.

As well as the fact that donated blood and (or) its components are ordered taking into account the group and Rhesus affiliation of the patient or victim, if it is impossible to determine the group and Rhesus affiliation of the patient or victim, donated blood and (or) its components are ordered taking into account the developed system ordering donated blood and (or) its components, which is universal.

These differences allow us to conclude that the proposed technical solution meets the criterion of "novelty." Signs that distinguish the claimed method from the prototype are not identified in other technical solutions in the study of this and related fields of medicine and, therefore, provide the claimed solution with the criterion of "inventive step".

The invention is illustrated by drawings. Figure 1 shows a mobile thermal container with packages of donated blood and (or) its components, figure 2 is a diagram of an unmanned aerial vehicle.

The inventive method is as follows.

If it is necessary to transfuse a patient at a medical institution or to a victim at the scene of donor blood and (or) its components, the doctor makes an application for a blood transfusion station for the required amount of donated blood and (or) its components, according to the group and Rhesus affiliation of the patient or victim. If it is impossible or difficult to determine the blood group and Rhesus affiliation of the patient or victim, the doctor makes an application for donated blood 0 (I) (first) universal group, Rh negative, and plasma AB (IV) (fourth). The nurse of the expedition of the blood transfusion station, according to the application, selects the right amount of ordered donated blood and (or) its components. Donor blood and (or) its components are placed by a nurse in a mobile thermal container, if it is necessary to send different components of donated blood at different temperatures, then packages of different components of donated blood are transferred with isothermal material. A nurse of a blood transfusion station goes to the take-off and landing pad of an unmanned aerial vehicle, located directly on the territory of a blood transfusion station or on the roof of a building, loads a mobile thermal container into a special niche of an unmanned aerial vehicle, closes the niche. He returns to the control center of the unmanned aerial vehicle, selects on the control the final route for the delivery of packages of donated blood and (or) its components, i.e. the necessary medical institution or directly the place where donor blood and (or) its components must be delivered. An unmanned aerial vehicle performs vertical take-off and flight to its destination in accordance with the algorithm and functioning programs laid down in it. After landing in a given area of an unmanned aerial vehicle, a signal is sent to the control center about the completion of the route, completion of the flight and landing. The nurse of the expedition of the blood transfusion station through any means of communication informs the person who made the request for the delivery of donated blood and (or) its components to a medical institution or to the scene of the incident. A mobile thermal container with packages of donated blood and (or) its components is unloaded from a special niche (compartment) of an unmanned aerial vehicle and delivered to a patient or victim for transfusion. After unloading the mobile thermal container, the doctor informs the nurse of the blood transfusion station about the successful transportation of donated blood and (or) its components. The nurse in the control center selects the program for the return return of the unmanned aerial vehicle, and the unmanned aerial vehicle automatically returns to the runway of the blood transfusion station.

Example 1. A method for the delivery of donated blood and (or) its components using unmanned aerial vehicles to provide transfusion therapy to a patient or victim.

If it is necessary to transfuse a patient in a medical institution or in a victim of a place of catastrophe of donated blood and (or) its components, the doctor makes an application using any form of communication to the blood transfusion station for the required amount of donated blood and (or) its components, according to group and Rh membership patient or victim. If it is impossible or difficult to determine the blood group and Rhesus affiliation of the patient or victim, the doctor makes an application for donated blood 0 (I) (first) universal group, Rh negative, and plasma AB (IV) (fourth).

The nurse of the expedition of the blood transfusion station selects the right amount of ordered donated blood and (or) its components. Donor blood and (or) its components are placed by a nurse in a mobile thermal container, if it is necessary to send different components of donated blood having a different temperature, then packages of different components of donated blood are transferred with isothermal material, the thermal container is closed (Fig. 1).

The nurse of the blood transfusion station with a mobile thermal container goes to the take-off and landing pad of the unmanned aerial vehicle located directly on the territory of the blood transfusion station or on the roof of the building, loads the mobile thermal container into a special niche of the unmanned aerial vehicle, closes the niche (Fig. 2).

The nurse returns to the control center of the unmanned aerial vehicle located in the blood transfusion station, selects on the control the final route for the delivery of packages of donated blood and (or) its components, i.e. the necessary medical institution or directly the place where donor blood and (or) its components must be delivered.

An unmanned aerial vehicle performs vertical take-off and flight to its destination in accordance with the algorithm and functioning programs laid down in it. After landing in a given area of an unmanned aerial vehicle, a signal is sent to the control center about the completion of the route, completion of the flight and landing. The nurse of the expedition of the blood transfusion station informs the doctor who made the request for the delivery of donated blood and its components to the medical institution or to the scene of the incident. A mobile thermal container with packages of donated blood and (or) its components is unloaded from a special niche of an unmanned aerial vehicle and delivered to a patient or victim for transfusion. After unloading the mobile thermal container, the doctor informs the nurse of the expedition of the blood transfusion station about receiving packages of donated blood and (or) its components. The nurse at the control center selects a drone return program. An unmanned aerial vehicle starts the engine, takes off vertically, flies according to the route laid down in the program and automatically returns to the runway of the blood transfusion station. The use of an unmanned aerial vehicle is reusable.

The proposed method for the delivery of donated blood and (or) its components using an unmanned aerial vehicle to medical institutions or to an inaccessible area, if necessary, transfusion of a patient (recipient) or injured donated blood and (or) its components to ensure the integrity of donated blood and (or) its components, accessibility and protection of donated blood and (or) its components in order to preserve its (their) biological properties ensures prompt delivery of donated blood and (or) its components in the treatment to the place of the accident, ensures delivery to hard-to-reach areas, increases the speed of blood transfusion therapy, reduces the time from the receipt of the application for the necessary donated blood and (or) its components to the blood transfusion station, and until the transfusion is carried out, reduces labor costs, financial costs for the delivery of donated blood and (or) its components, ensures the efficient management of stocks of donated blood and (or) its components in the region.

The result of the proposed solution is the speedy delivery of donated blood and (or) its components to medical institutions or to the scene of the incident for the timely provision of blood transfusion therapy to the patient or victim.

Claims (2)

1. A method for ensuring the delivery of donor blood and / or its components using an unmanned aerial vehicle, characterized in that the vertical take-off and landing unmanned aerial vehicle (helicopter type) is used, which implements its functionality in automatic mode in accordance with the algorithm laid down in it and functioning programs either in manual mode under remote control and human control. 2. The method according to claim 1, characterized in that the housing of the unmanned aerial vehicle has a niche (compartment) for accommodating a mobile thermal container with packages of donated blood and / or its components for the purpose of transporting donated blood and / or its components.

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