CN212592753U - Acute cerebral apoplexy emergency management platform based on special transportation flatcar of thrombolysis - Google Patents

Abstract

The utility model belongs to the technical field of medical instrument, concretely relates to acute cerebral apoplexy first aid management platform based on special transportation flatcar of thrombolysis. The utility model comprises a transfer flatcar, a plurality of remote terminal devices and a background server; the bed body is provided with a plurality of support columns, universal wheels are arranged at the lower ends of the support columns, a bed plate is arranged above the bed body, a pressure sensor is arranged between the bed plate and the bed body, remote terminal equipment is arranged at the rear end of the bed body, and the bed body is also provided with an RFID reader, a processor and a storage battery; the front end of the bed body is also provided with a flow display screen. The utility model discloses time node recording equipment sets up on the thrombolysis flatcar, uses the large capacity power facility of flatcar self-bring, adopts the RFID means to record relevant information to reach the accurate stability of record information, noninductive record completely, do not disturb the purpose of medical staff's rescue flow.

Description

Acute cerebral apoplexy emergency management platform based on special transportation flatcar of thrombolysis

Technical Field

The invention belongs to the technical field of medical instruments, and particularly relates to an acute stroke emergency management platform based on a special transportation flat car for thrombolysis.

Background

Acute ischemic stroke is a common clinical disease and frequently encountered diseases, is one of 3 main diseases which harm human life and health and cause human death in the world at present, and has the characteristics of high morbidity, high recurrence rate, high mortality rate and high disability rate. The incidence rate of stroke in China is in the front of the whole world, the annual incidence rate of stroke is 185-219/10 ten thousand, 200 thousand new strokes are estimated to occur every year, and one stroke occurs in every 12 seconds on average. Reports of cardiovascular diseases in China 2014 and 2015 show that cerebral apoplexy is the first cause of death of residents in China. The death or disability of stroke 2/3 causes huge socio-economic burden to the nation and family, and the stroke cost is estimated to be about 120 billion yuan. As the population ages, the incidence of stroke further increases. With the economic development and the change of life style of China, the attack of stroke is in a trend of youthfulness, the attack rate, the recurrence rate and the death rate of stroke are in a trend of rising continuously, and huge mental and economic burden is brought to families and society.

The guidelines at home and abroad recommend that the drug thrombolytic therapy using rt-PA (recombinant human tissue plasminogen activator) is used within 4.5 hours of the occurrence of cerebral apoplexy, which is the only effective means for reducing the disability rate and the fatality rate of patients. Early use of rt-PA helps to minimize disability. The medicine must be strictly administered according to kg body weight of a patient, the first 10 percent of the dose is quickly pushed in, and the rest 1 hour is slowly injected statically, the dose is insufficient or excessive r-tPA, and theoretically, the incomplete recanalization of cerebral thrombosis or the conversion into hemorrhagic stroke can be caused respectively. One study by Stroke shows that physicians cannot properly estimate their body weight every time for Stroke patients, especially overweight patients, which results in insufficient thrombolytic therapy. In addition, during emergency treatment, the patients often have difficulty in moving limbs, and need to be transported to different departments such as a CT room and an interventional therapy room, so a medical flat car capable of weighing the weight of the stroke patients automatically and transporting the patients quickly is necessary.

Stroke will die of 190 million neurons, 140 million neurosynaptic every minute before restoring cerebral perfusion; every 30 minutes of thrombolysis delay can cause 12% of patients to be seriously disabled or die, so thrombolysis must be captured in seconds, and the prognosis of acute stroke is directly influenced by a time window. The main problem of the first aid at present is that patients cannot reach the medical institution within a time window after the onset of disease or delay occurs inside the medical institution, so that effective treatment cannot be accepted. Therefore, the time from the patient entering the emergency to the use of thrombolytic Drugs (DNT) becomes an important index for evaluating the emergency treatment capability of a stroke center. The national health commission has promoted the construction of the chinese stroke center for many years and performed relevant assessment with DNT as KPI, so that the recording and reporting of DNT and time nodes by each stroke center become important contents for stroke quality control management. However, at present, a manual record reporting mode is adopted, so that the situations of delay of notification and waiting of each link, delay of issuing registration execution by doctor's advice, delay of information acquisition and entry system of doctors, omission and unreality of key time node registration and the like exist, and the quality control requirement of the national health commission brain stroke prevention and treatment engineering committee cannot be met.

Under the big background of internet era, intelligent products of various time node records have also appeared in succession, like intelligent bracelet etc. but there are difficulties such as loaded down with trivial details, frequent charging of use, and some input links that exist in the use still can disturb doctor's rescue procedure, reduce rescue efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides an acute cerebral apoplexy first aid process management platform based on dissolve special transportation flatcar of bolt to above-mentioned problem.

In order to achieve the purpose, the utility model adopts the following technical proposal:

an acute cerebral apoplexy emergency management platform based on a thrombolytic transfer platform comprises a transfer platform, a plurality of remote terminal devices and a background server;

the transfer flat car comprises a bed body, a plurality of support columns are arranged below the bed body, universal wheels are arranged at the lower ends of the support columns, a bed plate is arranged above the bed body, a pressure sensor is arranged between the bed plate and the bed body, remote terminal equipment is arranged at the rear end of the bed body, and an RFID reader, a processor and a storage battery are further arranged on the bed body; the RFID reader, the pressure sensor and the remote terminal equipment are all connected with the processor, and the storage battery is used for supplying power to the pressure sensor, the RFID reader, the remote terminal equipment on the transfer platform and the processor; the RFID reader is used for reading information of RFID electronic tags on the gates of the doctor chest card, the blood collection vehicle, the electrocardiogram machine, the CT machine and the radiography room and transmitting the tag information to the processor; the pressure sensor is used for measuring a pressure signal of a patient and transmitting the pressure signal to the processor; the remote terminal equipment on the transfer platform is used for inputting patient information and displaying output information of the processor or the background server; the processor is used for receiving a pressure signal of the pressure sensor, converting the pressure signal into a weight signal, calculating the total quantity of thrombolytic drugs, the bolus injection dosage and the subsequent micro-pump dosage according to the weight signal, and finally outputting the information to the remote terminal equipment on the transfer platform, and the processor is also used for receiving the information of the RFID electronic tag read by the RFID reader, judging the current flow according to the information of the RFID electronic tag, recording the time nodes of the beginning and the end of the current flow, and outputting the flow information and the time node information corresponding to the flow information to the remote terminal equipment on the transfer platform;

the background server is remotely connected with the remote terminal devices, so that the patient information and the first-aid information can be conveniently acquired and stored, and meanwhile, the information sharing among the remote terminal devices is realized.

Further, the front end of the bed body is also provided with a flow display screen which is connected with the processor and is specially used for displaying flow information and flow time node information, so that doctors or nurses can visually observe completed and unfinished flows, and the coordination of the first-aid flows is facilitated.

Compared with the prior art, the utility model has the advantages of it is following:

1. cerebral apoplexy patient is accompanied limbs disability or consciousness obstacle more, needs to pass through medical flatcar and transport between each link of seeing a doctor during the emergency call, and the bed polybase that currently weighs reforms transform in medical sick bed, and the bed body is great, the removal of being not convenient for, the utility model discloses a function of weighing is based on medical flat car design of transporting, has to remove in a flexible way, and the patient security is high advantage

2. Cerebral apoplexy thrombolysis process relates to a plurality of departments of hospital, if the branch office, the internal medicine room, the special branch office, the room of dealing with, CT room etc. the patient can circulate fast between each department, current apoplexy thrombolysis flow management system is many based on the panel computer, the interface is more complicated, be unfavorable for medical staff's the quick flow information of knowing the patient under the emergency environment, this application has set up the flow display screen at the bed body front end of transporting the flatcar, adopt the mode of similar subway line map, show flow information and flow time node information, let emergency call staff can audio-visual observation to accomplished and unfinished flow, thereby more be favorable to the coordination of first aid flow to go on.

3. The cerebral apoplexy thrombolysis process relates to a plurality of departments of a hospital, and each time node of DNT is accurately recorded, thereby providing important reference information for later quality control. The existing DNT information node recording system is roughly divided into two types, one type is that medical staff are required to manually record at a mobile phone end APP, the defects that errors are large, the medical staff are interfered normally, rescue work is carried out, the other type is that a bracelet wrist strap is applied, automatic time node recording is carried out based on a Bluetooth communication mode, the problems that signal connection is unstable, equipment needs to be charged repeatedly, the recording effect is influenced, and even partial data loss is caused. This application time node recording equipment sets up on the thrombolysis flatcar, uses the self large capacity power facility of flatcar, adopts the RFID means record relevant information to reach the accurate stability of record information, no sensitization record completely, do not disturb the purpose of medical staff's rescue flow.

Drawings

FIG. 1 is a schematic view of a thrombolytic transfer platform vehicle;

FIG. 2 is a schematic flow chart.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is further explained with reference to the accompanying drawings and embodiments.

Example 1

FIG. 1 is a schematic view of a thrombolytic transfer platform vehicle according to the present invention; FIG. 2 is a schematic flow chart of the present invention.

An acute stroke emergency management platform based on a thrombolytic transfer flat vehicle comprises a transfer flat vehicle 100, a plurality of remote terminal devices 205 and a background server 208;

the transfer flat car 100 comprises a bed body 101, a plurality of support columns 103 are arranged below the bed body 101, universal wheels 104 are arranged at the lower ends of the support columns 103, a bed plate 102 is arranged above the bed body 101, a pressure sensor 201 is arranged between the bed plate 102 and the bed body 101, remote terminal equipment 205 is arranged at the rear end of the bed body 101, and an RFID reader 202, a processor 203 and a storage battery 206 are further arranged on the bed body 101; the RFID reader 202, the pressure sensor 201 and the remote terminal device 205 are all connected with the processor 203, and the storage battery 206 is used for supplying power to the pressure sensor 201, the RFID reader 202, the remote terminal device 205 on the transfer platform 100 and the processor 203; the RFID reader 202 is used for reading information of RFID electronic tags 207 on the gates of a doctor chest card, a blood collection vehicle, an electrocardiograph, a CT (computed tomography) machine and an imaging room and transmitting the tag information to the processor 203; the pressure sensor 201 is used for measuring a pressure signal of a patient and transmitting the pressure signal to the processor 203; the remote terminal device 205 on the transfer platform 100 is used for inputting patient information and displaying output information of the processor 203 or the background server 208; the processor 203 receives the pressure signal of the pressure sensor 201, converts the pressure signal into a weight signal, calculates the total quantity of thrombolytic drugs, the bolus dose and the subsequent micro-pump dosage according to the weight signal, and finally outputs the information to the remote terminal device 205 on the transfer platform 100, and the processor 203 is also used for receiving the information of the RFID tag 207 read by the RFID reader 202, judging the current flow according to the information of the RFID tag 207, recording the time nodes at which the current flow starts and ends, and outputting the flow information and the time node information corresponding to the flow information to the remote terminal device 205 on the transfer platform 100;

the background server 208 is remotely connected with the plurality of remote terminal devices 205 so as to acquire and store the patient information and the emergency information, and simultaneously, the information sharing among the plurality of remote terminal devices 205 is realized.

The front end of the bed body 101 is also provided with a flow display screen 204, the flow display screen 203 is connected with the processor 203 and is specially used for displaying flow information and flow time node information, so that doctors or nurses can visually observe completed and unfinished flows, and coordination of the first-aid flow is facilitated.

A use method of an acute stroke emergency management platform based on a thrombolytic transfer platform vehicle comprises the following steps:

the emergency call is rescued, the thrombolytic transfer platform car 100 is called in the hospital at the same time, and the acute cerebral apoplexy emergency team is informed to prepare;

the patient is admitted, the patient is transferred to the thrombolytic transfer platform 100 of the invention, the pressure sensor 201 measures the pressure signal of the patient and transmits the pressure signal to the processor 203; the processor 203 receives the pressure signal of the pressure sensor 201, converts the pressure signal into a weight signal, calculates the total quantity of thrombolytic drugs, the bolus dose and the subsequent micro-pump dosage according to the weight signal, and finally outputs the information to the remote terminal device 205 on the transfer platform 100; meanwhile, the flow information and the flow time node information are displayed through a flow display screen 204 which is arranged at the front end of the bed body 101 and connected with the processor 203, so that doctors or nurses can visually observe the completed and unfinished flows, and the coordination of the first-aid flows is facilitated;

the medical history information, the vital sign data information, the physical examination data information, the blood sample data information and the basic identity information of the patient are input through the remote terminal device 205 in the hospital transferring process; and the information is transmitted to the background server 208, and the background server 208 is remotely connected with the plurality of remote terminal devices 205, so as to conveniently acquire and store the patient information and the first-aid information, and simultaneously realize information sharing among the plurality of remote terminal devices 205.

The RFID reader 202 reads information of the RFID electronic tag 207 on the gates of the doctor chest card, the blood collection vehicle, the electrocardiograph, the CT machine and the radiography room, the processor 203 receives the information of the RFID electronic tag 207 read by the RFID reader 202, judges the current process according to the information of the RFID electronic tag 207, records time nodes of the beginning and the ending of the current process, outputs the process information and time node information corresponding to the process information to the remote terminal device 205 on the transfer flat car 100, and simultaneously transmits the process information and the process time node information to the process display screen 204 to display the process information and the process time node information.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (2)

1. The utility model provides an acute cerebral apoplexy first aid management platform based on special transport flatcar of thrombolysis, its characterized in that: the transfer platform comprises a transfer platform (100), a plurality of remote terminal devices (205) and a background server (208);

the transfer flat car (100) comprises a bed body (101), a plurality of supporting columns (103) are arranged below the bed body (101), universal wheels (104) are arranged at the lower ends of the supporting columns (103), a bed board (102) is arranged above the bed body (101), a pressure sensor (201) is arranged between the bed board (102) and the bed body (101), remote terminal equipment (205) is arranged at the rear end of the bed body (101), and an RFID reader (202), a processor (203) and a storage battery (206) are further arranged on the bed body (101); the RFID reader (202), the pressure sensor (201) and the remote terminal device (205) are connected with the processor (203), and the storage battery (206) is used for supplying power to the pressure sensor (201), the RFID reader (202), the remote terminal device (205) on the transfer flat car (100) and the processor (203); the RFID reader (202) is used for reading information of RFID electronic tags (207) on gates of a doctor chest card, a blood collection vehicle, an electrocardiograph, a CT (computed tomography) machine and a radiography room and transmitting the tag information to the processor (203); the pressure sensor (201) is used for measuring a pressure signal of a patient and transmitting the pressure signal to the processor (203); a remote terminal device (205) on the transfer cart (100) for inputting patient information and displaying output information of a processor (203) or a background server (208); the processor (203) receives a pressure signal of the pressure sensor (201), converts the pressure signal into a weight signal, calculates the total quantity of thrombolytic drugs, the bolus injection dosage and the subsequent micro-pump dosage according to the weight signal, and finally outputs information to the remote terminal device (205) on the transfer platform, and the processor (203) is also used for receiving information of the RFID electronic tag (207) read by the RFID reader (202), judging the current process according to the information of the RFID electronic tag (207), recording the time nodes of the start and the end of the current process, and outputting the process information and the time node information corresponding to the process information to the remote terminal device (205) on the transfer platform (100);

the background server (208) is remotely connected with the plurality of remote terminal equipment (205) so as to acquire and store the patient information and the first aid information, and meanwhile, information sharing among the plurality of remote terminal equipment (205) is realized.

2. The acute stroke emergency management platform based on the transportation flatcar special for thrombolysis according to claim 1, characterized in that: the front end of the bed body (101) is also provided with a flow display screen (204), the flow display screen (204) is connected with the processor (203) and is specially used for displaying flow information and flow time node information, so that doctors or nurses can visually observe completed and unfinished flows, and coordination of the first-aid flow is facilitated.

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