CN202505429U - Intelligent local and remote dual-purpose ischemic preconditioning instrument - Google Patents

Abstract

The utility model discloses an intelligent local and remote dual-purpose ischemic preconditioning instrument which comprises a MCU (microprogrammed control unit) processor, and a pressure sensor, an air charging device, an air releasing device, a functional button operation module, a data storage unit, a display module, a pulse oxygen module, a finger tip pulse oxygen probe, an intelligent local and remote dual-purpose ischemic preconditioning program RIPC-SD controller and a local and remote dual-purpose ischemic preconditioning program RIPC-D controller which are connected with the MCU processor, wherein the pressure sensor, the air charging device and the air releasing device are respectively connected with a cuff through air passages, and the pulse oxygen module is connected with the finger tip pulse oxygen probe through a conductor. The intelligent local and remote dual-purpose ischemic preconditioning instrument adopts a method which adopts pulse oxygen to judge whether the limb blood flow is completely blocked, individually adopts the required pressure for completely blocking arterial blood flow in real time, adopts the method combining local ischemic preconditioning of short-time increasing limb blood flow blocking and remote ischemic preconditioning of long-time limb blood flow blocking, and can not only achieve the effect of remote ischemic preconditioning, but also reduce the discomfortableness of local limb and possible untoward reaction caused by high pressure and longstanding pressurizing.

Description

Intelligent part and long-range dual IP appearance

Technical field

This utility model relates to a kind of cardiovascular health-care function quasi-instrument, relates in particular to a kind of intelligent part and long-range dual IP appearance.

Background technology

Cardiovascular and cerebrovascular disease is popular a kind of commonly encountered diseases and a frequently-occurring disease of harm.1986, animal experiment study found that of short duration repeatedly blocking-up coronary flow can significantly alleviate the myocardial infarct size that follow-up lasting long period ischemia causes, this phenomenon is called IP.Subsequently, we discover, of short duration repeatedly limb ischemia also can significantly alleviate follow-up cardiac muscle and continue the myocardial infarct size that the long period ischemia causes, this phenomenon has obtained the confirmation of follow-up numerous animal and human's body researchs.This local short time ischemia is called long-range IP to the protection phenomenon of the long-time ischemic injuries that is far apart organ.Experiment and clinical research at present found; Utilize the noinvasive operational approach of the peripheral vascular blood flow of the of short duration repeatedly blocking-up of sphygomanometer cuff can reduce tissue injurys such as cardiac muscle and brain; It is active to improve peripheral blood vessel and cardiovascular and cerebrovascular vessel, improves platelet aggregation property and inflammatory reaction, improves anoxia tolerance; Through continuing the peripheral vascular blood flow of blocking-up repeatedly in 3 times 5 minutes, can reach the effect of IP with 5 minutes perfusion again.The pressure that carries out repeatedly short blocking-up peripheral blood vessel blood flow at present to be adopted the 200mmHg of artificial regulation or adds that on the systolic pressure basis 50mmHg carries out bloodstream blocking.But the defective that existing method exists is the too high long-time circulated compression to limb of pressure; Cause the lasting compressing that the long period limbs are neural and organize; Except the discomfort that ischemia causes, also can significantly feel bad owing to excess pressure causes user, cause user to abandon easily because of being difficult to tolerance.

The utility model content

For overcoming the deficiency on the prior art; The purpose of this utility model is to provide a kind of can judge bloodstream blocking pressure according to pulse oxygen; The needed pressure of the complete interruption artery vascular flow of the setting of individuation in real time; By the limbs pressure method that can reach long-range IP of short and long ischemia pre-adaptation until the set time, thus the intelligent part and the long-range dual IP appearance of minimizing user sense of discomfort.

For realizing the purpose of this utility model, the technical scheme of this utility model is following:

A kind of intelligent part and long-range dual IP appearance; Comprise power circuit, cuff and gas circuit; It is characterized in that it also includes MCU processor and the pressure transducer that is connected with the MCU processor, aerating device, air releasing device, function button operational module, data storage cell, display module, pulse oxygen module, finger tip pulse oxygen probe, intelligent part and long-range IP program RIPC-SD controller and local and long-range IP program RIPC-D controller; Pressure transducer, aerating device and air releasing device are connected with cuff through gas circuit respectively; The other end of pulse oxygen module is connected with finger tip pulse oxygen probe through lead.

In addition, be connected with oscillating circuit between pressure transducer and the MCU processor.

Being connected with aerating device driving and air releasing device between aerating device and air releasing device and the MCU processor respectively drives.

In addition, be connected with display driver between display module and the MCU processor.

This utility model can be in real time, the needed pressure of the complete interruption artery vascular flow of setting of individuation.Before carrying out long-range IP, adopt by pressure method short and length, in the hope of making local nerve and tissue pressurization is produced the pre-adaptation effect, thereby alleviate the uncomfortable phenomenon of follow-up long-range IP generation and possible untoward reaction.

Description of drawings

Fig. 1 is the structural representation of this utility model.

Reference numeral:

1; Function button operational module 2; Power circuit 3; Data storage cell 4; Cuff 5; Gas circuit 6; Pressure transducer 7; Aerating device 8; Air releasing device 9; Oscillating circuit 10; Aerating device drives 11; Air releasing device drives 12; Display module 13; Display driver 14; MCU processor 15; Pulse oxygen module 16; Finger tip pulse oxygen probe 17; Intelligent part and long-range IP program RIPC-SD controller 18; Local and long-range IP program RIPC-D controller

The specific embodiment

Below in conjunction with the accompanying drawing and the specific embodiment this utility model is explained further details.

Referring to Fig. 1; The core apparatus of this utility model is a MCU processor 14, and MCU processor 14 is connected with function button operational module 1, power circuit 2, data storage cell 3, pressure transducer 6, aerating device 7, air releasing device 8, display module 12 and pulse oxygen module 15 respectively.

It can also be seen that from Fig. 1 pressure transducer 6, aerating device 7 and air releasing device 8 are connected with cuff 4 through gas circuit 5 respectively; The other end of pulse oxygen module 15 is connected with finger tip pulse oxygen probe 16 through lead.

In addition, be connected with oscillating circuit 9 between pressure transducer 6 and the MCU processor 14.

Be connected with aerating device driving 10 between aerating device 7 and air releasing device 8 and the MCU processor 14 respectively and drive 11 with air releasing device.

Also have, be connected with display driver 13 between display module 12 and the MCU processor 14.

Fig. 1 top also has long-range IP program RIPC-SD controller 17 and ischemia pre-adaptation program RIPC-D controller 18.

Aerating device 7 in this utility model and air releasing device 8 are timing means repeatedly, and repeatedly the needed the blowing pressure of timing means is controlled by the pulse oxygen value that pulse oxygen module 15 records.

Working procedure is:

(1), connects intelligent part and long-range IP program RIPC-SD controller 17; (2) compression pump starts to cuff 4 inflations; (3) induction installation is measured the pulse oxygen value, until the moment that can not record the pulse oxygen value, continues pressurization 20mmHg, and inflator pump quits work, and this force value is the set pressure of blocking blood flow; (4) the ischemia pre-adaptation program in intelligent part and the long-range IP program RIPC-SD controller 17 is started working: adopt to add up to 1-3 time by the short and long persistent pressure time; Time by short and long is 1-3 minute, during respectively between with the operational approach of 3-5 minutes and reperfusion; (5) three times by after the short and long persistent pressure time completion; Long-range IP program in intelligent part and the long-range dual IP program RIPC-SD controller 17 is started working: cuff 4 inflations are forced into aforementioned setting pressure, and timer picks up counting; After the persistent pressure five minutes, begin to lose heart, when gaging pressure is zero, timer timing five minutes again; (6) once more to cuff 4 inflations, timer picks up counting; After the persistent pressure five minutes, begin to lose heart; When gaging pressure is zero, timer timing five minutes again: (7) program (6) can be set 3-10 time repeatedly; (8) whole procedure end-of-job.

In addition, local and long-range dual IP program RIPC-D is the mode of operation of said procedure under pulseless oxygen detects, and its blowing pressure can be set on 180-200mmHg or the systolic pressure basis and add 50mmHg.

The technical staff in present technique field can know that this utility model can be realized through other the embodiment that does not break away from its essential features.Therefore, above-mentioned disclosed embodiment just illustrates, and is not only.All in this utility model scope or the change that is being equal in the scope of this utility model all comprised by this utility model.

Claims (4)

1. an intelligent part and long-range dual IP appearance; Comprise power circuit (2), cuff (4) and gas circuit (5); It is characterized in that it also includes MCU processor (14) and the pressure transducer (6) that is connected with MCU processor (14), aerating device (7), air releasing device (8), function button operational module (1), data storage cell (3), display module (12), pulse oxygen module (15), finger tip pulse oxygen probe (16), intelligent part and long-range dual IP program RIPC-SD controller (17) and local and long-range dual IP program RIPC-D controller (18); Pressure transducer (6), aerating device (7) and air releasing device (8) are connected with cuff (4) through gas circuit (5) respectively; The other end of pulse oxygen module (15) is connected with finger tip pulse oxygen probe (16) through lead.

2. intelligent part according to claim 1 and long-range dual IP appearance is characterized in that, are connected with oscillating circuit (9) between said pressure transducer (6) and the MCU processor (14).

3. intelligent part according to claim 1 and long-range dual IP appearance; It is characterized in that, be connected with aerating device between said aerating device (7) and air releasing device (8) and the MCU processor (14) respectively and drive (10) and air releasing device driving (12).

4. intelligent part according to claim 1 and long-range dual IP appearance is characterized in that, are connected with display driver (13) between said display module (12) and the MCU processor (14).

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