CN217390702U - Device for magnetic resonance load experiment imaging - Google Patents

Abstract

An apparatus for magnetic resonance loading experiment imaging. The utility model relates to a solve present "motion method" load experiment and have unable real-time supervision, only reflect local motion, need be detected the effective motion cooperation of person or "medicine method" load experiment and the load experiment state under the physiological state and distinguish, the controllability is poor, there is adverse drug reaction risk scheduling problem. The technical points are as follows: the characteristics are including supplying to be detected the person of lying the closed box inside and producing the heater of hot-air, are equipped with box air inlet and box gas outlet on the closed box, and the heater gas outlet passes through hot-air duct connection box air inlet, and the preceding tip of closed box is equipped with the head that supplies to be detected the person of lying stretches out the outer neck mouth of closed box, closed box is closed by the base that has the chamber of lying and can the lid the top cap on the chamber top open mouth of lying of base is constituteed, lies the intracavity and is equipped with ventilative platform of lying, is equipped with on the top cap to follow the air vent that the incasement operation was opened, and whole closed box adopts non-metallic material to make.

Description

Device for magnetic resonance load experiment imaging

Technical Field

The utility model relates to an auxiliary appliance for medical diagnosis, in particular to a device for magnetic resonance load experiment imaging.

Background

Magnetic resonance imaging plays an important role in cardiac examination for medical diagnosis, and can effectively evaluate the structure and function of cardiac soft tissues. However, for the patients with coronary artery disease, it is difficult to accurately evaluate the disease condition in the resting state due to the compensatory action of the body. Therefore, it is often necessary to increase the oxygen consumption of the heart through stress tests to achieve stress conditions, to diagnose early coronary artery disease, or to monitor and evaluate diagnosed patients.

The existing load experiment modes are mainly two types: 1. "exercise method", i.e. increasing the body load by physical movement of the subject. If the patient walks on a running machine or rides on an exercise bike, the magnetic resonance examination is carried out after the load requirement is met, and the method has the biggest defect that the real-time monitoring cannot be carried out and the patient is in a state of stopping moving when scanning. The improved exercise mode is as disclosed in the chinese utility model patent application No. 201810012520.2, a multifunctional load experiment exercise device and system for magnetic resonance imaging and its application, a horizontal pedal exercise device is arranged on a lying platform of a magnetic resonance imaging device, and the exercise load during magnetic resonance scanning can be realized by using the reciprocating pedal exercise, however, the device has the disadvantages that the exercise belongs to local exercise, and the examined person needs to be effectively matched, and the examined person with combined dyskinesia is difficult to form effective load. 2. "pharmacotherapy", i.e., the injection of vasodilatory drugs, increases cardiac load. The commonly used drugs include dipyridamole, adenosine, GAAA, dobutamine, etc. However, the load induced by the drug is different from the heart load in the physiological state, and once the drug is injected into a human body, the controllability is poor, and part of the tested people have the risk of adverse drug reactions.

Disclosure of Invention

In order to overcome the problems that the existing 'motion method' load experiment state cannot be monitored in real time, only local motion is reflected, the effective motion cooperation of a detected person is needed, the load experiment state in a physiological state is different, the controllability is poor, adverse drug reaction risks exist and the like, the utility model aims to provide a novel device for magnetic resonance load experiment imaging, and the defects of the prior art can be overcome.

The utility model provides a technical scheme that its technical problem adopted is: an apparatus for magnetic resonance loading experiment imaging, characterized by: including supplying to be recumbent the closed box in the inside and producing the heater of hot-air by the person who is detected, be equipped with box air inlet and box gas outlet on the closed box, the gas outlet of heater passes through the hot-air duct and connects the box air inlet, the preceding tip of closed box is equipped with the head that supplies to be detected and stretches out the external neck mouth of closed box, closed box closes by having the base in chamber of lying with can covering the base lie the top cap on the chamber top open mouth is constituteed, the intracavity of lying is equipped with ventilative platform of lying, be equipped with on the top cap and follow the air vent that the incasement operation was opened, it is whole closed the box all adopts non-metallic material to make.

According to the technical scheme, a first handheld control balloon for controlling the heater to stop conveying hot air can be arranged in the closed box body, an air pipe of the first handheld control balloon penetrates through the closed box body and is connected with a pneumatic switch of the heater, and a pipe penetrating hole, through which the air pipe of the first handheld control balloon penetrates, in the closed box body can be filled with a sealing ring.

According to the technical scheme, the closed box body can be provided with an expansion hole for placing external equipment or an operator thereof into the closed box body, the external equipment or the operator thereof placed into the closed box body can be a second handheld control balloon for controlling magnetic resonance scanning to suspend scanning, an electrocardiogram device with electromagnetic shielding and the like, a connecting pipeline of the external equipment or the operator thereof can be connected to docking equipment outside the closed box body through the expansion hole, and a sealing ring can be arranged on the expansion hole in a cushioning mode.

According to the technical scheme, the vent hole in the top cover can be composed of a plurality of vent holes, and the inner side of the top cover is provided with a hole opening door capable of closing or opening the vent holes.

According to the technical scheme, the orifice door can be in sliding fit with a sliding rail on the inner top surface of the top cover, and a handle is arranged on the orifice door so as to control the orifice door to be opened or closed.

According to the technical scheme, the neck opening of the closed box body can be padded with the sealing ring, and the sealing ring can be made of flexible non-metallic materials. The sealing ring can be formed by matching a lower half ring arranged on the base with an upper half ring arranged on the top cover.

According to the technical scheme, the box body air inlet can be formed in the foot end of the box body, and the box body air outlet can be formed in the head end of the box body.

According to the technical scheme, the ventilating lying platform in the lying cavity can be formed by a lying plate placed in the lying cavity or a boss integrally formed with the lying cavity, and ventilating grooves are distributed on the ventilating lying platform so that hot air can heat the back of a detected person.

According to the technical scheme, the heater can be provided with a hot air temperature automatic control regulator.

In the technical scheme, the shapes of the box body and the lying cavity can adopt any suitable shapes.

Above-mentioned technical scheme the base with the outside portion of top cap can be equipped with corresponding complex buckle respectively to make the top cap lid close can be fixed when the top side of base is uncovered. And sealing gaskets can be arranged on the buckling edges of the base and the top cover.

According to the technical scheme, the hot air can be dry hot air or wet hot air, and the heater or the closed box body can be provided with a hot air conveying fan.

The utility model has the advantages that: because the utility model enables the person to be detected to lie in the closed box body made of non-metal materials and the head of the person to be detected is exposed outside the closed box body, the hot air is conveyed into the closed box body through the heater, the temperature in the box body where the detected person is positioned is raised in a controllable and proper way, thereby improving the heart rate of the detected person, increasing the oxygen consumption of cardiac muscle, achieving the state of the load experiment, simultaneously using the magnetic resonance imaging scanner to detect and image the detected person in the state of the load experiment, therefore, the 'heat load method' of the utility model has the advantages of low cost for obtaining the load test state, no side effect of medicine on human body, good controllability, real-time dynamic monitoring, no requirement for the movement cooperation of the person to be detected, therefore, the loading experiment state is easier and more convenient, the loading experiment state is more stable and ideal, and the magnetic resonance loading imaging effect is effectively improved. Because the utility model discloses the temperature risees evenly in perfect and simple, the closed box of structure, obtains load experimental state effectual, use safe and reliable by the detected person, enables the utility model discloses a purpose obtains the ideal and realizes.

The invention is further described with reference to the following figures and examples.

Drawings

Fig. 1 is a schematic diagram of an embodiment of the present invention.

Fig. 2 is a top view of the base of the enclosure of fig. 1 with the top cover removed.

Fig. 3 is a top schematic view of the enclosure of fig. 1.

Fig. 4 is a schematic view of the top cover of fig. 3 turned over.

In the figure: 1. closing the box body; 2. a heater; 3. an air inlet of the box body; 4. an air outlet of the box body; 5. an air outlet of the heater; 6. a hot air delivery pipe; 7. a neck opening; 8. a lying cavity; 9. a base; 10. a top cover; 11. a breathable lying platform; 12. a vent orifice; 13. a first hand-held control balloon; 14. an air pipe; 15. a pipe orifice; 16. an expanding orifice; 17. a second hand-held control balloon; 18. connecting a pipeline; 19 and 20, aperture door; 21 and 22, a slide rail; 23 and 24, a handle; 25. the lower half circle; 26. the upper half turn; 27. a ventilation groove; 28. a hot air temperature automatic control regulator; 29. buckling; 30. the buckling edge of the base; 31. the buckling edge of the top cover; 32. a hot air delivery fan.

Detailed Description

Referring to fig. 1 to 4, the apparatus for magnetic resonance loading experiment imaging is characterized in that: including a closed box 1 and a heater 2 that produces the hot-air that supplies the person of being detected to lie inside, be equipped with box air inlet 3 and box gas outlet 4 on the closed box 1, the gas outlet 5 of heater 2 is connected through hot-air conveyer pipe 6 the box air inlet 3, the front end portion that closes the box 1 is equipped with the head that supplies the person of being detected and stretches out the outer neck mouth 7 of closed box 1, closed box 1 is closed by the base 9 that has the chamber 8 of lying with can cover the base 9 the chamber 8 top of lying is opened wide the open top cap 10 and is constituteed, it is equipped with ventilative platform 11 of lying in the chamber 8 to lie, be equipped with on the top cap 10 and can follow the air vent 12 that the incasement operation was opened, whole closed box 1 all adopts non-metallic material to make.

In addition, a first hand-held control balloon 13 for controlling the heater to stop delivering hot air is arranged in the closed box body 1, an air pipe 14 of the first hand-held control balloon 13 penetrates through the closed box body 1 and is connected with a pneumatic switch of the heater 2, and a pipe penetrating hole 15, through which the air pipe 14 of the first hand-held control balloon 13 penetrates, of the closed box body 1 is padded with a sealing ring.

An expansion port 16 for external equipment or an operator thereof to be placed in the closed box body 1 is arranged on the closed box body 1, the external equipment or the operator thereof placed in the closed box body 1 is a second hand-held control balloon 17 for controlling magnetic resonance scanning to suspend scanning, a connecting pipeline 18 of the second hand-held control balloon 17 is connected to butt joint equipment outside the closed box body 1 through the expansion port 16, and a sealing ring is arranged at the expansion port 16 in a cushioning mode.

The vent hole 12 on the top cover 10 is composed of a plurality of vent holes, and the inner side of the top cover 10 is provided with hole doors 19 and 20 capable of closing or opening the vent hole 12.

The aperture doors 19 and 20 are slidably fitted on the sliding rails 21 and 22 on the inner top surface of the top cover 10, and handles 23 and 24 are respectively arranged on the aperture doors 19 and 20 so as to control the opening and closing of the aperture doors 19 and 20.

A sealing ring is arranged on the neck opening 7 of the closed box body 1 in a cushioning mode and is made of flexible non-metal materials. The sealing ring is formed by matching a lower half ring 25 arranged on the base 9 and an upper half ring 26 arranged on the top cover 10.

The box air inlet 3 is arranged at the foot end of the base 9, and the box air outlet 4 is arranged at the head end of the top cover 10.

The ventilating lying platform 11 in the lying cavity is formed by a boss integrally formed with the lying cavity 8, and ventilating grooves 27 are distributed on the ventilating lying platform 11 so that hot air can be heated to the back of the detected person.

The heater 2 is provided with a hot air temperature automatic control regulator 28.

The outer sides of the base 9 and the top cover 10 are respectively provided with a corresponding buckle 29, etc. so that the top cover 10 can be fixed when covering the lying cavity 8 of the base 9 and opening. Sealing gaskets can be arranged on the buckling edges 30 and 31 of the base 9 and the top cover 10.

The hot air output by the heater 2 is dry hot air or wet hot air, and a hot air delivery fan 32 is arranged on the heater 2.

In use, when magnetic resonance detection imaging needs to be carried out on load experiment imaging, the top cover 10 is opened in the state shown in fig. 1, the base 9 is in the state shown in fig. 2, a detected person lies on the lying platform 11 of the base 9, the neck of the detected person is rested on the lower half ring 25 of the sealing ring, and the head is exposed out of the neck opening 7 of the closed box body 1; then the top cover 10 is covered on the open top of the lying cavity 8 of the base 9, and the lying cavity 8 is closed; then the heater 2 is started to convey hot air into the closed box body 1, the temperature in the box body is gradually increased, the heart rate and the myocardial oxygen consumption of the detected person are improved, and a load experiment state is achieved; at the moment, the magnetic resonance detection imaging equipment carries out load experiment imaging detection on the detected person in the closed box body 1 from the outside of the closed box body 1; when the detected person feels uncomfortable in the process of the loading experiment state, the first handheld control balloon 13 can be squeezed to control the heater 2 to stop delivering hot air, and meanwhile, the second handheld control balloon 17 can be squeezed to control the magnetic resonance detection imaging device to pause scanning; then, the handles 23 and 24 are pushed to control the opening doors 19 and 20 to open, so that the hot air in the closed box 1 is discharged from the vent hole 12, and the temperature in the closed box 1 is rapidly reduced.

Claims (10)

1. An apparatus for magnetic resonance loading experiment imaging, characterized by: including supplying to be lain by the person of being detected the closed box of the inside and the heater that produces the hot-air, be equipped with box air inlet and box gas outlet on the closed box, the gas outlet of heater passes through the hot-air duct connection the box air inlet, the preceding tip that closes the box is equipped with the head that supplies to be detected the person and stretches out the external neck mouth of closed box, closed box is closed by having the base in the chamber of lying with can covering the base lie the top cap on the open mouth in chamber top and form, the intracavity of lying is equipped with ventilative platform of lying, be equipped with on the top cap and follow the air vent that the incasement operation was opened, whole closed box all adopts non-metallic material to make.

2. The apparatus as claimed in claim 1, wherein a first hand-held control balloon for controlling the heater to stop delivering hot air is disposed in the closed box, an air tube of the first hand-held control balloon passes through the closed box and is connected to a pneumatic switch of the heater, and a tube-passing hole of the closed box for passing the air tube of the first hand-held control balloon is padded with a sealing ring.

3. The apparatus according to claim 2, wherein the closed box has an expansion opening for an external device or an operator thereof to be placed in the closed box, a connection line of the external device or the operator thereof is connected to a docking device outside the closed box through the expansion opening, and the expansion opening is padded with a sealing ring.

4. The apparatus as claimed in claim 1, 2 or 3, wherein the vent hole of the top cover is composed of a plurality of vent holes, and a vent door is disposed inside the top cover for closing or opening the vent holes.

5. The apparatus of claim 4, wherein the port door is slidably engaged with a slide rail on the top inner surface of the top cover, and a handle is provided on the port door to control the opening and closing of the port door.

6. The apparatus according to claim 1, 2 or 3, wherein the neck of the closed box is padded with a sealing ring, the sealing ring is made of flexible non-metallic material, and the sealing ring is formed by matching a lower half ring arranged on the base with an upper half ring arranged on the top cover.

7. The apparatus according to claim 1, 2 or 3, wherein said chamber inlet is provided at a foot end of said chamber and said chamber outlet is provided at a head end of said chamber.

8. The apparatus according to claim 1, 2 or 3, wherein the air-permeable lying platform in the lying cavity is formed by a lying plate placed in the lying cavity or a boss integrally formed with the lying cavity, and air-permeable grooves are distributed on the air-permeable lying platform.

9. The apparatus according to claim 1, 2 or 3, wherein the outer sides of the base and the top cover are respectively provided with a corresponding and matched buckle, so that the top cover can be fixed when covering the top opening of the base, and a sealing gasket is arranged on the buckling edge of the base and the top cover.

10. The apparatus according to claim 1, 2 or 3, wherein the hot air is dry hot air or wet hot air, and the heater or the closed box is provided with a hot air delivery fan.

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