CN112274115A - Integrated gastric environment detection platform and method - Google Patents

Abstract

The invention relates to an integrated stomach environment detection platform and a method, wherein the platform comprises: the gastroscope detection mechanism is used for probing the internal environment of the stomach by probing into the stomach of a human body under the control of a worker; the gastroscope detection mechanism comprises a flexible hose and a driving motor positioned at the tail part of the flexible hose; the temperature detection equipment is arranged at the top of the telescopic hose and used for measuring the temperature inside the stomach of the human body so as to obtain and output the corresponding temperature inside the stomach; and the air pressure measuring equipment is arranged at the top of the telescopic hose and used for measuring the air pressure inside the stomach of the human body so as to obtain and output the corresponding air pressure inside the stomach. The integrated gastric environment detection platform and the method have the advantages of multiple functions and wide application. Whether a stomach flatulence state occurs can be judged based on the air pressure value of the stomach of the human body, and whether corresponding diagnosis of stomach bleeding is executed can be determined based on the bleeding serious condition of the stomach of the human body.

Description

Integrated gastric environment detection platform and method

Technical Field

The invention relates to the field of disease diagnosis, in particular to an integrated gastric environment detection platform and a method.

Background

The judgment of the mental and physical state of people from the medical point of view. Judging the health state, labor capacity and a specific physiological process of a normal person; the judgment of the relationship between blood and the nature of injury by the judicial department is also a diagnostic. The diagnosis for recognizing the disease is the most extensive, and is the prerequisite for treatment, prognosis and prevention.

There are roughly 3 classification methods for the vibration pattern executed by the diagnostic apparatus: (1) the diagnosis method includes a method for obtaining clinical data, such as symptom diagnosis, physical examination diagnosis, experimental diagnosis, ultrasonic diagnosis, X-ray diagnosis, electrocardiogram diagnosis, endoscopic diagnosis, radionuclide diagnosis, surgical exploration diagnosis, and therapeutic diagnosis. (2) There are preliminary diagnosis and clinical diagnosis, which are classified according to the exact degree of diagnosis. The initial diagnosis is divided into: suspected diagnosis (also called intention diagnosis or impression diagnosis), temporary diagnosis, tentative diagnosis; clinical diagnosis means a definitive diagnosis. (3) According to the classification of the diagnosis content, there are the diagnosis of the cause of disease, the diagnosis of pathological morphology and the diagnosis of pathophysiology. In addition, the diagnosis can be classified into admission diagnosis, discharge diagnosis, outpatient diagnosis, death diagnosis, caesarean diagnosis, and the like.

Disclosure of Invention

In order to solve the technical problems in the related field, the invention provides an integrated gastric environment detection platform which can judge whether a gastric flatulence state occurs or not based on an air pressure value of a human stomach and can decide whether to perform corresponding diagnosis of gastric bleeding or not based on a bleeding serious condition of the human stomach.

For this reason, the present invention needs to have at least the following important points:

(1) the method comprises the steps that air pressure inside a human stomach is measured by adopting air pressure measuring equipment inside the human stomach, and meanwhile, an instant alarm mechanism is adopted to send out an flatulence identification instruction when the received air pressure inside the stomach exceeds a preset air pressure threshold;

(2) and analyzing the distribution of bleeding points in the stomach of the human body in real time so as to confirm the bleeding of the stomach and execute corresponding alarm operation when large bleeding points exist.

According to an aspect of the present invention, there is provided an integrated gastric environment detection platform, the platform comprising:

the gastroscope detection mechanism is used for probing the internal environment of the stomach by probing into the stomach of a human body under the control of a worker;

wherein, gastroscope detection mechanism includes flexible hose and is located the driving motor of flexible hose afterbody.

More specifically, in the integrated gastric environment detection platform, the platform further comprises:

and the temperature detection equipment is arranged at the top of the telescopic hose and is used for measuring the temperature inside the stomach of the human body so as to obtain and output the corresponding temperature inside the stomach.

More specifically, in the integrated gastric environment detection platform, the platform further comprises:

the air pressure measuring equipment is arranged at the top of the telescopic hose and used for measuring the air pressure inside the stomach of the human body so as to obtain and output the corresponding air pressure inside the stomach;

the instant alarm mechanism is arranged at the tail part of the telescopic hose, is respectively connected with the air pressure measuring equipment and the temperature detecting equipment, and is used for sending an flatulence identification instruction when the received air pressure in the stomach exceeds a preset air pressure threshold value;

the instant alarm mechanism is also used for executing alarm operation related to temperature abnormity when the received internal temperature of the stomach is not in a preset temperature range;

the driving motor is used for controlling the depth of the top of the telescopic hose entering the stomach of the human body under the control of a worker;

the miniature imager is positioned at the top of the telescopic hose and used for carrying out field image shooting on the inside of the stomach to obtain an image of the inside of the stomach;

the color identification mechanism is connected with the micro imager and used for identifying each blood clot area in the stomach internal image based on the red component numerical range distributed by the blood imaging pixel points;

the bleeding analysis device is connected with the color recognition mechanism and is used for sending a bleeding notification instruction when a blood clot area occupying the ratio of the internal image of the stomach is beyond the limit;

wherein the bleeding analysis device is further configured to issue a non-bleeding notification instruction when there is no clot area occupying an out-of-scale proportion of the stomach internal image;

wherein identifying each blood clot region in the stomach internal image based on the red component numerical range over which the blood imaging pixel points are distributed comprises: when the red component value of a pixel point in the stomach internal image is in the red component value range, determining that the pixel point belongs to a blood imaging pixel point;

wherein identifying each blood clot region in the stomach internal image based on the red component numerical range over which the blood imaging pixel points are distributed comprises: and combining all blood imaging pixel points in the stomach internal image into each blood clot area.

According to another aspect of the present invention, there is also provided an integrated gastric environment detection method, which includes using the integrated gastric environment detection platform as described above to determine the health condition of the stomach of a human body in real time according to the detection results of various parameters of the stomach of the human body.

The integrated gastric environment detection platform and the method have the advantages of multiple functions and wide application. Whether a stomach flatulence state occurs can be judged based on the air pressure value of the stomach of the human body, and whether corresponding diagnosis of stomach bleeding is executed can be determined based on the bleeding serious condition of the stomach of the human body.

Drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which:

FIG. 1 is a diagram of the internal structure of a stomach to which an integrated gastric environment detection platform is applied, according to an embodiment of the present invention.

Detailed Description

Embodiments of the integrated gastric environment detection platform and method of the present invention will be described in detail below with reference to the accompanying drawings.

Gastric diseases are organic or functional diseases that develop the stomach. Clinically, chronic gastritis, peptic ulcer, gastric cancer and the like are common. The etiology is very complex, including physical and chemical stimulation, infection, toxin, heredity, mental factors, developmental disorders, surgical effects, etc. The main symptoms of stomach diseases include epigastric pain, heart burning, nausea, vomiting, belching, acid regurgitation, inappetence, hematemesis, hemafecia, lump, etc.

Organic or functional diseases that occur in the stomach. Clinically, chronic gastritis, peptic ulcer, gastric cancer and the like are common. The etiology is very complex, including physical and chemical stimulation, infection, toxin, heredity, mental factors, developmental disorders, surgical effects, etc. The main symptoms comprise epigastric pain, heart burning, nausea, vomiting, belching, acid regurgitation, inappetence, hematemesis, hemafecia, lumps and the like. Stomach diseases are frequently associated with esophageal and duodenal diseases. For example, gastric acid hypersecretion is often an important cause of duodenal ulcers and reflux esophagitis. The gastric mucosa contains glands secreting gastric juice containing hydrochloric acid, mucus, electrolyte, pepsin, intrinsic factor, blood type substances, etc. After food enters the stomach, the stomach moves to mix the food with the gastric juice, stir and grind the food into liquid chyme, and the chyme is gradually discharged into duodenum in batches. When the stomach is diseased, the secretion and motor functions of the stomach are disturbed, which can affect the digestion and absorption, and some of them can cause anemia, emaciation and even endanger life. In clinic, digestive diseases are the most common, and stomach diseases are the most common.

The current stomach disease diagnosis mechanism cannot judge whether the flatulence state of the stomach occurs or not based on the air pressure value of the stomach of the human body, and cannot decide whether to perform corresponding diagnosis of the bleeding of the stomach or not based on the bleeding serious condition of the stomach of the human body.

In order to overcome the defects, the invention provides an integrated stomach environment detection platform and a method, which can effectively solve the corresponding technical problems.

FIG. 1 is a diagram of the internal structure of a stomach to which an integrated gastric environment detection platform according to an embodiment of the present invention is applied, the platform comprising:

the gastroscope detection mechanism is used for probing the internal environment of the stomach by probing into the stomach of a human body under the control of a worker;

wherein, gastroscope detection mechanism includes flexible hose and is located the driving motor of flexible hose afterbody.

Next, the detailed structure of the integrated gastric environment detection platform of the present invention will be further described.

The integrated gastric environment detection platform can further comprise:

and the temperature detection equipment is arranged at the top of the telescopic hose and is used for measuring the temperature inside the stomach of the human body so as to obtain and output the corresponding temperature inside the stomach.

The integrated gastric environment detection platform can further comprise:

the air pressure measuring equipment is arranged at the top of the telescopic hose and used for measuring the air pressure inside the stomach of the human body so as to obtain and output the corresponding air pressure inside the stomach;

the instant alarm mechanism is arranged at the tail part of the telescopic hose, is respectively connected with the air pressure measuring equipment and the temperature detecting equipment, and is used for sending an flatulence identification instruction when the received air pressure in the stomach exceeds a preset air pressure threshold value;

the instant alarm mechanism is also used for executing alarm operation related to temperature abnormity when the received internal temperature of the stomach is not in a preset temperature range;

the driving motor is used for controlling the depth of the top of the telescopic hose entering the stomach of the human body under the control of a worker;

the miniature imager is positioned at the top of the telescopic hose and used for carrying out field image shooting on the inside of the stomach to obtain an image of the inside of the stomach;

the color identification mechanism is connected with the micro imager and used for identifying each blood clot area in the stomach internal image based on the red component numerical range distributed by the blood imaging pixel points;

the bleeding analysis device is connected with the color recognition mechanism and is used for sending a bleeding notification instruction when a blood clot area occupying the ratio of the internal image of the stomach is beyond the limit;

wherein the bleeding analysis device is further configured to issue a non-bleeding notification instruction when there is no clot area occupying an out-of-scale proportion of the stomach internal image;

wherein identifying each blood clot region in the stomach internal image based on the red component numerical range over which the blood imaging pixel points are distributed comprises: when the red component value of a pixel point in the stomach internal image is in the red component value range, determining that the pixel point belongs to a blood imaging pixel point;

wherein identifying each blood clot region in the stomach internal image based on the red component numerical range over which the blood imaging pixel points are distributed comprises: and combining all blood imaging pixel points in the stomach internal image into each blood clot area.

In the integrated stomach environment detection platform:

the instant alarm mechanism is also used for sending a normal pressure instruction when the received air pressure in the stomach does not exceed the preset air pressure threshold.

In the integrated stomach environment detection platform:

and the instant alarm mechanism is connected with the bleeding analysis equipment and is used for executing corresponding bleeding alarm operation when the bleeding notification instruction is received.

The integrated gastric environment detection platform can further comprise:

the color identification mechanism is internally provided with a temperature sensor for measuring the internal temperature of the color identification mechanism and outputting the internal temperature in real time.

In the integrated stomach environment detection platform:

the color identification mechanism is internally provided with a humidity sensor for measuring the internal humidity of the color identification mechanism and outputting the internal humidity in real time.

In the integrated stomach environment detection platform:

the color identification mechanism is internally provided with a pressure sensor which is used for measuring the pressure born by the shell of the color identification mechanism and outputting the pressure in real time;

the bleeding analysis equipment is internally provided with a temperature sensor which is used for measuring the internal temperature of the bleeding analysis equipment and outputting the internal temperature in real time;

the bleeding analysis equipment is internally provided with a humidity sensor and is used for measuring the internal humidity of the bleeding analysis equipment and outputting the internal humidity in real time;

the bleeding analysis equipment is internally provided with a pressure sensor used for measuring the pressure born by the shell of the bleeding analysis equipment and outputting the pressure in real time.

The integrated gastric environment detection platform can further comprise:

and the optical fiber transmission interface is respectively connected with the color identification mechanism and the bleeding analysis equipment and is used for receiving and forwarding output data of all sensors of each of the color identification mechanism and the bleeding analysis equipment.

Meanwhile, in order to overcome the defects, the invention also provides an integrated gastric environment detection method, which comprises the step of using the integrated gastric environment detection platform to judge the health condition of the stomach of the human body in real time according to the detection result of each parameter of the stomach of the human body.

In addition, the optical fiber is a short term for optical fiber, and is a fiber made of glass or plastic, which can be used as a light transmission means. The principle of transmission is 'total reflection of light'. The fine optical fiber is enclosed in a plastic sheath so that it can be bent without breaking. Generally, a Light Emitting Diode (LED) or a laser beam is used as a transmitter at one end of the optical fiber to transmit an optical pulse to the optical fiber, and a photosensor is used as a receiver at the other end of the optical fiber to detect the pulse.

In the multimode optical fiber, the core diameter is 50 μm and 62.5 μm, which are approximately equivalent to the thickness of human hair. Whereas the diameter of the single-mode optical fiber core is 8 μm to 10 μm, 9/125 μm is generally used. The core is surrounded by a glass envelope, commonly referred to as a cladding, of lower refractive index than the core, which keeps the light rays within the core. Further on the outside is a thin plastic outer jacket, i.e. a coating, for protecting the cladding. The optical fibers are typically bundled and protected by an outer jacket. The core is usually a double-walled concentric cylinder of silica glass with a small cross-sectional area, which is brittle and easily broken, and therefore requires the addition of a protective layer.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: Read-Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disk, and other various media capable of storing program codes.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. An integrated gastric environment detection platform, the platform comprising:

the gastroscope detection mechanism is used for probing the internal environment of the stomach by probing into the stomach of a human body under the control of a worker;

wherein, gastroscope detection mechanism includes flexible hose and is located the driving motor of flexible hose afterbody.

2. The integrated gastric environment detection platform of claim 1, further comprising:

and the temperature detection equipment is arranged at the top of the telescopic hose and is used for measuring the temperature inside the stomach of the human body so as to obtain and output the corresponding temperature inside the stomach.

3. The integrated gastric environment detection platform of claim 2, further comprising:

the air pressure measuring equipment is arranged at the top of the telescopic hose and used for measuring the air pressure inside the stomach of the human body so as to obtain and output the corresponding air pressure inside the stomach;

the instant alarm mechanism is arranged at the tail part of the telescopic hose, is respectively connected with the air pressure measuring equipment and the temperature detecting equipment, and is used for sending an flatulence identification instruction when the received air pressure in the stomach exceeds a preset air pressure threshold value;

the instant alarm mechanism is also used for executing alarm operation related to temperature abnormity when the received internal temperature of the stomach is not in a preset temperature range;

the driving motor is used for controlling the depth of the top of the telescopic hose entering the stomach of the human body under the control of a worker;

the miniature imager is positioned at the top of the telescopic hose and used for carrying out field image shooting on the inside of the stomach to obtain an image of the inside of the stomach;

the color identification mechanism is connected with the micro imager and used for identifying each blood clot area in the stomach internal image based on the red component numerical range distributed by the blood imaging pixel points;

the bleeding analysis device is connected with the color recognition mechanism and is used for sending a bleeding notification instruction when a blood clot area occupying the ratio of the internal image of the stomach is beyond the limit;

wherein the bleeding analysis device is further configured to issue a non-bleeding notification instruction when there is no clot area occupying an out-of-scale proportion of the stomach internal image;

wherein identifying each blood clot region in the stomach internal image based on the red component numerical range over which the blood imaging pixel points are distributed comprises: when the red component value of a pixel point in the stomach internal image is in the red component value range, determining that the pixel point belongs to a blood imaging pixel point;

wherein identifying each blood clot region in the stomach internal image based on the red component numerical range over which the blood imaging pixel points are distributed comprises: and combining all blood imaging pixel points in the stomach internal image into each blood clot area.

4. The integrated gastric environment detection platform of claim 3, wherein:

the instant alarm mechanism is also used for sending a normal pressure instruction when the received air pressure in the stomach does not exceed the preset air pressure threshold.

5. The integrated gastric environment detection platform of claim 4, wherein:

and the instant alarm mechanism is connected with the bleeding analysis equipment and is used for executing corresponding bleeding alarm operation when the bleeding notification instruction is received.

6. The integrated gastric environment detection platform of claim 5, further comprising:

the color identification mechanism is internally provided with a temperature sensor for measuring the internal temperature of the color identification mechanism and outputting the internal temperature in real time.

7. The integrated gastric environment detection platform of claim 6, wherein:

the color identification mechanism is internally provided with a humidity sensor for measuring the internal humidity of the color identification mechanism and outputting the internal humidity in real time.

8. The integrated gastric environment detection platform of claim 7, wherein:

the color identification mechanism is internally provided with a pressure sensor which is used for measuring the pressure born by the shell of the color identification mechanism and outputting the pressure in real time;

the bleeding analysis equipment is internally provided with a temperature sensor which is used for measuring the internal temperature of the bleeding analysis equipment and outputting the internal temperature in real time;

the bleeding analysis equipment is internally provided with a humidity sensor and is used for measuring the internal humidity of the bleeding analysis equipment and outputting the internal humidity in real time;

the bleeding analysis equipment is internally provided with a pressure sensor used for measuring the pressure born by the shell of the bleeding analysis equipment and outputting the pressure in real time.

9. The integrated gastric environment detection platform of claim 8, further comprising:

and the optical fiber transmission interface is respectively connected with the color identification mechanism and the bleeding analysis equipment and is used for receiving and forwarding output data of all sensors of each of the color identification mechanism and the bleeding analysis equipment.

10. An integrated gastric environment detection method, which comprises using the integrated gastric environment detection platform according to any one of claims 3 to 9 to determine the health condition of the stomach of a human body in real time according to the detection results of various parameters of the stomach of the human body.

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