CN110664375A - Severed finger replantation postoperative blood supply detection system and detection equipment - Google Patents

Abstract

A blood supply detection system and detection equipment after severed finger replantation relates to the field of medical detection and diagnosis, and comprises an infrared radiation scanning module, a wavelength analysis module, an image capturing module, an image analysis module, a comprehensive data diagnosis module and a display module. The infrared radiation scanning module is in communication connection with the wavelength analysis module, the image capturing module is in communication connection with the image analysis module, and the image analysis module, the wavelength analysis module and the display module are in communication connection with the comprehensive data diagnosis module. The infrared radiation scanning module and the wavelength analysis module are used for extracting the finger body temperature characteristics of the severed finger and the healthy finger, the image shooting module and the image analysis module are used for extracting the finger body color, the finger abdomen shape and the finger body wrinkle characteristics of the severed finger and the healthy finger, the comprehensive data diagnosis module is used for judging whether arterial crisis and venous crisis exist, subjective judgment is not relied on, the judgment standard is unified, the accuracy and the efficiency of judging whether blood supply is normal are improved, the trust of a patient to a doctor can be improved, and medical disputes are reduced.

Description

Severed finger replantation postoperative blood supply detection system and detection equipment

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of medical detection and diagnosis, in particular to a blood supply detection system and detection equipment after severed finger replantation.

[ background of the invention ]

The severed finger is called severed finger, and the severed finger is connected back to the original position by an operation method, namely severed finger replantation or limb replantation, and the monitoring and nursing after the severed finger replantation are very important and are a key link related to the success of the severed finger replantation. Clinical application shows that the replantation success rate of severed finger is high when the blood supply of severed finger is normal. Therefore, it is important to observe and judge whether the blood supply of the severed finger of the patient is normal, and once the blood supply obstacle is found, the problem needs to be solved immediately.

Whether the blood supply is normal or not is determined by whether the blood transportation of the artery and the vein is normal or not, if the blood transportation of the artery is obstructed, the arterial crisis is determined, and if the blood transportation of the vein is obstructed, the venous crisis is determined.

In the current clinical judgment, doctors and nurses mainly visit wards, whether blood supply is normal is judged by observing the skin color, temperature, wrinkles and the relative finger health change of finger abdominal swelling of severed fingers, and whether arterial crisis or venous crisis is judged through clinical manifestations.

[ summary of the invention ]

In view of the above, there is a need to provide a blood supply detection system and a detection device after a severed finger replantation, which aim to collect and analyze the temperature, the color, the abdomen shape, the wrinkles and other characteristics of the severed finger and the healthy finger, so as to realize intelligent diagnosis and improve the accuracy and efficiency of judging whether the blood supply is normal or not after the severed finger replantation.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a blood supply detection system after severed finger replantation comprises an infrared radiation scanning module, a wavelength analysis module, an image capturing module, an image analysis module, a comprehensive data diagnosis module and a display module;

the infrared radiation scanning module is in communication connection with the wavelength analysis module, the image capturing module is in communication connection with the image analysis module, and the image analysis module, the wavelength analysis module and the display module are all in communication connection with the comprehensive data diagnosis module, wherein:

the infrared radiation scanning module is used for detecting the infrared radiation distribution of the severed finger and the healthy finger to obtain an infrared radiation distribution map;

the wavelength analysis module is used for carrying out temperature characteristic analysis on the infrared radiation distribution map, including wavelength-temperature comparison analysis on each region of the infrared radiation distribution map, so that the finger body temperature characteristics of severed fingers and healthy fingers are extracted for objective diagnosis of clinical blood supply;

the image capturing module is used for shooting images of severed fingers and healthy fingers;

the image analysis module is used for analyzing the images shot by the image capture module, and identifying and extracting the finger body colors, finger abdomen forms and finger body wrinkle characteristics of severed fingers and healthy fingers for the objective judgment of clinical blood supply;

the comprehensive data diagnosis module is used for comprehensively diagnosing and storing the analysis results of the image analysis module and the wavelength analysis module;

the display module is used for displaying the diagnosis result of the comprehensive data diagnosis module.

The comprehensive data diagnosis system further comprises a networking module in communication connection with the comprehensive data diagnosis module, analysis results of the image analysis module and the wavelength analysis module and diagnosis results of the comprehensive data diagnosis module can be stored in a database on a computer through the networking module, and the comprehensive data diagnosis module can read the database on the computer through the networking module and synthesize other patient cases for diagnosis.

Furthermore, the comprehensive data diagnosis module can also longitudinally compare the analysis results of the image analysis module and the wavelength analysis module at a plurality of continuous time points in the same time period and the diagnosis results of a plurality of continuous time points in the same time period, and analyze other recovered patient cases in a database on a computer to predict the recovery trend.

Further, the display module displays the analysis processes of the image analysis module and the wavelength analysis module and the diagnosis process of the comprehensive data diagnosis module.

The electronic medical record module is in communication connection with the comprehensive data diagnosis module and is used for collecting facial images of patients, and the electronic medical record module comprehensively generates the electronic medical record according to the facial images collected by the camera module, the analysis result of the wavelength analysis module, the analysis result of the image analysis module and the diagnosis result of the comprehensive data diagnosis module.

And the medical record reporting module is in communication connection with the electronic medical record module and is used for printing the electronic medical record generated by the electronic medical record module.

The invention also provides portable blood supply detection equipment which comprises the detection system used after the severed finger replantation.

Further, the portable blood supply detection device comprises a handheld gun type device.

The invention has the following beneficial effects:

the infrared radiation scanning module and the wavelength analysis module are used for extracting the temperature characteristics of the severed finger and the healthy finger, the image shooting module and the image analysis module are used for extracting the finger color, the finger abdomen shape and the finger body wrinkle characteristics of the severed finger and the healthy finger, and the comprehensive data diagnosis module is used for objectively judging whether arterial crisis and venous crisis exist according to the clinical characteristics, namely whether blood supply is normal or not.

[ description of the drawings ]

FIG. 1 is a schematic structural view of a blood supply detection system after replantation of severed fingers according to the present invention.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a preferred embodiment of the present invention provides a blood supply detection system after severed finger replantation, which includes an infrared radiation scanning module, a wavelength analysis module, an image capturing module, an image analysis module, a comprehensive data diagnosis module and a display module.

The infrared radiation scanning module is in communication connection with the wavelength analysis module, the image shooting module is in communication connection with the image analysis module, and the image analysis module, the wavelength analysis module and the display module are all in communication connection with the comprehensive data diagnosis module, wherein:

the infrared radiation scanning module is used for detecting the infrared radiation distribution of the severed finger and the healthy finger to obtain an infrared radiation distribution diagram, and transmitting the infrared radiation distribution diagram to the wavelength analysis module in the form of an electric signal.

The wavelength analysis module is used for carrying out temperature characteristic analysis on the infrared radiation distribution map, including wavelength-temperature analysis on each area of the infrared radiation distribution map, so that the temperature characteristics of severed fingers and healthy fingers are extracted for objective judgment of clinical blood supply. According to the principle that the infrared radiation wavelengths emitted by objects with different temperatures are also different, the infrared radiation scanning module and the wavelength analysis module can be used for measuring the temperature of the severed finger and the healthy finger without direct contact.

The image shooting module is used for shooting images of severed fingers and healthy fingers.

The image analysis module is used for analyzing the image shot by the image shooting module, and the image analysis module is used for identifying and extracting the finger body color, the finger abdomen shape and the finger body wrinkle characteristics of the severed finger and the healthy finger and is used for objectively judging clinical blood supply.

Wherein, the finger body color comprises whether the color of the broken finger is consistent or pale or purple relative to the healthy finger, the finger abdomen shape comprises the swelling degree of the broken finger relative to the healthy finger, and the finger body wrinkle comprises whether the broken finger relative to the healthy finger is obvious.

The comprehensive data diagnosis module is used for diagnosing and storing the analysis results of the image analysis module and the wavelength analysis module, and the objective judgment conditions are as follows:

if the temperature of the severed finger relative to the temperature of the healthy finger is lower than a certain range of value, the severed finger is judged to be arterial or venous crisis.

If the objective judgment condition is met: and judging the arteria crisis when one or more of the skin color of the severed finger is pale relative to the skin color of the healthy finger, the pulp of the severed finger is sunken relative to the pulp of the healthy finger, and the wrinkles of the severed finger are obvious.

If the objective judgment condition is met: the skin color of the severed finger is purple relative to the skin color of the healthy finger, the pulp of the severed finger is swollen relative to the pulp of the healthy finger, and the severed finger is wrinkle-free, so that the vein crisis is judged.

If the objective judgment conditions are not met, the blood supply is judged to be normal.

The display module is used for displaying the diagnosis result of the comprehensive data diagnosis module.

Preferably, the system further comprises a networking module, and the comprehensive data diagnosis module is in communication connection with the networking module. The comprehensive data diagnosis module can communicate with a computer terminal through the networking module, so that the analysis results of the image analysis module and the wavelength analysis module and the diagnosis results of the comprehensive data diagnosis module can be stored in a database on a computer, and the comprehensive data diagnosis module can also read the database on the computer through the networking module and compare the diagnosis results of the comprehensive data diagnosis module with other patient cases to improve the diagnosis accuracy. The networking module is in communication connection with the background computer terminal to construct a database, so that diagnosis reference can be provided for other patients, and the method has important significance for development of intelligent diagnosis.

Preferably, the comprehensive data diagnosis module can also longitudinally compare the analysis results of the image analysis module and the wavelength analysis module at a plurality of continuous time points in the same time period with the diagnosis results of the comprehensive data diagnosis module at a plurality of continuous time points in the same time period, and analyze and predict the rehabilitation trend by combining with other cases of the rehabilitated patient in the database on the computer. The predicted rehabilitation trend can be referred by patients and doctors, so that the efficiency is improved, the subjective judgment of the doctors can be avoided, and the trust of the patients to the doctors is improved.

Preferably, the display module displays the analysis processes of the image analysis module and the wavelength analysis module and the diagnosis process of the integrated data diagnosis module. The analysis process is displayed, so that errors can be found in time, and the judgment errors caused by the faults of the machine can be avoided.

Preferably, the medical data diagnosis system further comprises a camera module and an electronic medical record module, the electronic medical record module is in communication connection with the comprehensive data diagnosis module, and the camera module is in communication connection with the electronic medical record module. The camera module is used for acquiring facial images of patients, and the electronic medical record module is used for comprehensively generating electronic medical records according to the facial images acquired by the camera module, the analysis results of the wavelength analysis module, the analysis results of the image analysis module and the diagnosis results of the comprehensive data diagnosis module. The electronic medical record can be recorded to form a database, so that reference is provided for other patient cases, and the method has important significance for artificial intelligent diagnosis.

Preferably, the medical record system further comprises a medical record reporting module which is in communication connection with the electronic medical record module. The medical record reporting module is used for printing the electronic medical record generated by the electronic medical record module. The electronic medical record is printed out to facilitate the checking of the patient, and is not easy to lose, so that the electronic medical record is prevented from losing.

The invention also provides portable blood supply detection equipment which is provided with the blood supply detection system after the severed finger replantation. The portable equipment is convenient for doctors to carry and use when patrolling wards.

Preferably, the portable blood supply detection device comprises a hand-held gun-type device. The handheld device is small in size and high in integration level, and is convenient for doctors to carry and use when patrolling wards.

The above examples are merely illustrative of several embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. A blood supply detection system after severed finger replantation is characterized by comprising an infrared radiation scanning module, a wavelength analysis module, an image capturing module, an image analysis module, a comprehensive data diagnosis module and a display module;

the infrared radiation scanning module is in communication connection with the wavelength analysis module, the image capturing module is in communication connection with the image analysis module, and the image analysis module, the wavelength analysis module and the display module are all in communication connection with the comprehensive data diagnosis module, wherein:

the infrared radiation scanning module is used for detecting the infrared radiation distribution of the severed finger and the healthy finger to obtain an infrared radiation distribution map;

the wavelength analysis module is used for carrying out temperature characteristic analysis on the infrared radiation distribution map, including wavelength-temperature comparison analysis on each region of the infrared radiation distribution map, so that the finger body temperature characteristics of severed fingers and healthy fingers are extracted for objective diagnosis of clinical blood supply;

the image capturing module is used for shooting images of severed fingers and healthy fingers;

the image analysis module is used for analyzing the images shot by the image capture module, and identifying and extracting the finger body colors, finger abdomen forms and finger body wrinkle characteristics of severed fingers and healthy fingers for the objective judgment of clinical blood supply;

the comprehensive data diagnosis module is used for comprehensively diagnosing and storing the analysis results of the image analysis module and the wavelength analysis module;

the display module is used for displaying the diagnosis result of the comprehensive data diagnosis module.

2. The system for detecting blood supply after replantation of severed finger as claimed in claim 1, wherein: the comprehensive data diagnosis system also comprises a networking module in communication connection with the comprehensive data diagnosis module, analysis results of the image analysis module and the wavelength analysis module and diagnosis results of the comprehensive data diagnosis module can be stored in a database on a computer through the networking module, and the comprehensive data diagnosis module can also read the database on the computer through the networking module to synthesize other patient cases for diagnosis.

3. The system for detecting blood supply after replantation of severed finger as claimed in claim 2, wherein: the comprehensive data diagnosis module can also longitudinally compare the analysis results of a plurality of continuous time points in the same time period of the image analysis module and the wavelength analysis module with the diagnosis results of a plurality of continuous time points in the same time period, and analyze other recovered patient cases in a database on a computer to predict the recovery trend.

4. The system for detecting blood supply after replantation of severed finger as claimed in claim 1, wherein: the display module is used for displaying the analysis processes of the image analysis module and the wavelength analysis module and the diagnosis process of the comprehensive data diagnosis module.

5. The system for detecting blood supply after replantation of severed finger as claimed in claim 1, wherein: the electronic medical record module is in communication connection with the comprehensive data diagnosis module and is used for collecting facial images of patients, and the electronic medical record module comprehensively generates the electronic medical record according to the facial images collected by the camera module, the analysis result of the wavelength analysis module, the analysis result of the image analysis module and the diagnosis result of the comprehensive data diagnosis module.

6. The system for detecting blood supply after replantation of severed finger as claimed in claim 5, wherein: the medical record management system further comprises a medical record reporting module in communication connection with the electronic medical record module and used for printing the electronic medical record generated by the electronic medical record module.

7. The utility model provides a portable blood supply check out test set which characterized in that: a post-severed finger replantation detection system comprising the severed finger of any one of claims 1-6.

8. The portable blood supply testing device of claim 7, wherein: the portable blood supply detection equipment is handheld gun type equipment.

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