CN111728615A

CN111728615A - Juvenile scoliosis prescreening system based on plantar pressure detection

Info

Publication number: CN111728615A
Application number: CN202010548530.5A
Authority: CN
Inventors: 刘凡杰; 曹盛楠; 师彬; 王丹丹; 安建鹏; 毕是昊; 殷颖; 侯广建
Original assignee: Shandong Medicinal Biotechnology Center (shandong Institute Of Virology)
Current assignee: Shandong Medicinal Biotechnology Center (shandong Institute Of Virology)
Priority date: 2020-06-16
Filing date: 2020-06-16
Publication date: 2020-10-02

Abstract

The invention discloses a juvenile scoliosis primary screening system based on plantar pressure detection, which comprises a scoliosis wearable detector, a plantar pressure detector, a spiral CT scanner, a central controller and a scoliosis disease management cloud platform, wherein the wearable detector is used for detecting the scoliosis; the wearable scoliosis detector comprises a wearable part and a pressure sensing part arranged on the inner wall of the wearable part; the plantar pressure detector comprises a film type pressure sensor and a signal transmitting module connected with the film type pressure sensor; the central controller receives data transmitted by the pressure sensing component, the signal transmitting module and the spiral CT scanner and transmits the data to the scoliosis disease management cloud platform; the scoliosis disease management cloud platform comprises a data processing module, a scoliosis case cloud database and a diagnosis result prediction display module. The invention combines the artificial intelligent cloud platform, the bidirectional data transmission system, the client and the medical care terminal system, and can realize the remote real-time diagnosis and rehabilitation guidance of medical care to patients.

Description

Juvenile scoliosis prescreening system based on plantar pressure detection

Technical Field

The invention relates to an intelligent medical system, in particular to a juvenile scoliosis primary screening system based on plantar pressure detection.

Background

Abnormal spinal curvature is one of the common diseases endangering physical and mental health of children and teenagers. But the study work on abnormal spinal curvature is significantly delayed compared with other common diseases of students. The type of spinal curvature in China is mainly scoliosis, which accounts for 82% of abnormal spinal curvature. The scoliosis seriously affects the physical and mental health of teenagers, particularly, the scoliosis develops faster during the vigorous growth and development period of 8-12 years old, if therapeutic intervention is not carried out, the malformation degree is aggravated, the labor capacity is reduced, cardiopulmonary complications, low back pain and even paraplegia occur, and the psychosocial problem can be caused. At present, the clinic diagnosis time of most patients with scoliosis is late, so that the treatment difficulty is increased, the treatment cost is increased, and the treatment effect is poor. In addition, the scale population screening of the adolescent scoliosis in China is limited to a few central cities in China at present, and the scale screening and early intervention work of the adolescent scoliosis in partial cities are still blank up to now. Therefore, early detection, early diagnosis and early treatment are of great significance to patients with scoliosis and the whole society.

When the adolescent with scoliosis stands or walks, the abnormal plantar pressure of different degrees is also accompanied, so the biomechanical indexes of the scoliotic children/adolescents, such as total bilateral foot pressure, anterior half foot pressure, posterior half foot pressure and the like, are also one of the evaluation criteria of the scoliosis abnormal degree.

At present, an artificial visual inspection method is still adopted for screening, after too many detected persons are inspected within a certain time, the screening persons are easy to have fatigue and artificial subjective errors, and in addition, the situation of identification errors is possible to occur due to different conditions of each person, so that the large-batch scoliosis screening work cannot be met.

Disclosure of Invention

The adolescent scoliosis primary screening system based on plantar pressure detection provided by the invention combines the artificial intelligent cloud platform, the bidirectional data transmission system, the client and the medical care terminal system, can realize the remote real-time diagnosis and rehabilitation treatment guidance of patients through medical care, and has important significance for guiding the rehabilitation training of the patients and the efficient rehabilitation treatment of the patients more conveniently and quickly through medical care.

In order to achieve the purpose, the invention adopts the technical scheme that: a juvenile scoliosis primary screening system based on plantar pressure detection comprises a scoliosis wearable detector, a plantar pressure detector, a spiral CT scanner, a central controller and a scoliosis disease management cloud platform; the wearable detector for scoliosis comprises a wearable part and a pressure sensing part arranged on the inner wall of the wearable part; the plantar pressure detector comprises a film type pressure sensor and a signal transmitting module connected with the film type pressure sensor; the central controller receives data transmitted by the pressure sensing component, the signal transmitting module and the spiral CT scanner and transmits the data to the scoliosis disease management cloud platform; the scoliosis disease management cloud platform comprises a data processing module, a scoliosis case cloud database and a diagnosis result prediction display module.

The data processing module is embedded with a VR-based scoliosis modeling system and used for receiving detection data of a spiral CT scanner, acquiring Dicom data of scoliosis of a patient, automatically positioning images, organizing pictures and interpolating values through M Vision software, setting a reconstruction threshold value, and directly constructing a complete digital VR model of the spine after regional growth; the digital virtual reality model of scoliosis in a body can be constructed, and simultaneously the mutual relation of vertebral bodies and accessories of the spine and the space relation of the spine and the pelvis are displayed in a three-dimensional, clear and fidelity manner, and the physiological bending directions and degrees of the spine are displayed in a three-dimensional manner.

The data processing module receives pressure data detected by a pressure sensing component and a thin film type pressure sensor in the scoliosis wearable detector and then compares the pressure data with a threshold value for analysis; the thin film type pressure sensor is used for detecting the total pressure of feet at two sides, the pressure of the front half foot and the pressure of the rear half foot of a patient and transmitting the detected pressures to the central controller in a wireless communication mode through the signal transmitting module.

Diagnosis and treatment schemes corresponding to various scoliosis diseases are stored in the scoliosis case cloud database.

The diagnosis result prediction display module combines the pressure data analysis result processed by the data processing module and the spine digital VR model to display the scoliosis degree, and combines the diagnosis and treatment scheme in the scoliosis case cloud database to provide a preliminary diagnosis scheme.

The scoliosis disease management cloud platform is wirelessly connected with an intelligent terminal, and the diagnosis result prediction display module is used for predicting the diagnosed scoliosis degree and issuing a diagnosis scheme to be wirelessly sent to the intelligent terminal.

The wearable component is rectangular, two width ends are provided with zipper structures in a matching way, and the two width ends of the rectangular wearable component surrounding the back of the abdomen of the patient are connected through a zipper; the upper end of the wearable component is provided with a shoulder belt, and a shoulder belt adjusting component is arranged on the shoulder belt.

The patient adjusts patient's posture through the shoulder adjusting part, changes the pressure data that the forced induction part that data processing module received and film formula pressure sensor detected, changes scoliosis degree, and wearable part is not only detection device or orthotic devices, and the patient adjusts the shoulder according to the scoliosis degree that shows, changes the elasticity degree that wearable part wrapped up to patient's health to change patient's posture, change scoliosis degree. The degree of lateral curvature can be detected by using a wearable detector for lateral curvature of the spine, a plantar pressure detector and a spiral CT scanner for the first time, and a diagnosis scheme can be provided. Follow-up patient is according to the degree of scoliosis, and the continuous pressure data that detects of wearable detector of scoliosis, plantar pressure detector are used to constantly adjust the baldric, constantly adjusts the posture, and until the degree of scoliosis is lightest. And finally, the position of the shoulder strap adjusting part is kept, the shoulder strap adjusting part is worn for a long time, and the wearing part is used as the correcting device.

Through scoliosis disease management platform can generate user's two-dimensional code, the doctor can scan patient's two-dimensional code and gather personal data and image.

The scoliosis disease management platform can send doctor diagnosis results to an intelligent terminal of a patient through a network.

The intelligent terminal comprises a computer, a mobile phone or medical equipment.

The invention solves the defects in the background technology, and has the following beneficial effects:

(1) the system for primarily screening the scoliosis of the teenagers based on the plantar pressure detection can be used for early monitoring and screening the scoliosis condition of the teenagers and realizing early discovery, early diagnosis, early prevention and early treatment.

(2) The invention improves the detection rate of adolescent idiopathic scoliosis patients, defines the pathological types and possible progress conditions of scoliosis cases, and carries out non-operative treatment and implementation intervention measures in early stage, thereby effectively preventing the occurrence of disability or reducing the degree of disability, avoiding or reducing operative treatment and reducing social and family economic burdens.

(3) The invention combines the artificial intelligent cloud platform, the bidirectional data transmission system, the client and the medical care terminal system, can realize the remote real-time diagnosis and rehabilitation guidance of medical care to the patient, and has important significance for guiding the rehabilitation training of the patient and the efficient rehabilitation treatment of the patient more conveniently and quickly by medical care.

(4) The invention simultaneously carries out network follow-up visit on children, teenagers and parents thereof, makes health propaganda and education, can improve the cognitive ability of the parents of the teenagers to early discovery of scoliosis, and effectively implements intervention measures.

(5) The invention combines the plantar pressure detector and the scoliosis wearable detector for detection, improves the detection accuracy and can correct and treat the scoliosis patient through the scoliosis wearable detector.

Drawings

The invention is further explained below with reference to the figures and examples;

FIG. 1 is a perspective block diagram of a scoliosis wearable detector of the present invention;

fig. 2 is a schematic view of a plantar pressure detector of the present invention;

in the figure: a pressure-sensitive part 1; a shoulder strap adjusting member 2; a zipper 3; a plantar pressure detector 4; the scoliosis may be wearing a detector 5.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings and examples, which are simplified schematic drawings and illustrate only the basic structure of the invention in a schematic manner, and thus show only the constituents relevant to the 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 an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "upper", "lower", "inner", "outer", "left", "right" and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

As shown in fig. 1 and 2, a juvenile scoliosis prescreening system based on plantar pressure detection comprises a scoliosis wearable detector 5, a plantar pressure detector 4, a spiral CT scanner, a central controller and a scoliosis disease management cloud platform; the scoliosis wearable detector 5 comprises a wearable part and a pressure sensing part 1 arranged on the inner wall of the wearable part; the sole pressure detector 4 comprises a film type pressure sensor and a signal transmitting module connected with the film type pressure sensor; the central controller receives the data transmitted by the pressure sensing component 1, the signal transmitting module and the spiral CT scanner and transmits the data to the scoliosis disease management cloud platform; the scoliosis disease management cloud platform comprises a data processing module, a scoliosis case cloud database and a diagnosis result prediction display module.

A VR-based scoliosis modeling system is embedded in the data processing module and used for receiving detection data of the spiral CT scanner, obtaining Dicom data of scoliosis of a patient, automatically positioning images, organizing pictures and interpolating through M Vision software, setting a reconstruction threshold value, and directly constructing a complete digital VR model of the spine after regional growth; the digital virtual reality model of scoliosis in a body can be constructed, and simultaneously the mutual relation of vertebral bodies and accessories of the spine and the space relation of the spine and the pelvis are displayed in a three-dimensional, clear and fidelity manner, and the physiological bending directions and degrees of the spine are displayed in a three-dimensional manner.

The data processing module receives pressure data detected by the pressure sensing component 1 and the film type pressure sensor in the scoliosis wearable detector 5 and then compares the pressure data with a threshold value for analysis; the film type pressure sensor is used for detecting the total pressure of feet at two sides, the pressure of the front half foot and the pressure of the rear half foot of a patient and transmitting the detected pressures to the central controller in a wireless communication mode through the signal transmitting module.

The scoliosis disease management cloud platform is wirelessly connected with the intelligent terminal, and the diagnosis result, the scoliosis degree diagnosed by the prediction display module and the issued diagnosis scheme are wirelessly sent to the intelligent terminal.

The wearable component is rectangular, two width ends are provided with zipper 3 structures in a matching way, and the two width ends of the rectangular wearable component surrounding the back of the abdomen of the patient are connected through the zipper 3; the upper end of the wearable part is provided with a shoulder belt, and the shoulder belt is provided with a shoulder belt adjusting part 2.

The patient adjusts patient's posture through shouldering adjusting part 2, changes the pressure data that forced induction part 1 that data processing module received and film formula pressure sensor detected, changes the scoliosis degree, and wearable part is not only detection device but also orthotic devices, and the patient adjusts the baldric according to the scoliosis degree that shows, changes the elasticity degree of wearable part to patient's health parcel to change patient's posture, change the scoliosis degree. The degree of lateral curvature can be detected by the wearable detector 5 for the lateral curvature of the spine, the plantar pressure detector 4 and the spiral CT scanner for the first time, and a diagnosis scheme can be issued. Follow-up patient is according to the degree of scoliosis, and the continuous pressure data that detects of wearable detector 5 of scoliosis, plantar pressure detector 4 are used to constantly adjust the baldric, constantly adjusts the posture, and until the degree of scoliosis is lightest. Finally, the position of the shoulder strap adjusting part 2 is kept, the shoulder strap adjusting part is worn for a long time, and the wearing part is used as an correcting device.

The user two-dimensional code can be generated through the scoliosis disease management platform, and a doctor can scan the patient two-dimensional code to acquire personal data and images.

The scoliosis disease management platform can send the diagnosis result of the doctor to the intelligent terminal of the patient through the network.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. A juvenile scoliosis primary screening system based on plantar pressure detection is characterized by comprising a wearable scoliosis detector, a plantar pressure detector, a spiral CT scanner, a central controller and a scoliosis disease management cloud platform; the wearable scoliosis detector comprises a wearable part and a pressure sensing part arranged on the inner wall of the wearable part; the plantar pressure detector comprises a film type pressure sensor and a signal transmitting module connected with the film type pressure sensor; the central controller receives data transmitted by the pressure sensing component, the signal transmitting module and the spiral CT scanner and transmits the data to the scoliosis disease management cloud platform; the scoliosis disease management cloud platform comprises a data processing module, a scoliosis case cloud database and a diagnosis result prediction display module.

2. The system for pre-screening scoliosis of teenagers based on plantar pressure detection is characterized in that: the data processing module is embedded with a VR-based scoliosis modeling system and used for receiving detection data of a spiral CT scanner, obtaining Dicom data of scoliosis of a patient, automatically positioning images, organizing pictures and interpolating values through M Vision software, setting a reconstruction threshold value, and directly constructing a complete digital VR model of the spine after regional growth.

3. The system for pre-screening scoliosis of teenagers based on plantar pressure detection is characterized in that: and the data processing module receives pressure data detected by a pressure sensing component and a thin film type pressure sensor in the scoliosis wearable detector and then compares the pressure data with a threshold value for analysis.

4. The system for pre-screening scoliosis of teenagers based on plantar pressure detection is characterized in that: diagnosis and treatment schemes corresponding to various scoliosis diseases are stored in the scoliosis case cloud database.

5. The system for pre-screening scoliosis of teenagers based on plantar pressure detection is characterized in that: the diagnosis result prediction display module combines the pressure data analysis result processed by the data processing module and the spine digital VR model to display the scoliosis degree, and combines the diagnosis and treatment scheme in the scoliosis case cloud database to provide a preliminary diagnosis scheme.

6. The system for pre-screening scoliosis of teenagers based on plantar pressure detection is characterized in that: the scoliosis disease management cloud platform is wirelessly connected with an intelligent terminal, and the diagnosis result prediction display module is used for predicting the diagnosed scoliosis degree and issuing a diagnosis scheme to be wirelessly sent to the intelligent terminal.

7. The system for pre-screening scoliosis of teenagers based on plantar pressure detection is characterized in that: the wearable component is rectangular, two width ends are provided with zipper structures in a matching way, and the two width ends of the rectangular wearable component surrounding the back of the abdomen of the patient are connected through a zipper; the upper end of the wearable component is provided with a shoulder belt, and a shoulder belt adjusting component is arranged on the shoulder belt.

8. The system for pre-screening scoliosis of teenagers based on plantar pressure detection is characterized in that: the patient adjusts the posture of the patient through the shoulder strap adjusting part, pressure data detected by the pressure sensing part and the film type pressure sensor received by the data processing module are changed, and the scoliosis degree is changed.

9. The system for pre-screening scoliosis of teenagers based on plantar pressure detection as claimed in claim 1, wherein: through scoliosis disease management platform can generate user's two-dimensional code, the doctor can scan patient's two-dimensional code and gather personal data and image.

10. The system according to claim 8, wherein the system comprises: the scoliosis disease management platform can send doctor diagnosis results to an intelligent terminal of a patient through a network.