CN111387946A - Wireless multi-guide sleep monitoring system - Google Patents
Wireless multi-guide sleep monitoring system Download PDFInfo
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Abstract
The invention discloses a wireless multi-guide sleep monitoring system, which comprises: the electrode plate is provided with a wireless transmission module; transcutaneous CO2The monitoring module is in communication connection with the wireless transmission module; an amplifier connected with the electrode plate and the percutaneous CO via the wireless transmission module2The monitoring modules are in wireless communication connection respectively; the amplifier is composed of the electrode slice and percutaneous CO2Collecting and processing monitoring data acquired by the monitoring module; a host computer receiving the monitored data processed by the amplifier. It realizes the wireless connection of the electrode plate and the amplifier, and avoids a large amount of transmissionThe distribution of the transmission lines on the body of the patient effectively improves the comfort of the patient using the monitor, improves the sleep quality, and monitors the electrodes and the percutaneous CO2Monitoring is combined, and then the accuracy of the sleep monitoring result is improved.
Description
Technical Field
The invention relates to the technical field of sleep monitors, in particular to a wireless multi-guide sleep monitoring system.
Background
The sleep is a natural rest state commonly existing in biological clocks, the sleep time of human beings accounts for one third of the life, so the quality of the sleep is the basis of half of the life quality, the sleep is generally considered to be capable of helping to recover physical strength and mental power, relieving pressure and enhancing memory so as to keep the body healthy, and numerous researches show that the quality of the sleep directly reflects the health condition of the human body.
The sleep condition is concerned and is closely related to maintaining health. Obstructive Sleep Apnea Hypopnea Syndrome (OSAHS) is a sleep disordered breathing disease with apnea or hypopnea caused by collapse and obstruction of upper respiratory tract soft tissues during sleep, and the OSAHS is mainly clinically manifested by hypopnea, hypoxemia, snoring and the like.
Medical research now shows that many serious diseases of modern human beings, such as hypertension, coronary heart disease, arrhythmia, diabetes, cardiovascular and cerebrovascular accidents, psychopsychological diseases and the like, are often related to OSAHS which is frequently generated in sleep. Therefore, the world health organization has listed sleep disorders as the fifth major social medical problem in humans, and specifically suggests that health concerns begin first with sleep concerns.
At present, the traditional internationally recognized sleep monitoring mode is a multi-lead sleep monitoring system, which comprises monitoring indexes such as electroencephalogram, eye movement, mouth-nose airflow, snore, pectoral girdle (monitoring body position/chest type respiration), abdominal girdle (abdominal type respiration), electrocardio, blood oxygen, leg movement and the like, wherein various indexes are transmitted with external monitoring equipment through dozens of transmission lines, the structure is not only complex, and the change of the sleep environment often interferes with the sleep indexes of a subject. For some special populations, such as patients with senile dementia, sleep disorder in the period of quick action of eyes and the like, polysomnography cannot be completed because of the active coordination of a limited night activity range. The existing solutions mainly reduce the number of electrode plates on the human body by reducing the monitored data, or solve the problem by adopting wireless connection with a data acquisition and data processing host. However, when the monitored data is reduced, although the use of the electrode sheet is reduced, the data is incomplete, and the obtained monitoring result is not accurate enough. And by adopting wireless connection for data acquisition and data processing, a user can only acquire data at home and analyze the acquired data through a host computer of a hospital, but the number of electrode slices attached to the body is still large, and the influence on the normal sleep of a patient is still caused.
Disclosure of Invention
An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.
It is still another object of the present invention to provide a wireless polysomnography system, which realizes wireless connection between electrode plates and an amplifier, avoids distribution of a large number of transmission lines on a patient, effectively improves comfort of the patient in using a monitor, improves sleep quality, and monitors electrodes and percutaneous CO2Monitoring is combined, and then the accuracy of the sleep monitoring result is improved.
In order to achieve the above objects and other objects, the present invention adopts the following technical solutions:
a wireless polysomnography system comprising:
the electrode plate is provided with a wireless transmission module;
transcutaneous CO2The monitoring module is in communication connection with the wireless transmission module;
an amplifier connected with the electrode plate and the percutaneous CO via the wireless transmission module2The monitoring modules are in wireless communication connection respectively; the amplifier is composed of the electrode slice and percutaneous CO2Collecting and processing monitoring data acquired by the monitoring module;
a host computer receiving the monitored data processed by the amplifier.
Preferably, the wireless polysomnography system further includes:
the guiding mechanism comprises a scanning module, an analysis module and a display module which are connected in sequence; the scanning module sends the scanned and recorded user body type data to the analysis module for analysis of the user body type data; the analysis module is used for marking the attaching position of the electrode plate on the body of the user by analyzing the body type data of the user; and the display module displays the user body shape data with the standard electrode plate attachment position acquired by the analysis module to a user in a human body contour form.
Preferably, in the wireless polysomnography system, the guiding mechanism further comprises a comparison module and a marking module connected with the comparison module; the comparison module is respectively connected with the scanning module and the analysis module; the marking module is connected with the display module; the scanning module and the display module are respectively connected with the electrode slice through the wireless transmission module; the comparison module compares the user body type data of the attached electrode slice acquired by the scanning module with the user body type data of the standard attachment position of the electrode slice in the analysis module, and the marking module marks the position of the attached electrode slice with difference from the standard attachment position on the human body contour displayed on the display module according to the comparison result of the comparison module.
Preferably, the wireless polysomnography system further includes:
the recording module is respectively connected with the scanning module and the amplifier; the recording module records body position data scanned by the scanning module in the sleeping process of the user, and sends the body position data to the amplifier for collection and processing.
Preferably, the wireless polysomnography system further includes:
an environment monitoring module connected with the amplifier; the environment monitoring module continuously monitors surrounding environment data in the sleeping process of the user and sends the surrounding environment data to the amplifier for collection and processing.
Preferably, the wireless polysomnography system further includes:
the auxiliary analysis mechanism comprises a database for storing music type data which are stored in a user identity data classification mode and are beneficial to falling asleep, and a statistical module connected with the database; the statistical module is respectively connected with the display module and the scanning module; the statistical module analyzes the user identity data of the user according to the user information input by the display module by the user in combination with the shape data of the user acquired by the scanning module, and calls the music type data corresponding to the user identity data from the database according to the user identity data to play the music type data in the sleeping process of the user.
Preferably, in the wireless polysomnography system, the user identity data includes: age, gender, character, native place, hobbies, and taste.
Preferably, in the wireless multi-lead sleep monitoring system, the electrode plate comprises a flexible insulating adhesive layer and an electrode plate body arranged in the center of an adhesive surface of the insulating adhesive layer; the wireless transmission module is arranged between the electrode plate body and the insulating adhesive layer and is in communication connection with the electrode plate body.
Preferably, in the wireless polysomnography system, the insulating adhesive layer comprises a silica gel adhesive layer for connecting the electrode plate body and the wireless transmission module, and a non-woven fabric adhesive layer for fixing on the skin; the edge of the silica gel adhesive layer is provided with an edge layer which protrudes out of the outer edge of the electrode plate body by 2-5mm and is used for being adhered with skin; the adhesive surface of the non-woven fabric adhesive layer is detachably adhered to the non-adhesive surface of the silica gel adhesive layer; and the edge of the non-woven fabric bonding layer protrudes out of the outer edge of the silica gel bonding layer.
Preferably, in the wireless polysomnography system, the edge of the non-woven fabric bonding layer protruding out of the silica gel bonding layer is provided with a plurality of sticking strips which are distributed in a transmission shape around the silica gel bonding layer as a circle center; the longitudinal sections of the sticking strips are distributed in a trapezoidal sawtooth shape; the horizontal surface of the adhesive strip, which is contacted with the skin, is an adhesive surface; and the horizontal plane of the sticking strip parallel to the sticking surface is provided with an air hole.
The invention at least comprises the following beneficial effects:
in the wireless multi-lead sleep monitoring system, the wireless transmission module is arranged on the electrode plate, so that the amplifier can receive monitoring data sent by the electrode plate through wireless connection with the electrode plate, the distribution of a large number of transmission lines on a body after the electrode plate is attached to the body of a patient is avoided, the comfort of the patient using the monitor is further effectively improved, and the sleep quality of the patient is also improved.
Data collected by electrode slice and percutaneous CO2The data monitored by the monitoring modules are combined, so that the accuracy of sleep monitoring is higher, and accurate diagnosis results can be obtained.
Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.
Drawings
FIG. 1 is a block diagram of a wireless polysomnography system according to the invention;
FIG. 2 is an exploded view of the electrode sheet provided by the present invention;
figure 3 is a block diagram of the attachment strip provided by the present invention.
Detailed Description
The present invention is described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description.
As shown in fig. 1, a wireless polysomnography system includes: the electrode plate is provided with a wireless transmission module 1;
transcutaneous CO2The monitoring module is in communication connection with the wireless transmission module 1;
an amplifier connected with the electrode plate and the percutaneous CO via the wireless transmission module 12The monitoring modules are in wireless communication connection respectively; the amplifier is composed of the electrode slice and percutaneous CO2Collecting and processing monitoring data acquired by the monitoring module;
a host computer receiving the monitored data processed by the amplifier.
In the above scheme, the existing sleep monitor is roughly classified into 4 levels. The I-level sleep monitor is called a multi-lead sleep monitor, has more comprehensive monitoring data and more electrode plates, and therefore needs to be used in hospitals; the sleep monitor of II grades and below is applied to domestic portable sleep monitor mostly, and electrode slice quantity reduces step by step, and data acquisition volume reduces gradually, and the degree of accuracy is on the low side. According to the application, the wireless transmission module is arranged on the electrode plate, so that the amplifier can receive monitoring data sent by the electrode plate through wireless connection with the electrode plate, distribution of a large number of transmission lines on a patient body after the electrode plate is attached to the patient body is avoided, comfort of the patient using the monitor is effectively improved, and sleep quality of the patient is improved; meanwhile, the electrode plate and the amplifier are in wireless connection, the amplifier and the host can be in wireless connection, the host can be placed in a hospital, and the electrode plate and the percutaneous CO are connected2The monitoring module and the amplifier are carried by the patient to go home for data acquisition, and then the analysis of the final data and the completion of the host computer through the hospital are realized, so that the multi-lead sleep monitoring system can be applied at home, and the patient acquires data in the sleep process in a familiar environment, so that the acquired data can reflect the real sleep condition of the patient.
By combining the data collected by the electrode plate and the data monitored by the percutaneous CO2 monitoring module, the accuracy of sleep monitoring is higher, and accurate diagnosis results are obtained.
In a preferred embodiment, the method further comprises: the guiding mechanism comprises a scanning module, an analysis module and a display module which are connected in sequence; the scanning module sends the scanned and recorded user body type data to the analysis module for analysis of the user body type data; the analysis module is used for marking the attaching position of the electrode plate on the body of the user by analyzing the body type data of the user; and the display module displays the user body shape data with the standard electrode plate attachment position acquired by the analysis module to a user in a human body contour form.
In the scheme, the guide mechanism consisting of the scanning module, the analysis module and the display module is arranged, so that when the wireless multi-lead sleep monitoring system is used by a patient at home, the electrode slice can be attached under the guidance of the electrode slice attaching position displayed on the display module, and the multi-lead sleep monitoring system can acquire accurate and effective data conveniently.
In a preferred scheme, the guiding mechanism further comprises a comparison module and a marking module connected with the comparison module; the comparison module is respectively connected with the scanning module and the analysis module; the marking module is connected with the display module; the scanning module and the display module are respectively connected with the electrode slice through the wireless transmission module 1; the comparison module compares the user body type data of the attached electrode slice acquired by the scanning module with the user body type data of the standard attachment position of the electrode slice in the analysis module, and the marking module marks the position of the attached electrode slice with difference from the standard attachment position on the human body contour displayed on the display module according to the comparison result of the comparison module.
In the above scheme, through the setting of comparison module and mark module for the disease can carry out the inspection of the attached position of electrode slice through the comparison module after attached electrode slice, and then carries out the correction of electrode slice position through the information of mark module mark, thereby makes the attached position of electrode slice accurate, has further guaranteed the accuracy and the validity of data acquisition.
In a preferred embodiment, the method further comprises: the recording module is respectively connected with the scanning module and the amplifier; the recording module records body position data scanned by the scanning module in the sleeping process of the user, and sends the body position data to the amplifier for collection and processing.
In the scheme, the body position data of the patient in sleep can be synchronously acquired through the recording module, and then the electrode plate data and the percutaneous CO are combined2The monitoring data analyzes the sleep of the patient so as to obtain more accurate diagnosis results.
In a preferred embodiment, the method further comprises: an environment monitoring module connected with the amplifier; the environment monitoring module continuously monitors surrounding environment data in the sleeping process of the user and sends the surrounding environment data to the amplifier for collection and processing.
In the above scheme, the influence of the surrounding environment on the sleep of the patient can be synchronously monitored through the setting of the environment monitoring module, so that the disease of the patient can be more comprehensively analyzed.
In a preferred embodiment, the method further comprises: the auxiliary analysis mechanism comprises a database for storing music type data which are stored in a user identity data classification mode and are beneficial to falling asleep, and a statistical module connected with the database; the statistical module is respectively connected with the display module and the scanning module; the statistical module analyzes the user identity data of the user according to the user information input by the display module by the user in combination with the shape data of the user acquired by the scanning module, and calls the music type data corresponding to the user identity data from the database according to the user identity data to play the music type data in the sleeping process of the user.
In the above scheme, through the setting of the auxiliary analysis mechanism, the wireless multi-guide sleep monitoring system can assist the patient to improve the sleep quality, wherein the music type data correspond to the user identity data, music which is more suitable for the targeted playing of different patients can be played according to different patients, so that the sleep of the patient is facilitated, the influence of music on the sleep quality of the patient can be analyzed through music playing, and the disease of the patient can be analyzed in a psychological aspect in an auxiliary manner. Meanwhile, the type of the music most suitable for assisting the patient in sleeping can be obtained by monitoring data such as blood pressure, heart rate and the like of the patient when various types of music are played.
In a preferred embodiment, the user identity data includes: age, gender, character, native place, hobbies, and taste.
In the above scheme, by knowing the age, sex, character, and the like of the user, it is possible to analyze the type of music suitable for the user. Of course, the user identification data is not limited to the above listed types.
As shown in fig. 2, in a preferred embodiment, the electrode sheet includes a flexible insulating adhesive layer and an electrode sheet body 2 disposed at the center of an adhesive surface of the insulating adhesive layer; the wireless transmission module 1 is arranged between the electrode plate body 2 and the insulating adhesive layer and is in communication connection with the electrode plate body 2.
In the above scheme, including flexible insulating adhesive layer and electrode slice body through setting up the electrode slice, can be convenient fix the electrode slice body on the relevant position of patient's health through insulating adhesive layer.
In a preferred scheme, the insulating adhesive layer comprises a silica gel adhesive layer 3 for connecting the electrode plate body 2 and the wireless transmission module 1, and a non-woven fabric adhesive layer 4 for fixing on the skin; the edge of the silica gel adhesive layer 3 is provided with an edge layer which protrudes out of the outer edge of the electrode plate body 2 by 2-5mm and is used for being adhered with skin; the adhesive surface of the non-woven fabric adhesive layer 4 is detachably adhered to the non-adhesive surface of the silica gel adhesive layer 3; and the edge of the non-woven fabric adhesive layer 4 protrudes out of the outer edge of the silica gel adhesive layer 3.
In the above scheme, the silica gel adhesive linkage can be in the same place electrode slice body and wireless transmission module are fixed, makes things convenient for the electrode slice body to attach on skin simultaneously, and the non-woven fabrics adhesive linkage can further consolidate the electrode slice body on skin, and is better than the silica gel adhesive linkage flexibility, and is more ventilative, and then has improved the travelling comfort that the patient used. Simultaneously, the silica gel adhesive linkage can adopt alcohol etc. to carry out convenient disinfection, and non-woven fabrics adhesive linkage detachable sets up the disposable that can guarantee the non-woven fabrics adhesive linkage, and then guarantees the health nature of monitor use.
As shown in fig. 3, in a preferred embodiment, the edge of the non-woven fabric adhesive layer 4 protruding from the silica gel adhesive layer 3 is provided with a plurality of adhesive strips 5 radially distributed around the silica gel adhesive layer 3 as a center; the longitudinal sections of the pasting strips 5 are distributed in a trapezoidal sawtooth shape; the horizontal surface of the adhesive strip 5 contacted with the skin is an adhesive surface; and the horizontal plane of the sticking strip 5 parallel to the sticking surface is provided with an air hole 6.
In the scheme, the edge of the non-woven fabric bonding layer protruding out of the silica gel bonding layer is provided with the plurality of bonding strips which are radially distributed around the silica gel bonding layer as a circle center, so that the bonding area on the skin of a patient is effectively reduced, the comfort is improved, and the bonding firmness is effectively improved due to the radial distribution; the electrode plate body has certain movement adaptive amount in the transverse direction and the longitudinal direction when being adhered to a human body by arranging the adhesive strip into a structure with the cross section in trapezoidal sawtooth distribution, so that the adhesive strip part is adhered to the skin, and the risk that the adhesive strip is separated from the skin when a patient moves is reduced; meanwhile, through the arrangement of the air holes, the adhesive strip can have certain air permeability even if being completely attached to the skin, and the comfort of use is further improved.
While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.
Claims (10)
1. A wireless polysomnography system, comprising:
the electrode plate is provided with a wireless transmission module;
transcutaneous CO2The monitoring module is in communication connection with the wireless transmission module;
an amplifier connected with the electrode plate and the percutaneous CO via the wireless transmission module2The monitoring modules are in wireless communication connection respectively; the amplifier is composed of the electrode slice and percutaneous CO2Collecting and processing monitoring data acquired by the monitoring module;
a host computer receiving the monitored data processed by the amplifier.
2. The wireless polysomnography system of claim 1, further comprising:
the guiding mechanism comprises a scanning module, an analysis module and a display module which are connected in sequence; the scanning module sends the scanned and recorded user body type data to the analysis module for analysis of the user body type data; the analysis module is used for marking the attaching position of the electrode plate on the body of the user by analyzing the body type data of the user; and the display module displays the user body shape data with the standard electrode plate attachment position acquired by the analysis module to a user in a human body contour form.
3. The wireless polysomnography system of claim 2, wherein the guidance mechanism further comprises a comparison module and a tagging module connected to the comparison module; the comparison module is respectively connected with the scanning module and the analysis module; the marking module is connected with the display module; the scanning module and the display module are respectively connected with the electrode slice through the wireless transmission module; the comparison module compares the user body type data of the attached electrode slice acquired by the scanning module with the user body type data of the standard attachment position of the electrode slice in the analysis module, and the marking module marks the position of the attached electrode slice with difference from the standard attachment position on the human body contour displayed on the display module according to the comparison result of the comparison module.
4. The wireless polysomnography system of claim 2, further comprising:
the recording module is respectively connected with the scanning module and the amplifier; the recording module records body position data scanned by the scanning module in the sleeping process of the user, and sends the body position data to the amplifier for collection and processing.
5. The wireless polysomnography system of claim 1, further comprising:
an environment monitoring module connected with the amplifier; the environment monitoring module continuously monitors surrounding environment data in the sleeping process of the user and sends the surrounding environment data to the amplifier for collection and processing.
6. The wireless polysomnography system of claim 2, further comprising:
the auxiliary analysis mechanism comprises a database for storing music type data which are stored in a user identity data classification mode and are beneficial to falling asleep, and a statistical module connected with the database; the statistical module is respectively connected with the display module and the scanning module; the statistical module analyzes the user identity data of the user according to the user information input by the display module by the user in combination with the shape data of the user acquired by the scanning module, and calls the music type data corresponding to the user identity data from the database according to the user identity data to play the music type data in the sleeping process of the user.
7. The wireless polysomnography system of claim 1, wherein the user identity data includes: age, gender, character, native place, hobbies, and taste.
8. The wireless polysomnography system of claim 1, wherein the electrode patch comprises a flexible insulating adhesive layer and an electrode patch body disposed in the center of an adhesive surface of the insulating adhesive layer; the wireless transmission module is arranged between the electrode plate body and the insulating adhesive layer and is in communication connection with the electrode plate body.
9. The multi-lead wireless sleep monitor according to claim 8, wherein the insulating adhesive layer comprises a silica gel adhesive layer for connecting the electrode sheet body and the wireless transmission module, and a non-woven adhesive layer for fixing on the skin; the edge of the silica gel adhesive layer is provided with an edge layer which protrudes out of the outer edge of the electrode plate body by 2-5mm and is used for being adhered with skin; the adhesive surface of the non-woven fabric adhesive layer is detachably adhered to the non-adhesive surface of the silica gel adhesive layer; and the edge of the non-woven fabric bonding layer protrudes out of the outer edge of the silica gel bonding layer.
10. The monitor of claim 9, wherein the non-woven adhesive layer has a plurality of adhesive strips radially arranged around the silica gel adhesive layer as a center; the longitudinal sections of the sticking strips are distributed in a trapezoidal sawtooth shape; the horizontal surface of the adhesive strip, which is contacted with the skin, is an adhesive surface; and the horizontal plane of the sticking strip parallel to the sticking surface is provided with an air hole.
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