TW202210028A - Cardiopulmonary rehabilitation method - Google Patents

Abstract

The present invention provides a cardiopulmonary rehabilitation method. The cardiopulmonary rehabilitation method has an evaluation step, a setting step, a detecting step, a calculation step, and a judgment step. The evaluation step: obtaining a physiological characteristic of a rehabilitation person to assess a target heart rate. The setting step: presetting the target heart rate into a wearable detection component. The detecting step: using the wearable detection component to detect a heart rate information of the rehabilitation person. The calculation step: calculating a rehabilitation percentage data based on the heart rate information and the target heart rate. The judgment step: determining whether the rehabilitation percentage data is equal to 100%, and uploading the heart rate information and the rehabilitation percentage data to a cloud device. Accordingly, the rehabilitation person, a doctor or a family member can understand the rehabilitation status of the rehabilitation person from the rehabilitation percentage data in the wearable detection component or the cloud device.

Description

Cardiopulmonary Rehabilitation Methods

The present invention relates to a rehabilitation method, in particular to a cardiopulmonary rehabilitation method.

At present, most of the rehabilitation methods for cardiopulmonary rehabilitators are to obtain a rehabilitation item list from a doctor or counselor, and execute them one by one according to the exercise items and exercise time on the rehabilitation item list, so as to achieve the effect of cardiopulmonary rehabilitation.

However, when rehabilitated people perform cardiopulmonary rehabilitation, the time and heartbeat required for each body to achieve the effect of cardiopulmonary rehabilitation will vary depending on the environment, the intensity of rehabilitation, or the current physical condition. For example, when the temperature is high, the rehabilitation time of the rehabilitated person should be reduced compared with the low temperature, and after a few days of rehabilitation, the rehabilitation time of the rehabilitated person should be increased to achieve the effect of cardiopulmonary rehabilitation, etc. In other words, the cardiopulmonary rehabilitation method achieves the effect of rehabilitation by maintaining the heartbeat for a certain period of time, and the existing cardiopulmonary rehabilitation methods cannot let the rehabilitation person know whether the rehabilitation behavior achieves the cardiopulmonary rehabilitation effect.

Therefore, the inventor believes that the above-mentioned defects can be improved. Nate has devoted himself to research and application of scientific principles, and finally proposes an invention with reasonable design and effective improvement of the above-mentioned defects.

The technical problem to be solved by the present invention is to provide a cardiopulmonary rehabilitation method in view of the deficiencies of the prior art, which can effectively let the rehabilitation person know whether the current rehabilitation behavior achieves the cardiopulmonary rehabilitation effect and whether it reaches the daily standard.

The embodiment of the present invention discloses a cardiopulmonary rehabilitation method, which includes the following steps: performing an evaluation step: obtaining the physiological characteristics of a rehabilitation person to evaluate a target heart rate that can achieve a rehabilitation effect, and the target heart rate is the rehabilitation The heart rate of the person needs to be maintained in a time interval within a time unit; wherein, the total distance of the frequency interval is less than 30 times; implement a setting step: preset the target heart rate to a wearable detection component; implement a detection step : use the wear detection component to detect a heart rate information of the rehabilitated person, and the heart rate information is the actual heart rate of the rehabilitated person per minute; implement a calculation step: use the actual heart rate of the heart rate information Calculate a heart rate percentage data based on the time when the number of times reaches the target heart rate interval and the time unit; implement a judgment step: judging whether the heart rate percentage data is equal to 100%; if so, upload the heart rate information and the heart rate The percentage data is sent to a cloud device; if not, the wear detection device issues an alert and uploads the heart rate information and the heart rate percentage data to the cloud device.

To sum up, one of the beneficial effects of the present invention is that the cardiopulmonary rehabilitation method provided by the present invention can obtain the heart rate percentage data by "calculating the heart rate information and the target heart rate" and "judging" Whether the heart rate percentage data is equal to 100%” is a technical solution to let the rehab person know the current rehabilitation situation and whether the rehabilitation progress reaches the standard.

For further understanding of the features and technical content of the present invention, please refer to the following detailed descriptions and drawings related to the present invention, however, the drawings provided are only for reference and description, not for limiting the present invention.

The following are specific specific examples to illustrate the implementation of the "cardiopulmonary rehabilitation method" disclosed in the present invention, and those skilled in the art can understand the advantages and effects of the present creation from the content disclosed in this specification. This creation can be implemented or applied through other different specific embodiments, and various details in this specification can also be modified and changed based on different viewpoints and applications without departing from the concept of this creation. In addition, the drawings in this creation are only for simple schematic illustration, and are not drawn according to the actual size, and are stated in advance. In addition, if it is indicated below to refer to a specific figure or as shown in a specific figure, it is only used for emphasis in the subsequent description, and most of the relevant content mentioned appears in the specific figure, but not Reference in this ensuing description is limited to those specific drawings. The following embodiments will further describe the related technical contents of the present creation in detail, but the disclosed contents are not intended to limit the protection scope of the present creation. In addition, the term "or", as used herein, should include any one or a combination of more of the associated listed items, as the case may be.

[First Embodiment]

As shown in FIG. 1 to FIG. 8 , it is the first embodiment of the present invention. As shown in FIG. 1 , FIG. 3 and FIG. 4 , the present embodiment discloses a cardiopulmonary rehabilitation method, which is used for a rehabilitated person P who needs cardiopulmonary rehabilitation to perform rehabilitation, thereby improving cardiopulmonary function. In other words, any rehabilitation method that is not aimed at improving cardiopulmonary function is not the cardiopulmonary rehabilitation method referred to in the present invention. The cardiopulmonary rehabilitation method includes: an evaluation step S101 , a setting step S103 , a detection step S105 , a safety step S107 , a calculation step S109 , a determination step S111 and a sharing step S113 . Certainly, any one of the above-mentioned steps can be omitted or replaced by a reasonable change according to the needs of the designer.

The evaluation step S101 is implemented: obtaining the physiological characteristics of the rehabilitated person P to evaluate a target heart rate GH that can achieve a rehabilitation effect, and the target heart rate GH is the heart rate of the rehabilitated person P within a time unit. The interval of the number of heartbeats is maintained, and the total distance of the interval of the number of times is less than 30 times.

Specifically, the rehabilitator P will first be evaluated by a professional physician D how many heartbeats and how long it needs to be maintained to achieve the effect of cardiopulmonary rehabilitation, that is, the target heart rate GH is determined by the Physician D's assessment is for the rehabilitator P's consideration. For example, the rehabilitated person P goes to the hospital for evaluation and diagnosis by a doctor and finds that one of the target heart rate GH is given, and the target heart rate GH requires 30 minutes of cardiopulmonary rehabilitation every day, and this 30 minutes The heartbeat must be 100 to 130 beats per minute. That is to say, the time unit of the target heart rate GH is thirty minutes, and the frequency interval is one hundred to one hundred and thirty.

The setting step S103 is performed: the target heart rate GH is preset to a wear detection component 100 . Specifically, as shown in FIG. 2 , the wearing detection component 100 is composed of a detection wristband 1 and a mobile device 2 , and the rehabilitated person P can operate the mobile device 2 to preset the The target heart rate GH, further, the detection bracelet 1 is provided with a heart rate detection module 11 and a communication module 12, and the heart rate detection module 11 can be implemented by photoplethysmography in practice. , ECG signal method, pressure oscillation method, and image signal analysis method, etc. The communication module 12 is a Bluetooth communicator in this embodiment, and the communication module 12 can be wirelessly connected to the mobile device 2 . The mobile device 2 in this embodiment is a mobile phone and includes a computing module 21 , a memory module 22 , and a transmission module 23 . In practice, the computing module 21 may be a central processing unit (CPU) or a microprocessor (MCU), the memory module 22 is a memory, and the transmission module 23 is a network communicator.

In other words, the wearing detection component 100 must have at least the heart rate detection module 11 , the computing module 21 , the memory module 22 , and the transmission module 23 , without limitation. It is a single device (such as a smart heart rate detection bracelet with network transmission) or multiple devices (such as a component composed of a heart rate detection patch, a network transmission transmitter, and a computing device).

Referring back to FIG. 1 and FIG. 3 , the detection step S105 is implemented: using the wearing detection component 100 to detect a heart rate information IH of the rehabilitation person P, the heart rate information IH is the rehabilitation Person P's actual heart rate per minute. Specifically, the wearing detection component 100 can detect the number of heartbeats per minute of the rehabilitation person P and the corresponding actual time. For example, when the rehabilitated person P climbs the stairs at three o'clock in the afternoon, resulting in a heart rate of ninety beats at the moment, the wearing detection component 100 can detect the heart rate detection module 11 through the heart rate detection module 11 . The actual heart rate of the rehabilitated person P at three o'clock in the afternoon is ninety beats and recorded in the memory module 22 .

As shown in FIG. 1 and FIG. 5 , the safety step S107 is implemented to detect whether the actual heart rate of the heart rate information IH is less than 50 times. If so, a safety sub-step S107A is performed: using the wear detection component 100 to issue a warning WR.

Specifically, if the heart rate of the human body is less than 50 beats per minute, most of the human body will experience discomfort symptoms, such as weakness, dizziness, fainting and other symptoms. That is to say, when the wearing detection component 100 detects that the actual heart rate of the rehabilitated person P is lower than 50 times, the wearing detection component 100 can emit the light, sound and text message. The alert WR informs the rehabilitated person P, and at the same time sends the alert WR to other devices or personnel through its transmission module 23 , such as medical ambulance units or family members, so that the informed person can perform subsequent emergency treatment.

1 and FIG. 6 , the calculation step S109 is performed: using the time and the time unit of the actual heart rate frequency of the heart rate information IH to reach the target heart rate GH frequency interval and the time unit to calculate a heart rate percentage data PH. Specifically, when the computing module 21 detects from the memory module 22 that the actual number of heartbeats in the heart rate information IH is within the number of times interval, the computing module 21 will determine the heart rate information according to the heart rate information. The maintenance time of the actual number of heartbeats of the IH is calculated with the time unit, so as to calculate the heart rate percentage data PH.

For example, when the computing module 21 detects the heart rate information IH from the memory module 22 in the time period from midnight to this moment, the actual number of heartbeats of the heart rate information IH is accumulated. When there are 24 minutes in the time interval so far, the computing module 21 will divide the 24 minutes by the time unit of 30 minutes and multiply it by the percentage, so as to obtain 80% of the total number of minutes. The heart rate percentage data PH.

Implement the judging step S111 : judging whether the heart rate percentage data PH is equal to 100%. If yes, perform an uploading sub-step S111A: upload the heart rate information IH and the heart rate percentage data PH to a cloud device 200, and then perform the sharing step S113. If not, a warning and uploading step S111B is performed: the wear detection component 100 issues the warning WR, and uploads the heart rate information IH and the heart rate percentage data PH to the cloud device 200 .

Specifically, as shown in FIG. 3 , FIG. 7 and FIG. 8 , the wearing detection component 100 will confirm whether the heart rate percentage data PH device just reaches 100%, and transmit it to the cloud through its transmission module 23 The device 200 is stored so that the doctor D can learn about the rehabilitation situation of the rehabilitated person P later. Further, when the wearing detection component 100 finds that the heart rate percentage data PH is greater than 110% during the comparison process, the wearing detection component 100 will issue the warning WR which is an over-rehabilitation warning, so as to inform all The amount of cardiorespiratory rehabilitation of the rehabilitated person P today has exceeded the target heart rate GH, which may cause the body to be unable to load and cause adverse effects. When the wearing detection component 100 finds that the heart rate percentage data PH is less than 80% during the comparison process, the wearing detection component 100 issues the warning WR as a lack of rehabilitation warning, so as to inform the rehabilitation Person P's cardiopulmonary rehabilitation volume today has not yet reached the target heart rate GH, and needs to continue to work hard to achieve the ideal cardiopulmonary rehabilitation effect.

3 and FIG. 8 , the sharing step S113 is implemented: using the cloud device 200 to send the heart rate percentage data PH to an interactive device 300 , and the interactive device 300 sends an encouragement according to the heart rate percentage data PH Notify EN. Specifically, the interactive device 300 is used for viewing and encouraging use by the family members or caregivers of the rehabilitated person P. In practice, the interactive device 300 is a network connected to the cloud device 200 . The mobile phone, the wear detection component 100 sends the heart rate percentage data PH to the interactive device 300 through the cloud device 200, so that the holder of the interactive device 300 can know the rehabilitated person P in real time Cardiopulmonary rehabilitation situation, so that the encouragement notification EN is sent to the wearable rehabilitation component 100, so that the rehabilitation person P can have more rehabilitation motivation through the encouragement notification EN, or encourage the rehabilitation Only do moderate rehabilitation and not excessive rehabilitation. Of course, the encouragement notification EN is not limited to texts, pictures, images, and sounds, and in other embodiments not shown, the wearable rehabilitation component 100 can also directly send the message through its transmission module 23 . The heart rate percentage data PH is sent to the interactive device 300 .

[Second Embodiment]

As shown in FIG. 9 and FIG. 12 , which are the second embodiment of the present invention, this embodiment is similar to the above-mentioned first embodiment, and the similarities between the two embodiments will not be repeated. The main difference between the above-mentioned first embodiment is that the method of the second embodiment further adds blood oxygen saturation information and data, and further includes an integration step S115'.

That is to say, compared with the first embodiment, the second embodiment adds blood oxygen saturation, so that the rehabilitated person P has more complete and accurate cardiopulmonary rehabilitation information. It should be noted that, in order to make the description more concise and easy to understand, the flow description about the heart rate is omitted in the schematic flowchart of FIG. 9 , but the second embodiment includes the functions and methods related to the heart rate of the first embodiment.

As shown in FIG. 9 , FIG. 11 and FIG. 12 , the evaluation step S101 ′ is implemented: a target blood oxygen level that can achieve a rehabilitation effect is further evaluated based on the physiological characteristics of the rehabilitated person P (as shown in FIG. 4 ). Saturation GO, the target blood oxygen saturation includes the blood oxygen saturation and time that the rehabilitated person P needs to reach. Specifically, the target blood oxygen saturation GO is evaluated by the professional doctor D as to how much percentage and how long the blood oxygen saturation of the rehabilitated person P needs to be maintained, so that the rehabilitation can be performed. Person P achieves the effect of cardiopulmonary rehabilitation. For the convenience of explanation, the following target blood oxygen saturation is maintained for 30 minutes a day and the blood oxygen saturation is at least over 95% as an example, but the present invention is not limited to this. contained in the examples.

Implement the setting step S103': preset the target blood oxygen saturation GO to the wear detection component 100. Specifically, the rehabilitated person P can operate the mobile device 2 wearing the detection component 100 to preset the target blood oxygen saturation level GO. Further, as shown in FIG. 10 , the detection bracelet 1 of the wearing detection component 100 further has a blood oxygen saturation detection module 13 in this embodiment, so as to detect the rehabilitation Person P's oxygen saturation.

The detection step S105' is performed: the wear detection component 100 is used to detect a piece of blood oxygen saturation information 10 of the rehabilitated person P. Specifically, the wearing detection component 100 can detect the blood oxygen saturation of the rehabilitated person P and the corresponding actual time. For example, when the rehabilitated person P goes for a walk in the park at 8:00 pm and deliberately increases the breathing volume to increase the blood oxygen saturation to 97%, the wearing detection component 100 can pass the blood oxygen saturation detection. The measurement module 13 detects that the actual blood oxygen saturation of the rehabilitated person P at 8:00 pm is 97%, and records it in the memory module 22 .

Implement the security step S107': detect whether the actual blood oxygen saturation of the blood oxygen saturation information IO is less than 90% or suddenly drop by 3%; if so, implement a security sub-step S107A': use the wear detection The detection component 100 issues the warning WR. Specifically, the normal value of the blood oxygen saturation of the human body is about 95%, and when the blood oxygen saturation is less than 90% or suddenly drops by more than 3% from the normal value, the human body will experience weakness, dizziness, poor breathing, and rapid heartbeat. , dizziness and other symptoms. That is to say, when the wearing detection component 100 detects whether the actual blood oxygen saturation of the rehabilitated person P is less than 90% or suddenly drops by 3%, the wearing detection component 100 can send out the The alert WR is notified to the rehabilitated person, and at the same time, the alert WR is sent to other devices or personnel through its transmission module 23 for subsequent emergency treatment. It should be noted that, the warning WR in the safety step S107' is substantially similar to the schematic diagram of FIG. 5 .

11 and 12, the calculation step S109' is performed: comparing the blood oxygen saturation information IO and the target blood oxygen saturation GO and calculating a blood oxygen saturation percentage data PO. Specifically, when the computing module 21 detects from the memory module 22 that the actual blood oxygen saturation in the blood oxygen saturation information 10 exceeds 95%, the computing module 21 will The maintenance time of the actual blood oxygen saturation of the blood oxygen saturation information IO and the time of the target blood oxygen saturation GO are calculated, so as to calculate the blood oxygen saturation percentage data PO.

For example, when the computing module 21 detects the blood oxygen saturation information 10 from the memory module 22 in the time period from midnight to this moment, the blood oxygen saturation information When the actual blood oxygen saturation of 10 has accumulated to a total of 15 minutes and is more than 95%, the computing module 21 will divide the 15 minutes into the time unit of 30 minutes and multiply it by the percentage to obtain is 50% of the oxygen saturation percentage data PO.

The judging step S111' is performed: judging whether the blood oxygen saturation percentage data PO is equal to 100%. If so, perform an uploading sub-step S111A': upload the blood oxygen saturation information 10 and the blood oxygen saturation percentage data PO to the cloud device 200, and then perform the sharing step S113'. If not, perform a sub-step S111B' of uploading and warning: use the wear detection component 100 to issue the warning WR, and upload the blood oxygen saturation information IO and the blood oxygen saturation percentage data PO to the The cloud device 200 is described above.

Specifically, the wearing detection component 100 will confirm whether the blood oxygen saturation percentage data PO has just reached 100%, and transmit it to the cloud device 200 through its transmission module 23 for storage, so as to be used by the doctor D follow-up to learn about the rehabilitation situation of the rehabilitated person P. Further, when the wearing detection component 100 finds that the blood oxygen saturation percentage data PO is less than 80% during the comparison process, the wearing detection component 100 issues the warning WR as a lack of rehabilitation warning, thereby Inform the rehabilitated person P that the amount of cardiopulmonary rehabilitation today has not yet reached the target blood oxygen saturation GO, and needs to continue to work hard to achieve an ideal cardiopulmonary rehabilitation effect, and then implement the sharing step S113' and the integration at the same time. Step S115'.

Implement the sharing step S113 ′: use the cloud device 200 to send the blood oxygen saturation percentage data PO to the interactive device 300 , and the interactive device 300 sends the encouragement according to the blood oxygen saturation percentage data PO Notify EN. Specifically, the wearing detection component 100 sends the blood oxygen saturation percentage data PO to the interactive device 300 through the cloud device 200 , so that the holder of the interactive device 300 can instantly know the Cardiopulmonary rehabilitation status of the rehabilitated person P, so as to send the encouragement notification EN to the wearing rehabilitation component 100, so that the rehabilitated person P can have more rehabilitation motivation through the encouragement notification EN, or The rehabilitator is encouraged to perform only moderate rehab and not excessive rehab.

The integration step S115' is implemented: the blood oxygen saturation information 10 and the heart rate information IH obtained at the same time point are integrated into an evaluation value for the doctor D to adjust the target heart rate GH and the target Blood oxygen saturation GO. Specifically, the evaluation value is used to further confirm whether the current cardiopulmonary rehabilitation of the rehabilitated person P needs to be adjusted.

[Technical effects of the embodiments of the present invention]

To sum up, one of the beneficial effects of the present invention is that the cardiopulmonary rehabilitation method provided by the present invention can obtain the heart rate percentage data PH by calculating the heart rate information IH and the target heart rate GH. And the technical solution of "judging whether the heart rate percentage data PH is equal to 100%", so that the rehabilitator can know the current rehabilitation situation and whether the rehabilitation progress reaches the standard.

Further, the present invention can further add “the blood oxygen saturation percentage data PO calculated from the blood oxygen saturation information IO and the target blood oxygen saturation GO” and “judging the blood oxygen saturation The technical solution of whether the percentage data PO is equal to 100%” makes the information of cardiopulmonary rehabilitation more complete, so that the rehabilitation person can better understand the current rehabilitation situation and whether the rehabilitation progress is up to standard.

The content disclosed above is only a preferred feasible embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, any equivalent technical changes made by using the contents of the description and drawings of the present invention are included in the application of the present invention. within the scope of the patent.

100: Wear Detection Kit 1: Detection bracelet 11: Heart rate detection module 12: Communication module 13: Blood oxygen saturation detection module 2: Mobile Devices 21: Operation module 22: Memory Module 23: Transmission module 200: Cloud Device 300: Interactive Installation GH: target heart rate P: Rehabilitation D: doctor IH: Heart Rate Information PH: Heart rate percentage data GO: target blood oxygen saturation WR: Warning IO: blood oxygen saturation information PO: blood oxygen saturation percentage data en:Notice of encouragement S101~S113, S107A, S111A, S111B: Steps S101'~S113', S107A', S111A', S111B', S115': Steps

FIG. 1 is a schematic block diagram of a flow chart of a cardiopulmonary rehabilitation method according to a first embodiment of the present invention.

FIG. 2 is a schematic circuit block diagram of the wear detection component, the cloud device and the interactive device according to the first embodiment of the present invention.

FIG. 3 is a schematic flowchart of the cardiopulmonary rehabilitation method according to the first embodiment of the present invention.

FIG. 4 is a schematic diagram of the state of the rehabilitated person using the wearing detection component according to the first embodiment of the present invention.

FIG. 5 is a schematic diagram of the state of the wearable detection component in the first embodiment of the present invention when a warning is displayed when the heart rate is too low.

6 is a schematic diagram of the state of the wearing detection component showing the progress of cardiopulmonary rehabilitation according to the first embodiment of the present invention.

FIG. 7 is a schematic diagram of the state of the wearing detection component when the cardiopulmonary rehabilitation progress is excessive according to the first embodiment of the present invention.

FIG. 8 is a schematic diagram showing the state of the wearing detection component when the progress of cardiopulmonary rehabilitation is not up to the standard according to the first embodiment of the present invention.

9 is a schematic block diagram of a flow chart of a cardiopulmonary rehabilitation method according to a second embodiment of the present invention.

FIG. 10 is a schematic circuit block diagram of the wear detection component, the cloud device and the interactive device according to the second embodiment of the present invention.

11 is a schematic flowchart of a cardiopulmonary rehabilitation method according to a second embodiment of the present invention.

FIG. 12 is a schematic diagram of the state of the wearing detection component showing the progress of cardiopulmonary rehabilitation according to the second embodiment of the present invention.

S101~S113, S107A, S111A, S111B: Steps

Claims (9)

A method of cardiopulmonary rehabilitation comprising the following steps: Implementing an evaluation step: obtaining the physiological characteristics of a rehabilitated person to evaluate a target heart rate that can achieve a rehabilitative effect, and the target heart rate is an interval of the number of times the rehabilitated person's heart rate needs to maintain the number of heartbeats within a time unit ; Wherein, the total distance of the times interval is less than 30 times; Implementing a setting step: presetting the target heart rate to a wearable detection component; Implementing a detection step: using the wearable detection component to detect a heart rate information of the rehabilitated person, the heart rate information being the actual heart rate of the rehabilitated person per minute; Implementing a calculation step: calculating a heart rate percentage data by using the time between the actual heart rate times of the heart rate information to reach the target heart rate frequency interval and the time unit; Implement a judgment step: judging whether the heart rate percentage data is equal to 100%; if so, upload the heart rate information and the heart rate percentage data to a cloud device; if not, the wear detection device issues a warning and uploads all The heart rate information and the heart rate percentage data are sent to the cloud device. The cardiopulmonary rehabilitation method according to claim 1, wherein, in the judging step, when the heart rate percentage data is greater than 110%, the warning issued by the wearing detection device is an over-rehabilitation warning; When the heart rate percentage data is less than 80%, the warning issued by the wearing detection device is a lack of rehabilitation warning. The cardiopulmonary rehabilitation method according to claim 2, wherein the warning is light, sound and text message. The cardiopulmonary rehabilitation method according to claim 1, wherein, after the determining step, the cardiopulmonary rehabilitation method further includes implementing a sharing step, using the cloud device to send the heart rate percentage data to an interactive device , the interactive device can send an encouragement notification according to the heart rate percentage data. The cardiopulmonary rehabilitation method according to claim 1, wherein, after the detecting step, the cardiopulmonary rehabilitation method further includes a safety step of detecting whether the actual heart rate of the heart rate information is less than 50 times; , the wearing detection device issues the warning. The cardiopulmonary rehabilitation method according to claim 1, wherein, in the evaluating step, a target blood oxygen saturation level that can achieve a rehabilitation effect is further evaluated based on the physiological characteristics of the rehabilitated person, and the target blood oxygen saturation The oxygen saturation is the blood oxygen saturation that the rehabilitated person needs to achieve; in the detection step, the wearable detection component is used to detect a piece of blood oxygen saturation information of the rehabilitated person; In the calculation step, compare the blood oxygen saturation information with the target blood oxygen saturation and calculate a blood oxygen saturation percentage data; in the judgment step, determine whether the blood oxygen saturation percentage data is equal to 100% ; if yes, upload the blood oxygen saturation information and the blood oxygen saturation percentage data to the cloud device; if not, the wear detection device issues the warning, and upload the blood oxygen saturation information and The blood oxygen saturation percentage data is sent to the cloud device. The cardiopulmonary rehabilitation method according to claim 6, wherein, after the determining step, the cardiopulmonary rehabilitation method further includes implementing an integration step to obtain the blood oxygen saturation information and all the information at the same time point. The heart rate information is integrated into an evaluation value for the physician to adjust the target heart rate and the target blood oxygen saturation. The cardiopulmonary rehabilitation method of claim 6, wherein after the detecting step, the cardiopulmonary rehabilitation method further includes a safety step of detecting whether the actual blood oxygen saturation of the blood oxygen saturation information is less than 90% or a sudden drop of 3%; if so, the wear detection device will issue the warning. The cardiopulmonary rehabilitation method according to claim 6, wherein, after the determining step, the cardiopulmonary rehabilitation method further includes implementing a sharing step, using the cloud device to send the blood oxygen saturation percentage data to an interactive device capable of sending an encouragement notification according to the blood oxygen saturation percentage data.

Images