CN205126234U - Breathe monitor sensor and breathe bootstrap system - Google Patents

Abstract

The utility model discloses a breathe monitor sensor and breathe bootstrap system, breathe the bootstrap system including breathing monitor sensor, data analysis system, main control unit, display device and breathing guiding device, it all is connected with the main control unit electricity to breathe monitor sensor, data analysis system, display device and breathing guiding device, breathe monitor sensor including monitoring foil gage and control circuit, the detection circuit is used for gathering the surperficial power of skin that causes of breathing to be changed or the displacement data, and control circuit is used for handling the data that every detection circuit of monitoring the foil gage was gathered, it includes pronunciation bootstrap system or light guiding device to breathe guiding device. The utility model discloses the law of motion can be breathed according to the patient who monitors to affiliated scheme, and active ground self -adaptation guide patient tends to normal breathing, and it is undulant to reduce the respiratory nondeterminacy of patient, improves the quality of treatment.

Description

A kind of monitoring of respiration sensor and breathing guidance system

Technical field

This utility model relates to field of medical device, specifically a kind of monitoring of respiration sensor for monitoring of respiration and breathing guidance system.

Background technology

Radiotherapy is from roentgen in 1895 finds after X-ray, and along with the development of medical skill, radiotherapy becomes the development trend of current oncotherapy, one of important method becoming oncotherapy.A large amount of clinical datas shows, after scientific and rational radiotherapy, the survival rate of tumor patient significantly improves, and the life-span is effectively extended.Along with the development of image technology, precision machinery technology, radiation biological technology, subject such as radiation physical technique, clinic application etc., radiotherapy technology is also from the elementary radiotherapy of the fifties, develop into conventional radiotheraphy, developing deeply is to conformal therapy technology, intensity modulated radiation therapy technology, and the image of advanced person guides accurate radiotherapy technology.

And radiotherapy is for tumor patient, due to more or less fear can be there is when accepting radiotherapy in patient, have the uncertainty fluctuation of breathing unavoidably, radiotherapy for dynamic target area patient just causes larger uncertainty impact, as the solution of the problems such as Target localization, target area tracking.Therefore, respiratory gating technology has also just become a kind of technological means conventional in radiotherapy.Although the radiotherapy technology that some images guide and equipment, respiratory gating technology can not be adopted, as Cyberknife system, but its equipment is expensive, be unfavorable for promoting, the image guidance mode simultaneously adopted requires that real-time is high, and patient is once occur larger respiration wave, just can cause the reformulating for the treatment of plan, patient puts position again or treatment stops, and greatly can affect the quality of therapeutic efficiency and treatment.The mode of a class and the many employings of existing respiratory gating technology " are held one's breath ", having mandatory for patient, can strengthen the sense of discomfort of patient and uncomfortable property, is not a kind of technology of hommization after all.

In addition, in the intervention surgical operation of some local anesthesia, such as regional liver, renal artery melt, arteries thromboembolism etc., respiratory movement can cause the wriggling of organ, blood vessel etc., it is unfavorable to bring for treatment, if patient now can be guided to realize regular eupnea, treatment is implemented for patient and can bring certain help.But in present intervention class surgery systems, and apnea guides kind equipment and device.

Summary of the invention

In order to overcome the deficiencies in the prior art, the utility model proposes a kind of monitoring of respiration sensor and breathe guidance system, can according to the patient respiratory laws of motion monitored, active ground self adaptation guides patient to be tending towards eupnea, improve the quality for the treatment of, reduce the uncertainty fluctuation of patient respiratory.

The purpose of this utility model is achieved through the following technical solutions:

A kind of monitoring of respiration sensor, comprises monitoring foil gauge and control circuit; Monitoring foil gauge comprises laterally monitors foil gauge, oblique monitoring foil gauge and Longitudinal Surveillance foil gauge, described monitoring foil gauge includes edge adhesive band and sensing circuit, edge adhesive band is arranged on sensing circuit outer rim, edge adhesive band is used for by strain gauge adhesion at patient chest abdomen skin surface, and sensing circuit is used for gathering the power of breathing the skin surface caused to be changed or change in displacement data; Described sensing circuit is connected with telecommunication between control circuit, the data that control circuit gathers for the treatment of the sensing circuit of each monitoring foil gauge.

In monitoring of respiration sensor plan described in the utility model, described transverse direction monitoring foil gauge is preferably pasted along patient width direction, Longitudinal Surveillance foil gauge is preferably pasted along patient's length direction, oblique monitoring foil gauge becomes the direction of a fixed inclination to paste along monitoring foil gauge with transverse direction with Longitudinal Surveillance foil gauge respectively, preferably becomes 45 directions, oblique angle; Further, during human body respiration, the motion amplitude of pleuroperitoneal membrane place is larger, respirometric performance is comparatively obvious, in order to improve the precision of monitoring of respiration, preferably laterally monitoring foil gauge, Longitudinal Surveillance foil gauge and oblique monitoring foil gauge and being all attached on the surface skin of patient chest abdominal part barrier film corresponding position.

A kind of breathing guidance system, comprises monitoring of respiration sensor, data analysis system, master controller, display device and breathing guiding device; Described monitoring of respiration sensor, data analysis system, display device and breathing guiding device are all electrically connected with master controller; Described monitoring of respiration sensor comprises monitoring foil gauge and control circuit, monitoring foil gauge comprises laterally monitors foil gauge, oblique monitoring foil gauge and Longitudinal Surveillance foil gauge, described monitoring foil gauge includes edge adhesive band and sensing circuit, edge adhesive band is used for strain gauge adhesion at patient chest abdomen skin surface, sensing circuit is used for gathering the power change or change in displacement data of breathing the skin surface caused, the data that control circuit gathers for the treatment of the sensing circuit of each monitoring foil gauge; Described breathing guiding device comprises light to guide article device or/and voice guide system.

In such scheme, described light to guide article device comprises one group of electroluminescent lamp, mounting bracket and guide controller, and described one group of electroluminescent lamp is arranged at the side of installation frame; Described guide controller is arranged on mounting bracket opposite side or is arranged in the master controller of breathing guidance system, and described guide controller controls one group of electroluminescent lamp according to control law continuous luminous, breathes according to light Changing Pattern for guiding patient.

In such scheme, described control law is control law that the is a kind of and adaptive change of patient's eupnea rule, this self adaptation relation is specially: the respiratory frequency that control law exports and normal respiratory rate exponent function relation, adaptation coefficient is provided with in exponential relationship, the method that its value is determined is: when patient's current breathing rule compared with normal breathing rule difference is larger, time as too fast in current breath frequency compared with normal respiratory frequency or excessively slow, the absolute value of the adaptation coefficient between control law and breathing rule is larger, patient can be guided to tend to eupnea rule as early as possible, when patient's current breathing rule compared with normal breathe rule close to time, control law and breathe the adaptation coefficient between rule absolute value close to 1, be tending towards eupnea rule further while now guiding patient to keep this breathing rule.

In such scheme, described adaptation coefficient is obtained according to the difference operation between current respiratory movement rule and eupnea rule by adaptation coefficient arithmetical unit.

In such scheme, the preferred a kind of frame of described mounting bracket, directly can be worn on eye.

In such scheme, described one group of electroluminescent lamp preferably 6 dual-colored LED lamps, line up yi word pattern oblique line, have the sensation that gradual change is risen; When 6 dual-colored LED lamps with the first light color along gradual change ascent direction successively bright light, be used to indicate breathing process; On the contrary, the opposite direction risen along gradual change with the second light color when 6 dual-colored LED lamps is turned off the light successively, is used to indicate exhalation process.

In such scheme, described voice guide system preferably includes a voice-output device and earphone, and voice-output device is used for providing voice messaging to patient, and earphone is used for the information that patient listens to voice-output device.

The beneficial effects of the utility model are:

(1) adopt multiple monitoring foil gauge as the data acquisition end of respiration pickup, the reliability of data acquisition improves, even if there is a foil gauge to occur drift and data distortion phenomenon, and the verity affecting data that also can not be larger; There is edge adhesive band at described monitoring foil gauge simultaneously, directly can be pasted onto patient body-surface, eliminate and dress vest etc.;

(2) breathing guidance system comprises the respiration pickup for data acquisition, data analysis system, master controller and breathing guiding device, guide from the monitoring of respiration of patient to final breathing, constitute a closed loop feedback system, improve the precision of breathing and guiding and controlling, and its " guiding " is the boot policy of a kind of self adaptation patient eupnea, for effectively controlling patient respiratory in normal respiratory rate state minor fluctuations, and do not force or affect the breathing of patient, it is a kind of adaptation for patient, and it is optional, a kind of by the human oriented design of " centered by patient ", it has obviously act on for improving treatment of dynamic target tumor and respiratory movement model analysis precision,

(3) adopt the bi-colour light of one group of yi word pattern slant arrangements, according to the mode of light and color-grading as the designated symbol guided, can instruction patient clearly tend to breathe rule normally.

Accompanying drawing explanation

Fig. 1 is a kind of monitoring of respiration sensor construction schematic diagram described in the utility model.

Fig. 2 is a kind of block diagram of system breathing guidance system described in the utility model.

Fig. 3 described in the utility modelly a kind ofly breathes the schematic diagram that guiding device is the embodiment of light to guide article device.

In figure, the implication of numeral is:

1: monitoring foil gauge; 11: laterally monitor foil gauge; 12: oblique monitoring foil gauge; 13: Longitudinal Surveillance foil gauge; 111,121,131: edge adhesive band; 112,122,132: sensing circuit; 2: control circuit; 3: electroluminescent lamp; 4: frame.

Specific embodiment

Be described in further detail this utility model below in conjunction with drawings and Examples, but this utility model is not limited only to described embodiment.

Embodiment one

As shown in Figure 1, a kind of monitoring of respiration sensor, comprises monitoring foil gauge 1 and control circuit 2, monitoring foil gauge comprises laterally monitoring foil gauge 11, oblique monitoring foil gauge 12 and Longitudinal Surveillance foil gauge 13, described laterally monitoring foil gauge 11 includes edge adhesive band 111 and sensing circuit 112, edge adhesive band 111 is arranged on sensing circuit 112 outer rim, described oblique monitoring foil gauge 12 includes edge adhesive band 121 and sensing circuit 122, edge adhesive band 121 is arranged on sensing circuit 122 outer rim, described Longitudinal Surveillance foil gauge 13 includes edge adhesive band 131 and sensing circuit 132, it is inner that edge adhesive band 131 is arranged on sensing circuit 132, edge adhesive band is used for strain gauge adhesion at patient chest abdomen skin surface, sensing circuit is used for gathering the power of breathing the skin surface caused to be changed or change in displacement data, between described sensing circuit with control circuit 2, telecommunication is connected, the data that control circuit 2 gathers for the treatment of the sensing circuit of each monitoring foil gauge.

During human body respiration, the motion amplitude of pleuroperitoneal membrane place is larger, respirometric performance is comparatively obvious, the present embodiment is in order to improve the precision of monitoring of respiration, preferred laterally monitoring foil gauge 11, Longitudinal Surveillance foil gauge 13 and oblique monitoring foil gauge 12 are all attached on the surface skin of patient chest abdominal part barrier film corresponding position, and laterally monitoring foil gauge 11 is pasted along patient width direction, Longitudinal Surveillance foil gauge is preferably pasted along patient's length direction, and oblique monitoring foil gauge becomes the direction at 45 oblique angles to paste along monitoring foil gauge with transverse direction with Longitudinal Surveillance foil gauge respectively.

Embodiment two

The present embodiment as shown in Figure 2, a kind of breathing guidance system, comprise monitoring of respiration sensor, data analysis system, master controller, display device and breathing guiding device, described monitoring of respiration sensor, data analysis system, display device and breathing guiding device are all electrically connected with master controller.

Described monitoring of respiration sensor as shown in Figure 1, comprise monitoring foil gauge 1 and control circuit 2, power change or change in displacement data in order to allow monitoring of respiration sensor collect the skin surface that patient respiratory causes better in the present embodiment, and reduce the probability of data distortion, monitoring foil gauge is set to 3, be respectively laterally monitoring foil gauge 11, oblique monitoring foil gauge 12 and Longitudinal Surveillance foil gauge 13, described monitoring foil gauge includes edge adhesive band and sensing circuit, edge adhesive band is arranged on sensing circuit outer rim, edge adhesive band is used for strain gauge adhesion at patient chest abdomen skin surface, sensing circuit is used for gathering the power of breathing the skin surface caused to be changed or change in displacement data, between sensing circuit with control circuit 2, telecommunication is connected, the data that control circuit 2 gathers for the treatment of the sensing circuit of each monitoring foil gauge, further, during human body respiration, the motion amplitude of pleuroperitoneal membrane place is larger, respirometric performance is comparatively obvious, in order to improve the precision of monitoring of respiration, preferred laterally monitoring foil gauge 11, Longitudinal Surveillance foil gauge 13 and oblique monitoring foil gauge 12 are all attached on the surface skin of patient chest abdominal part barrier film corresponding position, and paste laterally monitoring foil gauge 11 along patient width direction, Longitudinal Surveillance foil gauge 13 is pasted along patient's length direction, and oblique monitoring foil gauge 12 becomes 45 directions, oblique angle to paste along monitoring foil gauge with transverse direction with Longitudinal Surveillance foil gauge respectively.

Breathing guiding device described in the present embodiment comprises voice guide system and light to guide article device, wherein voice guide system comprises a voice-output device and earphone, voice-output device is used for providing voice messaging to patient, and earphone is used for the information that patient listens to voice-output device; Light to guide article device comprises one group of electroluminescent lamp 3, mounting bracket and guide controller, and described one group of electroluminescent lamp 3 is arranged at the side of installation frame; Described guide controller is arranged on mounting bracket opposite side or is arranged in the master controller of breathing guidance system, and described guide controller controls one group of electroluminescent lamp according to control law continuous luminous, breathes according to light Changing Pattern for guiding patient.

In the present embodiment, described mounting bracket is set to a kind of frame 4, as shown in Figure 3, directly can be worn on eye, is convenient to the change of electroluminescent lamp in the direct observation lamp light guide system of patient.Further, in order to more significantly carry out patient respiratory guiding, 6 dual-colored LED lamps selected by one group of described electroluminescent lamp 3, line up yi word pattern oblique line, have the sensation that gradual change is risen; When 6 dual-colored LED lamps with the first light color along gradual change ascent direction successively bright light, be used to indicate breathing process; On the contrary, the opposite direction risen along gradual change with the second light color when 6 dual-colored LED lamps is turned off the light successively, is used to indicate exhalation process.

In the present embodiment, the control law of light guidance system is set to control law that the is a kind of and adaptive change of patient's eupnea rule, this self adaptation relation is specially: the respiratory frequency that control law exports and normal respiratory rate exponent function relation; Adaptation coefficient is provided with in this exponential relationship, its control trend is: when patient's current breathing rule compared with normal breathing rule difference is larger, time as too fast in current breath frequency compared with normal respiratory frequency or excessively slow, the absolute value of the adaptation coefficient between control law and breathing rule is comparatively large, and patient can be guided to tend to eupnea rule as early as possible; When patient's current breathing rule compared with normal breathe rule close to time, control law and breathe the adaptation coefficient between rule absolute value close to 1, be tending towards eupnea rule further while now guiding patient to keep this breathing rule; Described adaptation coefficient is obtained according to the difference operation between current respiratory movement rule and eupnea rule by adaptation coefficient arithmetical unit.

In the present embodiment, when patient occurs that significantly respiration wave or patient want to carry out information communication with medical personnel, can be linked up by voice guide system.

The breathing guidance system of the present embodiment comprises the respiration pickup for data acquisition, data analysis system, master controller and breathing guiding device, guide from the monitoring of respiration of patient to final breathing, constitute a closed loop system, and its " guiding " is the boot policy of a kind of self adaptation patient eupnea, for effectively controlling patient respiratory in normal respiratory rate state minor fluctuations, and do not force or affect the breathing of patient, it is a kind of adaptation for patient, and it is optional, a kind of by the human oriented design of " centered by patient ", it has obviously act on for improving treatment of dynamic target tumor and respiratory movement model analysis precision.

The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all make within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (6)

1. a monitoring of respiration sensor, is characterized in that: comprise monitoring foil gauge (1) and control circuit (2); Monitoring foil gauge comprises laterally monitors foil gauge (11), oblique monitoring foil gauge (12) and Longitudinal Surveillance foil gauge (13), described monitoring foil gauge includes edge adhesive band and sensing circuit, edge adhesive band is arranged on sensing circuit inside, edge adhesive band is used for by strain gauge adhesion at patient chest abdomen skin surface, and sensing circuit is used for gathering the power of breathing the skin surface caused to be changed or change in displacement data; Described sensing circuit is connected with telecommunication between control circuit, the data that control circuit (2) gathers for the treatment of the sensing circuit of each monitoring foil gauge.

2. according to monitoring of respiration sensor according to claim 1, it is characterized in that: described laterally monitoring foil gauge is pasted along patient width direction, Longitudinal Surveillance foil gauge is pasted along patient's length direction, and oblique monitoring foil gauge becomes the direction of a fixed inclination to paste along monitoring foil gauge with transverse direction with Longitudinal Surveillance foil gauge respectively; And described transverse direction is monitored foil gauge (11), Longitudinal Surveillance foil gauge (13) and oblique monitoring foil gauge (12) and is attached to patient respiratory athletic performance comparatively significantly position, skin surface as corresponding in pleuroperitoneal membrane.

3. breathe a guidance system, comprise monitoring of respiration sensor, data analysis system, master controller, display device and breathing guiding device; Described monitoring of respiration sensor, data analysis system, display device and breathing guiding device are all electrically connected with master controller; Described monitoring of respiration sensor comprises monitoring foil gauge and control circuit, monitoring foil gauge comprises laterally monitors foil gauge, oblique monitoring foil gauge and Longitudinal Surveillance foil gauge, described monitoring foil gauge includes edge adhesive band and sensing circuit, edge adhesive band is used for strain gauge adhesion at patient chest abdomen skin surface, sensing circuit is used for gathering the power change or change in displacement data of breathing the skin surface caused, the data that control circuit gathers for the treatment of the sensing circuit of each monitoring foil gauge; Described breathing guiding device comprises light to guide article device or/and voice guide system; Described light to guide article device comprises one group of electroluminescent lamp (3), mounting bracket and guide controller; Described one group of electroluminescent lamp (3) is arranged at the side of installation frame, and guide controller is arranged on mounting bracket opposite side or is arranged in the master controller of breathing guidance system; Described guide controller controls one group of electroluminescent lamp (3) according to control law continuous luminous, breathes according to light Changing Pattern for guiding patient.

4. according to breathing guidance system according to claim 3, it is characterized in that: described mounting bracket is a kind of frame (4), directly can be worn on eye.

5. according to breathing guidance system according to claim 3, it is characterized in that: described one group of electroluminescent lamp (3) is 6 dual-colored LED lamps, lines up yi word pattern oblique line, has gradual change rising rule; When 6 dual-colored LED lamps with the first light color along gradual change ascent direction successively bright light, be used to indicate breathing process; On the contrary, the opposite direction risen along gradual change with the second light color when 6 dual-colored LED lamps is turned off the light successively, is used to indicate exhalation process.

6. according to breathing guidance system according to claim 3, it is characterized in that: described voice guide system comprises a voice-output device and earphone, voice-output device is used for providing voice messaging to patient, and earphone is used for the information that patient listens to voice-output device.