巴西专利BR112012001413B1 device to help cough

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专利摘要:
DEVICE FOR HELPING COUGHING, METHOD OF HELPING COUGHING AND COMPUTER PROGRAM USED IN A METHOD OF HELPING COUGHING The invention features a device (11) for assisting coughing, based on an oscillating pressure. The oscillating pressure causes a periodic oscillating air flow in a pulmonary system and the periodic oscillating air flow comprises an oscillating exhalation air flow and an inhalation air flow. The device (10) comprises a control unit (11), and the control unit (11) comprises: - a first determining unit (111) for determining whether an inhalation of the pulmonary system is complete, so as to control a valve (13) which must be closed to isolate the pulmonary system from the external environment, - a second determination unit (112) to determine whether an internal air pressure in the pulmonary system is greater than a predefined pressure threshold, and - the unit detection (113) for detecting the beginning of the exhalation air flow oscillation, so as to control the valve (13) which must be opened to initiate a cough.
公开号:BR112012001413B1
申请号:R112012001413-7
申请日:2010-07-20
公开日:2021-05-18
发明作者:Maarten Leonardus Christian Brand；Sheng Jin
申请人:Koninklijke Philips N.V.；
IPC主号:

专利说明:

FIELD OF THE INVENTION
[001] The invention relates to a device and a method to help cough. FUNDAMENTALS OF THE INVENTION
[002] In some medical conditions, such as Chronic Obstructive Pulmonary Disease (COPD), Asthma, and Cystic Fibrosis (CF), an excessive volume of viscoelastic material called pulmonary mucus can accumulate in the patient's lungs. Excessive pulmonary mucus is known to cause serious problems due to an increased chance of lung infections, decreased lung function, reduced effect of inhaled medications, etc.
[003] The removal of excess pulmonary mucus, therefore, is extremely beneficial to the patient's health status. Typically, patients are instructed to cough in special ways (called a directed cough) or to breathe in special patterns (called a forced exhalation or huffing), but often both do not result in the desired effect.
[004] Currently, an oscillating device to aid cough is provided for patients with Cystic Fibrosis and Chronic Obstructive Pulmonary Disease in order to increase the removal of pulmonary mucus. Oscillation can be a swinging pressure of air transmitted to a lung through a mouth to cause the airways in the pulmonary system to oscillate. Oscillation can also be mechanical oscillation pressure transmitted to a lung through the rib cage and muscles such as High Frequency Chest Wall Oscillations (OAFPT).
[005] However, based on the current oscillation device, when the oscillation is generated in the airways of the pulmonary system, a periodic oscillation airflow is generated and the periodic oscillation airflow direction may be different from the flow direction of coughing air (exhalation) during coughing, which can make coughing more difficult. BRIEF DESCRIPTION OF THE INVENTION
[006] An object of this invention is to provide a device to help cough effectively.
[007] The device to help cough, based on the oscillating pressure, comprises a control unit. The oscillating pressure causes a periodic air flow in a pulmonary system and the oscillating periodic air flow comprises an oscillating exhalation air flow and an oscillating inhalation air flow. The control unit comprises:
[008] - a first unit of determination to determine whether an inhalation of the pulmonary system is complete, in order to control a valve that must be closed to isolate the pulmonary system from the external environment,
[009] - a second unit of determination to determine whether an internal air pressure in the pulmonary system is greater than a predefined pressure threshold, and
[0010] - a detection unit for detecting the beginning of the oscillating exhalation air flow, in order to control the valve that must be opened to start coughing.
[0011] The advantage is that the device of the invention can help to cough more effectively.
[0012] The invention also provides a method corresponding to the device to help cough. The invention further provides a computer program used in the method to help cough.
[0013] Detailed explanations and other aspects of the invention will be provided below. BRIEF DESCRIPTION OF THE DRAWINGS
[0014] The above and other objectives and characteristics of the present invention will become more evident from the following detailed description when considered in connection with the accompanying drawings, in which:
[0015] Figure 1 schematically shows a device for aiding coughing according to an embodiment of the invention;
[0016] Figure 2 is a diagram to illustrate the correlation between the velocity of an exhalation flow of a cough and time;
[0017] Figure 3 is a waveform to illustrate a correlation between the speed of an oscillating airflow and time;
[0018] Figure 4 schematically shows the mechanical oscillation pressure applied to a pulmonary system and an air pressure detected through a mouth according to an example of the invention;
[0019] Figure 5 schematically shows an air swing pressure applied to a pulmonary system through a mouth and an air pressure detected through a mouth according to another example of the invention;
[0020] Figure 6 is a flowchart to illustrate a method for aiding coughing according to an embodiment of the invention.
[0021] The same reference numerals are used to denote similar parts in all figures. DETAILED DESCRIPTION
[0022] Figure 1 schematically shows a device for aiding coughing according to an embodiment of the invention.
[0023] Device 10 is used to help cough, based on oscillating pressure. The device 10 comprises a control unit 11, an oscillation unit 12 for oscillating a pulmonary system to cause a periodic oscillating air flow in the pulmonary system, and a valve 13 controlled by the control unit 11, wherein the valve it must be open or closed to, respectively, connect the pulmonary system with the external environment through a mouth, or isolate the pulmonary system from the external environment.
[0024] The swing unit 12 can be integrated together with the control unit 11 and included in the device 10. For example, the swing unit 12 is an air swing pressure unit. The oscillating air pressure formed by the oscillating unit 12 is transmitted to the pulmonary system through a mouth to cause the airways of the pulmonary system to oscillate.
[0025] Alternatively, the oscillation unit 12 can be separate from the device 10, and not integral with the control unit 11. For example, the oscillation unit 12 is a mechanical pressure oscillation unit. Mechanical oscillation pressure is transmitted to the pulmonary system through the rib cage and muscles, such as, for example, High Frequency Chest Wall Oscillations (OAFPT).
The swing unit 12 generates a swing pressure (shown as PO in Figure 1) to oscillate the airways of the pulmonary system, and the swing pressure causes periodic air swing in the airways of the pulmonary system. The periodic oscillating air flow comprises an oscillating exhalation air flow and an oscillating inhalation air flow.
[0027] The control unit 11 comprises a first determination unit 111 for determining whether the inhalation of the pulmonary system is complete, so as to control the valve to be closed to isolate the pulmonary system from the external environment, a second determination unit 112 to determine whether an internal air pressure (shown as PAI in Figure 1) in the pulmonary system is greater than a predefined pressure threshold, and a detection unit 113 to detect the onset of an oscillating exhalation airflow (shown as FAEO in Figure 1) in order to control valve 13 which must be opened to initiate a cough.
[0028] The valve 13 may be integrated with the control unit 11 to be opened or closed based on the control action of the control unit 11. If the valve 13 is controlled to be closed based on a signal of closure (shown as SF in Figure 1) of the first unit of determination 111, the pulmonary system is isolated from the external environment and external air cannot be inhaled into the pulmonary system; if valve 13 is controlled to open based on an opening signal (shown as SA in Figure 1) from sensing unit 113, mucus and air (shown as A and M in Figure 1) in the airway of the pulmonary system can be coughed/exhaled to the external environment, and external air (shown as A in Figure 1) can be inhaled into the airways of the pulmonary system.
[0029] When the internal air pressure of the pulmonary system is higher than a predefined pressure threshold, the pulmonary system is ready to cough; if the detection unit 113 detects the beginning of an oscillating exhalation air flow, the valve 13 is controlled to open; if the valve 13 is opened, the pulmonary system starts coughing when the oscillating exhalation air flow starts in accordance with the periodic oscillating air flow. The preset pressure threshold can be fixed by a user, and the preset pressure threshold can be different for different people.
[0030] The first determination unit 111 can be designed to determine whether the inhalation of the pulmonary system is complete when the inhalation airflow velocity (shown as VFAI in Figure 1) in the pulmonary system is lower than the predefined threshold of velocity. The swing exhalation air flow is synchronous with the swing exhalation air flow of the cough at least at the beginning of the cough. At the beginning of a cough, a cough causes a spike in the flow of exhaled air in the airways of a pulmonary system. The preset speed threshold can be fixed by the device manufacturer or a user, and the speed threshold can be zero or a value close to zero.
[0031] The inhalation air flow may comprise the inhalation air flow caused only by inhalation of the pulmonary system. Alternatively, the inhalation air flow may comprise the inhalation air flow caused by the inhalation of the pulmonary system and the oscillating inhalation air flow caused by the oscillation pressure.
[0032] The first determination unit 111 may comprise a sensor for collecting the velocity of inhalation air from the airways of the pulmonary system, and the second determination unit may comprise a sensor for collecting the internal air pressure of the pulmonary system. Alternatively, the sensor of the first determination unit 111 can be integrated together with the sensor of the second determination unit 112.
[0033] Figure 2 is a diagram to illustrate the correlation between the velocity of a flow of air exhaled from a cough and time. At the beginning of a cough, for example, at 0.03 seconds, the exhalation airflow velocity is almost 10 l/s (liters/second).
[0034] Figure 3 is a waveform to illustrate the correlation between the speed of an oscillation airflow and time. The swing pressure causes a periodic swing airflow in the airways of a pulmonary system, and the swing exhalation airflow from the swing airflow and the swing inhalation airflow from the swing airflow change periodically. In the first 0.05 s, the oscillating pressure causes an oscillating exhalation airflow (shown as OEA in Figure 3) in the airways of a pulmonary system, and in the following 0.03 s, the oscillating pressure causes a Oscillating inhalation airflow (shown as OIA in Figure 3) in the airways of the pulmonary system. Periodic oscillating airflow period can be 0.1 s, 0.2 s, 0.3 s, etc.
[0035] In one embodiment of the invention: first, the internal air pressure of the pulmonary system is greater than the predefined pressure threshold, and the pulmonary system is ready to cough; secondly, in a periodic oscillating airflow, a oscillating exhalation airflow starts; thirdly, valve 13 is opened; fourth, the pulmonary system starts to cough and causes a spike in exhalation airflow in the airways of the pulmonary system at the beginning of the cough, for example, at 0.03s, and synchronously in the periodic oscillating airflow , starts an oscillating exhalation airflow.
[0036] Figure 4 schematically shows a mechanical pressure swing (shown as OPM) applied to a pulmonary system, and an air pressure (shown as PA) in the pulmonary system is detected through the mouth according to an example of the invention.
[0037] Figure 5 schematically shows an air swing pressure (shown as POA) applied to a pulmonary system through a mouth, and an air pressure (AP) in the pulmonary system is detected through the mouth according to another embodiment of the invention.
[0038] Figure 6 is a flowchart to illustrate a method of aiding a cough according to an embodiment of the invention. The method is to help cough, based on a swing pressure, and the swing pressure causes a periodic swinging airflow in the airways of the pulmonary system. The periodic oscillating airflow comprises an oscillating exhalation airflow and an oscillating inhalation airflow. The method comprises the following steps.
[0039] A step is performed to determine whether an inhalation of the pulmonary system is complete, so as to control a valve 13 which must be closed to isolate the pulmonary system from the external environment. The determination step 62 is for determining whether the inhalation of the pulmonary system is complete when the velocity of the inhalation airflow in the pulmonary system is less than the predefined velocity threshold.
[0040] A next step is taken to determine if the internal air pressure in the pulmonary system is greater than the preset pressure threshold.
[0041] A next step is to detect the start of oscillating exhalation air flow, so as to control the valve 13 which must be opened to initiate a cough. The swing exhalation airflow is synchronous with the cough exhalation airflow, at least at the beginning of the cough.
[0042] The method further comprises a step of generating the oscillation pressure to oscillate the pulmonary system so as to cause periodic oscillation airflow in the airways of the pulmonary system.
[0043] When the internal air pressure of a pulmonary system is greater than the preset pressure threshold, the pulmonary system is ready to cough; in the periodic oscillating air flow, if a oscillating exhalation air flow starts, valve 13 is controlled to open, if valve 13 is open, the pulmonary system starts to cough when an exhalation air flow of oscillation starts according to the periodic oscillation airflow.
The determination step 62 can serve to determine whether the inhalation of the pulmonary system is complete when the velocity of the inhalation airflow in the pulmonary system is less than a predetermined velocity threshold. The swing exhalation airflow is synchronous with the cough exhalation airflow, at least at the beginning of the cough.
[0045] The inhalation air flow may comprise the inhalation air flow caused only by inhalation of the pulmonary system. Alternatively, the inhalation air flow may comprise the inhalation air flow caused by inhalation from the pulmonary system and the inhalation air flow oscillation caused by the oscillation pressure.
[0046] A computer program used in the method to help cough, based on a swing pressure, wherein the swing pressure causes a periodic swing air flow in a pulmonary system and the periodic swing air flow comprises a exhalation air flow oscillation and an inhalation air flow oscillation, wherein the method comprises the steps of:
[0047] - determining 62 whether an inhalation of a pulmonary system is complete, in order to control a valve (13) that must be closed to isolate the pulmonary system from the external environment,
[0048] - determining 63 whether an internal air pressure in the pulmonary system is greater than a predefined pressure threshold, and
[0049] - detection of the beginning of the exhalation air flow oscillation, in order to control the valve that must be opened to initiate a cough.
[0050] The computer program is used in the method to help cough, the method further comprises a step of generating the oscillating pressure to oscillate the pulmonary system so as to cause periodic oscillating airflow in the airways of the system pulmonary.
[0051] The oscillation frequency that corresponds to the oscillation pressure can be in the range of 10-20 Hz.
[0052] It should be noted that the above mentioned embodiments illustrate rather than limit the invention and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In claims, any reference signs enclosed in parentheses are not to be construed as limiting the claim. The word “comprises” does not exclude the presence of elements or steps not listed in a claim or in the description. The word “a” or “an” that precedes an element does not exclude the presence of a plurality of these elements. The invention can be implemented by a hardware unit comprising several distinct elements and by a programmed computer unit. In system claims that enumerate multiple units, several of these units may be incorporated by the same piece of equipment or software. The use of the words first, second and third, etc., does not indicate any ordering. These words must be interpreted as nouns.

权利要求:
Claims (2)
[0001]
1. DEVICE (10) FOR HELPING COUGHING, comprising an oscillating unit (12) arranged to generate an oscillating pressure to oscillate a pulmonary system, wherein the oscillating pressure causes a periodic oscillating air flow in the pulmonary system, and the periodic oscillating air flow comprises an exhalation air flow oscillation an inhalation air flow oscillation, wherein the device (10) is characterized in that it comprises a control unit (11) comprising: - a first determining unit (111) for determining whether an inhalation of the pulmonary system is complete, so as to control a valve (13) which must be closed to isolate the pulmonary system from the external environment, - a second determining unit (112) for determining if the internal air pressure of the pulmonary system is greater than the preset pressure threshold, and - a detection unit (113) to detect the start of oscillating exhalation air flow, so as to control the valve (13) which must be opened to initiate a cough.
[0002]
2. DEVICE according to claim 1, characterized in that the first determination unit (111) is intended to determine whether the inhalation of the pulmonary system is complete when the velocity of the inhalation air flow in the pulmonary system is less than the threshold preset speed.

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法律状态:
2020-09-08| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2020-09-29| B25D| Requested change of name of applicant approved|Owner name: KONINKLIJKE PHILIPS N.V. (NL) |

2020-10-20| B25G| Requested change of headquarter approved|Owner name: KONINKLIJKE PHILIPS N.V. (NL) |

2020-10-27| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2021-03-09| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-05-18| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 20/07/2010, OBSERVADAS AS CONDICOES LEGAIS. PATENTE CONCEDIDA CONFORME ADI 5.529/DF |

优先权:

申请号 | 申请日 | 专利标题

CN200910161656|2009-07-24|

CN200910161656.0|2009-07-24|

PCT/IB2010/053292|WO2011010279A1|2009-07-24|2010-07-20|Device and method for assisting a cough|

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