DE19939417A1 - Apparatus for administering medicaments through inhalation comprises pressure sensor forming part of control system which governs atomization process via valve in compressed air line to atomizing unit - Google Patents

Abstract

Apparatus comprises a pressure sensor (3) forming part of a control system (2) governing the atomization process via a valve (4) in the compressed air line to the atomizing unit (6). An Independent claim is included for controlling the operation of the apparatus by measuring the pressure level in the atomizing unit, comparing it with the atmospheric pressure, establishing the state (inhalation, exhalation and pausing) of the breathing process, and accordingly operating the control valve.

Description

The present invention is based on an inhalation device, in particular of a device with which a nebulizer Medicines can be applied and controlled by a method the inhalation device.

Such devices are known in a variety of forms and are For example, used in hospitals or medical practices to liquid Medications that are filled into the nebulizer via inhalation To administer to patients.

Inhalation devices are known in which the user, i. H. the patient to be treated via an actuating button on the nebulizer Nebulization triggers as soon as he puts the nebulizer's mouthpiece to his mouth has started and starts inhaling. After inhalation is finished, the patient has to press the actuation button again so that the nebulization is stopped. It has been shown that in particular older patients and children have great difficulty pressing the fog button on the to coordinate your own inhalation. The nebulization is often too late started, and the drug is not administered in sufficient quantity. It is difficult to determine which dose the patient is actually receiving has recorded. On the other hand, there may be too much of that Medicament is nebulized when e.g. B. the patient is late, d. H. only after the Stop inhalation, press the button. That not inhaled  but in this case, already nebulized medication can be released into the ambient air and possibly harm other people or at least bother. The increased consumption of medication due to Untargeted / overdosed nebulization also leads to higher costs. A further disadvantage of these devices is that a patient does not relax breathes when he is on the coordinated actuation of the nebulization button must concentrate.

Devices for inhalation are also known, in which Mouthpiece a pressure sensor is provided with a trigger mechanism is connected so that the nebulization of the Drug can be triggered. These devices have one Control device on which a preset time period for the Nebulization and a volume flow can be set. After this Triggering of nebulization by the suction pressure of an inhaling patient the volume flow to the nebulizer over the preset time period fed.

The problem is that the duration of an inhalation of a certain Patients must be determined in advance so that no unnecessary nebulization and the nebulization is not too short. Otherwise, the above will also occur here mentioned disadvantages. In addition, it is not with such a device possible, changing breathing rhythms, inhalation interruptions, Breaks and the like to be taken into account. Once triggered The nebulization process continues as long and in the intensity as it previously was discontinued.

The present invention is based on the object of a device for Inhale nebulized medications to create the above Avoids disadvantages of known devices with which one  Inhalation volume corresponding amount of medication can be nebulized and which can be operated easily and without interference.

This object is achieved with a device with the features according to claim 1 or a method for controlling an inhalation device with the Features solved according to claim 10. Advantageous configurations are Subject of the subclaims.

The device for applying nebulized medication by inhalation according to the invention has a control device with which a Pneumatic valve depending on one inhalation phase, one Exhalation phase and a rest phase is controllable. It's one with the Control device connected pressure sensor is provided, by means of which the Inhalation phase, the exhalation phase and the resting phase can be determined. On this way it is possible to fine tune the nebulization Take medication so that if not inhaled if possible none unnecessary or unwanted nebulization occurs. The pneumatic valve is after Opening by the suction pressure of an inhaling user of the device opened until it is determined via the pressure sensor that the Inhalation phase has ended. This way not only the user needs the Device, usually a sick patient, no buttons to operate, but the medical effect can also be increased, since with the The device according to the invention ensures that the greatest possible Volume of medication mist inhaled by the patient. With the Invention it is possible with every breath of the patient regardless of any adjustable breathing pattern beyond the maximum possible Inhale inhalation time.

According to an advantageous embodiment of the invention, the pneumatic valve is like this controllable that the beginning of the nebulization is at the beginning of the inhalation and that End of nebulization is at the end of the inhalation. This ensures that  only as long as drug liquid is nebulized as long as the user of the Device is actually inhaled, regardless of Breathing irregularities and without complex additional measures.

According to a further advantageous embodiment of the invention Pressure sensor arranged spatially separate from and with the nebulizer connected via a sensor cable. The sensor cable can either be connected to the Compressed air line connected or a separately running line. Thereby are no electrical lines or the like. To connect the sensor with the Control device necessary.

According to a further advantageous embodiment of the invention Pressure sensor arranged in the nebulizer, causing any Time delay between the start of the inhalation phase and the reaction of the Sensor is prevented due to the length of the sensor cable.

According to a further advantageous embodiment of the invention, an external one Compressed air generator and a connection for a compressed air connection line for provided this compressed air generator. The external compressed air generator can for example, belong to a compressed air network in a hospital. The In this case, the device according to the invention does not need its own Compressed air generator, but they can be connected via appropriate lines and Connections to the compressed air network of the hospital.

According to a further advantageous embodiment of the invention is a timing element provided with which the end of the nebulization by a preset Can be postponed after the end of inhalation. This can prevent be that with only short interruptions in inhalation, i.e. H. when faltering of breathing, the nebulization does not stop immediately because the inhalation is short is then continued again.  

According to a further advantageous embodiment of the invention Compressed air generator with the control device depending on the The inhalation phase, the exhalation phase and the resting phase are controllable. After a In this regard, the compressed air generator can thus be switched off when there is a resting phase. This can save energy and the Wear of the compressed air generator due to continuous operation can be reduced.

The method according to the invention for controlling an inhalation device with the features of claim 10 has the advantage that with simple means Actuation and the process of nebulizing medication can be carried out. It is not necessary to have a patient's breathing pattern in a preliminary examination ascertain and the patient actuates the inhalation device enormously relieved, since triggering and stopping the nebulization is not necessary.

According to an advantageous embodiment of the method according to the invention the pneumatic valve at a first preset negative Pressure difference opened in the nebulizer and at a second preset negative pressure difference in the nebulizer closed. This is only one Information from a pressure sensor in the nebulizer in the control device to process. The control device can thus be made very simple and yet a control tailored to the inhalation phase is the Drug nebulization possible. The method enables an improved Nebulization in inhalation devices not only independent of the patient but also also independent of operation and thus fail-safe.

In the drawing, an embodiment of the invention is shown, which is described in detail below. In the drawing the figure shows one simplified representation of a device with an assigned nebulizer.

In the embodiment of the invention shown in the figure, a compressed air generator 1 , a control device 2 , in which a pressure sensor 3 is integrated, and a pneumatic valve 4 are arranged in a common housing. The device can be switched on and off via a main switch 5 . A separately arranged nebulizer 6 for nebulizing liquid medication has a mouthpiece 7 . Via this mouthpiece 7, a user of the device inhales a medication mist generated in the nebulizer 6 . The nebulizer 6 is connected to the compressed air generator 1 via a compressed air line 8 . The compressed air line 8 can be closed with the pneumatic valve 4 . The pressure sensor 3 is connected to the interior of the nebulizer 6 via a sensor line 9 and can thus determine the pressure conditions in the nebulizer 6 .

If the pressure sensor 3 detects a negative pressure in the nebulizer 6 , the control device 2 determines that there is an inhalation phase and opens the pneumatic valve 4 . The compressed air flowing into the nebulizer 6 nebulizes the liquid medication and the user inhales a medication mist. If the pressure sensor 3 determines an overpressure or no difference in pressure from the atmospheric pressure in the nebulizer 6 , then the control device 2 determines that there is no inhalation phase and closes the pneumatic valve 4 . Thus, the device according to the invention and the method according to the invention ensure that the nebulizer 6 is only actuated when a user is actually inhaling. The method for controlling the device can have a circuit for self-calibration, which is activated first when the device is switched on. The pneumatic valve is opened briefly in order to adjust the device to the given conditions (geometry of the connected nebuliser, the lines, etc.), ie to calibrate the signal quantities of the pressure sensor. In this way, a self-calibration of the device is possible with the method according to the invention.

Further advantages and advantageous embodiments of the invention are the following claims and the drawing can be removed.

Claims (13)

1. Device for applying medication by inhalation with a compressed air generator ( 1 ), which is connected via a compressed air line ( 8 ) to a nebulizer ( 6 ) for nebulizing medication by compressed air, with a pneumatic valve ( 4 ) for opening and closing the compressed air line ( 8 ) and with a control device ( 2 ) for controlling the nebulization, characterized in that
A pressure sensor ( 3 ) is provided for determining an inhalation phase, an exhalation phase and a rest phase and
the pressure sensor ( 3 ), the control device ( 2 ) and the pneumatic valve ( 4 ) are connected to each other
with the control device ( 2 ) the pneumatic valve ( 4 ) can be controlled depending on the inhalation phase, the exhalation phase and the resting phase. 2. Device according to claim 1, characterized in that with the control device ( 2 ), the pneumatic valve ( 4 ) can be controlled so that the beginning of the nebulization is at the beginning of inhalation and the end of the nebulization at the end of inhalation. 3. Apparatus according to claim 1 or 2, characterized in that the pressure sensor ( 3 ) in the control device ( 2 ) and spatially separated from the nebulizer ( 6 ) and the pressure sensor ( 3 ) via a sensor line ( 9 ) with the nebulizer ( 6 ) is connected. 4. Apparatus according to claim 1 or 2, characterized in that the pressure sensor ( 3 ) is arranged in the nebulizer ( 6 ). 5. Device according to one of claims 1, 2 or 4, characterized in that the compressed air generator ( 1 ), the control device ( 2 ) and the nebulizer ( 6 ) form a unit. 6. Device according to one of claims 1 to 3, characterized in that an external compressed air generator is provided separately from the control device ( 2 ) and a connection for a compressed air connection line for connecting to the compressed air generator. 7. Device according to one of the preceding claims, characterized characterized in that a timer is provided with which the end of the Nebulization by a preset amount of time after the end of the inhalation is relocatable. 8. Device according to one of the preceding claims, characterized in that the compressed air generator ( 1 ) with the control device ( 2 ) is controllable in dependence on the inhalation phase, the exhalation phase and the rest phase. 9. The device according to claim 7, characterized in that the compressed air generator ( 1 ) can be switched off after an adjustable period of a rest phase. 10. A method for controlling an inhalation device with an assigned nebuliser and a compressed air generator, the compressed air generator being connected to the nebuliser via a compressed air line and a pneumatic valve, in particular for controlling a device according to one of claims 1 to 9, characterized by the following steps:

• a) determination of the pressure level in the nebulizer via a pressure sensor,
• b) comparison of the determined pressure level with the atmospheric pressure and determination of the pressure difference,
• c) Specifying a type of state of the inhalation phase with a negative pressure difference, of the exhalation phase with a positive pressure difference and of the resting phase with no pressure difference,
• d) Opening the pneumatic valve in the inhalation phase and closing the pneumatic valve in the exhalation phase and in the resting phase
• e) repeating steps a. to d.

11. The method according to claim 10, characterized in that in step c. the condition type inhalation phase when a preset one is exceeded Limit of the negative pressure difference is set. 12. The method according to claim 10 or 11, characterized in that in the Step d. the compressed air generator synchronized with opening and closing of the pneumatic valve is switched on and off. 13. The method according to claim 10, characterized in that the Pneumatic valve at a first preset negative Pressure difference is opened and at a second preset negative pressure difference is closed.