FR2824479A1 - Nasal and aural pneumatic pressure stimulus applicator has membrane unit to detect deglutition by patient - Google Patents

Abstract

The pressure stimulus applicator consists of a pump (2) delivering a continuous air flow in a feed circuit (3) with a calibrated valve (5), an air reservoir (7) fed by a branch circuit, and a detection and control fluid circuit (19, 20) with a nasal tip (23) and membrane shut-off unit which forms a deglutition detector. The unit comprises a sealed housing (12a, 12b) with a balancing chamber (15) on one side of an elastic membrane (13) and a control chamber (14) on the other, the latter being connected to the detection and control circuit.

Description

corresponding. The invention relates to a device for applying a

  pressure stimulus in the nasal cavity and to inject a dose of air into the

  auditory tube at the time of doglutition.

  The state of the art, and in particular FR-A-1 567 403, FR-A 2 639 236, FR-A-2 674 756, provides numerous therapeutic nebulizers used for bringing drugs in the form of aerosols into the ENT sphere and especially in the middle ear. These nebulizers include a nasal tip that seals tightly in the nostrils of the subject to be treated and taking advantage of the subject's swallowing to introduce, through the Eustachian tubes, opened by this doglutition, a therapeutic aerosol put at least

  temporarily in vibration and / or overpressure.

  The separation of the functions “setting in vibration” and “setting in overpressure, allowed by the device described in FR-A-2 674 756, and the development of this device by adding means making it possible to collect the pressures at the level of the cavum and of the external auditory canal, and, of course, means of computer processing of the data collected, have made it possible to develop a technique of clinical exploration 2 o of the equipressive function of the auditory tube, called "TUBOMANOMETRY", allowing to detect dysfunctions of

this auditory tube.

  Examinations under these conditions have shown that it may be possible to restore normal tubal behavior.

  auditory by entraining it in a reflex reaction to a pressure stimulus.

  Current devices, providing overpressure in the form of a continuous air flow, associated or not with vibrations, have not made it possible

to achieve this rehabilitation.

  The object of the present invention is to provide a device for injecting a dose of air into the auditory tube, at the time of swallowing, that is to say supplying a defined quantity of air, as soon as the closure appears. of the soft palate, which is at the origin of the muscular mechanisms leading to the opening of the auditory tube, device applicable as well for the rehabilitation of the auditory tubes

than for tubomanometry.

  Like the devices of the state of the art, that of the invention comprises: - a pump continuously supplying an air flow in a supply circuit equipped with a calibrated leak relief valve, - a tank d air supplied by a circuit derived from the supply circuit, - a pneumatic detection and control circuit going to a nasal nozzle forming part of a housing fitted with a leakage nozzle, this circuit communicating with the reservoir and being equipped with means

membrane shutter.

  In the device according to the invention, the membrane closure means of the detection and control circuit form swallowing detector and comprise, in a sealed housing and on either side of the membrane, respectively, a chamber balancing and a control chamber, the latter, which communicates with the detection and control circuit, containing a nozzle supplied by the reservoir and normally closed by the elastic membrane while having a complementary calibrated nozzle allowing the passage of a air flow serving as detection and control fluid, while, between the swallowing detector and the casing carrying the nasal end piece, said detection and control circuit passes through the closing control chamber of a pneumatic valve normally open and located on the branch circuit

tank supply.

  When the subject swallows, which makes the ENT sphere watertight by closing the soft palate, and when he manually closes the calibrated venting nozzle placed on the housing with the nostril tip, it generates an overpressure in this box. Via the detection and control circuit, this is first transmitted to the valve closing control chamber. This causes the membrane to move in the closing direction of the branch circuit supplying the tank. As a result, the air flow generated by the pump is diverted to the relief valve and the tank and the detection and control circuit are isolated from the supply circuit. This overpressure also displaces the membrane of the detector, with the consequence of freeing the nozzle of this detector and allowing the quantity of air contained in the reservoir to

  go through the overpressure circuit to go to the nasal end.

  Thanks to the prior closure of the supply circuit, the air flow transmitted to the nasal endpiece is perfectly dosed in volume and pressure. The repetition of these calibrated doses of air, at calibrated pressure, creates stimuli on the fallopian tube which promote its rehabilitation, all the more since it is possible, during treatment, to gradually increase the pressure of the doses injected, which is not possible in current devices m81ant tank flow and continuous pump flow. In one embodiment, the pneumatic valve comprises: - a body with a housing containing a ball and communicating, via an outlet channel, with the downstream branch of the derivative circuit supplying the reservoir, - a screw cap crossed by a inlet channel and making the above-mentioned housing communicate with the upstream branch of the derivative circuit supplying the reservoir, said plug containing a return spring pressing the ball on a seat provided in the housing, - and a pusher whose head is in support on the valve diaphragm and the rod of which is slidably mounted in the body of this valve to move the ball between a rest position, in which this ball 20 sits on its seat while releasing the communication between the inlet channel and the outlet channel of the body, and a closed position in which, under the push of the pusher, the ball obstructs the inlet channel

formed in the cap.

  This device, simple and space-saving, has the advantage

  to be silent and to operate at very low pressure.

  Other features and advantages will emerge from the

  description which follows with reference to the attached schematic drawing

  representing, by way of example, an embodiment of the device according to the invention, in the context of its application to the rehabilitation of the fallopian tube

3 o auditory.

  Figures 1 and 2 are schematic side views showing the essential elements of the device, when it is. respectively, in the rest position and in the operating position, Figure 3 is a partial view, in cross section, and

  enlarged scale, of an embodiment of the pneumatic valve.

  In this drawing, the reference numeral 2 designates an electric pneumatic pump delivering, in a supply duct 3, a continuous flow of air under a pressure determined by a calibrated nozzle 4, and for example by the outlet orifice of a relief valve 5 with adjustable calibration. From the supply circuit 3 leaves the upstream branch 6a of a branch circuit whose downstream branch 6b is connected to the distribution chamber 7a of a pressure tank 7. The branches 6a and 6b of the branch circuit are

  connected to each other by a pneumatic valve 8.

  The reservoir 7 communicates via a conduit 9 with the nozzle 10 of a swallowing detector 12. The housing of this detector is composed of two parts 12a, 12b which are assembled in leaktight manner on either side of an elastically deformable membrane 13 which, in the rest position and with the help of a spring 11, closes the nozzle 1 0 above. This membrane divides the housing into a control chamber 14 and into a balancing chamber 15. The nozzle has a complementary calibrated nozzle 21 which allows an air flow forming a flow of

detection and control.

  The pneumatic valve 8 is composed of a body in two parts, namely a part 8a in the form of an open box of which

  a chimney 8b projects and another part 8c in the form of an open box.

  The parts 8a and 8c are linked to each other, in a leaktight manner, by enclosing between them an elastically deformable membrane 16 and, more

  easily deformable than the membrane 13 of the swallowing detector 12.

  This membrane forms, between the two third-party boxes, a balancing chamber 17 and a control chamber 18. The latter is connected by a conduit 19 to the control chamber 14 of the detector 12 and by a conduit 20 to a bo '^ tier 22 with a nose piece 23. The bo ^' tier 22,

  which is not a nebulizer, is equipped, in known manner, with a nozzle 24.

  It forms, with the conduit 20, the chamber 18, the conduit 19, the chamber 14 3 o and the nozzle 10, the detection and control circuit able to transmit: - to the housing 22, the detection flow and control output by the nozzle 21, - in the chambers 18 and 14, the rise in pressure of the aforementioned flow, following the sealing of the ENT sphere by swallowing and the closing of the orifice 24, - and at the nose piece 23, the dose of overpressure released

through the tank 7.

  The chimney 8b of the pneumatic valve comprises an axial housing 25 containing a metal ball 26. In the embodiment shown in FIG. 3, corresponds to a valve whose body 8 is made of metal, the housing 25 receiving the ball is formed in a metal socket 27, itself inserted in a housing 28 of the chimney 8b, this to prevent the movements of the ball generating wear altering the operation of the valve. The housing 28 communicates via an outlet channel 29 with the branch 6b of the derivative circuit supplying the reservoir. So that the housing 25 of the sleeve 27 can communicate with this channel 29, the sleeve is crossed by at least one radial bore 30 opening into a peripheral groove 32 coinciding with the channel 29. The sleeve rests on the bottom of the housing 28 which, in its central part, comprises a seat 33, capable of receiving the ball when the latter is in the rest position. An axial bore 34 emerging from the seat is used to guide the rod 35a of a pusher 35 whose head 35b is in single

  support on the membrane 16 of the valve.

  The housing 28 of the valve body is closed by a screw cap 37, fitted with a flange 37a pressing a seal 38 against the end face of the path 8b. This plug is crossed by an inlet channel 39 which communicates with the upstream branch 6a of the derivative circuit supplying the tank. This channel has an enlargement 40 serving as a housing for a spring 42 tending to push the ball 26 back onto its seat 33. Finally, an O-ring seal 43 is placed in a groove in the sleeve 27 against the end face of the plug 37 , and so as to come into contact

with ball 26.

  When the installation is in the rest position, and as shown in FIG. 1, the ball 26 rests on its seat 33 and therefore leaves free movement between the inlet channel 39 and the outlet channel 29, so that the flow generated by pump 2, using branches 6a and 6b of the circuit

  derivative, supplies the reservoir 7.

  It is specified here that the distribution chamber 7a of the reservoir 7 can, in one embodiment, be equipped with mechanical means 45 reacting on the relief valve 5 in the event of excessive overpressure in the reservoir. This chamber is also connected to a pressure gauge 46 indicating the pressure in the tank and which can itself be connected to

  electrical means indicating the state, full or empty, of the tank.

  In this rest position, the membrane 16 supports the pusher 35, so that its rod is close to, but without contact with, the ball, while the membrane 13 of the swallowing detector 12

  closes nozzle 10 with the help of spring 1 1.

  As soon as the subject swallows and manually closes the nozzle 24, the increase in pressure of the detection and control flow in the detection circuit firstly causes the elastic deformation of the membrane 16,

  0 then finally the elastic deformation of the membrane 13.

  As shown in Figure 2, the deformation of the membrane 16 causes movement of the pusher 35 and that of the ball 26 which thus comes to press, as shown on an enlarged scale in Figure 3, against the O-ring 43, closing the channel 39 and, consequently, by isolating the reservoir 7 from the flow delivered by the pump 2. As a result, when the membrane 13 is deformed, by releasing the nozzle 10, the only air flow circulating in the overpressure circuit and successively borrowing the conduit 19, the chamber 18, the conduit 20 and the housing ^ tier 22, corresponds to the quantity of air contained in the tank, and to the pressure defined in this

2 0 tank.

  As soon as the dose from the reservoir is delivered, the pressure in the detection and control circuit returns to a value allowing the membranes 13 and 16 to return to the initial position, thanks to the springs 11

  and 42, thereby allowing the pump to supply the reservoir 7 again.

  It is obvious that the pressure of the dose delivered by the reservoir can be adjusted according to the needs of the treatment by adjusting the calibration.

relief valve 5.

  The first advantage of this device compared to current ones is that it makes it possible to deliver an air embol at calibrated pressure and of determined volume, and no longer an air flow, therefore continuous and at variable pressure. It follows from its structure that the response time is improved, that the kinematics of pressure build-up is regular, and that, for the same

  adjustment, all the doses delivered are identical in volume and pressure.

  Another advantage of this device is that it operates at low pressure, of the order of 15 millibars, which reduces noise, increases reliability and makes it possible to use, for nozzle 10, a more professional orifice.

  diameter (of the order of 5 millimeters), not risking fouling.

Claims (4)

  1. Device for applying a pneumatic pressure stimulus in the nasal cavity and in the auditory tube at the time of swallowing, comprising: - a pump (2) continuously supplying an air flow in a supply circuit (3) equipped with a calibrated leakage relief valve (5) (4), - an air tank (7) supplied by a circuit derived from the supply circuit, - a detection and control fluid circuit going to a nasal end piece (23) forming part of a cas ^ 'tier (22) equipped with a leakage nozzle (24), this circuit communicating with the reservoir (7) and being equipped with sealing means with elastically deformable membrane, characterized in that the membrane shutter means of the detection and control circuit (19, 20) form swallowing detector (12) and comprise, in a sealed housing (12a, 12b) and both other of the elastic membrane (13), respectively, a balancing chamber (15) and a chamber e control (14), the latter communicating with the detection and control circuit (19, 20) and containing a nozzle (10) supplied by the reservoir (7) and normally closed by the elastic membrane (13) while having a complementary calibrated nozzle (21) allowing the passage of the air flow serving as detection and control fluid, while, between the swallowing detector (12) and the housing (22) carrying the nostril nozzle ( 23), said detection and control circuit passes through a chamber (18) for controlling the closing of a pneumatic valve (8), normally open   and disposed on the derivative supply circuit (6a, 6b) of the reservoir (7).   2. Device according to claim 1, characterized in that the pneumatic valve (8) comprises: - in a body (8) a housing (25, 28) containing a ball (26) and communicating, by an outlet channel (29 ), with the downstream branch (6b) of the derivative circuit supplying the reservoir (7), - a screw cap (37) crossed by an inlet channel (39) and making the above-mentioned housing (25, 28) communicate with the upstream branch (6a) of the derivative supply circuit of the reservoir (7), said plug containing a return spring (42) pressing the ball (26) on a seat (33) formed in the housing, - and a pusher ( 35) whose head (35b) is supported on the diaphragm (16) of the valve (8) and whose rod (35a) is slidably mounted in the body of this valve to move the ball (26) between a position of rest, in which this ball rests on its seat (33) by releasing the communication between the inlet channel (39) and the outlet channel (29) of the body, and a position in which, under the push of the pusher (35),   the ball (26) obstructs the inlet channel (39) formed in the plug (37).   3. Device according to claim 2, characterized in that, to close the inlet channel (39), the ball (26) bears against an O-ring   (43), pressing on the end face of the plug (37).   4. Device according to all of claims 1 and 2, characterized   in that the diaphragm (16) of the pneumatic valve (8) is more deformable