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GB2398250A - Inhaler with display and single operating button - Google Patents

Inhaler with display and single operating button Download PDF

Info

Publication number
GB2398250A
GB2398250A GB0303074A GB0303074A GB2398250A GB 2398250 A GB2398250 A GB 2398250A GB 0303074 A GB0303074 A GB 0303074A GB 0303074 A GB0303074 A GB 0303074A GB 2398250 A GB2398250 A GB 2398250A
Authority
GB
United Kingdom
Prior art keywords
dispensing apparatus
dispensing
pass code
display means
operating button
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
GB0303074A
Other versions
GB0303074D0 (en
Inventor
Robert Frederick Veasey
Stuart James King
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Consort Medical PLC
Original Assignee
Bespak PLC
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Bespak PLC filed Critical Bespak PLC
Priority to GB0303074A priority Critical patent/GB2398250A/en
Publication of GB0303074D0 publication Critical patent/GB0303074D0/en
Publication of GB2398250A publication Critical patent/GB2398250A/en
Withdrawn legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/0091Inhalators mechanically breath-triggered
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/0065Inhalators with dosage or measuring devices
    • A61M15/0068Indicating or counting the number of dispensed doses or of remaining doses
    • A61M15/008Electronic counters
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/0065Inhalators with dosage or measuring devices
    • A61M15/0068Indicating or counting the number of dispensed doses or of remaining doses
    • A61M15/0081Locking means
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/0065Inhalators with dosage or measuring devices
    • A61M15/0068Indicating or counting the number of dispensed doses or of remaining doses
    • A61M15/0083Timers
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/0091Inhalators mechanically breath-triggered
    • A61M15/0096Hindering inhalation before activation of the dispenser
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/009Inhalators using medicine packages with incorporated spraying means, e.g. aerosol cans
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M2205/00General characteristics of the apparatus
    • A61M2205/18General characteristics of the apparatus with alarm
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M2205/00General characteristics of the apparatus
    • A61M2205/35Communication
    • A61M2205/3546Range
    • A61M2205/3569Range sublocal, e.g. between console and disposable
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M2205/00General characteristics of the apparatus
    • A61M2205/35Communication
    • A61M2205/3576Communication with non implanted data transmission devices, e.g. using external transmitter or receiver
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M2205/00General characteristics of the apparatus
    • A61M2205/58Means for facilitating use, e.g. by people with impaired vision
    • A61M2205/581Means for facilitating use, e.g. by people with impaired vision by audible feedback
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M2205/00General characteristics of the apparatus
    • A61M2205/58Means for facilitating use, e.g. by people with impaired vision
    • A61M2205/583Means for facilitating use, e.g. by people with impaired vision by visual feedback

Landscapes

  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Anesthesiology (AREA)
  • Biomedical Technology (AREA)
  • Pulmonology (AREA)
  • Hematology (AREA)
  • Bioinformatics & Cheminformatics (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Biophysics (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)

Abstract

Dispensing apparatus 1 e.g. inhaler, for dispensing a medicament from a dispensing container (100, Fig 3). The apparatus comprises a display means 15 for displaying information relating to operation of the dispensing apparatus 1 and a single operating button 17, wherein operation of the single operating button 17 enables operation of the dispensing apparatus 1. The dispensing apparatus may be enabled by a pass code prior to actuation.

Description

1 2398250
DISPENSING APPARATUS
The present invention relates to a dispensing apparatus, in particular but not exclusively, a dispensing apparatus for dispensing medicaments.
Dispensing apparatus are known for use in dispensing medicaments. The medicaments dispensed may be any of a wide range of known substances. Many such medicaments may be harmful if taken in too large a quantity or by the wrong person. Consequently, many medicaments are only available via prescription from an authorised medical practitioner.
Prescribed medicaments of this type are prescribed to specific individuals and at certain dosage levels. Some medicaments, especially those used for pain relief, may be extremely harmful if taken in too large a quantity.
According to the present invention there is provided a dispensing apparatus for dispensing a medicament from a dispensing container received, in use, in the dispensing apparatus, the apparatus comprising a housing for holding said dispensing container, a display means for displaying information relating to operation of the dispensing apparatus and a single operating button, wherein operation of the single operating button enables operation of the dispensing apparatus.
Advantageously, the dispensing apparatus of the present invention provides for a simple, easy to understand mode of operation. In addition by only using a single operating button the mechanical and electronic complexity of the apparatus is reduced.
Preferably, the dispensing apparatus further comprises a processing means operatively connected to the single 2 P62475 operating button, the processing means comprising a memory having stored therein a pass code. Operation of the dispensing apparatus is preferably enabled by provision of the pass code prior to actuation of the dispensing apparatus. Advantageously, the single operating button is actuatable to send signals to the processing means to input the pass code. An advantage is that unauthorized access to the contents of a dispensing container received in the dispensing apparatus can be prevented. The single operating button provides a simple method of inputting the pass code.
Preferably, the pass code comprises one or more alphanumeric digits.
Advantageously, the display means displays possible characters for each alphanumeric digit of the pass code.
Preferably, the display means displays possible characters for each alphanumeric digit of the pass code for each digit successively. In one embodiment, the display means automatically cycles through the possible characters for each alphanumeric digit of the pass code. In another embodiment, the single operating button is actuatable to cycle through the possible characters for each alphanumeric digit of the pass code.
Optionally, the display means displays information on the number of available actuations of the dispensing apparatus.
Optionally, the display means displays information on the time until the next available actuation of the dispensing apparatus.
Optionally, the display means displays information on the number of possible actuations remaining for a dispensing container received in the dispensing apparatus.
3 P62475 Optionally, the display means displays information on the power status of a battery of the dispensing apparatus.
Preferably, the display means is a liquid crystal display.
Preferably, means for prompting a user to actuate the dispensing container at a predetermined time are provided.
The means for prompting a user may be one or more of an audible signal, a visual signal on the display means, and a tactile signal such as a vibration.
The apparatus may further comprise a dispensing container. The dispensing container may be a metered dose inhaler. The dispensing container may contain a medicament for oral or nasal administration. The dispensing container may include a hydrofluoroalkane propellant.
The present invention further provides a method of operating a dispensing apparatus of the type receiving, in use, a dispensing container, comprising displaying on a display means information relating to operation of the dispensing apparatus, and operating a single operating button to enable operation of the dispensing apparatus to dispense a product from the received dispensing container.
Preferably, the method further comprises the step of inputting a pass code having one or more digits prior to operation of the dispensing apparatus. The single operating button may be actuated to input the pass code.
In one embodiment, the method further comprises automatically displaying in a cycling manner the possible characters for each digit of the pass code in turn. The single operating button may be actuated to select each digit of the pass code when the correct character is displayed on the display means.
P62475 In another embodiment, the single operating button is actuated to display the possible characters for each digit of the pass code and actuated to select each digit of the pass code when the correct character is displayed on the display means. The correct character may be selected by actuating and holding in an actuated position the single operating button.
Embodiments of the present invention will now be described, by way of example only, with reference to the following drawings in which: Figure 1 is a perspective view of a first embodiment of dispensing device according to the present invention; Figure 2 is an exploded perspective view of the device of Figure 1; Figures 3 to 6 are cross-sectional views of a portion of the device of Figure 1 showing the device during a typical dispensing and re-setting cycle; Figures 7 to 10 are cross- sectional views of a portion of the device of Figure 1 showing the device in locked, armed, unlocked and opened states; Figures 11 to 15 are perspective views of the device illustrating the replacement of a pressurised dispensing container within the device; Figures 16 and 17 are cross-sectional views of a portion of the device of Figure 1 showing an alternative mechanism for locking the device; Figure 18 is a perspective view of a second embodiment of dispensing device according to the present invention; Figures 19 and 20 are perspective exploded views of the.
device of Figure 18; P62475 Figure 21 is a schematic illustration of a user interface for use with embodiments of dispensing device of the present invention; Figures 22 to 31 are cross-sectional views through a portion of a third embodiment of dispensing device according to the present invention illustrating a typical dispensing and re-setting cycles Figures 32 to 35 are cross-sectional views of the dispensing device of Figures 22 to 31 showing the re-setting of the device; Figure 36 is an exploded perspective view of the device of Figures 22 to 31; Figures 37 to 40 are cross-sectional views through a portion of a device according to the present invention showing an alternative mechanism for removing valve load from a pressurized dispensing container; Figure 41 is crosssectional schematic view of an alternative trigger mechanism for use with the dispensing device of the present invention; Figure 42 is a perspective schematic view of a further alternative trigger mechanism for use with the dispensing device of the present invention; Figure 43 is a cross-sectional schematic view of a further alternative trigger mechanism for use with the present invention; Figure 44 is a cross-sectional schematic view of a further alternative trigger mechanism for use with the present invention; and Figure 45 is a cross-sectional schematic view of a further alternative trigger mechanism for use with the present invention.
6 P62475 The first embodiment of the dispensing device of the present invention is shown in Figures 1 to 17. This embodiment is particularly suitable for a reusable device.
As shown in Figure 1, the dispensing device generally comprises an actuator 1 in which is received a pressurized dispensing container containing a medicament or other substance which is to be dispensed. The actuator 1 comprises a housing formed from a front case 2 and a rear case 3, a mouthpiece 4 and a dust cap 5.
As shown in Figure 2, the front case 2 comprises a body portion 12 having the general form of an open channel having two side walls 18 extending from a rear wall 19. An interior of the front case 2 is provided with a chassis 16 formed integrally with the front case 2 and to which other components of the actuator 1 are fixed during assembly. A portion of the chassis 16 forms a canister seat guide rail 11, the use of which will be discussed below. At one end of the front case 2 there is provided a first portion 13 of a hinge. Two apertures 10 are formed in the side walls 18 approximately midway along the length of the front case 2.
The front case comprises an aperture for receiving an LCD screen 15 as shown in Figure 1. A data port 14 may also be provided in the front case 2 as shown in Figure 13, the use of which will be discussed below.
The rear case 20 comprises a body portion 21 having at one end a top portion 20 and at the other end a stem portion 24 terminating in a conical portion 25 shown in Figure 10.
On or near the stem portion 24 there is provided a second portion 22 of a hinge. During assembly the first portion 13 of the hinge and the second portion 22 of the hinge 7 P62475 cooperate with one another to pivotally join the front case 2 and the rear case 3 together. Preferably the first portion 13 and the second portion 22 of the hinge are permanently pivoted together by means of a through bolt or similar. The top portion 20 of the rear case 3 is provided with a plurality of air inlet holes 26. An internal face of the top portion 20 is also provided with a locking recess 23 as best shown in Figure 7.
The mouthpiece 4 is detachable from the front case 2 and rear case 3. Advantageously the front case 2 and rear case 3 are shaped such that even with the mouthpiece 4 detached from the housing the interior of the housing containing the dispensing container 100 and trigger mechanism is not accessible as shown in Figures 10, 12 and 13. This prevents removal of the pressurized dispensing container 100 and also the insertion of foreign members into the interior of the housing and thus prevents tampering with the container. The mouthpiece 4 comprises a body 30 defining a mouthpiece outlet 31 directed generally laterally and a socket 34 which may be connected during assembly with the stem portion 24 of the rear case 3. The connection may be by means of a push fitting, a bayonet fitting, a screw threaded fitting or similar. An interior of the mouthpiece 4 is provided with a valve stem receiving block which receives in use a valve stem of a pressurised dispensing container received in the actuator 1. The valve stem block comprises an orifice for directing medicament dispensed from the pressurised dispensing container towards the outlet 31 of the mouthpiece 4 in a conventional manner.
The dust cap 5 comprises a mouthpiece cover 40 which is shaped to be received over and to cover the outlet 31 of the 8 P62475 mouthpiece 4 and also preferably those areas of the mouthpiece 4 contacted in use by a user's mouth. The dust cap 5 further comprises two elongate arms 41 which extend from the mouthpiece cover 40 and are provided at the distal end with two inwardly directed bosses 42. The bosses 42 have a non-circular shape forming a cam surface.
Alternatively, each boss 42 may be provided with an eccentrically positioned peg as described below with reference to the second embodiment. The dust cap 5 is assembled with the front case 2 by means of insertion of the bosses 42 through the apertures 10.
The actuator 1 is provided with a PCB (Printed Circuit Board) 6 which is connected to the chassis 16 of the front case 2. The PCB 6 is provided with a number of switches 93, a battery 94, a control processor 95 and the LCD 15.
The actuator 1 is further provided with a trigger mechanism 7 which is housed in an end of the actuator 1 remote from the mouthpiece 4. The trigger mechanism 7 comprises a canister seat 50, leaf spring 60, lock out motor 70, vane 74, shoot bolt 80 and shoot bolt slide 89.
The canister seat 50 comprises a transverse platform 52 of generally circular shape and an elongate beam 51 which extends upwardly from the transverse platform 52. The transverse platform 52 is provided with an upstanding hook 53 and a dished portion forming a spring seat 54. The canister seat 50 further comprises two flanges forming side guide walls 56. The canister seat 50 is assembled as a sliding fit in the front case 2 of the actuator with the elongate beam 51 forming a sliding fit with the canister seat guide rail 11. The side guide walls 55 and the guide rail 11 of the canister seat 50 ensure that the canister 9 P62475 seat 50 is only able to move axially within the front case 2. The leaf spring 60 is held in position between the spring seat 54 of the canister seat 50 and two abutment surfaces 56 provided on the chassis 16 of the front case 2.
The leaf spring 60 acts to bias the canister seat 50 towards the end of the front case 2 nearest the mouthpiece 4.
The slip hook 63 comprises an elongate arm 65 which extends from a pivot point 64. The elongate arm 65 includes an arcuate portion 66 near the pivot 64. The slip hook 63 also comprises a detent in the form of a catch surface 67 formed on an opposite side of the pivot point 64 from the elongate arm 65 as most clearly shown in Figure 3. The distance from a distal end 69 of the elongate arm 65 to the pivot point 64 measured along the perpendicular to the line of action of the distal end 69 of the elongate arm 65 about the pivot point 64 is many multiples of the distance from the catch surface 67 to the pivot point 64 measured along the perpendicular to the line of action of the catch surface 67 about the pivot point 64.
The slip hook 63 is freely rotatable in the clockwise and anti-clockwise directions as viewed in Figure 3.
The lock-out motor 70 comprises a rotatable lead screw 21 of conventional design.
The vane 74 comprises a body portion 75 of solid construction which pivots about a pivot point 77 connected to the front case chassis 16. An undersurface of the vane 74 is provided with a flexible plastic spring 76, the use of which will be described below.
The shoot bolt 80 comprises a stem 81 having an internally threaded bore (not shown) and an elongate member 82 extending from the stem 81 and comprising at its distal 1 0 P62475 end a plurality of switch cams 84. The transverse arm 83 also extends laterally from the stem 81 towards vane 74.
The shoot bolt slide 89 is fixedly retained to the chassis 16 of the front case 2 and receives during assembly the shoot bolt stem 81 as a sliding fit.
A trigger cap 61 is provided attached to the front case 2. The trigger cap 61 comprises a plurality of air inlets 62. The trigger cap 61 covers the trigger mechanism 7 even when the front and rear cases 2, 3 are separated. It will be also noted, and as shown in Figure 3, that the air inlets 62 of the trigger cap 61 are displaced relative to the air inlets 26 of the rear case 3 so as to prevent a foreign body being poked into the interior of the actuator 1 through the air inlets in order to tamper with the trigger mechanism 7.
Figure 3 illustrates the trigger mechanism 7 and an upper end of the actuator 1 in the assembled condition with the trigger mechanism 7 ready for a dose to be dispensed from a pressurised dispenser container 100 received within the interior of the actuator 1. The pressurized dispensing container 100 is typically of the type having a metering valve with an internal spring bias. In the position shown in Figure 3 the leaf spring 60 is compressed between the spring seat 54 and the abutment surfaces 56 and therefore acts to bias the canister seat 50 downwards towards the mouthpiece 4. Movement of the canister seat 50 is prevented by engagement of the hook 53 with the catch surface 67 of the slip hook 63. The body 75 of the vane 74 lies in close proximity to the air inlets 62 of the trigger cap 61. The flexible plastic spring 76 of the vane 74 is engaged against the chassis 16 of the front case 2 and biases the vane 74 P62475 with a light force upwardly into proximity with the air inlets 62.
In order to dispense a dose, a user first opens the dust cap 5 by rotating it into a raised position and places the mouthpiece outlet 31 in their mouth and inhales.
Inhalation causes a flow of air to be established which passes through the interior of the actuator 1 from the air inlet holes 26 to the mouthpiece outlet 31. As viewed in Figure 4, this air flow will pivot the vane 74 in a clockwise direction against the bias of the flexible plastic spring 76. Rotation of the vane 74 disengages a distal end 69 of the elongate arm 65 of the slip hook 63 from the end of the vane 74 nearest the pivot point 77 leading to the slip hook 63 rotating in a clockwise direction as shown in Figure 5 under the pull of the hook 53 on the catch surface 67. Contemporaneously the rotation of the slip hook 63 results in the disengagement of the hook 53 of the canister seat 50 from the catch surface 67 of the slip hook 63. As a result the canister seat 50 is free to move downwardly towards the mouthpiece 4 under action of the leaf spring 60.
The canister seat 50 bears against the pressurised dispensing container 100 and movement of the canister seat downwardly thus displaces the pressurized dispensing container 100 towards the mouthpiece 4 resulting in actuation of the internal metering valve of the pressurised dispensing container 100 and dispensation of a dose of medicament out of the pressurized dispensing container through the valve stem block and out of the mouthpiece outlet 31. In this actuated position the ends of the side guide walls 55 come into engagement and rest against the cam surface of the bosses 42 of the dust cap 5.
12 P62475 As shown in Figure 6, the actuator 1 is reset after each dispensation by rotating the dust cap 5 into the closed position wherein the mouthpiece cover 40 covers the mouthpiece 4. Rotation of the dust cap 5 causes the bosses 42 to rotate within the apertures 10. The bosses 42 are engaged with the ends of the side guide walls 55 such that the rotation of the bosses 42 acts to raise the canister seat 50 within the interior of the actuator 1 back into its initial position as shown in Figure 3. The cam surface of the bosses 42 provides for a degree of over-travel of the canister seat 50 in the upwards direction such that as the canister seat 50 is displaced upwardly the end of the hook 53 contacts the arcuate portion 66 of the slip hook 63 and rotates the slip hook 63 counter-clockwise and then descends slightly to effect re- engagement of the hook 53 with the catch surface 67. The arcuate portion 66 is shaped such that vertical upward movement of the hook 53 smoothly rotates the slip hook 63 counter-clockwise. The upward movement of the canister seat 50 also compresses the leaf spring 60 ready for dispensing of the next dose. As the canister seat 50 moves upwardly within the interior of the actuator 1 the pressurised dispensing container 100 also moves upwardly under the internal spring bias of the metering valve of the container into the ready to dispense position shown in Figure 3.
Figures 7 to 10 illustrate a means for locking and unlocking the actuator 1 in order to lock-out operation of the actuator 1 and a means for inserting and removing a pressurized dispensing container 100 from the housing. As shown in Figure 7, in a locked state, an upper end 85 of the shoot bolt stem 81 is engaged in the locking aperture 23 on 13 P62475 the inside face of the top portion 20 of the rear case 3 preventing separation of the front and rear cases 2, 3. In addition, a distal end of the transverse arm 83 is engaged with an under surface of the vane 74 preventing clockwise rotation thereof and thus preventing operation of the actuator 1. The shoot bolt 80 is displaced upwardly into this position by means of the lock out motor 70 which on operation rotates the lead screw 71 which is engaged with the threaded bore of the shoot bolt stem 81 causing the shoot bolt 80 as a whole to move upwardly within the shoot bolt guide 89 into the locked position of Figure 7.
An armed state of the actuator 1 is shown in Figure 8 in which dispensation of a dose of product as described above may take place but in which the separation of the front and rear cases 2, 3 is still not possible. In this position, the upper end 85 of the shoot bolt stem 81 is still in engagement with the locking recess 23 of the rear case 3 but the shoot bolt 81 has been moved downwardly to a sufficient degree to disengage the distal end of the transverse arm 83 from the vane 74 such that sufficient clockwise rotation of the vane 74 is possible to disengage the hook 53 from the slip hook 63.
Figure 9 illustrates an unlocked state of the actuator 1 in which the rear case 3 may be separated from the front case 2. In this state the shoot bolt 80 has been moved further downwards by operation of the lock-out motor 70 to a point where the upper end 85 has been moved out of engagement with the locking recess 23. In this state as shown in Figure 10, the rear case 3 may be opened by pivoting the rear case 3 relative to the front case 2 about the hinge formed by the hinge portions 13, 22. Movement of 14 P62q75 the shoot bolt 80 into the armed and unlocked positions described above causes the switch cams 84 on the shoot bolt to operate one or more of the switches 93 on the PCB 6.
In this way, the control processor 95 can determine the position of the shoot bolt 80. Advantageously, and as shown in Figure 15, in the open position, the trigger cap 61 still covers the moving parts of the trigger mechanism 7 preventing damage or tampering therewith. Advantageously, the ability to lock the actuator 1 provides a secure and robust device in which removal of the pressurized dispensing container 100 from the housing is prevented other than by means of excessive force, such as the use of tools.
Preferably, the shoot bolt 80 is only moved from the locked position of Figure 7 to the armed position of Figure 8 immediately before a dose is required. Consequently, the device is otherwise in the locked state. As will be described below, the device preferably comprises a security pass code system and it is preferred that the shoot bolt 80 only moves into the armed position after entry of the security pass code.
The lock-out motor 70 advantageously allows for precise movement of the shoot bolt 80. In particular, intermediate positions between the extremes of the shoot bolt's travel are possible, unlike with a solenoid where only 'open' and 'closed' positions are possible. Thus, the shoot bolt 80 and lock-out motor 70 can be used to perform both the functions of locking the housing and locking-out operation of the trigger mechanism 7. In addition, the lock-out motor 70 is a robust mechanism for controlling the shoot bolt 80 which is highly resistant to impact loads, accelerations, and magnetic interference, all of which are known to reduce the P62475 effectiveness of solenoids in locking applications. Further, the lock-out motor 70 requires significantly less power to operate than an electro-magnetic device such as a solenoid.
Figures 11 to 15 illustrate how the pressurized dispensing container 100 is replaced in practice. From an initial position shown in Figure 11 the dust cap 5 is first rotated upwardly into the open position as shown in Figure 12 and the mouthpiece 4 removed by disengaging the socket 34 from the stem portion 24. An interface lead 110 such as a USB cable or an RS232 connector is connected to the data port 14 on the front case 2. An operative connection is established between the control processor 95 of the actuator PCB 92 and an external programming device such as a handheld computer or personal computer (PC). A software program is then run on the external programming device to send and receive instructions and information via the interface lead to/from the control processor 95. In order to remove or insert a pressurised dispensing container 100 the software instructs the control processor 95 to move the shoot bolt 80 downwardly into the unlocked state shown in Figure 9 wherein the upper end 85 of the stem 81 is disengaged from the locking recess 23. The rear case 3 can then be separated from the front case 2 as shown in Figure 14 and the pressurised container 100 inserted/removed. The actuator 1 is then closed. The software then instructs the shoot bolt to return to the locked position. The interface lead 110 is then removed. During this insertion/removal procedure, which is preferably carried out by an authorised medical practitioner, and whilst the interface lead 110 is engaged with the data port 14, the control processor 95 may receive instructions from the external programming device to alter 16 P62475 the manner of operation of the actuator 1 for subsequent dispense cycles. This can be useful where the product is to be dispensed in a different manner subsequently or where the actuator 1 is to be used by a different user with different prescription requirements. Further, information stored within a memory of the control processor 95 may be downloaded to the external programming device for analysis.
This information may relate to matters such as the number and time of doses dispensed by the actuator, the user's compliance with a prescribed dosage pattern, information on errors in operation of the actuator 1, etc. The software run on the external programming device preferably includes instructions for carrying out the above procedures to guide the authorized medical practitioner or other operative.
Figures 16 and 17 illustrate an alternative mechanism for locking the opening of the front and rear cases 2,3.
Instead of the shoot bolt 80 being used to interface with the rear case 3 and the vane 74, a rotary wiper 115 is provided as shown in Figure 16. The rotary wiper 115 comprises a vane arm 116 and a lock-out arm 117 each of which depend from a common pivot shaft 118 which is driven to rotate by means of the lock-out motor 70. Preferably, the pivot shaft 118 is itself a rotatable member of the lock-out motor 70. As shown in Figure 16, the vane arm 116 is rotatable such that a distal end engages an undersurface of the vane 74 to prevent rotation of the vane 74 and thus lock-out operation of the actuator 1. The vane arm 116 may be rotated as shown in Figure 17, under control of the control processor 95 into a position in which it is disengaged from the vane 74 allowing the vane 74 to rotate on inhalation by a user to cause the vane 74 to disengage 17 P62475 from the slip hock 63 allowing dispensation as described above.
The lock-out arm 117 as shown in Figure 16 is movable into and out of engagement with a locking recess 119. As with the previous embodiment described, engagement of the lock-out arm 117 in the locking recess 119 prevents separation of the front and rear cases 2, 3.
A second embodiment of dispensing according to the present invention is shown in Figures 18 to 20. This embodiment is particularly suitable for a disposable device where it is not intended to replace the pressurized dispensing container 100 after it has been emptied. Many of the components of the second embodiment are the same or similar to those described above with reference to the first embodiment. Like reference numerals have been used for like components and common features will not be discussed in further detail.
As shown in Figure 18, the actuator 1 again comprises a front case 2, rear case 3, mouthpiece 4 and dust cap 5. In the second embodiment the mouthpiece 4 is not formed as a separate removable component but integrally with the rear case 3. The dust cap 5 is also simplified compared to the first embodiment and comprises a mouthpiece cover portion 40 which is pivoted to the rear case 3 by means of engagement of bosses 125 in apertures 126 formed at the mouthpiece end of the rear case 3 as shown in Figures 19 and 20. Each boss is provided with an eccentricallypositioned peg 127, although a cam surface may alternatively be used as described above with reference to the first embodiment.
As shown in Figure 2Q, the actuator 1 comprises a canister seat 50, leaf spring 60, PCB 92, shoot bolt 80, 18 P62475 slip hook 63 and lock-out motor 70. In addition, the actuator comprises a canister reset seat 130 which is engaged against the valve stem end of the pressurized dispensing container 100 in use. The canister reset seat 130 comprises an annular member 131 which engages a ferrule 132 of the pressurized dispensing container 100 and two elongate arms 133 which extend from the annular member 131 towards the mouthpiece 4.
Operation of the second embodiment of actuator 1 to dispense a dose of medicament is similar to that described above with reference to the first embodiment. On actuation, the distal ends of the elongate arm 133 move downwardly within the interior of the actuator 1 to come to rest against the pegs 127 of the bosses 125 of the dust cap 5. In addition, means for locking operation of the actuator 1 and separation of the front case 2 and rear case 3 may be provided as described above with reference to the first embodiment. However, the means for resetting the actuator 1 after each dispensation is different from that described above. In the second embodiment, resetting of the device is again achieved by rotation of the dust cap 5. Rotation of the dust cap 5 from the open position into the closed position in which it covers the mouthpiece 4 causes the bosses 125 to rotate within the apertures 126 of the rear case 3. Consequently, the pegs 127 on the bosses 125 are moved from a lower position within the rear case 3 to an upper position. As the pegs 127 are engaged against the distal ends of the elongate arms 133 of the canister reset seat 130, rotation of the dust cap 5 causes the canister reset seat 130 and consequently the pressurized dispensing container 100 to be moved upwardly within the interior of 1 9 P62475 the actuator 1 against the bias of the leaf spring 12 to re- engage the hook 53 of the canister seat 50 with the catch surface 67 of the slip hook 63.
In other respects the second embodiment of actuator 1 operates in the same manner as described above with reference to the first embodiment.
Figure 21 illustrates schematically a user interface displayed on the LCD screen 15 of the actuator 1 and accessed and navigated through by the operating button 17 according to the present invention. The interface may be used on any of the embodiments described above or below.
Advantageously, the user interface is operated and navigated by using only one operating button 17. The LCD screen 15 comprises a plurality of icons 135 and alphanumeric character blocks 136 as shown in Box A which may be illuminated in varying combinations to display topical information to the user of the actuator 1. The LCD screen appears blank as shown in Box 1 in a standby mode where, for example, the actuator 1 has not been used for some time.
If the operating button 17 is depressed with the dust cap 5 in the closed position the LCD screen 15 illuminates to display the number of doses immediately available for dispensing shown in Box 2. The LCD screen 15 preferably then proceeds either at fixed time intervals or on further depressions of the operating button 17 to display the time elapsed since the last dose, as shown in Box 3, and then the total number of doses remaining in the pressurized dispensing container 100, as shown in Box 4. The LCD screen then returns to the standby display of Box 1.
From the standby mode, if the dust cap 5 is opened the LCD screen 15 displays one of two screens dependent on the 2 0 P62475 state of the actuator 1. If no dose is currently available because, for example, the user has recently taken a previous dose and is not yet permitted to take a further dose, Box 6 is displayed indicating a warning to the user followed by the display of Box 7 indicating the time remaining until the next dose can be dispensed. The display may then return the standby mode of Box 1 or proceed to the displays of Boxes 3 and 4 to indicate the time elapsed since the last dose and total number of doses left in the pressurized dispensing container 100. Alternatively, if on opening of the dust cap 5, a dose is available for immediate dispensation Box 8 is displayed indicating that a pass code is required to be entered by the user before dispensation can take place. If the correct pass code is entered by the user the display moves to Box 10 indicating that the actuator 1 is unlocked and it then proceeds to display Box 11 indicating the number of doses that can be dispensed immediately, in this example 2'. Once a dose has been taken by a user in the manner described above, the display decrements the number of doses immediately available to '1' as shown in Box 12. The user at this point must close the dust cap 5 in order to reset the device as described above. At this point the LCD screen returns to the standby display of Box 1. Alternatively, if on taking a dose the actuator 1 determines that the pressurized dispensing container 100 is empty this information is displayed to the user and the actuator 1 must be returned to an authorized medical practitioner for refilling.
One method of inputting the pass code is illustrated in Boxes 8A to 8C. A three or four digit alphanumeric code is entered one digit at a time. To allow operation by a single 2 1 P62975 operating button 17 the display as shown in Box 8A automatically cycles through the potential alphanumeric characters for the first digit. The user then presses the operating button 17 when the correct alphanumeric character for the first digit is displayed as shown in Box 8B. The display then cycles through the available alphanumeric characters for the second digit and so on until the complete code has been entered as shown in Box 8C.
An alternative method for inputting the pass code involves the user themselves cycling through the potential alphanumeric characters. In this method each press of the operating button 17 changes the character displayed, initially for the first digit. Once the correct character is displayed the user presses and holds for a fixed period, such as a second, the operating button 17 to confirm the selection and to move onto the second digit, and so on until the entire code has been entered.
If at any point an incorrect code is entered, the display illuminates as shown in Box 9 to indicate that an error has occurred. Preferably two or three attempts are allowed for the user to input the correct pass code. If after a predetermined number of attempts the correct pass code has still not been entered then the actuator 1 remains locked and the display moves to the standby state of Box 1.
The LCD display 15 is also able to display other information in connection with operation of the actuator 1.
In particular, as shown in Box 13 the display can illuminate to indicate if operation of the pressurized dispensing container 100 during a dose dispensation was ineffective due to, for example, incomplete valve travel. The display may also be capable of showing a general failure display as 22 P62475 shown in Box 14 where the internal components of the actuator 1 have suffered an electro-mechanical failure such as, for example, failure of the lock-out motor 70.
As shown in Box B. the display 15 may indicate if the internal battery of the PCB 92 is close to exhaustion, although this information preferably is only displayed to an authorised medical practitioner on inserting a pressurized dispensing container 100. Preferably, the software in the actuator 1 and the external programming device is able to determine whether the battery 94 has sufficient power to dispense all doses contained in the pressurized dispensing container 100. The determination may be made by interrogating the battery 94 to ascertain its remaining power or by logging and analysing the accumulated usage of the battery 94, or by a combination of these methods. Where logging of accumulated usage is chosen the memory of the control processor 95 can be used to store information on the number of actuations of the lock-out motor 70 and/or the total time the LCD display 15 has been powered on. This information can then be used to work out the remaining power in the battery 94 since the initial power capacity or rating of the battery 94 is known.
As shown in Box C, the display 15 may display an icon, preferably in a flashing mode, to indicate if the pressurized dispensing container 100 is low on remaining doses.
The visual displays of the LCD screen 15 may also be accompanied or replaced by audio signals such as buzzes, beeps or combinations thereof, or tactile signals such as vibrations to alert a user to the status of the device.
23 P62475 The control processor 95 and LCD display 15 may together be used to control operation of the actuator by regulating the number of actuations in a particular time period and/or the time interval between individual actuations. In one version the control processor 95 may be programmed to allow a predetermined number of actuations to be taken during a 'rolling' time interval. For example, three actuations may be allowed during any 24 hour period.
Thus the 'rolling' window of 24 hours starts when the first actuation takes place. Thereafter two further actuations are possible within 24 hours. In other words, a fourth actuation is not possible until 24 hours after the first actuation.
The window is a 'rolling' window in that a fifth actuation is not possible until 24 hours after the second actuation, a sixth actuation is not possible until 24 hours after the third actuation, and so on. By using a rolling time frame the device prevents a user taking too many doses at a transition point between fixed time frames. For example, the user is prevented from taking three doses near the end of a first 24 hour period and three further doses near the start of a second, successive 24 hour time period which would lead to six doses being administered in under 24 hours. An advantage of the described operating system is that the exact timing of each actuation within the 24 hour period can be decided by the user. This is an advantage for medicaments that have an accumulative effect on a user whereby the exact timing of each dose is less critical than the total quantity of medicament dispensed over a particular time period. By allowing a user to determine themselves when they take the doses in that period the actuator 1 allows for a flexible dispensation pattern which is more suited to a user's needs.
24 P62475 The number of possible doses in each time period and the length of the time period can be varied as required by the prescription requirements of each individual user and the figures given above are merely exemplary.
In another version, the control processor 95 may be programmed to allow actuations to take place only after a minimum time interval of, for example, 4 hours. This mode of operation may be used separately from the 'rolling' window described above or in combination. Thus in combination, the control processor 95 may flexibly allow a user to take, say, 3 actuations within any 24 hours and at the same time ensure that no two doses are taken within, say, 1 hour of each other. This advantageously provides a great deal of flexibility and control of the prescription regime.
In another version, the control processor 95 is provided with clock running on either an internal time or a real time basis. The control processor 95 is programmed to allow a set number of doses to be administered each 'day' or other fixed time interval determined by the clock. Thus the timing of the doses is determined by an absolute time measure rather than a relative time measure dependent on the timing of previous doses. This mode of operation is advantageous for medicaments which are prescribed at fixed intervals which may be one or more days apart. A real time clock may also be used to ensure that a medicament is not used after the expiry date has passed. The expiry date information may be input to the control processor by the external programming device on insertion of the pressurized dispensing container.
The control processor 95 may also be used to prompt a user to take a dose at a particular time. The prompt may P62475 take the form of a visible signal on the LCD 15, an audible alert, a tactile alert such as a vibration, or a combination of the above. The prompt can be used to assist a user's prescription regime by reminding the user to take a dose at the 'best' time. However, this prompting system may be combined with the operating modes described above. Thus the device may use a 'rolling' window mode to allow flexibility in the timing of doses within a time period but still recommend to a user that the doses are taken at specific times.
Figures 22 to 31 illustrate a mechanism which may be incorporated into either of the embodiments of actuator 1 described above for automatically removing the actuating force from the pressurized dispensing container 100 after dispensation of a dose of medicament. This is useful in overcoming a potential problem with the unmodified embodiments described above which may occur if the dust cap is left in the open position after dispensation of a dose.
In the unmodified embodiments described above, the biasing force of the leaf spring 60 continues to act via the canister seat 50 on the pressurized dispensing container 100 and maintains the pressurized dispensing container 100 in the depressed state with the internal metering valve of the pressurized dispensing container 100 in an actuated position. Whilst the internal metering valve contains seals to isolate the bulk product from the exterior of the pressurized dispensing container 100 in the actuated position, it is known that over time these seals may be subject to leakage of medicament and/or pressurized gas. As a result, it is advantageous that the mechanism of the present invention described below enables the biasing force 26 P62475 to be automatically removed from the pressurized dispensing container 100 even where the dust cap 5 is left in the open position.
As shown in Figures 22 to 36, the mechanism for removing the biasing force from the pressurized dispensing container 100 comprises a modified canister seat 50, two helical springs 140 instead of the leaf spring 60 and additional components in the form of a retainer member 141 and a pair of toggles 150. As shown in Figures 22 and 36, the modified canister seat 50 comprises two upstanding guide arms 145 which are diametrically opposed to one another.
The retainer member 141 is received in the interior of the actuator 1 and is slidable relative to the modified canister seat 50. The pair of helical springs 140 span between the modified canister seat 50 and two springs seats 142 provided on an undersurface of a transverse platform 144 of the retainer member 141. An upper surface of the transverse platform 144 forms two toggle catch surfaces 143, the use of which will be described below.
The pair of toggles 150 are pivotally mounted to the chassis 16 of the actuator 1. Initially, with the mechanism in a position ready for dispensation of a dose of medicament as shown in Figure 22 rotation of the toggles 150 due to the bias of the helical springs 140 is prevented by contact with the guide arms 145 of the modified canister seat 50.
In the position of Figure 22 the helical springs 140 are compressed between the retainer member 141 and the modified canister seat 50. The toggles 150 are engaged with the toggle catch surfaces 143 of the retainer member 141 preventing upward movement of the retainer member 141 away from the modified canister seat 50. Downward movement of 27 P62475 the canister seat 50 and pressurized dispensing container is prevented as described above by engagement of the hook 53 with the slip hook 63. In addition, as shown in Figure 22 the shoot bolt 80 is in the locked position with the transverse arm 83 contacting the vane 74 preventing actuation of the actuator 1.
Figure 23 shows the trigger mechanism in the unlocked state with the transverse arm 83 out of engagement with the vane 74. At this point the positions of the retainer member 141, toggles 150 and modified canister seat 50 are unchanged.
Figure 24 shows the point when inhalation by a user has commenced causing the vane 74 to rotate in a clockwise direction leading to disengagement of the vane 74 from the distal end 69 of the elongate arm 65 of the slip hook 63.
Consequently, as shown in Figure 25, the hook 53 disengages from the catch surface 67 of the slip hook 63 and the modified canister seat 50 and the pressurised dispensing container 100 are displaced downwardly towards the mouthpiece 4 in order to dispense a dose of medicament as described previously. Contemporaneously the downward movement of the modified canister seat 50 moves the guide arms 155 of the modified canister seat 50 out of engagement with the outer faces of the toggles 150 as shown in Figure 25. Consequently, the toggles 150 are free to rotate under the bias of the helical springs 140 acting through the modified canister seat 50 into the position shown in Figure wherein the toggles 150 have moved out of engagement with the toggle catch surfaces 143 of the retainer member 141.
As a result, the retainer member 141 is free to move upwardly within the actuator 1 towards the top portion 20 of 28 P62475 the rear case 3 under action of the helical springs 140 with the transverse platform 144 passing in between the two toggles 150 as shown in Figure 26. As the retainer member 141 moves upwardly, the transverse platform 144 clears the toggles as shown in Figure 27. At the same time, movement of the retainer member 141 upwardly is sufficient to remove the biasing force of the helical springs 140 from the modified canister seat 50 allowing the modified canister seat 50 and the pressurized dispensing container 100 to move back upwardly within the actuator 1 under the internal spring bias of the pressurized dispensing container 100.
Upward movement of the modified canister seat 50 brings the guide arms 155 into contact with the toggles 150 as shown in Figure 27 which act to rotate the toggles into their original position as shown in Figure 28. The upward movement of the modified canister seat 150 also re-engages the hook 53 with the slip hook 63 in the manner described above.
Hence, at this point the dust cap 5 of the actuator 1 is still in the open position but the pressurized dispensing container 100 has been able to move back into its unloaded, non-actuated state as shown in Figure 28. Thus, leakage of medicament and/or propellant from the container 100 via the outlet seals of the internal metering valve is prevented.
The mechanism is reset by closing the dust cap 5. As will be described below, rotation of the dust cap 5 moves the retainer member 141 downwardly within the actuator 1 towards the mouthpiece 4 resulting in the transverse platform 144 being pulled down between the toggles 150 as shown in Figure 29. The toggles 150 are thus rotated into contact with and deflect small leaf springs 148 located immediately beneath each toggle 150. Once the transverse 2 9 P62475 platform 144 of the retainer member 141 clears the toggles the toggles are moved back into their original orientation by means of the leaf springs 148 as shown in Figure 30. The final portion of the rotation of the dust cap 5 allows the retainer member 141 to move upwardly under the bias of the springs 140 to a small degree so that the toggles 150 re-engage the toggle catch surfaces 143 of the transverse platform 144. In this position, as shown in Figure 31 the actuator 1 is ready for a further dispensation cycle.
The mechanism for moving the retainer member 141 downwardly from the position of Figure 28 into the position of Figure 31 will now be explained. Figures 32 to 35 more clearly illustrate how closure of the dust cap 5 re-sets the retainer member 141 and the toggles 150 (the pressurized dispensing container has been omitted for clarity). As shown in Figure 32, the retainer member 141 further comprises a lower arm 147 which extends downwardly within the interior of the actuator 1. Each arm 147 comprises an aperture 149 which engages a cam 152 provided on the bosses 42 of the dust cap 5 and which protrude into the interior of the actuator 1 through the apertures 10 formed in the front case 2.
The aperture 149 of each lower arm 147 is generally rectangular but is provided with a recess 153 in which the cam 152 can nestle when the dust cap is in a closed position as shown in Figure 32. Figure 33 shows the dust cap 5 rotated into the open position and shows that the cam 152 has been moved upwardly relative to the lower arm 147 so that it is disengaged from the recess 153 and is located part way along the aperture 149. In this position as P62475 described above the retainer member 141 is held in position solely by the action of the toggles 150. Figure 34 shows the actuator 1 immediately after dispensation of a dose but with the dust cap 5 still in the open position and equates to the position of Figure 28. At this point the cam 152 is still out of engagement with the lower arm 147. However, as shown in Figure 35, on rotation of the dust cap 5 into the closed position the cam 152 is brought into engagement with the lower arm 147 and moves the lower arm 147 and hence the remainder of the retainer member 141 downwardly. The presence of the recess 153 in the lower arm 147 allows the retainer member 141 to move back upwardly within the actuator 1 to a small degree just as the dust cap 5 is brought into the closed position discussed above in order to enable the toggles 150 to re-engage the toggle catch surfaces 143 of the transverse platform. In addition, the recess 153 provides a positive closure to the dust cap 5 that provides a small resistance to opening of the dust cap 5. This is useful in keeping the duct cap 5 securely in place.
It should be noted that the mechanism described herein for removing the valve load from the pressurized dispensing container 100 when the dust cap 5 is in the open position may be applied to either the first or second embodiments of actuator 1 described above and also to other actuators which may or may not incorporate a trigger mechanism 7 operated by the inhalation of a user.
Figures 37 to 41 illustrate schematically an alternative mechanism for removing the load from the valve of the pressurised dispensing container 100. The mechanism comprises a canister seat formed from a first part 50 which 3 1 P62975 is retained by and released from the slip hook 63 in the way described above and a second part 510 fixed to the pressurised dispensing container 100. The first and second parts 50, 510 of the canister seat are slidable relative to one another and together define a pressurizable chamber 511.
A vent 512 is provided from the chamber 511 which is closable by a flap valve 513. Figure 37 shows the at rest position prior to inhalation. On inhalation the vane is rotated and the first part 50 of the canister seat is released and is moved downwards by action of the leaf spring 60. Air is unable to escape rapidly from the vent 512 due to the flap valve 513. Consequently the force is transferred to the second part 510 of the canister seat and the pressurised dispensing container 100 is moved downwards to cause it to operate. At the end of the downward stroke of the first part the flap valve 513 contacts, and is lifted by, a reset sleeve 500 as shown in Figure 39. At this point the pressurized air within the chamber 511 rapidly escapes via the vent 512 allowing the fixed part 510 and pressurized dispensing container 100 to move upwards under the bias of the container's internal metering valve. At this point the load is removed from the container 100. The mechanism is reset by rotating to close the dust cap which acts on the reset sleeve 500 via a cam to lift the reset sleeve 500 and first part 50 back into the position shown in Figure 37.
Alternatively, the vent 512 may be sized to limit the through flow of air and the flap valve 513 dispensed with.
In operation, on triggering of the trigger mechanism the force is transferred to the second part 510 since the air cannot escape rapidly enough from the chamber 511. However 32 P62475 after actuation the air vents through the still open 512 allowing the load to be removed as described above.
Figure 41 schematically illustrates an alternative trigger mechanism which may be used with the actuator 1 of the present invention. In this alternative, the vane 74 is provided as before connected to the chassis 16 at a pivot point 77. The slip hook 63 is orientated substantially horizontally and is pivoted to the chassis 16 at a pivot point 64. As before, the slip hook 63 comprises an elongate arm 65 and a catch surface 67 for restraining a hook 53 of a canister seat 50. However, in this version, the elongate arm 65 of the slip hook 63 extends substantially horizontally and the distal end 69 is restrained in tension by a link extending below the vane 74. In operation, on inhalation by a user, the vane 74 rotates moving the link of the vane out of engagement with the distal end 69 of the slip hook 63 at which point the slip hook 63 is free to rotate in a clockwise direction as viewed in Figure 41 freeing the hook 53 from the catch surface 67.
Figure 42 illustrates a further alternative trigger mechanism which may be used in the actuator 1 of the present invention. The configuration as shown in Figure 42 is mechanically identical to that described above with reference to the first embodiment, except that the orientation of the vane 74 is now substantially vertical rather than substantially horizontal. In addition, the slip hook 63 is orientated in the armed position substantially horizontally. In other respects, operation of the trigger mechanism is the same as that described above in the first embodiment.
33 P62475 Figure 43 illustrates a further alternative trigger mechanism. In this mechanism, a vane 174 is provided pivoted about a pivot point 177 connected to the chassis 16 of the actuator 1. The vane 174 has a doglegged configuration and is provided with a rotatable peg 178 at the angle of the dog-leg. A hook 163 is provided on a modified canister seat 250 which is engagable with the peg 178. In the position shown, the peg 178 prevents downward movement of the canister seat 250 and hence actuation of the actuator 1. On inhalation by a user, the vane 174 is rotated in an anti-clockwise direction as viewed in Figure 43 causing the peg 178 to move out of engagement with the hook 163 allowing the modified canister seat 250 to move downwardly in the direction of the spring 260.
Figure 44 illustrates a further alternative trigger mechanism in which the pressurized dispensing container 100 is biased by means of a helical spring 140 acting on a canister seat 350. The canister seat 350 is pivotably connected to a link member 351 at a lower pivot point 352. A pivotable vane 374 is provided and pivots about a pivot point 353 mounted to the chassis 16 of the actuator 1. The vane 374 is also pivotably connected to the link member 351 at a top pivot point 354. In the rest position, the top pivot 354 lies over-centre with respect to the pivot point 353 and lower pivot 352, in other words to the right of a vertical line passing through the pivot point 353 as viewed in Figure 44. On inhalation the vane 374 is rotated counter- clockwise moving the top pivot 354 past the vertical at which point the spring 140 accelerates the rotation of the vane and the canister seat 350 and pressurized dispensing P62475 container 100 are enabled to move downwards to actuate the container.
Figure 45 illustrates a further trigger mechanism comprising a chassis 458 pivotably connected to a vane 474 by means of a spring 440 spanning between a boss 452 on the chassis 458 and a boss 454 on the vane 474. The vane 474 is pivotable connected to the chassis about a pivot point 453.
A canister seat 450 is provided comprising a hook 459 which passes upthrough an aperture 460 in the chassis 458 into the region of the vane 474. The chassis 458 houses a slidable sprung bar 481 which is biased by means of a sprung portion 483 in the rest position into engagement with a projection 482 on the canister seat 450 which prevents downward movement of the seat 450. On inhalation the vane 474 rotates clockwise as viewed in Figure 45 moving the boss 454 over-centre at which point the spring 440 accelerates the rotation of the vane. A rear portion of the vane 474 is provided with a cam (not shown) which acts on the slidable sprung bar 481 to the left as viewed in Figure 44 on rotation of the vane 474 to move the bar 481 out of engagement with the projection 482 and so enable downward movement of the canister seat 450 and operation of the dispensing container. On resetting the trigger mechanism the hook 459 of the canister seat 450 is moved upwards which rotates the vane 474 into its initial position. The vane 474 is provided with an aperture 477 which is shaped to ensure that the hook 459 detaches from the vane 474 as the trigger mechanism reaches the rest position.
In the above embodiments the resetting of the trigger mechanism 7 has been described as being achieved by rotation of the dust cap 5 causing in turn rotation of a cam surface P62475 or off-set peg engaged with a portion of the canister seat or canister reset seat 130. However, resetting of the trigger mechanism 7 may equally be achieved by other means without departing from the scope of the present invention.
For example, the canister seat 50 or canister reset seat 130 may be displaced by means of equivalent mechanical arrangements such as an axial slider, a rotatable lever, a rack and pinion operated by a key, or similar.
The above invention has been particularly described, by way of example, applied to a dispensing device actuated by the inhalation of a user. However, interface of the present invention may be utilised with dispensing devices where triggering is other than by inhalation. In addition, the invention has been described with reference to a pressurized dispensing container but can be applied to other dispensing devices.

Claims (27)

  1. 36 P62475 Claims: 1. Dispensing apparatus for dispensing a medicament from
    a dispensing container received, in use, in the dispensing apparatus, the apparatus comprising a housing for holding said dispensing container, a display means for displaying information relating to operation of the dispensing apparatus and a single operating button, wherein operation of the single operating button enables operation of the dispensing apparatus.
  2. 2. Dispensing apparatus as claimed in claim 1 wherein the dispensing apparatus further comprises a processing means operatively connected to the single operating button, the processing means comprising a memory having stored therein a pass code.
  3. 3. Dispensing apparatus as claimed in claim 2 wherein operation of the dispensing apparatus is enabled by provision of the pass code prior to actuation of the dispensing apparatus.
  4. 4. Dispensing apparatus as claimed in claim 3 wherein the single operating button actuatable to send signals to the processing means to input the pass code.
  5. 5. Dispensing apparatus as claimed in any of claims 2 to 4 wherein the pass code comprises one or more alphanumeric digits.
    37 P62475
  6. 6. Dispensing apparatus as claimed in any of claims 2 to 5 wherein the display means displays possible characters for each alphanumeric digit of the pass code.
  7. 7. Dispensing apparatus as claimed in claim 6 wherein the display means displays possible characters for each alphanumeric digit of the pass code for each digit successively.
  8. 8. Dispensing apparatus as claimed in claim 6 or claim 7 wherein the display means automatically cycles through the possible characters for each alphanumeric digit of the pass code.
  9. 9. Dispensing apparatus as claimed in claim 6 or claim 7 wherein the single operating button is actuatable to cycle through the possible characters for each alphanumeric digit of the pass code.
  10. 10. Dispensing apparatus as claimed in any preceding claim wherein the display means displays information on the number of available actuations of the dispensing apparatus.
  11. 11. Dispensing apparatus as claimed in any preceding claim wherein the display means displays information on the time until the next available actuation of the dispensing apparatus.
  12. 12. Dispensing apparatus as claimed in any preceding claim wherein the display means displays information on the 38 P62475 number of possible actuations remaining for a dispensing container received in the dispensing apparatus.
  13. 13. Dispensing apparatus as claimed in any preceding claim wherein the display means displays information on the power status of a battery of the dispensing apparatus.
  14. 14. Dispensing apparatus as claimed in any preceding claim wherein the display means is a liquid crystal display.
  15. 15. Dispensing apparatus as claimed in any preceding claim wherein means for prompting a user to actuate the dispensing container at a predetermined time are provided.
  16. 16. Dispensing apparatus as claimed in claim 15 wherein the means for prompting a user is one or more of an audible signal, a visual signal on the display means, and a tactile signal such as a vibration.
  17. 17. Dispensing apparatus as claimed in any preceding claim further comprising a dispensing container.
  18. 18. Dispensing apparatus as claimed in claim 17 wherein the dispensing container is a metered dose inhaler.
  19. 19. Dispensing apparatus as claimed in claim 17 or claim 18 wherein the dispensing container contains a medicament for oral or nasal administration.
    P62475
  20. 20. Dispensing apparatus as claimed in any of claims 17 to 19 wherein the dispensing container includes a hydrofluoroalkane propellant.
  21. 21. A method of operating a dispensing apparatus of the type receiving, in use, a dispensing container, comprising displaying on a display means information relating to operation of the dispensing apparatus, and operating a single operating button to enable operation of the dispensing apparatus to dispense a product from the received dispensing container.
  22. 22. A method as claimed in claim 21 further comprising the step of inputting a pass code having one or more digits prior to operation of the dispensing apparatus.
  23. 23. A method as claimed in claim 22 wherein the single operating button is actuated to input the pass code.
  24. 24. A method as claimed in claim 23 further comprising automatically displaying in a cycling manner the possible characters for each digit of the pass code in turn.
  25. 25. A method as claimed in claim 24 wherein the single operating button is actuated to select each digit of the pass code when the correct character is displayed on the display means.
  26. 26. A method as claimed in claim 23 wherein the single operating button is actuated to display the possible : P62475 characters for each digit of the pass code and actuated to select each digit of the pass code when the correct character is displayed on the display means.
  27. 27. A method as claimed in claim 26 wherein the correct character is selected by actuating and holding in an actuated position the single operating button.
GB0303074A 2003-02-11 2003-02-11 Inhaler with display and single operating button Withdrawn GB2398250A (en)

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GB0303074D0 GB0303074D0 (en) 2003-03-19
GB2398250A true GB2398250A (en) 2004-08-18

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US8329271B2 (en) 2004-12-23 2012-12-11 Clinical Designs Limited Medicament container
US9114221B2 (en) 2009-03-10 2015-08-25 Euro-Celtique S.A. Counter
US9202164B2 (en) 2011-09-26 2015-12-01 Trudell Medical International Dose counter and medication delivery device
US9415178B2 (en) 2009-03-10 2016-08-16 Euro-Celtique S.A. Counter
US9592355B2 (en) 2005-09-09 2017-03-14 Raymond John Bacon Dispenser
US9707360B2 (en) 2004-11-19 2017-07-18 Clinical Designs Limited Substance source
US10799652B2 (en) 2015-01-08 2020-10-13 Convexity Scientific Inc. Nebulizer device

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