ZA200508816B - Dispensing systems - Google Patents

Description

DISPENSING SYSTEMS

REFERENCE TO CO-PENDING APPLICATIONS

The entire subject matter of each of the following applications is incorporated by reference. The applicant claims priority benefit under Title 35, United States Code, and Section 119(e) of the following applications: 1) US Application serial number 60/464,659, filed April 23, 2003, entitled “DISPENSING

SYSTEMS"; 2) U.S. Application serial number 60/523,701, filed November 21, 2003, entitled “MEDICAL

MATERIAL HANDLING SYSTEMS”; 3) U.S. Application serial number 60/523,702, filed November 21, 2003, entitled “MEDICAL

TREATMENT MANAGEMENT SYSTEMS”

BACKGROUND OF THE INVENTION

1. FIELD OF THE INVENTION

The present invention relates to the control of materials from dispensing devices, such as for example those . which dispense medications and other materials to patients. 2. DESCRIPTION OF THE RELATED ART

There has been, in recent years, tremendous changes in the way in which patients are treated. Most social

Medicare systems have been scrutinized to improve productivity. Sweeping changes are taking place in the way in which a patient's medial records are tracked, in order to provide a high level of care, while ata reasonable cost. These changes have not occurred, however, without problems. A recent heart lung transplant surgery went horribly wrong because of a relatively minor oversight- a mismatch in the blood type of the donor and recipient patients. This event is overshadowed by numerous accounts of patients being given the wrong medication, which point to the need for improved monitoring and matching of patients with proper and correct medications and/or medical procedures.

It is an object of the present invention to provide a novel materials dispensing system.

SUMMARY OF THE INVENTION

In one of its aspects, the prevent invention provides a delivery system, comprising: - dispensing means having an outlet for delivering one or more materials or one or more articles; - dispensing control means for controlling the passage of the material or article through the outlet; 15 . - first identification means operable for recording, emitting, carrying or associating first identity data to identify the dispensing means, or the material or article carried thereby; and - permission control means operable to establish a predetermined condition of the dispensing control means when a corresponding predetermined relationship is established between the first identity data and second identity data of an associated entity. l]

In an embodiment, the associated entity is a dispensing recipient, a medical professional or clinician.

In an alternative, the dispensing recipient is a medical patient, an experimental subject and/or a candidate for a treatment or procedure. For example, the dispensing recipient may be mammalian, such as a human being.

In an embodiment, the material or article has beneficial properties to enhance life, to promote health, to cure and/or treat a disease, condition or ailment, to monitor and/or indicate a bodily function or a combination thereof.

In an embodiment, the material or article is useful, amoung others, for IV therapy, implantation, stem cell therapy, oncology therapy, blood transfusion and/or organ transplantation.

In a preferred embodiment, the dispensing means includes a syringe, IV bottle, powder and/or atomized fluid and/or gas inhalant dispenser, implant delivery dispenser, ventilator, syringe pump, intubation tube, gastrointestinal feeding tube or a plurality and/or combination thereof.

It is preferred under certain circumstances that the dispensing control means includes an access means for controlling access to the outlet. In this case, the access means may include a controlled valve member, ora controlled outlet blockage member or both. The valve member or outlet blockage member may be normally closed or normally open. .

In an embodiment, the valve member is a variable aperture valve member, a proportional valve member or a combination thereof. ’

In an embodiment, the valve member is a pulse width modulated on-off valve.

In an alternative, the blockage member is a lockable cap member.

In an embodiment, the dispenser means includes a syringe with a plunger portion positioned in a barrel portion, wherein the dispensing control means includes lock means for locking the position of the plunger portion.

The dispensing control means may include a valve means located in the barrel portion or downstream thereof. :

In an embodiment, the dispensing control means includes a blockage member located in the barrel portion or downstream thereof.

In an embodiment, the dispenser includes an output channel providing a delivery site, the valve means and/or blockage member being located at, in or near the delivery site.

Preferably, the second identity data identifies the recipient. For example, the second identity data may be embedded in, carried by or emitted by an article carried externally or internally by the recipient.

If desired, the article may include a band or ring to be worn on a leg, arm or neck of the recipient and include an implantable ID chip. ,

In one case, the permission control means includes a key portion associated with the second identity data. : In this case, the key portion may be located on an article carried externally or internally by the recipient.

The key portion may be operable to engage a complementary key receiving portion to establish the predetermined condition, in which case the key receiving portion may be located on the dispensing means or at some other location. In one example, the article is a wrist band and the dispensing means is a syringe.

In an embodiment, the key-receiving portion includes a key receiving-passage.

In an embodiment, the permission means is operable to expose the key portion to the key-receiving portion.

In this case, the key portion may be movable between a concealed position and the exposed position.

Alternatively, the key portion may be stationary relative to the article and the permission means may further comprise a key shroud which is operable between a key-concealing condition and a key-revealing condition.

In an embodiment, the first identification means includes a biometric sensor, an optical character reader, a bar code reader, a magnetic strip reader, ora combination thereof. -

In an embodiment, the first identification means includes a signal emitter and/or receiver to emit and/or receive signals in the visible or invisible frequency spectrums.

In another of its aspects, the present invention provides a material dispensing system, comprising: - a material dispenser having material container portion and a material delivery outlet channel portion; - valve means for controlling access to the delivery outlet channel portion; - first identification means operable for recording, emitting, carrying or associating valve identity data to identify the valve means; and - valve control means operable to establish a predetermined condition of the valve means when a corresponding predetermined relationship is established between the valve identity data and identity data of an associated article in a vicinity of the material dispenser.

In an embodiment, the material dispenser is arranged for delivery of materials in the treatment of a patient, wherein the materials are fluids.

In an embodiment, the material container portion includes a syringe, a vial, a catheter and/or an IV bag. In the case of a syringe, the delivery outlet channel portion is downstream of a plunger-containing chamber portion, the valve means being located in the delivery outlet channel portion.

In an embodiment, the delivery outlet charmel portion is downstream of a plunger-containing chamber portion, the valve means further comprising a valve housing attachable with and/or separable from the delivery outlet channel portion. .

Preferably, the associated article is attachable to or wearable by a patient to receive the fluid materials. In this case, the associated article may be an identity tag attachable to or an article worn by the patient.

Preferably, the system further conprises second identification means operable for recording, emitting, carrying or associating identity data to identify the associated article. The first or second identification means, or both, are arranged to retain the valve identity data or the associated article identity data in electronic, graphical, mechanical or muclear form. The first or second identification means, or both, are operable to convey the valve identity data or the associated article identity data on a carrier wave. The carrier wave may include radio frequency waves, microwaves or waves or signals of other frequencies or frequency ranges. The valve identity or the associated article identity data may, for example, be resident on the carrier wave by frequency modulation, amplitude modulation, wave superposition or a combination thereof.

It is preferred under certain circumstances that the system further comprises comparison means for comparing the valve identity data with the associated article identity data. The comparison means is operable to receive and decode an RF ID signal from the valve, the associated article or both. For example, where the containing means includes a syringe, the comparison means may be integrally formed with the syringe. Alternatively, the syringe may be provided with a valve portion downstream of and separable from a chamber portion, in which case the comparison means may be located in the valve portion. .

In an embodiment, the comparison means is resident in an intermediate controller module which is operable within signal receiving range of both the valve and the associated article.

In an embodiment, the valve means includes a valve element powered by a power supply portion. The power supply portion includes a power source residing in the power supply portion, a conductive path to an external power source, or an inductive power generating module which is responsive to externally applied radiation, or a combination thereof. For example, the radiation may be of the microwave or radio wave frequency ranges.

In an embodiment, the comparison means is operable to open the delivery outlet channel portion when there is a match between the valve identity data and the associated article data. In this case, the comparison means is operable to close the valve means to block access to the delivery outlet portion when there is a mismatch between the valve and the associated article identity data. Similarly, the material dispenser includes a syringe and the power supply portion is integrally formed therewith.

Tn an alternative, the first and second identification means includes complementary first and second key formations located on, in or near the valve means and the associated article respectively. The first key formation is located on the material dispenser and the second key formation is located on the associated article so that the material dispenser and associated article may positioned so that the first and second key formations be brought into complementary engagement with one another to establish the predetermined relationship.

In yetanother of its aspects there is provided a delivery system, comprising: - syringe means having an outlet for delivering fluid materials; - onboard dispensing control means onboard the syringe means for controlling the passage of the fluid materials through the outlet; - first identification means operable for recording, emitting, carrying or associating first identity data to identify the dispensing means, or the material or article carried thereby; and

- permission control means operable to communicate with the onboard dispensing control means to establish a predetermined condition of the dispensing control means when a corresponding predetermined relationship is established between the first identity data and second identity data of an associated entity.

Preferably, the associated entity is a dispensing recipient, a medical professional or clinician. The dispensing recipient may be a medical patient, an experimental subject and/or a candidate for a treatment or procedure and the dispensing recipient is mammalian.

It is preferable under certain circumstances that the onboard dispensing control means includes an onboard access means for controlling access to the outlet. The onboard access means includes an onboard controlled valve member, or an onboard controlled outlet blockage member or both. Preferably, the onboard valve member or onboard outlet blockage member is normally closed and may be a variable aperture valve member, a proportional valve member or a8 combination thereof. In one example, the onboard valve member is a pulse width modulated on-off valve.

In an embodiment, the syringe means includes a plunger portion positioned in a barrel portion, the onboard dispensing control means including lock means for locking the position of the plunger portion. The onboard dispensing control means may include an onboard valve means located in the barrel portion or downstream thereof, or an onboard blockage member located in the barrel portion or downstrearh thereof.

In an embodiment, the second identity data identifies the recipient and is embedded in, carried by or emitted by an article carried externally or internally by the recipient. The may be include a band or ring to be worn on a leg, arm or neck of the recipient and the article may include includes an RFID tag or chip carrying the second identity data. . :

BRIEF DESCRIPTION OF THE DRAWINGS

Several preferred embodiments of the present invention will now be described, by way of example only, with reference to the appended drawings in which:

Figure 1 is a view of a material dispensing system;

Figure 2 is a schematic view of one portion of the system of figure 1; :

Figures 3 and 4 are fragmentary schematic views of alternative dispensing systems; and

Figures 5 to 21 are views of alternative dispensing systems.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to the figures, there is provided a material dispensing system 10 comprising a material dispenser 12 having material container portion 14 and a material delivery outlet channel portion 16. Valve means 18 is provided downstream of the container portion 14 and controls the flow of materials through the delivery outlet channel portion 16. It will be recognized that the material dispenser 12 is in the form of a syringe and is operable to dispense a range of materials normally in the medical treatment of a patient. In this case, the delivery outlet channel portion includes an outlet passage 20 extending downstream of the material container portion 14 and upstream of a needle 22 which is provided with a coupling 22a for joining the needle 22 to the outlet passage 20. The coupling may be, for example, a LUER fitting.

The system 10 also includes a wrist band 24 which is wearable by the patient, for reasons to be described.

The valve means 18 is controlled by an onboard dispensing control means in the form of a valve controller shown in figure 2. The valve means 18, in this case, includes a micro valve 31. The valve 31 has OPEN and CLOSED states which, as their names imply, open and close the delivery output passage 20, under the control of the valve controller 30. The valve controller 30 includes RFID tag or chip and is located within a valve housing 18a. The RFID chip may for example be of the passive type available from Microchip

Technology Inc. under serial number MCR 45X, as described in microID™ 13.56 MHz RFID System

Design Guide, the entire subject matter of which is incorporated herein by reference.

The valve controller 30 includes an actuator module 32 which conveys a change of state signal to the micro valve 31 via conductive path 32a. The actuator module is responsive to a comparator module 34 via conductive path 34a and which establishes a “match” between two identities, a first identity for the valve and/or the materials in the syringe, and a second identity for the patient. As will be described, the valve controller 30 governs the first identity and the wrist band 24 controls the second identity. In this latter case, the wrist band 24 has an RF ID tag or chip 36 (shown in figure 1) which conveys the second identity on an

RF carrier wave to form a second identity bearing signal to be transmitted to the valve controller 30 when they are in transmission range of onc another.

The comparator module 34 communicates with an RF transmitter/receiver 38 via conductive path 38a in which to receive the second identity bearing signal from the wrist band 24. The comparator module 34 Lo also communicates with memory module 40 via conductive path 40a to retrieve the first identity stored ) therein.

The comparator module 34 is operable to open the micro valve 31 and thus the delivery outlet channel portion when there is a match between the valve identity data (i.e. the materials contained in the syringe) and the wrist band 24 (i.e. the patient identified to receive the materials). In this case, the comparator module 34 is operable to convey a signal to the actuator module 32 close the micro valve 31 to block access to the delivery outlet channel portion 16 when there is a mismatch between the first and second identity data. Alternatively, the comparator function may be to maintain the micro valve 31 in a closed position and open it only when the match has been made and thereafter leave the valve open. This arrangement may be particularly suitable for single use dispensers, for instance.

. The valve housing 18a in this case is integrally formed with the syringe 12. However, the valve housing 18a may, as an alternative, be made attachable and/or be separable from the delivery outlet channel portion 16 or the syringe 12 or both. For example, the valve may be located in the needle side of the syringe needle coupling. For example, the valve may be located in or adjacent the female stop or lock LUER fittings of the type used on many popular syringes. The valve may be an intermediary unit which is fitted onto a conventional syringe and sealed thereon in some permanent, semi-permanent or temporary means.

The wrist band 24 may, alternatively, be replaced by some other suitable associated article which is attachable to, or wearable by, a patient identified to receive the fluid materials contained in the syringe 12.

In this case, the associated article may be an identity tag attachable to or an article worn by the patient.

Thus, the valve controller 30 and the wrist band 24 provide first and second identification means which are operable for recording, emitting, carrying or associating identity data to identify the syringe 12 (and/or its contents) and the wristband 24 (and/or the patient wearing it). The first or second identification means, or . both, are arranged to retain their respective identity data in electronic, graphical, mechanical or nuclear form. The first or second identification vans, or both, are operable, in this case, to convey the first . identity data or the second identity data ona carrier wave. The carrier wave may include radio frequency waves, microwaves or waves or signals of other frequencies or frequency ranges. The first identity data or the second identity data may, for example, be resident on the carrier wave by frequency modulation, amplitude modulation, wave superposition or a combination thereof.

The valve controller 30 is powered by a power supply portion 42 which, in this case, includes a power source residing in the power supply portion, such as a battery or some internal power generating module such as solar power generator operating in the presence of solar radiation, or an inductive power generator operating in the presence of microwave or RF radiation. The power supply portion may include a conductive path to an external power source.

_ If desired, the controller 30 may be resident in the wrist band 24 and thus convey the change of state signal from the actuator module either in a wireless fashion as above described or by way of an electrical or magnetic coupling between the wrist band and the syringe 14. Still further, the controller function may be provided by a controller located on a server-client or a peer-to-peer, wireless or wired network connection with the syringe.

Another embodiment is shown in figure 3. In this case, the comparison means is resident in an intermediate monitor portion shown at 50 which is operable within signal receiving range of both a syringe 52 having a valve 54 and a valve actuator 56 and a wrist band 58. In this case, the intermediate monitor portion is operable to convey a signal to the valve actuator 56 to change the state of the valve 54. In this case, the actuator module or the comparator module, or both, may also be contained in the intermediate monitor portion and convey the change of state signal through a suitable data link established between the syringe and the intermediate monitoring portion SO, such as a wired interconnect, a wireless connection and

If desired, the intermediate monitor portion 50 may include a biometric sensor, an optical character reader, a bar code reader, a magnetic strip reader, or a combination thereof, as represented by the block in phantom at 51 in figure 3, in this case to scan one or both of the syringe and the wrist band to establish a match. The intermediate monitor portion 50 may also includes include a signal emitter and/or receiver to emit and/or receive signals in the visible or invisible frequency spectrums.

The dispensing control means may not be a valve itself, but rather a valve lock that allows the valve to be opened in a separate step. In this case, a valve and a valve lock may involve two separate functions that are activated dependently or independently. In this case, the valve lock itself may also have functionality to allow it to be remain latched in the unlocked position until the dispensing device is used. Once used, the valve lock may be configured automatically to lock following use, for example when a LUER connector on a needle is removed from a syringe. In this case, the valve may be spring loaded to remain in the closed position unless it is interacted with a LUER connector.

Further, the controlling function for the valve lock may be located either on the. dispensing means itself (such as a syringe) or on an intermediate monitor portion (such as a wristband) and then interact with the valve by bringing the wristband and the syringe together to allow them to interact through a wired or

S wireless connection or through a mechanical connection to allow the wristband to activate the valve or the valve lock. Furthermore, the intermediate monitor portion may also house the valve lock controller and, with the wristhand and correct syringe located beside it would have authority to unlock it and perform the function of unlocking the syringe.

Another embodiment is shown in figure 4. In this case, a material dispenser 80 is provided with a valve means 82 and a wrist band 84. In this case, the first and second identification means include complementary first and second key formations located on, in or near the valve means 82 and the wrist band 84 respectively. The first key formation is located on the material dispenser 80 and the second key formation is located on the wrist band 84 so that when the material dispenser 80 and wrist band 84 maybe positioned beside one another, the first and second key formations may be brought into complementary engagement with one another to establish the predetermined relationship. In other words, the first and second key formations will nest, mesh or otherwise engage in a manner indicating a match.

Another delivery system is shown, in more general terms, schematically at 100 in figure 5 having dispensing means 102 having a chamber 102a and an outlet 104 for delivering one or more materials shown at 106a or one or more articles shown at 106b. A dispensing control means, in this case a valve unit 108a : or a lockable outlet blockage member 108b is operable to control the passage of the material or article through the outlet 104. A first identification means is provided at 110 and is operable for recording, emitting, carrying or associating first identity data to identify the dispensing means 102, or the material or article carried thereby. Permission control means 112 is operable to establish a predetermined condition of the dispensing means when a corresponding predetermined relationship is established between the first : identity data and second identity data of an associated entity. -

In this case, the first condition of the dispensing means may be closed or inoperative position (which is signified by a syringe being in storage) and a second condition may bean open or operative position (which may occur when a match is made between the first and second identity data).

In this case, the valve member or outlet blockage member may be normally closed or normally open. The valve may be of a number of different valve types including a variable aperture valve member, a proportional valve member or a combination thereof. The valve may also be a pulse width modulated on- off valve, while the blockage member may be a lockable cap member or the like.

In this case, the associated entity may be a dispensing recipient, a medical professional or clinician. The dispensing recipient may be a medical patient, an experimental subject and/or a candidate for a treatment or procedure, For example, the dispensing recipient may be mammalian, such as a human being.

The material 106a or article 106b may have beneficial properties to enhance life, to promote health, to cure and/or treat a disease, condition or ailment, to monitor and/or indicate a bodily function or a combination thereof. For example, the material or article may be use useful for such procedures as IV therapy, implantation, stem cell therapy, oncology therapy, blood transfusion and/or organ transplantation, as well as many others.

The material may be in solid, liquid or gascous form or a combination thereof. Consequently, various dispensing means are contemplated to dispense the material including a syringe, IV bottle, powder and/or atomized fluid and/or gas inhalant dispenser, implant delivery dispenser, veatilator, syringe pump, intubation tube, gastrointestinal feeding tube or a plurality and/or combination thereof, amoung others. The article may be a capsule, for example, to provide or delivery a payload to the recipient, such as a material sample; a local test, monitoring or stabilizing device; a signal device or the like.

In one example, the second identity data identifies the recipient. For example, the second identity data may be embedded in, carried by or emitted by an article carried externally or internally by the recipient. If desired, the article may include a band or ring to'be worn on a leg, arm or neck of the recipient and include an implantable ID chip.

In one example, the dispenser means includes a syringe as shown at 120 in figure 6, with a plunger portion 122 positioned in a barrel portion 124, wherein the dispensing control means includes lock means 126 for locking the position of the phmnger portion. In this case, the dispensing control means may include a valve means located in the barrel portion as shown at 128 or downstream thereof as shown at 130. Alternatively, the dispensing control means includes a blockage member 132 located in the barrel portion or downstream thereof.

Referring to figure 7, the dispenser may include an output channel 134 providing a delivery site 136, the valve means and/or blockage member being located at the delivery site 138. Figures 8 and 9 illustrate a vial 140 and an IV bag 142 as still other alternative examples of dispensers applicable in systems described herein.

Figures 10 to 21 illustrate still other embodiments, all involving the use of a syringe and an identity band.

In this case, the permission control means includes a key portion associated with the second identity data. .

In this case, the key portion is located on the identity band.

Figures 10 to 12 show a system having a syringe 140 and a wrist band 142, the latter of which having a key portion 144 in the form of a post extending upwardly from a syringe receiving cavity 146. The key portion is operable to engage a complementary key receiving portion, in the form of a key receiving passage 148a on the syringe 140.

Another system is shown at 150 in figures 13 and 14, having a syringe 152 and a wrist band 154. In this case, the permission means is located on the wrist band at 156 and is operable to expose the key portion to the key-receiving portion. In this case, the key portion is stationary relative to the article and the permission means includes a key shroud 158 which is operable between a key-concealing condition and a key-

revealing condition. Alternatively, the key portion may be movable between a concealed position and the exposed position.

Another system is shown at 160 in figures 15 and 16, having a syringe 162 and a wrist band 164. In this case, the wrist band 164 has akey portion 166 in the form of a post 168 extending outwardly from within a syringe receiving cavity 170. In this case, the syringe receiving cavity 170 is inclined relative to the wrist band 164, in contrast to the upright orientation of the syringe receiving cavity 146 as shown in figure 11.

Still another system is shown at 180 in figures 17 and 18, having a syringe 182 and a wrist band 164. In this case, the wrist band 164 has a key portion 186 including a post 188 extending outwardly to interrupt the path of a syringe receiving slot 190.

Still another system is shown at 200 in figures 19 through 21 having a syringe 202 and a wrist band 204. In this case, syringe 202 has a key portion 206 including a housing 208 and a pair of posts 210 which, in an operable position, extending outwardly from the housing 208 in order to penetrate a corresponding pair of key receiving passages 212 located within a syringe receiving cavity 214.

If desired, the systems described hereinabove may utilize microvalves, microcontrollers and other micro components known by the acronym MEMS, as disclosed, for example in the technical paper “MEMS-

Based Flow Controller for Flow Cytometry”, by Bugen Cabuz, Jay Schwichtenberg, Bob DeMers, Emie

Satren, Aravind Padmanabhan, & Cleo Cabuz, of Honeywell Intl. 12001 State Highway 55, Plymouth, MN 55441, the entire contents of which is incorporated herein by reference.

While the present invention has been described for what are presently considered the preferred embodiments, the invention is not so limited. To the contrary, the invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (79)

CLAIMS:

1. A delivery system , comprising: - syringe means having an outlet for delivering fluid materials; - onboard dispensing control means onboard the syringe means for controlling the passage of the fluid materials through the outlet; - first identification means operable for recording, emitting, carrying or associating first identity data to identify the dispensing means, or the material or article carried thereby; and - permission control means operable to communicate with the onboard dispensing control means to establish a predetermined condition of the dispensing control means when a corresponding predetermined relationship is established between the first identity data and second identity data of an associated entity.

2. A system as defined in claim 1 wherein the associated entity is a dispensing recipient, a medical professional or clinician. ‘

3 A system as defined in claim 2 wherein the dispensing recipient is a medical patient, an experimental subject and/or a candidate for a treatment or procedure, !

4, A system as defined in claim 3 wherein the dispensing recipient is mammalian.

S. A system as defined in claim 4 wherein the dispensing target is a human being.

6. A system as defined in claim 1 wherein the fluid materials have beneficial properties to enhance life, to promote health, to cure and/or treat a disease, condition or ailment, to monitor and/or indicate a bodily function or a combination thereof,

7. A system as defined in claim 6 wherein the fluid materials are useful for IV therapy, implantation, stem cell therapy, oncology therapy, blood transfusion and/or organ transplantation.

8. A system as defined in claim 1 wherein the onboard dispensing control means inchudes an onboard access means for controlling access to the outlet.

9. A system as defined in claim 8 wherein the onboard access means includes an onboard controlled valve member, or an onboard controlled outlet blockage member or both.

10. A system as defined in claim 9 wherein the onboard valve member or onboard outlet blockage member is normally closed.

11. A system as defined in claim 10 wherein the onboard valve member is a variable aperture valve member, a proportional valve member or a combination thereof. :

12. A system as defined in claim 11 wherein the onboard valve member is a pulse width modulated on- off valve.

13. A system as defined in claim 9 wherein the syringe means includes a plunger portion positioned in a barrel portion, the onboard dispensing control means including lock means for locking the position ) of the plunger portion.

14. A system as defined in claim 13, wherein the onboard dispensing control means includes an onboard valve means located in the barrel portion or downstream thereof.

15. A system as defined in claim 13 wherein the onboard dispensing contro] means includes an onboard blockage member located in the barrel portion or downstream thereof.

16. A system as defined in claim 11 wherein the second identity data identifies the recipient.

17. A system as defined in claim 16 wherein the second identity data is embedded in, carried by or emitted by an article carried externally or internally by the recipient.

18. A system as defined in claim 17 wherein the article includes a band or ring to be worn on a leg, arm or neck of the recipient.

19. A systemas defined in claim 18 wherein the article includes an RFID tag or chip carrying the second identity data..

20. A delivery system, comprising: : - dispensing means having an outlet for delivering one or more materials or one or more articles; - dispensing control means for controlling the passage of the material or article through the outlet; - first identification means operable for recording, emitting, carrying or associating first identity data to identify the dispensing means, or the material or article carried thereby; and - permission control means operable to establish a predetermined condition of the dispensing control means when a corresponding predetermined relationship is established between the first identity data and second identity data of an associated entity.

21. A system as defined in claim 20 wherein the associated entity is a dispensing recipient, a medical professional or clinician.

22. A system as defined in claim 21 wherein the dispensing recipient is a medical patient, an experimental subject and/or a candidate for a treatment or procedure.

23. A system as defined in claim 22 wherein the dispensing recipient is mammalian.

24. A system as defined in claim 23 wherein the dispensing target is a human being.

25. A system as defined in claim 20 wherein the material or article has beneficial properties to enhance life, to promote health, to cure and/or treat a disease, condition or ailment, to monitor and/or indicate a bodily function or a combination thereof.

26. A system as defined in claim 25 wherein the material or article is useful for IV therapy, implantation, stem cell therapy, oncology therapy, blood transfusion and/or organ transplantation.

27. A system as defined in claim 25 wherein the dispensing means includes a syringe, IV bottle, powder and/or atomized fluid and/or gas inhalant dispenser, implant delivery dispenser, ventilator, syringe pump, intubation tube, or a gastrointestinal feeding tube or a plurality and/or a combination thereof.

28. A system as defined in claim 20 wherein the dispensing control means includes an access means for controlling access to the outlet.

29. A system as defined in claim 28 wherein the access means includes a controlled valve member, ora controlled outlet blockage member or both.

30. A system as defined in claim 29 wherein the valve member or outlet blockage member is normally closed.

31. A system as defined in claim 30 wherein the valve member is a variable aperture valve member, 8 proportional valve member or a combination thereof.

32. A system as defined in claim 29 wherein the valve member is a pulse width modulated on-off valve.

33. A system as defined in claim 29 wherein the blockage member is a lockable cap member.

34. A system as defined in claim 29 wherein the dispenser means inchudes a syringe with a phmger portion positioned in a barrel portion, wherein the dispensing control means includes lock means for locking the position of the phumger portion.

35. Asystemas defined in claim 34, wherein the dispensing control means includes a valve means located in the barre! portion or downstream thereof.

36. A system as defined in claim 35 wherein the dispensing control means includes a blockage member located in the barrel portion or downstream thereof. }

37. A system as defined in claim 29 wherein the dispenser includes an output chanpel providing a delivery site, the valve means and/or blockage member being located at the delivery site.

38. A system as defined in claim 22 wherein the second identity data identifies the recipient.

39. A system as defined in claim 38 wherein the second identity data is embedded in, carried by or emitted by an article carried externally or internally by the recipient.

40. A system as defined in claim 39 wherein the article includes a band or ring to be worn on 2 leg, arm or neck of the recipient.

41. Asystemas defined in claim 40 wherein the article includes an implantable ID chip.

42. A systemas defined in claim 20 wherein the permission control means includes a key portion associated with the second identity data. -

43. A system as defined in claim 42 wherein the key portion is located on an article carried externally or internally by the recipient.

44, A system as defined in claim 42 wherein the key portion is operable to engage a complementary key receiving portion to establish the predetermined condition.

45. A system as defined in claim 44 wherein the key receiving portion is located on the dispensing means.

46. A system as defined in claim 45 wherein the dispensing means includes a syringe, IV bottle, powder and/or atomized fluid and/or gas inhalant dispenser, implant delivery dispenser, ventilator, syringe pump, intubation tube, gastrointestinal feeding tube or a plurality and/or combination thereof.

"47. A system as defined in claim 46 wherein the article is a wrist band the dispensing means is a syringe.

48. A system as defined in claim 46 wherein the key-receiving portion includes a key receiving-passage.

49. A system as defined in claim 47 wherein the permission means is operable to expose the key portion to the key-receiving portion.

50. A system as defined in claim 49 wherein the key portion is movable between a concealed position and the exposed position.

51. A systemas defined in claim 49 wherein the key portion is stationary relative to the article and the permission means further comprises a key shroud which is operable between a key-concealing condition and a key-revealing condition. )

52. A system as defined in claim 20 wherein the first identification means includes a biometric sensor, , an optical character reader, a bar code reader, a magnetic strip reader, or a combination thereof.

53. A system as defined in claim 20 wherein the first identification means includes a signal emitter and/or receiver to emit and/or receive signals in the visible or invisible frequency spectrums.

54. A material dispensing system, comprising: - a material dispenser having material container portion and a material delivery outlet channel portion; - valve means for controlling access to the delivery outlet channel portion; - first identification means operable for recording, emitting, carrying or associating valve identity data to identify the valve means; and - valve control means operable to establish a predetermined condition of the valve means when a corresponding predetermined relationship is established between the valve identity data and identity data of an associated article in a vicinity of the material dispenser.

55. A system as defined in claim 54, wherein the material dispenser is arranged for delivery of materials in the treatment of a patient.

56. A system as defined in claim 55 wherein the materials are fluids.

57. A system as defined in claim 56 wherein the material container portion includes a syringe, 2 vial, a catheter and/or an IV bag.

58. A system as defined in claim 57 wherein the delivery outlet channel portion is downstream ofa plunger-containing chamber portion, the valve means being located in the delivery outlet channel portion. )

59. A system as defined in claim 57 wherein the delivery outlet channel portion is downstream of a plunger-containing chamber portion, the valve means further comprising a valve housing attachable with and/or separable from the delivery outlet channel portion.

60. A system as defined in claim 57 wherein the associated article is attachable to or wearable by a patient to.receive the fluid materials.

61. A system as defined in claim 60 wherein the associated article is an identity tag attachable to or an article worn by the patient.

62. A system as defined in claim 54, further comprising second identification means operable for recording, emitting, carrying or associating identity data to identify the associated article.

63. A system as defined in claim 62 wherein the first or second identification means, or both, are arranged to retain the valve identity data or the associated article identity data in electronic, graphical, mechanical or nuclear form.

64. A system as defined in claim 63 wherein the first or second identification means, or both, are operable to convey the valve identity data or the associated article identity data on a carrier wave.

65. A system as defined in claim 64 wherein the carrier wave includes radio frequency waves, microwaves or waves or signals of other frequencies or frequency ranges.

66. A system as defined in claim 65 wherein the valve identity or the associated article identity data is resident on the carrier wave by frequency modulation, amplitude modulation, wave superposition or a combination thereof. :

67. A system as defined in claim 66, further comprising comparison means for comparing the valve identity data with the associated article identity data.

68. A system as defined in claim 67 wherein the comparison means is operable to receive and decode an RF ID signal from the valve, the associated article or both.

69. A system as defined in claim 67, wherein the containing means includes a syringe, the comparison means is integrally formed with the syringe.

70. A system as defined in claim 68 wherein the syringe has a valve portion downstream of and separable from a chamber portion, the comparison means being located in the valve portion.

71. A system as defined in claim 68 wherein the comparison means is resident in an intermediate controller module which is operable within signal receiving range of both the valve and the associated article.

72. A system as defined in claim 54 wherein the valve means includes a valve element powered by a power supply portion.

LS.

73. A system as defined in claim 72 wherein the power supply portion includes a power source residing in the power supply portion, a conductive path to an external power source, or an inductive power generating module which is responsive to externally applied radiation, ora combination thereof.

74. A system as defined in claim 73 wherein the radiation is of the microwave or radio wave frequency ranges. 1

75. A system as defined in claim 74 wherein the comparison means is operable to open the delivery outlet channel portion when there is a match between the valve identity data and the associated article data.

76. A system as defined in claim 75 wherein the comparison means is operable to close the valve means to block access to the delivery outlet portion when there is a mismatch between the valve and the associated article identity data.

"77. A system as defined in claim 75 wherein the material dispenser includes a syringe and the power supply portion is integrally formed therewith.

78. A system as defined in claim 63 wherein the first and second identification means includes complementary first and second key formations located on, in or near the valve means and the associated article respectively.

79. A system as defined in claim 78 wherein the first key formation is located on the material dispenser and the second key formation is located on the associated article so that the material dispenser and associated article may positioned so that the first and second key formations be brought into complementary engagement with one another to establish the predetermined relationship.

AMENDED CLAIMS [Received by the International Bureau on 01 October 2004 (01.1004 ): : original claims 1-79 replaced by amended claims claims 1-48 ( 7 pages)] CLAIMS:

1. A delivery system, comprising: dispensing means having an outlet for delivering gne or more materials; dispensing control means far controlling the passage of the material through the outlet; first identification means having first identity data associated with the dispensing means or the material carried thereby, the fivst identification operable in a data recording mode or a data emitting mode; : second identification means having second identity data associated with an entity, the entity being associated with the dispensing means, the second identification means operable in a data recording mode or a data emitting mode; and ’ ‘permission control means operable to establish a predetermined condition of the dispensing control means when a corresponding predetermined relationship is established . between the first identity data and the second identity data.

2. A system as defined in claim 1 wherein the entity is a dispensing recipient, a medical professional or clinician.

3. A system as defined in claim 2 wherein the entity is a dispensing recipient and the second identity data is embedded in, carried by or emitted by an article carried externally or internally by the recipient. 4, A system as defined in claim 1, claim 2 or claim 3 wherein the dispensing control means includes an access means for controlling access to the outlet.

5. A system as defined in claim 4 wherein the access means includes valve means, or outlet blockage member or both.

6. A system as defined in claim § wherein the valve means or outlet|blockage member is operable between an open position and a closed position, and is normally closed. 27 AMENDED SHEET (ARTICLE 19)

7. A system as defined in claim 5 or claim 6 wherein the access means is a.valve means comprising a variahle aperture valve member, a controlled valve member, a proportional . valve member or a combination thereof.

8. A system as defined in eny of claims 4 to 7 wherein the valve means is a pulse width modulated on-off valve. :

9. A system as defined in claim 5 wherein the access means includes an outlet blockage member comprising a lockable cap member.

10. A system as defined in claim 1 wherein the first or second identification means, or both, are arranged to retain the first identity data or the second identity data in electronic, graphical, mechanical or nuclear form. .

11. A system as defined in claim 10 wherein the first or second identification means, or both, are operable to convey the first identity data or the second identity data on a carrier wave.

12. A system as defined in claim 11 wherein the carrier wave includes radio frequency waves, microwaves or waves or signals of other frequencies or frequency ranges.

13. A system as defined in claim 11 or claim 12 wherein the first identity ot the second identity data is resident on the carrier wave by frequency modulation, amplitude modulation, wave superposition or a combination thereof. 14, A system as defined in any of the preceding claims wherein the permission control means includes comparison means for comparing the first identity data with the second identity data. . } 28 AMENDED SHEET (ARTICLE 19)

15. A system as defined in claim 14 wherein the comparison means is operable to receive and decode an RFID signal from the dispensing means, the entity or both.

16. A system as defined any of the preceding claims wherein the first identification means includes a biometric sensor, an optical character reader, a magnetic strip reader, an RFID reader or a combination thereof.

17. A system as defined in any of claims 1 to15 wherein the first identification means includes a signal emitter and/or receiver to emit and/or receive signals in the visible or invisible frequency spectrums.

18. A system as defined in any of claims 3 to 17 wherein the article includes a band or ring to be worn on a leg, arm or neck of the recipient. - .

19. A system as defined in claim 18 wherein the article includes an identification chip such as an RFID tag associated with the second identity data.

20. A system as defined in any of claims 4 to 19 wherein the access means is a valve means and the first identification means includes valve identity data to identify the valve means; and the second identification means includes article identity data to identify an article’ associated with the valve means; the comparison means being operable to open the outlet when there is a match between the valve identity data and the article data. :

21. A system as defined in claim 20 wherein the comparison means is operable to close the valve means to block access to the outlet when there is a mismatch between the valve identity data and the article identity data. 29 AMENDED SHEET (ARTICLE 19)

22. A system as defined in claim 20 or claim 21 wherein the comparison means is residentin an intermediate controller module which is operable within signal receiving range of the valve means, the onboard blockage member and the article. :

23. A gystem as defined in claim 22 wherein the comparison means is integrally formed within the dispensing means. .

24. A system as defined in any of claims 5 to 23 wherein the access means is a valve means which includes a valve element powered by a power supply portion.

25. A system as defined in claim 24 wherein the power supply portion includes a power source residing in the power supply portion, a conductive path to an external power source, or an inductive power generating module which is responsive to externally applied radiation, or a combination thereof. :

26. A system as defined in claim 25 wherein the power supply portion is integrally formed with the dispensing means.

. 27. A system as defined in claim 25 or claim 26 wherein the power supply portion is an : inductive power generating module, and the externally applied radiation is within the microwave or radio wave frequency ranges.

28. A system as defined in amy of claims 1 to 8 wherein the permission control means includes a key portion associated with the second identity data. : AMENDED SHEET (ARTICLE 19)

29. A system as defined in claim 28 wherein the key portion is located on an article carried externally or internally by the entity.

30. A system as defined in claim 28 or claim 29 wherein the key portion is operable to. engage a complementary key receiving portion to establish the predetermined condition. 31, A systern as defined in olaim 30 wherein the key receiving portion is located on the dispensing means.

32. A system as defined in claim 30 or claim 31 wherein the key-receiving portion includes a key receiving-passage.

33. A system as defined in any of claims 28 to 32 wherein the permission means is operable to expose the key portion to the key-receiving portion.

34. A system as defined in claim 33 wherein the key portion is movable between a concealed position and an exposed position.

35. A system as defined in any of claims 28 to 34 wherein the key portion is stationary relative to the article and the permission means further comprises a key shroud which is operable between a key-concealing condition and a key-revealing condition.

36. A system as defined in any of claims 3 to 35 wherein the first and second identification means includes complementary first and second key formations located on, in or near the valve means and the associated article respectively.

37. A system as defined in claim 36 wherein the first key formation is located on the "dispensing means and the second key formation is located on the associated article so that the dispensing means and associated article may positioned so that the first and second - 31 AMENDED SHEET (ARTICLE 19)

key formations be brought into complementary engagement with one another to establish the predetermined relationship.

38. A system as defined in any of the precoding claims wherein the dispensing means inoludes syringe means, IV bottle, powder and/or atomized fluid and/or gas inhalant dispenser, implant delivery dispenser, ventilator, syringe pump, intubation tube, ora gastrointestinal feeding tube or a plurality and/or a combination thereof.

39. A system as defined in claim 38 wherein the dispensing means is a syringe having a barrel portion, a chamber portion and phumger portion, the phmger portion positioned in the barrel portion, an onboard dispensing control means including lock means for locking the position of the plunger portion. ' :

40. A system as defined in claim 39 wherein the syringe has a valve portion downstream of and separable from the chamber portion, the permission control means including a comparison means for comparing the first identity data with the second identity data, the comparison means being located in the valve portion.

41. A system as defined in claim 3% or claim 40 whercin the onboard dispensing control means includes an onboard valve means located in the barrel portion or downstream thereof.

42. A system as defined in claim 39, claim 40 or claim 41 wherein the onboard dispensing control means includes an onboard blockage member located in the barrel portion or downstream thereof.

43. A system as defined in claim 39 wherein the outlet is downstream of a plunger-containing chamber portion, the valve means further comprising a valve housing attachable with and/or separable from the outlet. 32 AMENDED SHEET (ARTICLE 19)

44, A system as defined in any of the preceding claims wherein the entity is dispensing recipient selected from a medical patient, an experimental subject and/or a candidate fora treatment or procedure.

". 45, A system as defined in claim 44 wherein the dispensing recipient is mammalian,

46. A system as defined in claim 45 wherein the dispensing recipient is a human being.

47. A system as defined in any of the preceding claims wherein the material has beneficial properties to enhance life, to promote health, to cure and/or treat a disease, condition or ailment, to monitor and/or indicate a bodily function or a combination thereof.

48. A system as defined in any of the preceding claims wherein the material is useful for IV

. therapy, implantation, stem cell therapy, oncology therapy, blood transfusion and/or organ transplantation. : 33 AMENDED SHEET (ARTICLE 19)