Patent Grant
12036182
The present invention relates to medical devices for delivering compounds such as medical drugs.
It is an object of the present invention to provide a fluid transfer assembly for pharmaceutical delivery systems wherein access to the individual components is minimized.
It is a further object of the present invention to provide a method for the preparation of a pharmaceutical composition comprised of two or more separate components which are stored separately.
According to one embodiment of the present invention, there is provided a transfer system comprising a vial socket, a housing having first and second open ends, the first open end being releasably connected to the vial socket, a needle hub mounted within the housing, a needle having first and second piercing ends mounted in the needle hub, a vial having a neck and a body, the vial being inserted in the vial socket, the vial being non removably retained in the releasably connected vial socket, a cartridge having a plunger sealing an open end thereof, a septum located at an opposite end of the cartridge, and an activation cap for causing the needle to penetrate a septum of the vial and the septum of the cartridge to permit transfer of components therebetween.
According to a further embodiment of the present invention, there is provided a reconstitution device comprising a cartridge containing a first substance, said cartridge having a plunger at one end and a piercable septum at a second end, a vial containing a second substance, said vial having a piercable septum, a housing, a cartridge needle hub, said cartridge needle hub having a needle protruding therefrom, a vial needle hub, said vial needle hub having a needle protruding therefrom, said vial needle hub and said cartridge needle hub being releasably securable together, cartridge latches holding said cartridge needle hub within said housing, vial needle hub latches extending to engage said housing, and a plunger rod, said plunger rod having an inner portion engageable with said plunger of said cartridge, said plunger rod having an outer portion which is adapted to engage said vial needle hub latches to release said vial needle hub from engagement with said cartridge needle hub, whereby said vial and said vial needle hub may be released from said housing.
The vial and the vial socket are preferably provided in an arrangement wherein the vial cannot be removed from the vial socket. This is particularly useful when the components or ingredients in the vial are toxic or in the alternative, when it is important that the contents be accessed for a specific use—i.e. a topical application and not for injection.
Conventional vials may be used—i.e. those having a glass body and a restricted neck area. Preferably, the vial socket will have latches which will engage the neck of the vial to ensure that the vial is securely retained by the vial socket. To this end, the vial socket may utilize an outer housing which surrounds the latches or clasps to prevent access thereto.
The housing of the transfer system is designed to receive a conventional cartridge which will carry the other one of the components to be mixed. Usually, the vial will contain the dry component and the cartridge will contain the liquid component—typically a diluent. However, other arrangements may be utilized including the mixing of two liquids.
The cartridge will have a plunger which seals the open end with a septum located at the opposite end of the cartridge. This is a substantially conventional arrangement known in the art.
A needle hub is provided within the housing and, in the preferred embodiment, comprises two different disengageable members. Each of the members will have a portion of the needle, with each portion of the needle having a piercing end. After activation of the transfer system, one end of the needle hub will be retained by the vial with the other end being mounted on the cartridge and forming a fluid passageway. It is the member which is retained by the cartridge which will form the ultimate dispensing outlet. To this end, the two portions are temporarily secured together and may comprise a tapered dispensing end fitting within the mating component.
While the present invention illustrates a topical application of the mixture, other arrangements may be utilized.
In preferred embodiments of the invention, the vial is preferably retained within the vial socket with a tamper evident arrangement if access to the vial by other means is attempted.
Preferably, the cartridge is also retained within the housing in a non removable manner. In one embodiment, the needle hub is formed of first and second members which are designed to fit together. After mixing of the components, one of the members forming the needle hub may be utilized for dispensing the composition from the cartridge. In topical applications, the dispensing tip would be specifically designed not to accept a needle.
In one particular embodiment, the needle may have an offset arrangement such that access through the needle to the vial is prevented. If desired, a tamper evident seal may be provided between the point of joinder of the vial socket and housing.
Other preferred arrangements will be seen from the accompanying drawings and description thereof.
The foregoing features of embodiments will be more readily understood by reference to the following detailed description, taken with reference to the accompanying drawings, in which:
As used in this specification, the singular forms “a”, “an” and “the” specifically also encompass the plural forms of the terms to which they refer, unless the content clearly dictates otherwise. The term “about” is used herein to mean approximately, in the region of roughly, or around. When the term “about” is used in conjunction with a numerical range, it modifies that range by extending the boundaries above and below the numerical values set forth. In general, the term “about” is used herein to modify a numerical value above and below the stated value by a variance of 20%.
Various compounds, such as medical drugs, can be valuable. Thus, their containers may be tampered with (e.g., to steal the drug and/or dilute the contents of the drug) prior to administration to the intended recipient (e.g. a patient in need).
For example, some pain killing drugs (e.g.) an opioid drug such as oxycodone) may be abused or stolen for unauthorized resale.
Other drugs benefit from utilizing security measures.
Based on a condition to be treated and whether it is a medical or cosmetic indication, the dose to be injected varies and accordingly the dilution required and reconstitution volume will change. Leaving the drug and diluent vial supplied individually with an external syringe for traditional way of reconstitution will lead to unwanted errors during the reconstitution process leading to dosing errors and is therefore not advisable. Further, traditional reconstitution process requires multiple steps where open needles have to be handled leading to high risk of needle stick injuries. Traditional process for reconstitution also has the disadvantage of inconsistencies and subjectivity leading to unintended under or over concentration of the dose.
Further when same drug molecule is used for medical and cosmetic indications, there is a high likelihood of potential for misuse due to pricing differences between a prescription vs cosmetic product. This necessitates product differentiation in how the drug product and diluent are presented/packaged.
Conceptually if the drug product vial and sterile diluent vial/cartridge are packaged into a secure system with no access to either the drug product or sterile diluent vial until the drug product is reconstituted with predefined amount of sterile diluent, it will help address the above challenges. One way to achieve this is through product presentation in secure packaging.
A dual chamber syringe was one of the options considered but it can be easily tampered with. For example, the plunger rod can be unscrewed from the diluent chamber and diluent can be drawn out using a regular syringe and needle effortlessly resulting in the amount of diluent the user wants for reconstitution leaving only the amount of diluent the user wants to reconstitute with an intention to misuse or prepare a drug solution of selected concentration rather than following the labelled instructions. Thus dual chamber syringe cannot provide protection from intentional misuse and defeats the objective of providing pre-defined volume of diluent and hence this approach is not desirable.
Therefore efforts were focussed on securing the drug product and diluent vial/cartridge until after reconstitution.
Thus, described herein is a secured reconstitution device that is elegant, stylized and “premium” in its physical appearance. The device described herein is a fully integrated reconstitution system w/o any user assembly required.
In the device described herein, the vial is locked into the holder until unlocked by completion of diluent delivery to drug vial.
The device described herein uses a standard diluent cartridge with a plunger to push diluent into drug vial. Plunger delivery is a proven approach for fluid transfer assurance.
The device described herein features a pre-attached plunger for ease of use.
Moreover, given its general similarities to a basic syringe, use of the device would be intuitive to a user which is a very important requirement for such systems.
Additionally, the device described herein features, in non-limiting embodiments, penetrating one stopper at a time with appropriate gauge needle to reduce overall force.
The design of the device described herein reduces the number of steps involved in preparing a reconstituted drug.
The device described herein provides a solution by multiple steps saving significant time in the doctor's office.
The device described has a design that is safe to use as it reduces needle handling thus minimizing the potential for needle stick injuries.
The device described herein eliminates dilution errors and subjectivity in the reconstitution process allowing the physician assistants and nurses to reconstitute, saving valuable time for the doctors.
The device described herein is a system that can be useful for any drug product that requires reconstitution.
Traditionally, a pharmaceutical preparation has been dispensed using devices such as syringes. The syringe is usually filled manually by aspirating a liquid pharmaceutical component from a pharmaceutical vial having a neck with a penetrable closure into the syringe through a needle that penetrates the penetrable closure. The method of manually filling the syringe typically includes the steps of drawing air into the body of the syringe until the volume of air in the body approximately equals the volume of pharmaceutical component to be loaded into the syringe and subsequently inserting the needle through the penetrable closure into the vial.
Many pharmaceutical preparations must be distributed and stored as two or more separate components—a typical example would be a lyophilized component and a liquid component such as a diluent. The two components are mixed just prior to administration.
Some medical treatments require the administration of a pharmaceutical composition wherein one of the components of the pharmaceutical composition can be considered to be dangerous due to toxicity or other factors. In other words, the toxic component may have to be diluted in order to provide a composition having the desired properties. Naturally, great care must be exercised when using such toxic components and access to the same needs to be limited.
Referring to the drawings in greater detail and by reference characters thereto, there is illustrated a transfer system which is generally designated by reference numeral 10.
A vial generally designated by reference numeral 12 is associated with the transfer system which also includes a vial socket 14 designed to receive vial 12. Transfer system 10 also includes a needle hub generally designated by reference numeral 16 (
In describing various components, the terms “proximal” and “distal” are utilized. In each instance, the term proximal refers to the end closest to the hand of the user, while the term distal refers to the end furthest removed from the hand of the operator.
Vial 12 may be any conventional vial known to those skilled in the art or alternatively, in certain applications, may be of a non standard size when it is desired to use some specialized components for the vial. Vial 12 will include a body portion 30 having a restricted neck portion 32 over which extends a piercable septum 34.
Vial socket 14 is, in the illustrated embodiment, of a somewhat overall triangular configuration having a plurality of lower outer wall segments 38 each of which is somewhat arcuate in configuration and tapers inwardly from a distal end to meet upper wall segments 44. Lower wall segments 38 define the lower body and there are provided a plurality of inner legs 40 each having inwardly extending flanges for gripping vial 12 at their distal end and being spaced from the wall by means of ribs 42 which extend between inner legs 40 and lower outer wall segments 38.
Vial socket 14 also includes upper wall segments 44 which define, at a proximal end thereof, a female thread opening 46. A plurality of flanges 48 extend downwardly as may be seen in
Needle hub 16 comprises a distal member 52 and a proximal member 54 which are designed to fit together. Distal member 52 includes a piercing member 56 having a piercing tip 58. At its proximal end, distal member 52 has a tubular end 60. A plurality of fins 62 extend circumferentially of distal member 52.
Proximal member 54 includes a body portion 64 having a tubular portion 66 which is designed to engage with tubular end 60 of distal member 52. A piercing member 68 is secured to body portion 64 and has a piercing tip 70.
Proximal member 54 also includes a pair of legs 72 with an annular ring 74 situated proximate the middle of body 64.
Cartridge 20 includes a body 78 which has an open end designed to receive plunger 24. A piercable septum 82 is arranged at the top of body 78 adjacent neck 80. Housing 18, in the illustrated embodiment, includes a plurality of wall segments 86, there being three such wall segments 86 in the illustrated embodiment. In each wall segment 86, there is provided a slot 88 to provide visual access to the interior. Housing 18 also includes a plurality of male threads 90 at the distal end thereof. Housing 18 also has a flared proximal end 92.
Activation cap 22 has a proximal end wall 104 and a side wall 106 with slots 108 formed therein. A first set of protrusions 110 are designed to engage housing 18 when the activation cap has been activated while a second set of protrusions 112 engage housing 18 prior to activation.
Plunger rod 26 is provided with male threads 116 for screwthreadably engaging plunger 24.
In operation, vial 12 and vial socket 14 are supplied as a unit with the vial inserted therein and retained in a non removable manner. Similarly, cartridge 20 is mounted within housing 18 and activation cap 22 inserted in the proximal end of housing 18. Activation cap 18 is held in a non removable position. Housing 18 is screwthreadably engaged with vial socket 14 by means of respective threads 90, 46.
As illustrated in
At this point in time, a gentle shaking of the vial 12 may occur to ensure mixing of the components, subsequently the mixture 124 is aspirated into cartridge 20 as shown in
Based on the hypothesis that if both drug and diluent vial/diluent cartridge are secured and protected from being accessible to the users until after the reconstitution is completed, any potential intentional misuse can be prevented.
The embodiment of
As may be seen in the drawings, drug vial 218 is secured in the bottom portion of the device which includes the vial holder 220, cartridge needle hub 226, vial needle hub 229 and needles 228 and 230.
Diluent cartridge 212 is secured in the upper portion of the device, which includes cartridge holder 214, sub-assembly 210 and a plunger rod 232. As may be seen, plunger rod 232 has an outer wall 236 and an inner wall 234. Inner wall 234 is designed to engage a cartridge plunger 238 while vial socket latches 240 are locked with protrusions 239 of the housing. Latches 240 are self-locking with cartridge needle hub 226 to prevent removal of cartridge 212.
Similarly, latches 231 are provided with vial socket 220 to engage with housing protrusions 241.
When the user depresses plunger rod 232, the vial will first be pierced followed by the diluent cartridge to avoid leakage or spillage. A fluid path is opened between the two but the device is still locked together.
Upon continuing depression of the plunger rod 232, the latches 240 are collapsed due to outer wall 236 which unlocks the device.
Following transfer, the user can then remove the bottom portion from the top portion of the device and a standard luer connection is now accessible to the user to withdraw the reconstituted drug.
It will be understood that the above described embodiments are for purposes of illustration only and that changes and modifications may be made thereto without departing from the spirit and scope of the invention.
| Number | Date | Country | Kind |
|---|---|---|---|
| 3103497 | Dec 2020 | CA | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/CA2021/000106 | 12/21/2021 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2022/133573 | 6/30/2022 | WO | A |
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| Entry |
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| International Search Report for International Application No. PCT/CA2021/000106, dated Mar. 24, 2022. |
| Number | Date | Country | |
|---|---|---|---|
| 20230390158 A1 | Dec 2023 | US |
