Patent Document

[0001]    This application is a Continuation-in-Part of application Ser. No. 12/462,696 filed Aug. 6, 2009. 
     
    
     FIELD OF THE INVENTION 
       [0002]    The present invention relates to improvements in syringes and in particular, relates to an improved syringe wherein two or more substances are mixed and also to a method for the mixing of two or more substances in a syringe. 
       BACKGROUND OF THE INVENTION 
       [0003]    In pharmaceutical delivery systems, it is often required that a drug in powder form be mixed with a diluent in order to be able to deliver the drug to a patient. To date, this is frequently done by injecting the diluent into a vial containing the powder drug, mixing the drug with the diluent and then aspirating the drug in fluid form into a syringe for subsequent injection into the patient. A manual mixing such as this can be cumbersome and inconvenient and can also lead to wastage of some of the drug which may remain in the vial. 
         [0004]    Other more automated systems for mixing the drug and diluent have been developed and are shown in U.S. Pat. Nos. 5,817,055 and 5,716,338. In these patents, the mixing of the drug and diluent is achieved in what is known as a by-pass syringe having two compartments; one containing the drug and the other the diluent. 
         [0005]    These devices have been used for many years to aseptically package lyophilized or “freeze-dried” medications together with their diluents. In recent years specially coated drug micro-units have been produced in the form of microspheres which release slowly into the bloodstream when administered are also now being packaged in these devices. The packaging of lyophilized drugs requires that the liquid drug admixture be filled into the top chamber so that once frozen, all water will sublimate under vacuum leaving a dried cake of residual drug product. For this reason an aqueous diluent needs to be filled in the lower chamber of the syringe after the freeze drying cycle. The production of powdered products such as microspheres requires that the diluent be filled in the lower chamber first followed by powder filling in the upper chamber. This will ensure that the diluent is well sealed before entering the well isolated powder-filling environment where unwanted powder contamination is a concern. 
         [0006]    The preparation for administration in these double chamber by-pass syringes however is much the same and requires that the device always be held vertically with the exit nozzle pointing upwards. The mixing action occurs when the rear plunger is pushed forward very slowly. This movement can be dampened by using a threaded plunger rod so that the user must screw the rod thereby providing a slow controlled upward movement of the rear plunger. This movement moves the entire diluent including the upper plunger upwards into the by-pass area (any fast uncontrolled movement would move the plunger beyond the by-pass area and block flow of the diluent). Continued slow upward movement will cause all of the diluent to flow through the by-pass around the upper plunger and into the upper chamber mixing with drug component and expelling some of the air above it. 
         [0007]    At this point the user must stop pressure on the plunger rod and begin swirling or shaking the syringe to ensure dissolution or suspension of the drug. If either component of the admixture contains a surface active agent to promote wetting then excessive foaming can be a problem as well as the problem of entrained air bubbles. After some time and when the admixture is suitably mixed, and foam or bubbles have been allowed to dissipate, then the user can slowly push the plunger rod to expel the air above the drug surface, attach a needle and inject the medication. 
         [0008]    Quite apart from the above, there may also be a requirement to remix a mixture which has separated out and needs to be transferred to a syringe type structure. 
       SUMMARY OF THE INVENTION 
       [0009]    It is an object of the present invention to provide a by-pass type syringe which has a venting structure to permit the expelling of air therefrom. 
         [0010]    It is a further object of the present invention to provide a syringe wherein mixing is accomplished by passing the components back and forth through a relatively small opening to subject the mixture to a shearing action. 
         [0011]    It is a further object of the present invention to provide a method for mixing two substances in a syringe structure. 
         [0012]    According to one aspect of the present invention, there is provided a transfer and mixing device comprising an outer housing, a by-pass cartridge having a by-pass formed therein, the by-pass cartridge being mounted within the outer housing, a septum located at a front end of the by-pass cartridge, a first plunger located at a rear end of the by-pass cartridge, a second plunger located intermediate the septum and the first plunger, the second plunger being located rearwardly of the by-pass, a syringe socket at a front end of the outer housing, the syringe socket including a piercing member extending inwardly towards the septum, a syringe securable to the syringe socket, a syringe plunger mounted in the syringe, the syringe plunger having a fluid passageway therein, a hydrophobic membrane covering the passageway, the passageway thereby permitting the passage of gas therethrough, and a plunger rod. 
         [0013]    According to a further aspect of the invention, there is provided a method of mixing a pharmaceutical mixture contained within a container, the container having a plunger located proximate a rear end thereof and a fluid outlet located at a front end thereof, the method comprising the steps of providing a syringe, the syringe having a syringe plunger, a fluid passageway extending through the plunger, and a hydrophobic membrane extending across the fluid passageway, pushing the plunger of the container to cause the mixture therein to pass through a bore communicating with the syringe plunger such that air is expelled through the hydrophobic membrane, and the mixture passes into the syringe, and subsequently pushing the syringe plunger such that the mixture passes back through the bore extending between the fluid passageway and the container, the bore being sized to provide a mixing action to the pharmaceutical mixture passing therethrough. 
         [0014]    According to a still further aspect of the invention, there is provided a method of transferring and mixing a pharmaceutical mixture, the method comprising the steps of supplying a first device comprising an outer housing, a by-pass cartridge having a by-pass formed therein, the by-pass cartridge being mounted within the outer housing, a septum located at a front end of the by-pass cartridge, a first plunger located at a rear end of the by-pass cartridge, a second plunger located intermediate the septum and the first plunger, the second plunger being located rearwardly of the by-pass, a syringe socket at a front end of the outer housing, the syringe socket including a piercing member extending inwardly towards the septum, a first compartment having a pharmaceutical substance therein being defined between the septum and the second plunger, a second compartment having a diluent therein being defined between the first and second plungers, securing a syringe to the syringe socket, the syringe having a syringe plunger mounted therein, the syringe plunger having a fluid passageway therein, a hydrophobic membrane covering the passage, the hydrophobic membrane permitting the passage of gas therethrough, securing a plunger rod to the first plunger at the rear end of the by-pass cartridge, advancing the first plunger to thereby cause the second plunger to move to the by-pass and permit the diluent in the second compartment to mix with the substance in the first compartment to thereby form a mixture, exerting a continued pressure on the plunger rod to cause air to advance from the first compartment to the syringe and through the hydrophobic membrane, exerting a continuing pressure on the plunger rod such that the mixture from the first compartment passes through the piercing member into the syringe, and using a plunger to move the syringe plunger to retransfer the mixture into the first compartment of the by-pass cartridge. 
         [0015]    As used herein, the term “container” includes any type of vessel having a cavity therein designed to receive one or more substances. Generally, the container will have an inlet/outlet at opposed ends thereof. The word container will thus include, in the preferred embodiments, various types of syringes and/or cartridges. 
         [0016]    Also, as used herein, the term “mixture” will refer to the combination of two or more ingredients, the combination being in the form of a mixture, suspension, admixture, solution, emulsification, etc. In the preferred embodiments, the mixture of the present invention will be a suspension of microspheres and a diluent. 
         [0017]    The by-pass cartridge referred to above may be any suitable type of by-pass cartridge which is well-known in the art. Thus, various types of by-pass cartridges have been employed including those having multiple by-passes. 
         [0018]    A device for transferring a diluent to a dry pharmaceutical component by means of a by-pass cartridge is well known. Generally, the device will include plungers which form two different storage compartments. A centrally located plunger usually divides the dry pharmaceutical component in the front of the by-pass cartridge and a diluent or liquid component in the rear compartment. A pressure is exerted on a plunger (typically by attachment of a plunger rod thereto) and the rearward plunger is advanced forwardly which will cause pressure to be exerted on the centrally located plunger which will then advance to the location where the diluent can transfer to the front compartment for mixing with the dry pharmaceutical component. 
         [0019]    One problem which can arise is that the rear plunger is advanced too rapidly such that it will “overshoot” the by-pass formed in the cartridge and thus render it impossible for the diluent to reach the front compartment. It has been proposed in the art to use a screwthreaded motion to slow down the advancement to overcome this problem. 
         [0020]    In one aspect of the present invention, there is provided a rack and pinion arrangement which will also achieve a greater control over advancement of the plungers. This arrangement, as will be discussed in greater detail hereinbelow, permits the operator to exert a slow even force on the plungers such that the centrally located plunger will advance to the by-pass area in a controlled fashion. 
         [0021]    In one aspect of the present invention, there is provided an activation cap which permits the by-pass cartridge to be advanced such that it will be pierced by a piercing member located at the front end of the outer housing. This piercing member will include a bore extending therethrough such that a fluid passageway extends from interiorly of the by-pass cartridge through the syringe. 
         [0022]    The syringe which is securable to the syringe socket may do so by means of a luer fitting which is well-known in the art. The syringe includes a plunger therein with the plunger preferably located at the front end of the syringe. The plunger is characterized by having a fluid passageway therethrough, with the fluid passageway having a hydrophobic membrane therein. The hydrophobic membrane may be formed of any suitable material such as a polytetrafluoroethylene (PTFE) or Tyvec or similar materials such as PFA, PFEP, PVDA, polysulfone, nylon, etc. Such hydrophobic membranes permit the passage of air therethrough while it has been found that even with moderate pressure on the hydrophobic material, liquid will not pass therethrough while the air within the compartment is expelled. 
         [0023]    Thus, there is provided a mixing wherein frothing or the entrainment of air bubbles within the liquid is prevented. 
         [0024]    Naturally, it will be understood that other venting structures may be employed if so desired. Thus, one could provide a venting structure on one of the walls defining the mixing compartment. 
         [0025]    Preferably, the syringe plunger will not have means for accepting attachment to a plunger rod, though the plunger rod will be utilized. This will prevent any reverse pressure or aspiration which would permit the entry of air into the mixing compartments. 
         [0026]    According to the method of one embodiment of the present invention, the first plunger located at the rear end of the by-pass cartridge has a plunger rod attached thereto. Subsequently, the diluent from the rear compartment is advanced through the by-pass to the front compartment where the two components are mixed together. Air will still occupy the upper portion of the first compartment. 
         [0027]    Subsequently, the mixture is transferred through the piercing member into the syringe. Continued advancement of the plungers in the by-pass cartridge will cause the mixture to advance into the syringe. Air above the mixture will be expelled through the hydrophobic membrane. As a result, an airless mixture is achieved. 
         [0028]    Subsequently, the mixture now free of air can be transferred back into the front compartment of the by-pass cartridge and the mixture will undergo a “shearing” action when passing through the passageway within the piercing member. This continued transfer from the by-pass cartridge to the syringe can be continued until the desired homogeneity of the mixture or suspension is achieved. 
         [0029]    The shearing action is only accomplished due to the narrow opening in the piercing member. Preferably, the opening or internal diameter of the piercing member is less than fifty thou (mil). Even more preferably, the internal diameter is preferably less than 42 thou and even more preferably, is equal to or less than 21 thou. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0030]    Having thus generally described the invention, reference will be made to the accompanying drawings, in which: 
           [0031]      FIG. 1  is a cross-sectional view of the transfer and mixing assembly according to one embodiment of the present invention; 
           [0032]      FIG. 2  is an exploded view thereof; 
           [0033]      FIGS. 3A to 3C  show different configurations, in cross-sections, of plungers having a hydrophobic membrane; 
           [0034]      FIG. 4  is a cross-sectional view of a further embodiment of the present invention; 
           [0035]      FIG. 5  is a cross-sectional view illustrating a still further embodiment of the assembly of the present invention; 
           [0036]      FIG. 6  is a cross-sectional view illustrating a still further embodiment of the transfer and mixing assembly; and 
           [0037]      FIG. 7  is a sectional view of a front cap having a breathable portion thereon. 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0038]    Referring to the drawings in greater detail and by reference characters thereto, there is illustrated a mixing and transfer assembly generally designated by reference numeral  10 . 
         [0039]    Transfer and mixing assembly  10  includes a by-pass cartridge generally designated by reference numeral  12 , an outer housing about by-pass cartridge  12  and generally designated by reference numeral  14 , an activation cap  16 , a plunger rod  18 , a syringe  20  and a syringe plunger rod  22 . 
         [0040]    By-pass cartridge  12  has an outer wall  26  with a by-pass  28  formed therein as is known in the art. A septum  30  covers the outlet of by-pass cartridge  12  and a cap  32  extends thereover. 
         [0041]    Mounted within by-pass cartridge  12  is a rear plunger  34  which has a female luer fitting  36 . An intermediate or middle plunger  38  is situated rearwardly of by-pass  28 . There is thus formed a rear compartment  40  which is defined as the space between wall  26 , rear plunger  34  and intermediate plunger  38 . A front compartment  42  is defined by wall  26 , intermediate plunger  38  and septum  30 . For most uses, rear compartment  40  will contain the diluent while a front compartment  42  will contain the dry and active pharmaceutical Component. 
         [0042]    Plunger rod  18  includes a head  46  for ease in pushing on shaft  48 . Shaft  48  is provided with a male luer fitting  50  designed to engage with luer fitting  36  on rear plunger  34 . 
         [0043]    Outer housing  54  surrounds and supports by-pass cartridge  12  and includes a side wall  54  and a top wall  56 . A piercing member  58  has a bore  60  extending therethrough while an upper luer female fitting  62  is provided. 
         [0044]    Syringe  20  includes a conventional syringe body  66  having a flange  68  at the end thereof. Syringe body  66  is provided with a luer fitting  70  designed to engage luer fitting  62  in outer housing  14 . Mounted interiorly of syringe body  66  is a plunger  72  which has a passageway  74  extending therethrough. A hydrophobic membrane  76  covers passageway  74 . 
         [0045]    Syringe plunger rod  22  includes a shaft  80  having a head  82  at one end thereof and a base  84 . In operation, activation cap  16  is used to push by-pass cartridge  12  forwardly such that septum  30  is pierced thereby and a fluid passageway between syringe  20  and front compartment  42  is established. 
         [0046]    Subsequently, plunger rod  18  is attached to rear plunger  34  and pressure exerted thereon. The liquid in rear compartment  40  is substantially incompressible and accordingly, pressure is exerted on intermediate plunger  38  to move it forwardly to the area of by-pass  28 . At this point, the diluent can enter into front compartment  42  to mix with the pharmaceutical component therein. A continued advancement by pressure on plunger rod  18  will cause both plungers  34 ,  38  to advance and air contained within front compartment  42  will pass through bore  60  of piercing member  58 . The air will enter syringe body  66  and be expelled through passageway  74 . In the meantime, hydrophobic membrane  76  will prevent passage of any liquid therethrough. 
         [0047]    The continued advancement of plungers  34 ,  38  will force the mixture into syringe body  66  with plunger  72  being forced rearwardly. Once all the mixture has been moved to syringe body  66 , plunger rod  22  may then be activated to cause the mixture to move into front compartment  42 . This back and forth movement may be continued as long as needed to ensure the proper mixing of the components. The passing through bore  60  which is relatively small will ensure the mixing of the two components while preventing any foaming or air bubbles. 
         [0048]    Preferably, plunger rod  22  is not secured to plunger  72 . This will prevent any aspiration movement which would permit air to enter the mixture. 
         [0049]    As shown in  FIGS. 3A ,  3 B and  3 C, plunger  72  may take several different forms. Thus, plunger  72  may have an insert  90  about which resilient material  92  extends. Hydrophobic membrane  94  extends across the top thereof. 
         [0050]    In the embodiment of  FIG. 2B , hydrophobic membrane  94  merely extends across resilient material  92 . In the embodiment of  FIG. 2C , hydrophobic membrane  94  is sandwiched between two portions of resilient material  92 . 
         [0051]    Turning to the embodiment of  FIG. 4 , there is illustrated a mixing and transferring device similar to that illustrated in  FIG. 1  and similar reference numerals in the 100&#39;s are employed for similar components. 
         [0052]    In this embodiment, plunger rod  118  has a shaft  148  with threads  115  formed on a portion thereof. Threads  115  engage with flange  127  formed on activation cap  116 . 
         [0053]    This arrangement permits a relatively slow movement of the plungers as the initial movement is dependent on the turning of plunger rod  118 . After threads  115  have finished, a final pushing motion may be employed as in the previously described embodiment. 
         [0054]    In the embodiment of  FIG. 5 , reference numerals in the 200&#39;s are utilized for similar components. 
         [0055]    Transfer and mixing device  210  includes a plunger rod  248  which has a plurality of teeth  229  formed on one side thereof. 
         [0056]    A housing  231  is secured to activation cap  216 . Housing  231  includes a rotatable pinion  233  by means of a thumb wheel  235 . Thus, movement of thumb wheel  235  will drive plunger rod  218  in a manner previously described. 
         [0057]    A cap  237  is mounted about plunger rod  218  and may be removed for a final pushing action thereon. 
         [0058]    Also, as will be noted in this drawing, syringe  220  has a coil spring  239  mounted therein. A cap  241  is used for covering the end of syringe body  266 . 
         [0059]    With the arrangement of  FIG. 5 , transfer of the mixture into syringe  220  will continue as long as pressure is exerted on plunger rod  218 . Once pressure has been removed, spring  239  will bias plunger  272  and the mixture will automatically be returned to front compartment  242 . 
         [0060]    In  FIG. 6 , reference numerals in the 300&#39;s are employed with similar reference numerals designating similar components. The plunger rod  318 , in this embodiment, includes a plurality of teeth  343  on the end of shaft  348  proximate head  346 . In this arrangement, cap  337  must be removed and plunger rod  318  rotated such that teeth  343  will then engage pinion  333 . 
         [0061]    In  FIG. 7 , there is illustrated a front cap which could be employed with the outer housing of the previous embodiments. Cap  351  includes a hydrophobic membrane  353  extending over an internal passageway with a male luer connection  355 . 
         [0062]    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.

Technology Category: 1