US3369708A - Means for reconstituting a dry biological and for controlled dispensing thereof - Google Patents

Description

Feb. 20, 1968 L. HEW 3,369,708

G. MEANS FOR RECONSTITUTING A DRY BIOLOGICAL AND FOR CONTROLLED DISPENSING THEREOF Filed Sept. 7, 1965 2 Sheets-Sheet 1 INVENTOR b4 GAQY L. HEIN m WQ E 3,369,708 NG A DRY BIOLOGICAL AND F CONTROLLED DISPENSING THEREOF Feb. 20, 1968 s. HEIN MEANS FOR RECONSTITUTI 2 Sheets-Sheet 2 Filed Sept. 7, 1965 INVENTOIIZ GAQY L. HEIN -lfllllrlflff United States Patent C 3,369,708 MEANS FOR RECONSTITUTING A DRY BIOLOG- ICAL AND FOR CONTROLLED DISPENSING THEREOF Gary L. Hein, Decatur, Ill., assignor to Lincoln Laboratories, Inc, Decatur, 11]., a corporation of Indiana Filed Sept. 7, 1965, Ser. No. 485,430 Claims. (Cl. 222-85) This invention relates to an improved means for reconstituting a dry, or lyophilized, biological and for thereafter effecting controlled dispensing of the liquid biological as required.

The use of lyop-hilized biologicals, such as smallpox vaccine, has the appeal of an extended shelf life prior to being reconstituted. Present techniques dispose the dried biological in a glass vial under a reduced gas pressure maintained by a pierceable rubber seal or stopper. The reconstituting liquid is usually packaged in a syringe, or vial unit, having a sharp needle extending therefrom for piercing the seal on the container, after which the liquid is, in the case of a syringe, expressed through the needle into the container to reconstitute the dried biological, while in the case of a vial, the reduced gas pressure in the container operates to cause the fluid to move from the vial into the container. Thereafter, the liquid biological is either retained in the container, from which the stopper has been removed, so as to provide access to the liquid by dipping or the like, or the liquid is sucked back up through the needle into the syringe unit for dispensing therefrom as desired either through the needle or through some other tubular attachment. Both of said methods of storage of the liquid biological have drawbacks, since an open-topped container is subject to tipping and spillage therefrom, and the syringe unit requires skill in controlling limited expressing of liquid therefrom.

Thus, one object of this invention is to provide an improved means for both reconstituting a dried biological and for thereafter effecting simple controlled dispensing of the liquid biological as required.

Another object of this invention is to provide an improved selectively-controlled dispenser of liquid biologica s which obviates the drawbacks of existing systems and which is of simple but effective construction for achieving a more precise expressing of a very small amount of liquid therefrom as required.

Further objects and advantages of this invention will become apparent as the following description proceeds and the features of novelty which characterize this invention will be pointed out with particularity in the claims annexed to and forming part of this specification.

A preferred embodiment'of the invention is shown in the accompanying drawings, in which:

FIG. 1 illustrates an existing system for reconstituting dried biological such as a vaccine including a container with a pierceable stopper and a syringe for introducing liquid into the container;

FIG. 2 illustrates a first form of dispenser that has been attached to the container of liquid biological;

FIG. 3 is an enlarged fragmentary cross-section view of the discharge end of the dispenser of FIG. 2, and showing its cooperation with a cap therefor;

FIG. 4 is a vertical cross-section view of a second form of dispenser wherein the dispenser prior to its use as such, also serves as the means for reconstituting the dried biological;

3,369,7fi8 Patented Feb. 20, 1968 dried biological prior to reconstituting the dried biological.

Referring now to the drawings, FIG. 1 illustrates an existing system for reconstituting a dry biological and for later using a portion thereof in the controlled dispensing of the liquid biological resulting from the process of reconstitution. Thus, in FIG. 1 there is shown a glass bottle generally indicated at 10 containing therein a preselected quantity of dry or lyophilized biological in the form of a plurality of tablets 112. Thecontainer 10 is typically known and is normally closed by a pierceable rubber stopper that is encircled by asheet metal retainer 14 which is conveniently scored alongvarious lines 16 so that upon rupture along such score lines thesheet metal retainer 14 may be entirely removed. Accompanying such acontainer 10 with dried biological therein, is a syringe device generally indicated at 18 and which comprises abarrel 20, aplunger 22 with apiston 23 at one end thereof located inbarrel 20, and a sharpenedhollow needle 24 at the opposite end ofbarrel 20. The interior of thebarrel 20 is filled with a liquid operative to effect reconstitution of the dried biological when it has thepellets 12 immersed therein.

The manner of usage of this system to remove the protective sleeve 28 from theneedle 24, then pierce the ordinary pierceable rubber stopper oncontainer 10 with theneedle 24, and then discharge theliquid contents 26 into thecontainer 10, whereupon the dry biological 12 is immersed in a bath of liquid and becomes reconstituted. Then, in order to dispense the liquid biological in small amounts, in a controlled manner, thecontainer 10 is inverted so that the liquid contacts needle 14, and the liquid biological is then sucked back up throughneedle 24 to the interior of the syringe device 18. Thereafter, the liquid biological may be dispensed either through theneedle 24, or through some other tubular fitting that is substituted for theneedle 24. What has thus far been described is well known in the art, and no novelty is ascribed to any of these features, except insofar as some of the same structural elements may be used to cooperate with the novel fittings hereinafter described.

Now, FIG. 2 illustrates the combination of the container It) with one form of a novel discharge fitting at the end thereof. As earlier described, thecontainer 10 is of glass and is, therefore, a rigid, mouthed storage container that defines a restrictedneck 30 and an enlargedbead 32 at the discharge end of thecontainer 10, which normally surrounds and defines the mouth of the container. The pierceable rubber stopper, which is normally provided for thecontainer 10, has been removed and discarded, and there has been attached to the mouth of the container 10 a unitary dispensing device, generally indicated at 34, for selective controlled dispensing of the liquid biological that is within thecontainer 10. Thedevice 24 is molded of polyethylene, or rubber, or of some synthetic plastic material that is resilient enough to be manipulable in the manner as hereinafter described.

Thedispensing device 34 is shaped to define anannular mounting base 36, whose center opening communicates with one end of the bore of an elongated dispensing tube means 38. The distal end of the tube means 38, that is remote from thebase 36, terminates in a dispensingtip 40 that is formed with aconstricted orifice 42 therethrough. There is also provided a flexible, bulgedportion 44 intermediate the end of the tube means 38 and immediately adjacent the dispensingtip 49. The bulgedportion 44 has its side walls thereof thinned down as at 46, relative to the thickness of the wall of the straight tubular portion of tube means 38, that extends between thebase 36 and thebulged portion 46, and the side walls ofportion 44 bulge outwardly of the exterior periphery oftube 38 to define an enlarged chamber, or well, 48 that is adapted to receive and hold a supply of liquid therein when the container is inverted, in the manner as seen in FIG. 2. The Well 48 is positioned immediately. adjacent the dispensingtip 40 so as to locate a supply of the liquid to be dispensed immediately adjacent the dispensing tip.

Theconstricted dispensing orifice 42 is selected of such a size relative to the viscosity of the liquid that the liquid will not run out, under gravity forces, throughorifice 42 when the container is merely inverted, but theflexible wall portions 46 of the dispensing tube means permits of manual manipulation so as to impose controlled dispensing forces onto the liquid within thereservoir 48, so that one is able to achieve a very accurately controlled dispensing of small amounts of liquid biological from the tip of the dispensing tube means. Such manual manipulation may be effected, for example, by pressing inwardly onthinned walls 46 of bulgedportion 44, and as illustrated in FIG. 2 asmall drop 49 is being dispensed from the dispensing tip of the device.

The mounting base of thedispensing device 34 is appropriately molded, or shaped, to provide an annular recess 50 surrounded byskirt 51 for receiving thereinto the enlargedbead 32 at the discharge end of thecontainer 10. It is desirable to bulge the terminal end of theskirt 51 slightly inwardly at 52 to extend inwardly of the outermost portions ofbead 32 and to provide that the device snap fits onto the container. Thebase 36 is also shaped to provide thereon a sleeve type insert element 54 which enters the mouth of the container and engages the inner wall of the restrictedneck 36 to provide a good and preferably liquid-tight seal thereagainst. The portion of thebase 36 which enters the mouth of the container is concavely recessed at 56 to provide a well, or funnel, that directs the liquid from thecontainer 10 into the inlet end of thebore 58 of the tube means 3?.

It will be understood that thedevice 34 that is shown attached to thecontainer 10 in FIG. 2 is normally packaged in sterile condition in an envelope of cellophane or the like, and after the dry biological in thecontainer 10 has been reconstituted, the envelope containing thedispensing device 34 is opened and the device is then mounted onto the mouth of thecontainer 10. In order to provide a system that inhibits entry of air or other contaminants when the container is being stored under refrigeration,'aclosure cap 60 is provided, as best seen in FIG. 3, arranged for a frictional fit onto the discharge tip 44). If desired, theclosure cap 60 may be molded to provide an obturator stem 61 which protrudes throughorifice 42 to provide an excellent seal.

In the modified form of dispensing device as shown in FIG. 4, portions similar to those previously described are indicated by the same numeral, primed. Thedispenser 34 of FIG. 4 is intended to cooperate with and overlie thepierceable rubber stopper 66 that is normally provided on thecontainer 10. Furthermore, the device of FIGS. 4 and 5 utilizes thebore space 58 within the tubular means 38' and in the well 48' of the bulgedportion 44 of the dispensing tube as a storage space for the reconstituting liquid. Thus, thedischarge tip 40 of the device in FIG. 4 is provided thereon with a gas-tight cap or stopper 60 with obturator 61', for efiecting a gastight seal at the one end of the tubular interior of the device. At the opposite end of the bore, or canal, 58' through the tube, there is provided ahollow needle segment 62 which is held in assembld position by gas-tight frictional engagement thereof with the walls of the tubular part 33'. Theneedle 62 serves to communicate the interior of the storage container 10' with the entry end of the elongated dispensing tube means 38'. The outerbeveled end 6% ofneedle 62 provides a piercing tip that extends below the mounting base 36' of the dispenser. The mounting base 36' and its depending skirt 51' serve as annular connector means for attachment to the mouth of thecontainer 10. The outer end of theneedle 62 is normally sealed by means of a protectiveresilient cap 66 that is frictionally fitted over the needle.

In usage, the entire dispensing device, with a reconstitutingliquid 68 therein is individually packaged, and when it is desired to reconstitute a dry biological such as at 12 in FIG. 5, the package is opened, and the sleeve, or cap, 66 is removed. Then the base 36' is snapped over the upper end of thecontainer 10, as seen in FIG. 5, with thepiercing portion 64 of theneedle 62 held so that it pierces therubber stopper 66 that is normally provided oncontainer 19. The reconstitutingliquid 68 is then caused to enter the container 10' to reconstitute the dry biological 12' contained therein. After reconstitution, thecontainer 19 may be inverted to effective selective discharge of liquid biological from dispensing tip 40' in the same manner as described in relation to FIG. 2.

The reconstitutingliquid 68 may be caused to entercontainer 10 in a number of manners. If there is a vacuum incontainer 10, removal ofcap 60 will cause theliquid 68 to be drawn into container 10' under the force from atmospheric pressure. If there is no vacuum incontainer 16 to draw the liquid .68 thereinto, thecap 60 is removed and manual squeezing of the tubular means 38 progressively from thetip 4!? toward the base 36', operates to express, or milk, the liquid into the container 10'.

As to the mounting ofneedle 62, it will be seen that the base 36' and the portion of canal 58' adjacent base 36' is constricted to provide a relatively thickened and less resilient mountingsleeve portion 63 as part of the connector means that includes base 36' through which the shank ofneedle 62, that is located between the beveled ends ofneedle 62, is press fit so as to rigidly positionneedle 62 relative to base 36', and so as to maintainneedle 62 in position relative to base 36'. The length ofneedle portion 64 which projects outwardly ofbase 36 is selected to be within the axial confines of skirt 51', and preferably of a length so that only the beveled terminus ofneedle 62 is exposed in the concave well 66', defined instopper 66. This provides that almost all of the liquid in container in may enterneedle 62 when the container is inverted to the position of FIG. 2.

In the modified form of device as shown in FIGS. 6 and 7, the dispensing tube means 102 is provided as part of a stopper-shapedbase 1% that is intended to fit into and connect to the mouth of acontainer 10, to substitute for the stopper that is normally provided. The base Hit} is provided with aconcave well 1 51 on the inner side. The dispensing tube means 102 is laterally offset from the geometric center of thebase 100, and a drain tube segment 198 is rigidly mounted onbase 100, and partially extends into the canal 193 of tube means W2. A closure cap Eli) slidably fits onto the projecting end ofdrain tube 108. The dispensing tube means 102 has a bulgedportion 104 of thinned walls adjacent the dispensingtip 106 that has a constricted bore or orifice it therethrough. A sealing cap 112 seals off thedischarge tip 106. The canal 193 of tube means 102 and the well defined bybuiged portion 104 carry therein a supply of reconstituting liquid for discharge intocontainer 16, in the manner as described hercinabove in relation to the device of FIGS. 4 and 5.

The base 100 also carries a vent tube means 114 which extends through the base so that when mounted on container one end ofvent tube 114 is withincontainer 10 and the other end is outside of the container. Afilter 116 is carried on the outer end ofvent tube 114, so that any air taken intovent tube 114 for passage into thecontainer 10 must first pass through thefilter 116. The filter element infilter 116 may be any appropriate means, such as gauze or cotton. A protective sleeve, or cap, 118 is provided on the extended inner end segment ofvent tube 114. Thetube 114 projects much further intocontainer 10 than doestube 108, so thatvent 114 is operable for venting even when the container is inverted.

In use, thecaps 110 and 118 are first removed and thebase 100 is mounted on the container, as seen in FIG. 7. Then cap 112 is removed so that the reconstituting liquid may be caused to entercontainer 10 to dissolve the dry biological 122, after which the combination container and dispenser of FIG. 7 may be used in the manner as disclosed in connection with the description of FIG. 2. The vent means 114 contributes to the ease in dispensing of liquid in controlled size of droplets and prevents air lock from interfering with the dispensing of biological from the tube means 102.

While there has been shown and described a particular embodiment of this invention, it will be obvious to those skilled in the art that various changes and modifications may be made therein without departing from the invention and, therefore, it is intended in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of the invention.

What I claim as new, and desire to secure by Letters Patent of the United States, is:

1. A device for reconstituting a dried biological to liquid form and for effecting selective controlled dispensing of the reconstituted liquid biological, comprising, in combination: a storage container having therein a supply of biological in dried form, elongated tube means carrying a supply of liquid therein that is adapted to be selectively released to reconstitute the dried biological in the storage container, removable closure means at the ends of the tube means for maintaining the supply of liquid in the tube means prior to use, connector means at one end of said tube means for attaching the elongated tube means to the storage container, the other end of said tube means defining a dispensing tip thereat with a discharge orifice therethrough, means for causing the supply of liquid in the tube means to enter the storage container when the removable closure means at said one end of the tube means has been removed to reconstitute the dried biological, and said tube means providing a flexible portion therein adjacent the dispensing tip, which flexible portion is adapted to receive therein liquid from said container when the container is inverted so as to locate a supply of the reconstituted liquid biological within the tube means adjacent said other end when it is desired to dispense liquid therefrom, and said flexible portion being constructed to be flexed by manual digital pressure to effect controlled expressing of liquid biological from the dispensing tip when the removable closure means at said other end of the tube means is removed.

2. A device as set forth inclaim 1 wherein said flexible portion of the tube means is bulged to form an enlarged reservoir for reconstituting liquid that is carried in said tube means, the discharge orifice of the tube means being constricted to prevent liquid from running out through said orifice under gravity forces, and the walls of said bulged portion being thinned relative to the remainder of the tube means to permit of manual manipulation thereof for achieving accurate pressurizing of the liquid in the enlarged reservoir to effect dispensing of small, precise amounts of liquid from said dispensing tip.

3. A device as set forth inclaim 1 wherein a rigid hollow drain tube is provided extending outwardly from said one end of the tube means for communicating the resilient material and the connector means is formed to engage and relatively rigidly mount the hollow drain tube relative to said tube means, and the outwardly extending end of the drain tube being sharpened to provide a needle-like piercing point.

5. A device as set forth inclaim 1 including venting means separate from said tube means and carried by said connector means for entering into the interior of the storage container to vent the container when the connector means connects the tube means to the storage container.

6. A device as set forth inclaim 1 wherein the means for causing the supply of liquid in the tube means to enter the storage container includes the storage container with dried biological therein having a gas pressure therein reduced below atmospheric pressure.

7. A device for both reconstituting a dried biological within a storage container and for thereafter dispensing said reconstituted biological from said storage container through said device; said device comprising, in combination, elongated tube means carrying a supply of reconstituting liquid therein, an aperture means at each end of said tube means, a removable closure means for maintaining each aperture means closed prior to use of the device, connector means operatively associated with said tube means for selectively attaching one end of the tube means to a storage container after the removable closure means at the said one end of the tube means has been removed, the aperture means at one end of the tube means affording flow of the reconstituting liquid therethrough from the tube means to the storage container, and the other end of the tube means defining a dispensing tip thereat through which liquid may be selectively expressed by manual digital pressure after the removable closure means at the other end of the tube means has been removed.

8. In a device for controlled dispensing of liquid such as a biological from a rigid, mouthed storage container for the liquid, the improvement comprising a body of resilient material shaped to define an elongated tube means surrounding an elongated bore one end of which is open and adapted to have liquid move freely therethrough into and out of the bore of said tube means, the other end of said bore communicating with a constricted discharge orifice in a discharge tip on said body at one end of the tube means which prevents liquid from running through said orifice under gravity forces, a portion of the elongated tube means adjacent said discharge tip defining a bulged tube portion that is flexible relative to said discharge tip and which surrounds an enlarged section of the bore that serves as a liquid reservoir immediately adjacent the constricted discharge orifice, the reservoir having a cross-section dimension at the bulged tube portion that is greater than any other cross-section of the bore in said tube means, and said relatively flexible bulged tube portion permitting of digital pressure on liquid in said reservoir adjacent the discharge orifice to effect controlled expressing of a precise amount of liquid from said discharge tip.

9. A device as in claim 8 wherein the body of resilient material is shaped to define an annular resilient connector integral with the tube means adjacent said open one end of the bore, and a hollow piercing needle, separate from said body, is held by the resilient material of the body in said tube means in communication with said bore and projecting outwardly of the said open end of the bore.

10. A device as in claim 8 wherein the bore of the tube means carries a supply of liquid pre-assembled there in, and removable closure means are provided at the ends of the tube means for maintaining the supply of liquid in the tube means prior to use.

References Cited UNITED STATES PATENTS Knapp 222-490 X Orson 215-11 Reichel 128272 Little 21511 Ward et a1. 222-88 Rodriguez 215-11 X Little 22285 Holmes 215-11 X 8 3/1961 Murrish 128272 5/1964 Yorker et al. 222563 X 7/1964 Tsochatzoulos 128272 9/1964 Hansen et al. 21511 1/1965 Ford 128172 4/1965 Lucht 222-490 X 8/1966 Barnby 21511X FOREIGN PATENTS 12/ 1949 France. 12/ 1949 Great Britain.

1/1955 Italy.

WALTER SOBIN, Primary Examiner.

Claims (1)

1. A DEVICE FOR RECONSTITUTING A DRIED BIOLOGICAL TO LIQUID FORM AND FOR EFFECTING SELECTIVE CONTROLLED DISPENSING OF THE RECONSTITUTED LIQUID BIOLOGICAL, COMPRISING, IN COMBINATION: A STORAGE CONTAINER HAVING THEREIN A SUPPLY OF BIOLOGICAL IN DRIED FORM, ELONGATED TUBE MEANS CARRYING A SUPPLY OF LIQUID THEREIN THAT IS ADAPTED TO BE SELECTIVELY RELEASED TO RECONSTITUTE THE DRIED BIOLOGICAL IN THE STORAGE CONTAINER, REMOVABLE CLOSURE MEANS AT THE ENDS OF THE TUBE MEANS FOR MAINTAINING THE SUPPLY OF LIQUID IN THE TUBE MEANS PRIOR TO USE, CONNECTOR MEANS AT ONE END OF SAID TUBE MEANS FOR ATTACHING THE ELONGATED TUBE MEANS TO THE STORAGE CONTAINER, THE OTHER END OF SAID TUBE MEANS DEFINING A DISPENSING TIP THEREAT WITH A DISCHARGE ORIFICE THERETHROUGH, MEANS FOR CAUSING THE SUPPLY OF LIQUID IN THE TUBE MEANS TO ENTER THE STORAGE CONTAINER WHEN THE REMOVABLE CLOSURE MEANS AT SAID ONE END OF

Images