Abstract
A dosage verification system for use prior to administering an injection of a medicinal fluid drawn into a medical syringe, the system comprising a medical syringe having a barrel with an outwardly facing, flat indicia display surface, plunger having a plunger seal disposed inside and slidably engaging an inwardly facing wall of the barrel and a plunger handle projecting rearwardly from the barrel, and a hypodermic needle projecting forwardly from the barrel, all in combination with an imaging device configured to view and selectively capture, store or transmit a digital image of the plunger position relative to the barrel when a dose of the medicinal fluid is drawn into the fluid chamber of the barrel prior to an injection to verify and provide a record of the dosage drawn, and to alert a user prior to injection when an incorrect dosage is drawn into the fluid chamber of the syringe.
Claims
1. A syringe dosage verification system for use prior to administering an injection of a medicinal fluid, the system comprising: a medical syringe having a transparent barrel, a plunger handle with a plunger seal slidably engaging an inwardly facing wall of an elongate cylindrical fluid chamber disposed inside the barrel, and a forwardly projecting hypodermic needle, the barrel further comprising an outwardly facing wall unitarily molded with the inwardly facing wall, the outwardly facing wall having a volumetric scale and numeric indicia disposed on a flat indicia display surface longitudinally coextensive with the elongate cylindrical fluid chamber so that the volumetric scale and the numeric indicia disposed on the flat indicia display surface are viewable in relation to the plunger seal as positioned inside the barrel; and an imaging device configured to view and selectively capture, store or transmit a digital image of the full volumetric scale and the numeric indicia disposed on the flat indicia display surface in relation to the plunger seal as positioned inside the barrel when a dose of the medicinal fluid is drawn into the fluid chamber of the barrel.
2. The syringe dosage verification system of claim 1 wherein the imaging device is a mobile imaging device.
3. The syringe dosage verification system of claim 2 wherein the mobile imaging device is a cellular telephone.
4. The syringe dosage verification system of claim 1 wherein the mobile imaging device is a digital scanner.
5. The syringe dosage verification system of claim 2 wherein the imaging device is configured by downloading and installing application software on the device.
6. The syringe dosage verification system of claim 1 further comprising a comparator configured to determine whether the fluid dosage drawn into the medical syringe is within a permissible range of deviations from a predetermined value.
7. The syringe dosage verification system of claim 5 wherein the application software is configured to generate an alert to notify a user if the fluid dosage drawn into the medical syringe is not correct.
8. The syringe dosage verification system of claim 6 wherein the comparator is configured to notify a user of an incorrect fluid dosage drawn into the medical syringe.
9. The syringe dosage verification system of claim 7 wherein the alert is at least one of an audio alert, a visual alert and a tactile alert.
10. The syringe dosage verification system of claim 7 wherein the alert generation device is configured to generate at least one of an audio alert, a visual alert and a tactile alert.
11. The syringe dosage verification system of claim 1 wherein the medical syringe comprises at least one needle safety device configured to protect a user or a third party from an accidental needle stick.
12. The syringe dosage verification system of claim 11 wherein the at least one needle safety device comprises a mechanism that selectively retracts the hypodermic needle following use.
13. The syringe dosage verification system of claim 12 wherein the at least one hypodermic needle has a forwardly extending tip end and wherein the needle safety device comprises a needle safety shield that is forwardly moveable by the user to cover the forwardly extending tip end of the hypodermic needle following use.
14. A syringe dosage verification system for use prior to administering an injection of a medicinal fluid, the system comprising: a medical syringe having a barrel with a volumetric scale, an inwardly facing wall defining an elongate cylindrical fluid chamber disposed inside the barrel, a plunger having a plunger seal disposed inside and slidably engaging an inwardly facing wall of the barrel and a plunger handle projecting rearwardly from the barrel, and a forwardly projecting hypodermic needle; and an imaging device configured to view and selectively capture, store or transmit a digital image of the plunger handle position relative to the barrel when a dose of the medicinal fluid is drawn into the fluid chamber of the barrel prior to an injection.
15. The syringe dosage verification system of claim 14 further comprising a comparator configured to determine from the digital image of the plunger handle position relative to the barrel for a specified syringe and dosage whether the volume of medicinal fluid drawn into the medical syringe is within a permissible range of deviation from a predetermined dosage.
16. The syringe dosage verification system of claim 14 further comprising an alert generation device configured to notify a user of an incorrect fluid dosage drawn into the medical syringe.
17. The syringe dosage verification system of claim 1 wherein the imaging device is a mobile imaging device or digital scanner.
18. The syringe dosage verification system of claim 17 wherein the mobile imaging device is a cellular telephone.
19. The syringe dosage verification system of claim 14 wherein the imaging device is configured by downloading and installing application software on the device.
20. The syringe dosage verification system of claim 19 wherein the application software is configured to generate an alert to notify a user of an incorrect fluid dosage drawn into the medical syringe.
21. The syringe dosage verification system of claim 15 wherein the comparator is operatively coupled to an alert generation device to notify a user of an incorrect fluid dosage drawn into the medical syringe.
22. The syringe dosage verification system of claim 20 wherein the alert is at least one of an audio alert, a visual alert and a tactile alert.
23. The syringe dosage verification system of claim 21 wherein the alert generation device is configured to generate at least one of an audio alert, a visual alert and a tactile alert.
24. The syringe dosage verification system of claim 14 wherein the medical syringe comprises at least one needle safety device configured to protect a user or a third party from an accidental needle stick.
25. The syringe dosage verification system of claim 24 wherein the at least one needle safety device comprises a mechanism that selectively retracts the hypodermic needle following use.
26. The syringe dosage verification system of claim 24 wherein the at least one hypodermic needle has a forwardly extending tip end and wherein the needle safety device comprises a needle safety shield that is forwardly moveable by the user to cover the forwardly extending tip end of the hypodermic needle following use.
27. A method for verifying and recording a dosage of a medicinal fluid drawn into a fluid chamber inside a barrel of a medical syringe comprising: configuring and positioning the syringe to provide a clear view of a flat, outwardly facing, indicia display surface of the barrel having a volumetric scale with individual indicia and associated Arabic numerals disposed on said surface in juxtaposition to and overlying the dosage of medicinal fluid inside the fluid chamber; providing and positioning a digital imaging device to establish a focused viewing area including the flat, outwardly facing, indicia display surface of the barrel having a volumetric scale with individual indicia and associated Arabic numerals disposed on said surface in juxtaposition to and overlying the dosage of medicinal fluid inside the fluid chamber; capturing a digital image of the medicinal fluid level inside the syringe; and saving the digital image in an archivable format that is recordable for use in verifying the dosage of medicinal fluid administered using the syringe.
28. A method for verifying and recording the dosage of a medicinal fluid drawn into a fluid chamber inside a barrel of a medical syringe, the barrel having an outwardly facing indicia display surface of known volume overlying the fluid chamber, the method comprising: configuring and positioning the syringe to provide a clear view of the barrel and of a plunger having a plunger seal slidably engaging an inside wall of the barrel to define the fluid chamber into which the medicinal fluid is drawn; providing and positioning a digital imaging device to establish a focused viewing area including the position of the plunger relative to the barrel; capturing and storing a digital image of the position of the plunger relative to the barrel; and determining the volume of the drawn dosage of medicinal fluid inside the syringe from the position of the plunger relative to the barrel and the known volume of the medical syringe.
29. The method of claim 28 further comprising saving the digital image in an archivable format that is recordable for use in verifying the dosage of medicinal fluid administered using the syringe.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0013] The system of the invention is further described and explained in relation to the following drawings wherein:
[0014] FIG. 1 is a top perspective view of an embodiment of the system showing a cellular telephone having a digital imaging capability disposed in a use position above a medical syringe containing a drawn dose of a medicinal fluid;
[0015] FIG. 2 is an enlarged top plan view of the cellular telephone of the system of FIG. 1 with a digital image showing a volumetric scale and numeric indicia disposed on an upwardly facing surface of syringe barrel overlying a fluid chamber containing a drawn dose of a medicinal fluid (shaded);
[0016] FIG. 3 is a top perspective view of another embodiment of the system showing a portably mounted digital imaging device having a digital imaging capability disposed in a use position above a medical syringe containing a drawn dose of a medicinal fluid;
[0017] FIG. 4 is an enlarged top plan view of the digital imaging device of FIG. 1 with a digital image showing a volumetric scale and numeric indicia disposed on an upwardly facing surface of syringe barrel overlying a fluid chamber containing a drawn dose of a medicinal fluid (shaded);
[0018] FIG. 5 is an exploded front perspective view of a medical syringe substantially as shown in FIGS. 1 and 3 but rotated 180° around the longitudinal axis so that the downwardly facing flat surface 17 of barrel 12 in FIG. 1 is facing upwardly in FIG. 5;
[0019] FIG. 6 is a longitudinal cross-sectional view of a medical syringe substantially as shown in FIGS. 1 and 3 with the needle cap removed and the plunger handle fully inserted into the barrel;
[0020] FIG. 7 is a top plan view of another safety medical syringe suitable for use in the system of the invention, with the needle cover in place, the plunger fully inserted into the barrel, and the forwardly slidable needle safety shield disposed in its fully retracted position;
[0021] FIG. 8 is a longitudinal cross-sectional view of the medical syringe of FIG. 7 with the needle cover removed to expose the forwardly extending needle tip, the plunger handle partially withdrawn to form a fluid chamber forwardly of the plunger seal, and the forwardly slidable needle safety shield still disposed in its fully retracted position as it would be during an injection;
[0022] FIG. 9 is another longitudinal cross-sectional view of the medical syringe of FIG. 8 with the plunger fully inserted into the barrel and the forwardly slidable needle safety shield moved to its forwardly extending position with the needle protection guard disposed around the forwardly extending tip of the needle as it would be following an injection; and
[0023] FIG. 10 is a diagrammatic representation of one embodiment of the system of the invention with an imaging device disposed in a use position above a medical syringe and also showing ancillary elements of the system to illustrate its desired functionality.
DESCRIPTION OF PREFERRED EMBODIMENTS
[0024] Referring to FIGS. 1, 2 and 5, one embodiment of dosage verification system 100 comprises a specially designed and configured safety medical syringe 10 in combination with a mobile imaging device 20 configured to capture a digital image display window 24 from a viewing field 22. It will be appreciated that the dimensions of viewing field 22 can vary in accordance with the spacing between safety medical syringe 10 and mobile imaging device 20 and with the lenses, focal lengths and circuitry of mobile imaging device 20. In one preferred embodiment as shown in FIG. 1, viewing field 22 desirably covers the full length of volumetric scale 25 disposed on flat, outwardly facing, indicia display surface 15 of barrel 12 of safety medical syringe 10.
[0025] Barrel 12 is desirably unitarily molded from a transparent or translucent medical grade polymer and comprises a volumetric scale 25 having incremental markings 36 and accompanying numerical indicia 34 disposed on flat, outwardly facing indicia display surface 15 (oppositely facing indicia display surface 17 in FIG. 5) to overlie and facilitate simultaneous viewing of a fluid dosage 26 disposed inside longitudinally extending, cylindrical fluid chamber 62 (FIG. 5) that is slidably engaged and bounded rearwardly by the forwardly facing surface 30 of plunger seal 28 mounted on forwardly extending projection 54 of plunger handle 50 of plunger 14. Barrel 12 further comprises a forwardly projecting hypodermic needle 16 that is coaxially aligned with longitudinally extending, cylindrical fluid chamber 62. Hypodermic needle 16 is rearwardly biased inside transversely slidable frontal attachment 18 prior to an injection. As discussed in greater detail below, cylindrical fluid chamber 62 inside barrel 12 has an inwardly facing wall that is desirably unitarily molded with outwardly facing, flat indicia display surfaces 15, 17. Barrel 12 is desirably sufficiently transmissive to light that the forwardly extending end 30 of plunger seal 28 and medicinal fluid 26 drawn into fluid chamber 26 are clearly visible in digital image display window 24 (FIGS. 1 and 2) of mobile imaging device 20.
[0026] As depicted in FIGS. 1 and 2, mobile imaging device 20 is a cellular telephone with a camera system and imaging capabilities that are desirably configured by applications software to superimpose a digital readout of the fluid dosage drawn in medical syringe 10 as “0.46” mL. Grayscale shading in FIGS. 1 and 2 is intended to show for illustrative purposes the volume of medicinal fluid 26 drawn into the fluid chamber of medical syringe 10. In the enlargement depicted in FIG. 2, the drawn dosage of medicinal fluid 26 is more visible, with forwardly facing surface 30 of plunger seal 28 and a portion of handle 50 (FIGS. 5 and 6) of plunger 14 inside barrel 12 also being visible within the borders of digital image display window 24.
[0027] Referring to FIGS. 3 and 4, another embodiment of the invention identified as system 150 comprises a digital scanner 40 or other similarly effective, portable digital imaging device that can be mounted to a cart or bed frame in a hospital room or medical treatment area by apparatus such as hinged support rod 50 and adjustably positioned as needed to permit a user or medical caregiver to verify a dose of a medicinal fluid drawn into syringe 10. As previously shown and similarly described in relation to system 100, medical safety syringe 10 desirably comprises a barrel 12 further comprising an outwardly facing flat surface 15 having a volumetric scale 25 with individual indicia 34 and accompanying numerals 36 overlying the elongate fluid chamber inside barrel 12. As shown in FIGS. 3 and 4, digital imaging device 40 comprises a display screen 44 bounded by walls 46 that depicts the image framed within adjustable viewing field 42 focused upon upwardly facing, flat image display surface 15 of barrel 12 of medical syringe 10. Although not shown in FIG. 3, it should be understood that digital imaging device 40 is desirably operatively connected to a laptop or work station configured to capture, process, record, store and transmit digital images as needed to verify the dose of medicinal fluid drawn prior to an injection, trigger an audible, visual or tactile alert as needed if the drawn dosage is incorrect, and produce an archivable record of the dose administered in an injection for possible future use. Referring again to FIGS. 3 and 4, display 44 provides, in a single image, a clear and focused view of a dose of medicinal fluid 26 drawn into the fluid chamber of syringe barrel 12 forwardly of the front surface 30 of plunger seal 28 of plunger 14. Additionally, window 48 of digital imaging device 40 displays a digital readout of “0.46” (mL) as the volumetric dosage of medicinal fluid drawn into barrel 12 of medical syringe 10.
[0028] The structure and operation of safety medical syringe 10 is further described and explained in relation to FIGS. 5 and 6. Safety medical syringe 10 comprises unitarily molded barrel 12 having two longitudinally extending passageways including fluid chamber 62 defined by a cylindrical, inwardly facing wall and needle retraction chamber 64 and at least one outwardly facing, flat indicia display surface 17 having disposed on it a volumetric scale commensurate with the internal volume of fluid chamber 62. In the embodiment of FIG. 5, for example, there are two oppositely facing, flat indicia display surfaces 15, 17 the volumetric scale extends from 0.01 to 1.0 mL and comprises both individual markings 36 corresponding to 0.01 mL each and accompanying Arabic reference numerals 34 ranging from 0.1 to 1 mL. Plunger 14 comprising plunger handle 50, distal plunger tip 54 and proximal end cap 52 and an elastomeric plunger seal 28 attachable to distal plunger tip 54 is insertable into rear opening 60 of fluid chamber 62. Annular elastomeric fluid seal 66 is desirably seated inside the front opening of fluid chamber 62 prior to assembling frontal attachment 18 into transverse sliding engagement with the front of syringe barrel 12. Also seated in the forwardly projecting nose of frontal attachment 18 is a needle retraction assembly comprising a forwardly projecting hypodermic needle 16 disposed in fixed relation to elongate needle holder 38 and a compressed retraction spring 56 (shown in its uncompressed state in FIG. 5) that biases needle holder 58 and hypodermic needle 16 rearwardly prior to and during use of medical syringe 10. Needle cap 68 is a protective cap removed by a user prior to drawing a dose into fluid chamber 62 of syringe barrel 12 and should not be used to recap needle 16 following use to avoid needle stick injury to the user.
[0029] Referring to FIGS. 5 and 6, medical syringe 10 is depicted in its fully assembled form with plunger handle 50 and plunger seal 28 fully inserted into barrel 12. Needle cap 68 (FIG. 5) is removed to place medical syringe 10 in condition for drawing a dose of a medicinal fluid from a vial (not shown) into the fluid chamber 62 (FIG. 5). Medicinal fluid can enter fluid chamber 62 in front of front surface 30 of plunger seal 28 as plunger cap 52 of plunger 14 is pulled rearwardly after hypodermic needle 16 has been inserted into a vial of medicinal fluid or vaccine. As shown in the embodiment of FIGS. 5 and 6, the safety feature of safety syringe 10 is activated by applying transverse digital pressure to a touchpad of frontal attachment 18, thereby moving hypodermic needle 16 laterally from being coaxially aligned with fluid chamber 62 of barrel 12 to being coaxially aligned with an opening into needle retraction cavity 64 (FIG. 5). This lateral repositioning allows spring 56 to expand, driving needle holder 58 rearwardly into needle retraction cavity and also propelling the front tip end of hypodermic needle 16 rearwardly to a position where the needle tip is no longer exposed and cannot cause an accidental needle stick.
[0030] Another medical safety syringe 70 useful in practicing the system and method of the invention but having a different type of needle safety device is shown in FIGS. 7-9. FIG. 7 shows medical safety syringe 70 prior to use, with needle cap 92 in place. Barrel 72 further comprises an integrally molded, outwardly facing, flat indicia display surface 76 through which fluid chamber 96 (FIG. 8) is visible forwardly of plunger seal 77 when handle 75 of plunger 74 is partially withdrawn relative to barrel 72 when a dose of medicinal fluid is drawn into fluid chamber 96 of barrel 72 syringe 70. Referring again to FIG. 7, a volumetric dosage scale 80 comprising incremental indicia 78 and accompanying numerical indicia 82 for a single use, 100-unit syringe is disposed on flat indicia display surface 76. Referring to FIGS. 7-8, a slidably engaged needle safety shield 84 having a touch surface 86, actuator handle 88 and circumferentially extending needle guard 90 are depicted in the fully retracted position that leaves the forwardly extending tip of hypodermic needle 94 uncovered and exposed when needle cap 92 is removed prior to use of syringe 70. Referring to FIG. 9, plunger handle 75 of plunger 74 is depicted in the fully inserted position relative to barrel 72 and needle safety shield 84 has been moved forwardly by applying forward pressure to touch surface 86 so that actuator handle 88 causes circumferentially extending needle guard 90 to encircle and protect the forwardly extending tip of hypodermic needle 94 for the avoidance of accidental needle stick injuries.
[0031] A simplified diagrammatic view illustrated in FIG. 10 is useful for further describing and practicing an embodiment of the invention identified as dosage verification system 200. Referring to FIG. 10, dosage verification system 200 includes a portable imaging device 202 positioned to view and capture a digital image of the upwardly facing surface of syringe 206 within a viewing field defined by boundaries 208, 210 that is sufficiently large to encompass the full range of a volumetric scale disposed on an upwardly facing, flat indicia display surface of syringe 206 as described previously. In one embodiment of the invention, portable imaging device 202 is configured by application software 204 to focus on and capture a clear image of the indicia display surface and volumetric scale (both individual indicia and accompanying numerals) of the syringe barrel in juxtaposition to the dose of a medicinal fluid drawn into the fluid chamber of the syringe barrel as previously described in relation to FIGS. 1-9 above. Application software 204 can be downloadable onto a mobile imaging device such as a cellular telephone having digital imaging capabilities or accessible by Wi-Fi, internet or other known technologies, and is desirably configured by use of a transmitter 212 or other conventional circuitry to control, process and communicate the digital images and digital image(s) viewed and captured by imaging device 202 to a display 216 and storage device or media 220 (that can be external or embodied in imaging device 202), or operatively linked to a report generator 222 or other archivable and indexed database. According to one embodiment of dosage verification system 200 of the invention, the digital images viewed and captured by imaging device 202 are optionally analyzed in relation to predetermined parameters by a comparator 214 or other similarly effective device or circuitry (with or without transmission to external devices) configured to generate a visual, audible or tactile alert 218 informing a user that the dose of medicinal fluid drawn into syringe 206 is more or less than the prescribed or intended dosage.
[0032] Other alterations and modifications of the invention will likewise become apparent to those of ordinary skill in the art upon reading this specification in view of the accompanying drawings, and it is intended that the scope of the invention disclosed herein be limited only by the broadest interpretation of the appended claims to which the inventors are legally entitled.
