This invention relates to a system useful for quickly and reliably providing visual verification of medicinal doses drawn into a medical syringe prior to injecting a medication or vaccine into a patient or into another liquid infusion device. The subject system can be used to verify a dosage prior to an injection and to create a reliable visual record of the dosage administered if a question arises after an injection as to whether the dosage administered was correctly drawn or possibly constituted a medical error. One aspect of the subject system relates to a portable imaging device used in combination with a specially configured medical syringe to capture and record a digital image showing the volumetric scale, and preferably the whole volumetric scale, of a medical syringe and the position of the plunger and plunger seal inside the barrel of the syringe after drawing a dose of medicinal fluid. Another aspect of the invention relates to a medical syringe comprising a transparent or translucent barrel having at least one flat side forming an indicia display surface and a volumetric scale with numeric indicia disposed on the indicia display surface and overlying a fluid chamber extending longitudinally through the barrel to facilitate capturing and recording a digital image of the volume of a medicinal fluid drawn into the fluid chamber by a plunger slidably engaging an inwardly facing wall defining the circumferentially extending sidewall of the fluid chamber. Another aspect of the invention relates to a medical syringe comprising a barrel with a fluid chamber of known maximum useful volume in combination with a portable imaging system configured to capture a digital image of the syringe and determine the drawn dosage of a medicinal fluid from the position of the plunger handle relative to the barrel using ratio and proportion.
Still another aspect of the invention relates to a system comprising a medical safety syringe with a flat indicia display surface and a volumetric scale overlying a fluid chamber in combination with a digital imaging device configured to capture, record and optionally transmit a digital image of a medicinal fluid drawn into the fluid chamber to verify the dosage before administering the medicinal fluid to a patient. Still another aspect of the subject invention relates to the combination of a mobile digital imaging device such as a cellular telephone or digital tablet that is configured by application software resident in the device to enable a user of the device to capture, index and store digital images of a medical syringe containing a drawn dose of a fluid medication, generate a digital or documentary report, and trigger a visual, audible or tactile alert and/or alarm if the drawn dosage does not conform to a predetermined acceptable standard.
Still another aspect of the invention relates to a method for verifying the dose of a medicinal fluid drawn into a medical syringe prior to injecting the medicinal fluid into a patient or liquid infusion apparatus. As used in this disclosure, “medical syringe” refers to a medical device having an elongate barrel, generally made of a medical grade injection molded plastic, such as polypropylene, having a plunger with an elastomeric plunger seal slidably engaging an inwardly facing, cylindrical wall of the barrel that cooperate to define a fluid chamber disposed in fluid communication with a forwardly projecting hypodermic needle that is typically covered by a protective needle cap prior to use. As used in this disclosure, the term “safety syringe” is intended to refer to a medical syringe having the capability of causing the pointed tip of a hypodermic needle to be biased or retracted into a needle retraction cavity or to be covered with a protective guard or safety shield following use for the avoidance of accidental needle stick injuries.
Ways to identify and reduce the cause and occurrence of medical errors are a primary concern of the healthcare and insurance industries. A medical error is a preventable adverse effect of medical care, whether or not it is evident or harmful to the patient. Two commonly occurring sources of medical errors are the administration of the wrong drug or the wrong dosage of the right drug to a patient. Various protocols have been instituted in an effort to reduce such medical errors but they remain a principal concern. In many healthcare facilities, a medical caregiver must have another person verify the medicine and the drawn dosage prior to administering an injection to a patient. In situations where an adverse outcome arises during or following patient treatment, a verifiable record is needed to assist investigators in determining whether one causative factor was the dosage administered from a syringe by a healthcare worker. Similarly, in instances where injections are self-administered, such as with insulin injections, a verifiable record can assist in determining whether an incorrect dosage may have been a producing cause of an adverse outcome.
One difficulty that has arisen with the use of conventional medical syringes, and particularly with low-dose syringes such as 1 mL or 0.5 mL, is that the radius of curvature of the cylindrical barrels is so small that the volumetric indicia and associated numerals are difficult or impossible to print onto the barrel during manufacture and are also difficult to read when positioned so that they curve or wrap around the barrel. In many cases, and particularly where the medicinal fluid being injected is clear and colorless, a user may not be able to see and accurately determine the fluid dosage drawn into a syringe prior to an injection.
Another principal safety concern of healthcare institutions and medical caregivers are accidental needlestick injuries that can occur prior, during or subsequent to administering an injection. Such injuries are often preventable or controllable by appropriate product design and by strict adherence to safety protocols relating to the storage, use and post-use handling and disposal of needle products contaminated with blood-borne pathogens. A system is needed that can provide an accurate historical record of dosages drawn and administered with medical syringes while also effectively reducing the incidence and likelihood of accidental needle stick injuries.
One embodiment of the invention disclosed here is a system comprising the combination of a medical syringe having a barrel with a flat, outwardly facing image display surface, a volumetric scale disposed on the flat image display surface overlying an elongate cylindrical fluid chamber inside the barrel, and a portable imaging device desirably configured to capture and store a digital image of at least a portion of the volumetric scale in relation to the dosage of a medicinal fluid drawn into the fluid chamber prior as viewed through a single wall of the barrel prior to administering an injection. In a preferred embodiment of the invention, the portable imaging device is a mobile device such as a cellular telephone or digital tablet equipped with a camera system that can focus on, capture and store a digital image of the entire volumetric scale of the medical syringe in a single frame in which the position of the plunger seal inside the barrel and the dosage level of a medicinal fluid present in the fluid chamber of the syringe barrel is also recorded. In another preferred embodiment of the invention, the digital imaging device is desirably configured and calibrated to record a digital image showing the position of a plunger handle relative to a syringe barrel comprising a fluid chamber of known volume from which the dosage level of a medicinal fluid drawn into the syringe can be calculated or otherwise determined.
In another preferred embodiment of the invention, the medical syringe is used in combination with a portable imaging device and also comprises a needle safety feature to reduce the likelihood of accidental needle sticks to patients, healthcare workers and subsequent handlers following use and during disposal of such syringes. One such needle safety feature comprises, for example, a needle retraction mechanism that biases and repositions the needle tip into a protected position relative to a needle retraction cavity following an injection. Another such needle safety feature comprises, for example, a needle safety shield that is forwardly slidable to cover the forwardly projecting tip of a hypodermic needle following an injection.
In one embodiment of the system of the invention, the imaging device is a cellular phone or digital tablet comprising application software downloadable from a proprietary service provider that is specially configured to scan, capture, record, display, store and index digital images of medical syringes for the purpose of determining and recording the dosage of medicinal fluid drawn into a syringe prior to administering an injection or infusion. Other ancillary components, functions and capabilities of such a system can be resident in the imaging device or provided as auxiliary components of the subject system. Such ancillary or auxiliary components an include a transmitter for forwarding digital images via wired or wireless connections; an optional comparator useful for determining whether doses of medicinal fluids drawn into a syringe are within permissible ranges or deviations from predetermined or preset values; an audio, visual or tactile alert generator signifying incorrect dosages; a digital display; a digital storage device or media; and a report generator useful for indexing and reporting digital data to be viewed, printed, or integrated into other electronic medical records. The dosage verification system can optionally be linked to a database of acceptable dosages for particular medicaments and patient profiles, and the dosage verification scans can, for example, be uploaded into digitized patient records accessible to various classes of identified user groups. Such user groups can include, for example, hospital risk managers, pharmacy managers, insurance managers, and the like.
According to one embodiment of the method of the invention, a dose of a medicinal fluid is drawn into the fluid chamber of a syringe, preferably a safety syringe, that is provided for use in combination with a portable digital imaging device to view through a single wall, capture, store and otherwise process a digital image of the dose drawn into the syringe. The digital image is useful for checking to see that the correct dosage of medicinal fluid has been drawn prior to injection and is also useful for providing an electronic or documentary record that can be used later to verify the dosage previously administered. A preferred syringe for use in practicing the subject method is a safety syringe comprising a barrel with an outwardly facing, flat, indicia display surface forming the outside portion of at least one side of an integrally molded, transparent polymeric wall that is desirably integrally molded together with the inwardly facing wall of an elongate cylindrical fluid chamber extending longitudinally through the barrel. In this embodiment, the method of the invention is practiced by drawing an intended dosage of a fluid medication (or vaccine) into a medical syringe; positioning the syringe so that the individual indicia and associated Arabic numerals of a volumetric scale disposed on a flat, outwardly facing indicia display surface of the syringe barrel are clearly visible in juxtaposition to the medicinal fluid level inside the syringe; positioning a portable imaging device so that a digital camera or scanner has a clear and unobstructed view of the medicinal fluid level inside the fluid chamber and of the volumetric indicia overlying the fluid chamber of the syringe; 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 administered at a future time. In one variation of the subject embodiment of the method of the invention, the portable imaging device can be configured to compare the drawn dosage of the medicinal fluid to a predetermined value as soon as the image is captured and, if the drawn dosage is incorrect or outside an acceptable margin of error, trigger a visible, audible or tactile alert that will cause the user or medical caregiver to reassess the dosage being administered prior to giving the injection. In another variation of the subject embodiment, the image data can be merged into a template configured to generate a report suitable for inclusion in the appropriate medical records.
According to another embodiment of the method of the invention, a dose of a medicinal fluid is drawn into the fluid chamber of a medical syringe of known volume (e.g., 0.5 mL, 1 mL, 3 mL, etc.) that is provided for use in combination with a portable digital imaging device to view, capture, store and otherwise process a digital image of the plunger position relative to the barrel. In this embodiment of the invention, the portable imaging device is preferably configured by application software or other similarly effective means to determine the volume of the drawn dose of medicinal fluid from the position of the plunger handle relative to the barrel as compared to the plunger position when the plunger is positioned to utilize the full rated volume of the syringe. This method of determining the drawn dosage of a medicinal fluid by ratio and proportion can also be used with syringes not having a transparent barrel wall.
Other benefits and advantages of the subject system will likewise become more apparent to those of ordinary skill in the art upon reading this disclosure in relation to the accompanying drawings.
The system of the invention is further described and explained in relation to the following drawings wherein:
Referring to
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
As depicted in
Referring to
The structure and operation of safety medical syringe 10 is further described and explained in relation to
Referring to
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
A simplified diagrammatic view illustrated in
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.
Number | Date | Country | |
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Parent | 16370239 | Mar 2019 | US |
Child | 17929177 | US | |
Parent | 15940305 | Mar 2018 | US |
Child | 16370239 | US |