The invention relates to syringes for dispensing liquids. In particular, a syringe with an adapter useful in dispensing very small amounts of liquid is provided.
In many medical and laboratory applications, it is necessary to provide or administer a single or precisely measured dose of a liquid agent, such as blood, medication or reagent. One such application in which precise amounts of fluid are required is in the patient use of systems for measuring a bodily analyte in a physiological fluid. Such systems typically include test strips containing a reagent material to which a physiological sample is applied. Meters are configured to receive such test strips and determine the analyte concentration of the sample. Prior to the use of such meters and test strips, they are typically checked by methods in which a monitoring agent, often called a control solution is used to test the accuracy and efficacy of the test strips.
Control solutions are often packaged in a plastic or glass container. The solution is then dispensed using a syringe, but it is generally difficult to accurately control the amount of control solution dispensed from syringes. Although advancements are rapidly being made in the development of systems and devices for measuring analyte concentrations, there has been limited advancement in the area of control solution containment and dispensing for use with these advanced systems and devices. Commercially available syringes typically have a tapered dispensing tip that performs reliably on diagnostic test strips where a large volume, e.g. 5 to 20 microliters, of control solution or a body fluid is required. However, such syringes are less accurate at dispensing smaller volumes required by today's more advanced test strips that use less than one microliter.
As the sample volume requirement of some commercially available test strips reaches sub-microliter level, an excess amount of control solution may be delivered by the existing syringes, creating inconvenience and annoyance to the user. For example it can be difficult to aim a large droplet precisely onto the reaction zone of a test strip while also holding the syringe and pushing the plunger.
a is a side plan cross-sectional view of an embodiment of an adapter according to the present invention for use with a conventional syringe.
b is a top-plan view (along A-A of
a is a side plan cross-sectional view of a further embodiment of an adapter according to the present invention for use with a conventional syringe.
b is a top-plan view (along A-A of
The present invention will be described in the context of analyte concentration measurement applications, and particularly in the context of glucose concentration in blood. However, such is not intended to be limiting and those skilled in the art will appreciate that the subject devices, systems and methods are useful in the measurement of other physical and chemical characteristics, e.g., blood cholesterol level, or other biological substances, e.g., urine, saliva, etc., involving the use of a reagent. Likewise, the present invention may be used in relation to other liquid substances or agents that also require the convenient provision of a precise dose.
a is a side plan cross-sectional view of an example embodiment of an adapter 800 for use with a conventional syringe (not shown) including a dispensing tip 802, an expanded reservoir 804, a fluid outlet 806, a narrow tapering internal channel 808, a circular disc 810, a means for connection 812 and an arrow ‘A’ depicting the direction of connection of adapter 800 to the tip of a conventional syringe.
The provision of a reservoir of a fixed volume makes it easier to dispense the required amount of liquid from the syringe because the fluid is held in a secure manner and prevented from falling off the tip. Dispensing the fluid only, as for example, onto a test strip, requires the fluid only to emerge partially from the reservoir so that when the fluid touches a test strip, it automatically migrates to the test strip through capillary action. The volume of the reservoir can be configured so that it is larger than required for testing one test strip. The precise dimensions of the reservoir will depend on the application requirements. For dispensing liquids at or less than the micro-liter amount, the dimension of the reservoir may be about 1-5 mm in diameter and more typically close to 3 mm, and a height in the range of approximately 0.5-1.5 mm, and more typically close to 0.7 mm.
a is a side plan cross-sectional view of a further example embodiment of an adapter 900 for use with a conventional syringe (not shown) including a dispensing tip 902, an expanded reservoir region 904, a fluid outlet 906, a narrow tapering internal channel 908, two flat gripping surfaces 910 located directly opposing each other and an arrow ‘A’ depicting the direction of connection of adapter 900 to the tip of a conventional syringe.
Hospitals use IV and arterial access lines to monitor and infuse medication to patients, especially those in critical or intensive care. For patients who require intensive blood glucose measurements, blood samples are routinely drawn directly from the IV or arterial lines using a small syringe. Blood from the syringe is then applied to a glucose test strip for measurement of the glucose concentration.
As modern glucose monitoring devices make advancements in areas of quick test time and small sample size, a single drop of blood or other liquid delivered from a syringe, typically in the order of 20 to 40 μL, far exceeds the test strip volume requirement. Therefore in many instances, the excess is spilled on work surfaces, flooding the test strip and potentially contaminating the blood glucose-measuring device. A major cause of the spill is the tapered shape of the syringe tip, which is unable to retain the blood.
The embodiments of
The adapter 800 of
Attachment of adapters 800, 900 onto a conventional syringe is typically in the direction depicted by arrow ‘A’ in each of
In one example embodiment the adapter may be made of transparent or minimally translucent polymer in order to provide clear visual indication of test strip dosing. The adapter tip may be fabricated in large quantities using technologies such as injection molding for example. It would be apparent to those skilled in the art that various methods of manufacturing the adapter of the present invention are conceivable and are therefore intended to be included.
There are many advantages provided by the present invention, including the increased ease of sample volume control and hence application thereof giving the user added confidence in the control solution testing procedure. It is also an aim of the dispensing tip of the present invention to minimize any sample spillage and/or fluid migration up the side of the dispensing tip by only providing a volume of control solution that is close to the required volume. Furthermore the volume of fluid is retained at least momentarily localized in the expanded region of the dispensing tip to help ensure adequate sample volume each time a control solution test is performed.
The example embodiments of a fluid-dispensing tip provided herein facilitate the user in aiming the sample onto the sample-receiving region of the test sensor. Improved sample application also virtually eliminates the need to clean up any accidental spills. The fluid-dispensing tip of the present invention also minimizes the dexterity requirement of a user, easing the testing procedure.
Number | Date | Country | |
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60981321 | Oct 2007 | US |