Chemistry: analytical and immunological testing – Involving an insoluble carrier for immobilizing immunochemicals
Reexamination Certificate
2000-09-08
2002-09-24
Chin, Christopher L. (Department: 1641)
Chemistry: analytical and immunological testing
Involving an insoluble carrier for immobilizing immunochemicals
C436S541000, C436S169000, C436S052000, C436S805000, C436S809000, C436S810000, C436S823000, C436S808000, C435S007100, C435S007900, C435S007910, C435S007920, C435S007930, C435S007940, C435S007950, C435S028000, C435S287100, C435S287300, C435S288700
Reexamination Certificate
active
06455324
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a system and method for determining the presence or concentration of analytes or biological agents in a sample of bodily using a specific amount of membrane imbibed with dry reagent. In the most preferred embodiment the meter and a specific quantity of single use reagent bearing test strips are used to measure the concentration of glucose in whole blood.
BACKGROUND OF THE INVENTION
The need for simple methods to determine the chemical and biological constituents in bodily fluids has increased as point of care testing has gained in popularity. The most common application is the self monitoring of blood glucose concentrations by patients with diabetes. Diabetic patients frequently administer insulin or take other therapeutic actions based on the test results. As testing is generally recommended multiple times daily and may occur in any setting, an easy to use low sample volume test is required. The issues associated with sample volume are significant to many diabetic patients, especially elderly patients with compromised circulator systems.
In addition to chronic disease monitoring, there are other applications where simple, low sample size testing at the point of care may be desired. For example, many practitioners believe that certain medications could be administered much more effectively, both from a medical outcomes and from a cost perspective, if the circulating level of such medications could be monitored during the course of treatment. Generally, if the level of an analyte or biological agent is important enough, the patient needs to go to a clinic or laboratory and submit to a venipuncture so a test may be run on an expensive clinical instrument. The ability to monitor the patient either in the doctor's office or at home could lead to improved outcomes. By providing a simple low sample volume test the practitioner is given a means of performing a test utilizing a small sample which in most cases is easier to obtain from the patient by using a simple finger stick.
The National institute of health conducted a large scale study to evaluate the benefit of long term tight control of the blood glucose for the diabetic patient. The study known as the DCCT proved that long term tight control of the blood glucose levels in patients had a direct relationship to the health of the patient. One way for the medical profession to monitor the control of a patient is for the patient to use a blood glucose monitoring system. One of the main obstacles to testing is the sample size needed to perform the test. As patients age and their circulation decreases the ability to extract an adequate sample of body fluid is affected. A test which more efficiently utilizes the body fluid would aid in reducing the problems associated with larger sample size test. Current blood glucose monitoring devices such as the One Touch systems manufactured by LifeScan, Inc. of Milpitas, Calif. require the patient to place between 8 and 12 microliters of blood on the test strip. Many patients apply substantially more blood to the test to minimize the failure of the test due to not enough sample applied to the strip. This unmeasured sample leads to accuracy problems due to more sample than dried chemistry present on the test strip. A system which self meters the amount of sample to a specific amount of carrier consisting of a matrix which holds a relatively constant amount of chemistry and provides a consistent volume for absorbing the sample to promote the test reaction would be a significant advancement to the patient community.
Many diabetics currently use a test method described in U.S. Pat. No. 5,304,468 Phillips et al. This system is comprised of an electronic meter and a disposable reagent strip. The meter reads the color change of the strip which correlates to the concentration of the analyte in the sample applied to the strip. The meter is an expensive and complex instrument which uses multiple light sources or detectors to isolate the reagent color change from the sample color. The user must select the calibration code for the meter to match the calibration code of the test strips. In this way, the meter accommodates a wide range of test strip performance values.
U.S. Pat. No. 4,637,403, Garcia et al., describes an integrated system with provides a method by which the patient lances the finger to get a sample of blood which is then used by the device to read the quantity of analyte in the sample. This system uses a complex reflectance system to read the analyte level in the sample.
U.S. Pat. No. 5,279,294 Anderson et al. describes a hand held shirt pocket device for quantitative measurement of glucose or analytes in biological fluids. The device has sophisticated electronics system and a sampling system integrated into one device to determine the quantity of analyte in a bodily fluid sample.
U.S. Pat. No. 5,515,170 Matzinger et al. describes the difficulties of keeping a strip holder and optics system clean and the need to present the test strip in the proper perspective to the optics.
European Patent Specification 0 351 891 B1 Hill et al. describes an electrochemical system and electrodes which are suitable for the in vitro determination of blood glucose level. The system requires the use of expensive electrodes and a sophisticated reader to determine blood glucose levels.
U.S. Pat. No. 4,994,167 Shults et al. describes a measuring device for determining the presence and amount of a substance in a biological fluid using electrochemical methods. This system requires a complex instrument and method for the patient to determine the quantitative result.
U.S. Pat. No. 5,580,794 Allen et al. describes a single use disposable measuring device for determining the presence and amount of a substance in a biological fluid using reflectance methods. This system utilizes an optics and electronics package which are mated in a single plane.
Single use disposable devices have been designed for the analysis of analytes in bodily fluids. U.S. Pat. No 3,298,789 Mast describes a system in which whole blood is applied to a reagent strip. After a precise, user-timed interval, the blood must be wiped off by the user. An enzyme system reacts with the glucose present in the sample to create a color change which is proportional to the amount of glucose in the sample. The strip may be read visually, by comparing to a printed color intensity scale, or in an electronic instrument.
U.S. Pat. No. 5,418,142 Kiser et al. describes a single use device which does not require blood removal or color matching. The amount of analyte present in the sample is read in a semiquantitative fashion.
U.S. patent application Ser. No. 08/628,489 now U.S. Pat. No. 5,962,215 Douglas et al. describes a series of semiquantitative single use devices which are used to determine the level of an analyte in a biological sample. These devices do not require blood removal or color matching.
U.S. Pat. No. 5,451,350 Macho et al. describes a single use system for the determination of an analyte in a biological sample.
European Patent Application No. EP 0 759 555 A2 Douglas et al. describes a multilayer reagent test strip which measures the concentration of analyte I a liquid sample that is applied to it.
U.S. Pat. No. 4,994,238 Daffern et al. describes a multilayer test device which uses a defined area of absorbent reagent bearing matrix.
Although many improvements have been made, the cost and complexity of measuring analyte levels in biological samples remains a significant issue for patients and for the health care system. The need to deliver a sizable sample of body fluid to the meter and the strips or electrodes in use leads to errors in performance and presents problems for the patient. The availability of a low sample volume which meters the sample to the test matrix reduces the issues with short sampling or over sampling of the test. This is a great advantage to the patient to insure an accurate test. A simplified quantitative test system of this invention for the periodic monitoring of constituen
Amira Medical
Chin Christopher L.
Do Pensee
Woodard Emhardt Naughton Moriarty & McNett
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