Source: http://www.google.com.tw/patents/US8029460
Timestamp: 2013-05-20 13:45:23
Document Index: 495348290

Matched Legal Cases: ['application No. 60', 'Application No. 2006226988', 'Application No. 200680017650', 'Application No. 200680017650', 'Application No. 200680017650', 'Application No. 06748550', 'Application No. 2008']

�M�Q US8029460 - Method and system for providing integrated medication infusion and analyte ... - Google �M�Q�j�M �Ϥ� �a�� Play YouTube �s�D Gmail ���ݵw�� ��h »�i���M�Q�j�M | �������� | �n�J�i���M�Q�j�M�M�QMethod and system for integrating infusion device and analyte monitoring system including medication infusion device such as an insulin pump and an analyte monitoring system such as a glucose monitoring system are provided....http://www.google.com.tw/patents/US8029460?utm_source=gb-gplus-share�M�Q US8029460 - Method and system for providing integrated medication infusion and analyte monitoring system���}��US8029460 B2�X���������v�ӽЮѽs��12/643,971�o�G���2011�~10��4���ӽФ��2009�~12��21�� �u���v���2005�~3��21����L���}�M�Q��CN101180093ACN101180093BEP1863559A2EP1863559A4US8029459US8343092US20060224141US20100076412US20100100076US20100100077WO2006102412A2WO2006102412A3�o��HBenjamin M. RushChristopher V. Reggiardo��M�Q�v�HAbbott Diabetes Care Inc. ���M�Q������604/65604/503��ڱM�Q������A61M31/00 �X�@����A61B5/6848A61B5/14532A61K9/0019G06F19/3468A61B5/14546A61K9/0009A61M2205/3569A61B5/4839A61M2005/1726A61M5/14244A61B5/0002A61M2205/3561A61M2205/3592 �ڬw������A61B5/145GA61K9/00M5A61M5/142PA61B5/00BA61K9/00L8A61B5/68D1BA61B5/145PA61B5/48J2�ѦҤ��m�M�Q�ޥ� (100)�D�M�Q�ޥ� (21)�Q�H�U�M�Q�ޥ� (1)�~���s�����M�Q�ӼЧ� ���M�Q�ӼЧ��M�Q����T�� �ڬw�M�Q��Method and system for providing integrated medication infusion and analyte monitoring systemUS 8029460 B2�K�n Method and system for integrating infusion device and analyte monitoring system including medication infusion device such as an insulin pump and an analyte monitoring system such as a glucose monitoring system are provided.
22. The system of claim 21 wherein the transimpedance amplifier comprises at least two operational amplifiers, at least four resistors, and at least one capacitor. ����
RELATED APPLICATION The present application is a continuation of U.S. patent application Ser. No. 11/386,915 filed Mar. 21, 2006, which claims priority under 35 USC ��119(e) to provisional application No. 60/664,215 filed Mar. 21, 2005 and assigned to the assignee of the present application, the disclosure of each of which are incorporated herein in their entirety by reference for all purposes.
The basal profiles are generally determined by the patient's physician or caretaker and are based on a number of factors including the patient's insulin sensitivity and physiological condition which are diagnosed by the patient's physician, for example, and are typically intended to accurately estimate the patient's glucose levels over a predetermined time period during which the patient is infusing insulin. The glucose levels may be estimated based on the patient's periodic discrete testing using a test strip and a blood glucose meter such as Freestyle® Glucose Meter available from Abbott Diabetes Care Inc., of Alameda, Calif. Such estimations are, however, prone to error, and do not accurately mirror the patient's actual physiological condition.
Referring yet again to FIG. 1, in a further aspect of the present invention, the analyte monitor unit 120 or the infusion device 110 (or both) may also include a test strip port configured to receive a blood glucose test strip for discrete sampling of the patient's blood for glucose level determination. An example of the functionality of blood glucose test strip meter unit may be found in Freestyle® Blood Glucose Meter available from the assignee of the present invention, Abbott Diabetes Care Inc.
Referring now to FIG. 7B, the second analog front end circuitry unit 731 disposed on the adhesive patch 730 on the patient's skin, in one embodiment includes an a trans-impedance amplifier (current to voltage converter or ��I-to-V��) 731A configured to convert the working electrode (W) current to a voltage (Vw), and to provide a guard signal (G), and a servo segment 731B to drive the counter electrode (C) voltage (Vc) based on the reference electrode (R) voltage. Also shown in FIG. 7B is a Low-Pass Filter (LPF) and gain stage 711A that follow each of the I-to-V and servo stages, and which is configured in one embodiment to drive an A/D (Analog-to-Digital) converter unit 711C whose results are read by a controller such as a central processing unit (CPU) 711D. The A/D converter unit 711C and the CPU 711D and other peripherals are maybe combined into a single integrated circuit (IC) known as a microcontroller (�gC) such as the MSP430 product line.
Referring now to FIG. 7C, in one embodiment, the second analog front end circuitry unit 731 may be implemented by a pair of operational amplifiers (731A and 731B), four resistors (R1, R2, R3, Rf), and a bypass capacitor (Cb). The I-to-F stage using operational amplifier 731A is generated by the action of the input current from the working electrode (W) flowing through the feedback resistor (Rf) and creating a voltage differential that is driven by the operational amplifier 731A as the low impedance signal Vw. The offset for the Vw signal is established by the resistor divider comprised of R1, R2 and R3 which also creates the voltage of the guard signal (G)�Xa signal that is at the same potential or voltage as the working electrode (W).
The servo, using operational amplifier 731B, in one embodiment, drives the counter electrode (C) voltage to the sensor so that the reference electrode (R) is at the second value set by the resistor divider comprised of resistors R1, R2 and R3. This maintains the working electrode (W) voltage above the reference electrode (R) by a set amount known as the ��Poise Voltage�� (i.e. 40 mV). The bypass capacitor (Cb) may be a small, low equivalent series resistance (ESR) capacitor, such as a 0.1 uF (100 nF) multi-layer ceramic (MLC) capacitor, that acts to provide local energy and reduce noise on the circuit. The voltage source for this circuit may be provided by the potential difference between V+ and V− where, for example, V+ may be 5V and V− may be ground (GND) or V+ may be +3V and V− may be −3V.
In one embodiment, the operational amplifiers 731A, 731B may be acquired as a dual operational amplifier integrated circuit (IC) in a single, small 8-pin, surface mount technology (SMT) package such as the OPA2349 in a SOT23-8 package (3 mm by 3 mm). Similar dual operational amplifier products may be available in even smaller ball-grid array (BGA) packages and as bare die that may be mounted directly to the circuit substrate, such as a printed circuit board (PCB) or flex circuit, using techniques such as ��flip-chip�� and wire-bond.
FIGS. 8A-8C illustrate a passive sensor configuration for use in a continuous analyte monitoring system, and two embodiments of an active sensor configuration for use at the patient interface in the integrated infusion device and monitoring system, respectively, in accordance with one embodiment of the present invention. Referring to FIG. 8A, analyte sensor 810 includes working electrode 811, a guard trace 812, a reference electrode 813, and a counter electrode 814. In one embodiment, the ��tail�� segment 815 of the analyte sensor 810 is configured to be positioned subcutaneously under the patient's skin so as to be in fluid contact with the patient.
�M�Q�ޥ� �ޥΪ��M�Q�ӽФ���o�G��� �ӽЪ��M�Q�W��US25082531946�~9��26��1950�~5��16��Haggardt Dean CCompressor unitUS29155791955�~12��27��1959�~12��1��Ions Exchange & Chemical Corp.Separator for electric batteryUS33743371964�~8��28��1968�~3��19��Johnson Controls International, Inc., A Corp. Of De.Thermal actuator and control thereforUS35107471964�~4��2��1970�~5��5��Black & Decker, Inc., A Corp. Of DeTwo part separable battery chargerUS35418921969�~1��31��1970�~11��24��Jawa Narodni PodnikControl means for the control of the piston stroke of a piston pumpUS36065921970�~5��20��1971�~9��20��Bendix Corp.:TheFluid pumpUS37506871972�~4��28��1973�~8��7��Texaco Inc,UsMethod and system for transporting different types of fluid in a pipelineUS38434551972�~9��13��1974�~10��22��Bier M,UsApparatus and technique for preservation of isolated organs through perfusionUS39230601974�~4��23��1975�~12��2��Biomedical Systems Institute, Inc.Apparatus and method for implanted self-powered medication dispensing having timing and evaluator meansUS39304931974�~10��7��1976�~1��6��Cordis CorporationIntravascular liquid velocity sensing method using a polarographic electrodeUS39947991975�~1��29��1976�~11��30��Wolfson; Sidney K.Blood and tissue detoxification apparatusUS40185471975�~8��28��1977�~4��19��Memory Metals, Inc.Pumping by wire elongationUS40485511975�~12��5��1977�~9��13��Bell Telephone Laboratories, IncorporatedBattery charging circuitUS41212821977�~1��17��1978�~10��17��Sony CorporationPower supply circuitUS41460291977�~5��31��1979�~3��27��Biomedical Systems Institute, Inc.Self-powered implanted programmable medication system and methodUS41933971979�~2��5��1980�~3��18��Metal Bellows CorporationInfusion apparatus and methodUS42681731978�~12��18��1981�~5��19��Direct Power LimitedReflectometersUS42887931979�~4��23��1981�~9��8��Rotovolumetric AgApparatus containing a cylinder with a displaceable piston therein and a measuring transducer arranged essentially within the cylinderUS43091561979�~11��23��1982�~1��5��The Perkin-Elmer CorporationFluid activated pump having variable dischargeUS43620521981�~4��30��1982�~12��7��Leslie Hartridge LimitedFlowmeterUS44011221979�~8��2��1983�~8��30��Children'S Hospital Medical CenterCutaneous methods of measuring body substancesUS44391971982�~3��15��1984�~3��27��Olympus Optical Co., Ltd.Medical capsule deviceUS44472241982�~9��20��1984�~5��8��Infusaid CorporationVariable flow implantable infusion apparatusUS44586861983�~5��4��1984�~7��10��Children'S Hospital Medical CenterCutaneous methods of measuring body substancesUS44678111982�~2��8��1984�~8��28��Children'S Hospital Medical CenterMethod of polarographic analysis of lactic acid and lactateUS44721131982�~1��22��1984�~9��18��Memory Metals, Inc.Pumping by martensitic transformation utilizationUS44743091981�~10��22��1984�~10��2��Oximetrix, Inc.Stepping motor control procedure for achieving variable rate, quasi-continuous fluid infusionUS44861901982�~12��27��1984�~12��4��Consolidated Controls CorporationPrecision medication dispensing system and methodUS44949501982�~1��19��1985�~1��22��The Johns Hopkins UniversityPlural module medication delivery systemUS45123481982�~4��23��1985�~4��23��Kabushiki Kaisha Kyoto Daiichi KagakuDevice for automatically and continuously measuring the constituent parts of bloodUS45243431984�~1��13��1985�~6��18��Raychem CorporationSelf-regulated actuatorUS45294011982�~1��11��1985�~7��16��Cardiac Pacemakers, Inc.Ambulatory infusion pump having programmable parametersUS45312351983�~6��20��1985�~7��23��Motorola, Inc.Diversity signal strength indicator and site selection apparatus for using sameUS45627511984�~1��6��1986�~1��7��Culp; Gordon W.Solenoid drive apparatus for an external infusion pumpUS45632491983�~5��10��1986�~1��7��Orbisphere Corporation Wilmington, Succursale De Collonge-BelleriveElectroanalytical method and sensor for hydrogen determinationUS45704921984�~10��1��1986�~2��18��Cape Cod Research, Inc.Electrochemical flowmeterUS45739941981�~12��7��1986�~3��4��The Johns Hopkins UniversityRefillable medication infusion apparatusUS45748091984�~6��29��1986�~3��11��Electro-Biology, Inc.Portable non-invasive electromagnetic therapy equipmentUS46338781984�~4��10��1987�~1��6��Bombardieri; GuiseppeDevice for the automatic insulin or glucose infusion in diabetic subjects, based on the continuous monitoring of the patient's glucose, obtained without blood withdrawalUS46784081985�~9��24��1987�~7��7��Pacesetter Infusion, Ltd.Solenoid drive apparatus for an external infusion pumpUS46859031984�~1��6��1987�~8��11��Pacesetter Infusion, Ltd.External infusion pump apparatusUS46866241984�~4��10��1987�~8��11��Dominique BlumPortable apparatus for acquiring and processing data relative to the dietetics and/or the health of a personUS47367481987�~4��3��1988�~4��12��Kuraray Co., Ltd.Blood component monitoring systemUS47551731987�~6��4��1988�~7��5��Pacesetter Infusion, Ltd.Soft cannula subcutaneous injection setUS48115641988�~1��11��1989�~3��14��Palmer; Mark D.Double action spring actuatorUS48509591988�~8��2��1989�~7��25��Bioresearch, Inc.Bioelectrochemical modulation of biological functions using resonant/non-resonant fields synergisticallyUS48518271988�~5��26��1989�~7��25��U.S. Philips CorporationMatrix display devices with redundant driving transistor arrangement for improved fault toleranceUS48663961988�~6��27��1989�~9��12��Nec CorporationTemperature stabilized RF detectorUS48834091988�~9��19��1989�~11��28��Strohmeier; FredPumping apparatus for delivering liquid at high pressureUS48906211988�~1��19��1990�~1��2��Northstar Research Institute, Ltd.Continuous glucose monitoring and a system utilized thereforUS49535521989�~4��21��1990�~9��4��Demarzo; Arthur P.Blood glucose monitoring systemUS49765901988�~6��8��1990�~12��11��Baldwin; Brian E.Fluid conduit-responsively adjustable pump arrangement and pump/conduit arrangement and method, and fluid conduits thereforUS49795091989�~7��19��1990�~12��25��Northstar Research Institute, Ltd.Continuous glucose monitoring and a system utilized thereforUS49845811988�~10��12��1991�~1��15��Flexmedics CorporationFlexible guide having two-way shape memory alloyUS50045321987�~3��27��1991�~4��2��Orbisphere CorporationAmperometric cellUS50126671990�~2��22��1991�~5��7��Great Plains Industries, Inc.Apparatus and method for calibrating a measuring deviceUS50199741990�~2��22��1991�~5��28��Diva Medical Systems BvDiabetes management system and apparatusUS50368611990�~1��11��1991�~8��6��Anderson; Carter R.Method and apparatus for non-invasively monitoring plasma glucose levelsUS50518801989�~12��29��1991�~9��24��At&T Bell LaboratoriesMixed mode regulation controller for a resonant power converterUS50619141989�~6��27��1991�~10��29��Tini Alloy CompanyShape-memory alloy micro-actuatorUS50786831990�~5��4��1992�~1��7��Block Medical, Inc.Programmable infusion systemUS50799201990�~8��6��1992�~1��14��Groom; Kenneth N.Hydraulic shape memory material stress to hydraulic pressure transducerUS50814211990�~5��1��1992�~1��14��At&T Bell LaboratoriesIn situ monitoring technique and apparatus for chemical/mechanical planarization endpoint detectionUS51018141989�~8��11��1992�~4��7��Medtronic International Technology, Inc.System for monitoring and controlling blood glucoseUS51246611990�~7��23��1992�~6��23��I-Stat CorporationReusable test unit for simulating electrochemical sensor signals for quality assurance of portable blood analyzer instrumentsUS51390231989�~6��2��1992�~8��18��Stanley Research FoundationApparatus and method for noninvasive blood glucose monitoringUS51556951990�~6��15��1992�~10��13��Timing Solutions CorporationTime scale computation system including complete and weighted ensemble definitionUS51900411991�~12��27��1993�~3��2��Medtronic International Technology, Inc.System for monitoring and controlling blood glucoseUS52058191991�~12��30��1993�~4��27��Bespak PlcPump apparatus for biomedical useUS52076661991�~8��30��1993�~5��4��Infusaid, Inc.Passive shuttle metering device for implantable drug delivery systemUS52113711991�~7��22��1993�~5��18��Advanced Control Technologies, Inc.Linearly actuated valveUS52116261990�~12��17��1993�~5��18��Product Innovation Holdings Ltd.Medical infusion apparatusUS52238221992�~4��24��1993�~6��29��Stonel CorporationValve position indicatorUS52623051991�~9��3��1993�~11��16��E. Heller & CompanyInterferant eliminating biosensorsUS52670261991�~8��29��1993�~11��30��Canon Kabushiki KaishaVideo camera with white balance control having the function of inhibiting auto while balance control under a special light source or of a special objectUS52789971993�~3��16��1994�~1��11��Motorola, Inc.Dynamically biased amplifierUS52844231992�~2��26��1994�~2��8��University Hospital (London) Development CorporationComputer controlled positive displacement pump for physiological flow simulationUS52916141991�~9��3��1994�~3��1��International Business Machines CorporationReal-time, concurrent, multifunction digital signal processor subsystem for personal computersUS52918871992�~6��2��1994�~3��8��Anesta CorporationApparatus and methods for noninvasive blood substance monitoringUS53245991992�~1��27��1994�~6��28��Matsushita Electric Industrial Co., Ltd.Reversible electrode materialUS53252801993�~6��7��1994�~6��28��Curtis Manufacturing Company, Inc.Light apparatus for illuminating a compact computer video screenUS53498521991�~11��15��1994�~9��27��Deka Products Limited PartnershipPump controller using acoustic spectral analysisUS53567861993�~12��2��1994�~10��18��E. Heller & CompanyInterferant eliminating biosensorUS53662921990�~2��1��1994�~11��22��Leybold AgSensor formed from a deformation heat recoverable material having a predetermined range of temperatures in which recovery occurs and used for measuring a physical characteristic of a systemUS53680281993�~6��16��1994�~11��29��Cb-Carmel Biotechnology Ltd.System for monitoring and controlling blood and tissue constituent levelsUS53716871992�~11��20��1994�~12��6��Boehringer Mannheim CorporationGlucose test data acquisition and management systemUS53721331993�~2��3��1994�~12��13��N.V. Nederlandsche Apparatenfabriek NedapImplantable biomedical sensor device, suitable in particular for measuring the concentration of glucoseUS53760701992�~9��29��1994�~12��27��Minimed Inc.Data transfer system for an infusion pumpUS53823311993�~7��26��1995�~1��17��Nalco Chemical CompanyMethod and apparatus for inline electrochemical monitoring and automated control of oxidizing or reducing agents in water systemsUS53906711994�~3��15��1995�~2��21��Minimed Inc.Transcutaneous sensor insertion setUS53912501994�~3��15��1995�~2��21��Minimed Inc.Method of fabricating thin film sensorsUS53986811993�~1��22��1995�~3��21��Sunshine Medical Instruments, Inc.Pocket-type instrument for non-invasive measurement of blood glucose concentrationUS54045851992�~9��16��1995�~4��4��Nokia Mobile Phones Ltd.Power detector that employs a feedback circuit to enable class B operation of a detector transistorUS54063011993�~10��27��1995�~4��11��Abbott LaboratoriesHigh reliability displayUS54456111993�~12��8��1995�~8��29��Non-Invasive Monitoring Company (Nimco)Enhancement of transdermal delivery with ultrasound and chemical enhancersUS54489921993�~6��1��1995�~9��12��Sunshine Medical Instruments, Inc.Method and apparatus for non-invasive phase sensitive measurement of blood glucose concentrationUS54581401993�~11��15��1995�~10��17��Non-Invasive Monitoring Company (Nimco)Enhancement of transdermal monitoring applications with ultrasound and chemical enhancersUS54690251995�~3��22��1995�~11��21��Sharp Kabushiki KaishaFault tolerant active matrix display deviceUS54794861994�~3��14��1995�~12��26��Rohm Co., Ltd.Cordless telephone set having a warning signal representing that a storage battery is not being chargedUS200401930252004�~3��31��2004�~9��30��Medtronic Minimed, Inc.Closed-loop method for controlling insulin infusion�D�M�Q�ޥ��ѦҤ��m1"An Electrochemical Slow Flow Meter", http://gore.ocean.washington.edu/research/slow-flow-meter.html, 2005, 3 pages.2"An Electrochemical Slow Flow Meter", http://gore.ocean.washington.edu/research/slow�Xflow�Xmeter.html, 2005, 3 pages.3Abstract of Japanese Publication No. JP-2001-077423, Published Mar. 23, 2001.4Australian Patent Application No. 2006226988, Examiner's First Report mailed Sep. 14, 2010.5Barbosa, R. M., et al., "Electrochemical Studies of Zinc in Zinc-Insulin Solution", Journal of the Royal Society of Chemistry, Analyst, vol. 121, No. 12, 1996, pp. 1789-1793.6Bard, A. J., et al., "Methods Involving Forced Convection-Hydrodynamic Methods", Electrochemical Methods-Fundamentals and Applications, 2001, pp. 331-367.7Bard, A. J., et al., "Methods Involving Forced Convection�XHydrodynamic Methods", Electrochemical Methods�XFundamentals and Applications, 2001, pp. 331-367.8Chinese Patent Application No. 200680017650.0, English Translation & Original Language of Office Action mailed Jul. 6, 2011.9Chinese Patent Application No. 200680017650.0, English Translation of Office Action mailed Jul. 3, 2009.10Chinese Patent Application No. 200680017650.0, English Translation of Second Office Action mailed May 20, 2010.11European Patent Application No. 06748550.8, Extended European Search Report mailed Jul. 2, 2008.12Japanese Patent Application No. 2008/503129, English Translation & Original Language of Office Action mailed Apr. 19, 2011.13Kissinger, P. T., "Introduction to Analog Instrumentation", Laboratory Techniques in Electroanalytical Chemistry, Second Edition, Revised and Expanded, 1996, pp. 165-194.14PCT Application No. PCT/US2006/010403, International Preliminary Report on Patentability and Written Opinion of the International Searching Authority mailed Oct. 25, 2007.15PCT Application No. PCT/US2006/010403, International Search Report and Written Opinion of the International Searching Authority mailed Sep. 25, 2007.16U.S. Appl. No. 11/386,915, Advisory Action mailed Oct. 25, 2010.17U.S. Appl. No. 11/386,915, Office Action mailed Nov. 16, 2009.18U.S. Appl. No. 12/643,970, Office Action mailed Dec. 22, 2010.19U.S. Appl. No. 12/643,970, Office Action mailed Jun. 8, 2010.20Ursino, M, et al., "A Mathematical Model of Cerebral Blood Flow Chemical Regulation-Part I: Diffusion Processes", IEEE Transactions on Biomedical Engineering, vol. 36, No. 2, 1989, pp. 183-191.21Ursino, M, et al., "A Mathematical Model of Cerebral Blood Flow Chemical Regulation�XPart I: Diffusion Processes", IEEE Transactions on Biomedical Engineering, vol. 36, No. 2, 1989, pp. 183-191.�Q�H�U�M�Q�ޥ� �ޥΥ��M�Q�ӽФ���o�G��� �ӽЪ��M�Q�W��US82213462009�~4��24��2012�~7��17��Arkray, Inc.Blood sugar level control system������l�Ϥ�Google ���� - Sitemap - USPTO �j�q�U�� - ���p�v�F�� - �A�ȱ�� - ���� Google �M�Q - �N���^�X��ƬO�Ѭ��ӷ~�M�Q��Ʈw (IFI CLAIMS Patent Services) ����©2012 Google