System and method for pseudo-continuous measurement of metabolite concentrations in a mammalian body
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-021/00
F04F-001/00
A61M-001/14
B67D-007/72
G01N-031/00
출원번호
US-0513669
(2007-11-08)
등록번호
US-8524154
(2013-09-03)
국제출원번호
PCT/IL2007/001371
(2007-11-08)
§371/§102 date
20090506
(20090506)
국제공개번호
WO2008/056363
(2008-05-15)
발명자
/ 주소
Shekalim, Avraham
Peleg, Noam
출원인 / 주소
G-Sense Ltd.
대리인 / 주소
Friedman, Mark M.
인용정보
피인용 횟수 :
3인용 특허 :
14
초록▼
A metabolite monitoring system comprising a microdialysis probe including a semi-permeable membrane and a probe flow path passing from an inlet through a sensing volume adjacent to said semi-permeable membrane to an outlet, a fluid delivery device for delivering dialysate to said inlet; and a metabo
A metabolite monitoring system comprising a microdialysis probe including a semi-permeable membrane and a probe flow path passing from an inlet through a sensing volume adjacent to said semi-permeable membrane to an outlet, a fluid delivery device for delivering dialysate to said inlet; and a metabolite monitoring system associated with said outlet for monitoring a concentration of at least one metabolite in said dialysate from said microdialysis probe, wherein said fluid delivery device is configured to deliver a pulsed flow of said dialysate to said inlet.
대표청구항▼
1. A metabolite monitoring system comprising: (a) a microdialysis probe including a semi-permeable membrane and a probe flow path passing from an inlet through a sensing volume adjacent to said semi-permeable membrane to an outlet;(b) a fluid delivery device for delivering dialysate to said inlet; a
1. A metabolite monitoring system comprising: (a) a microdialysis probe including a semi-permeable membrane and a probe flow path passing from an inlet through a sensing volume adjacent to said semi-permeable membrane to an outlet;(b) a fluid delivery device for delivering dialysate to said inlet; and(c) a metabolite monitoring system associated with said outlet for monitoring a concentration of at least one metabolite in said dialysate from said microdialysis probe, wherein said microdialysis probe has an operative volume, and wherein said fluid delivery device is configured to deliver a pulsed flow of said dialysate to said inlet such that each pulse of said dialysate delivered to said inlet has a volume less than said operative volume of said microdialysis probe, wherein said fluid delivery device includes:(a) a dialysate delivery arrangement for generating said pulsed flow of dialysate; and(b) a reagent delivery arrangement for supplying a reagent for mixing with the dialysate from said microdialysis probe, wherein said reagent delivery arrangement and said dialysate delivery arrangement each includes a fluid reservoir acted upon by a piston to deliver the fluid, wherein said reagent delivery arrangement and said dialysate delivery arrangement are mechanically linked so as to maintain a fixed ratio between a quantity of dialysate delivered and a quantity of reagent delivered, and wherein said fluid reservoirs of said reagent delivery arrangement and said dialysate delivery arrangement are substantially concentric fluid reservoirs, said substantially concentric fluid reservoirs being at least partially enclosed between opposing overlapping piston elements such that relative axial displacement of said overlapping piston elements generates delivery of said dialysate and said reagent in said fixed ratio. 2. The metabolite monitoring system of claim 1, wherein said fluid delivery device includes: (a) a pressurized reservoir containing a quantity of said dialysate;(b) at least one valve deployed for selectively opening and closing a supply flow path from said pressurized reservoir to said inlet; and(c) a control system associated with said at least one valve and configured to selectively open said at least one valve to allow pulsed flow of said dialysate to said inlet. 3. The metabolite monitoring system of claim 2, wherein said fluid delivery device further includes: (a) a flow restrictor deployed in said supply flow path; and(b) a pressure measurement arrangement associated with said control system and deployed to measure a pressure drop across at least part of said flow restrictor. 4. The metabolite monitoring system of claim 1, wherein a first of said reagent delivery arrangement and said dialysate delivery arrangement includes a flow channel system having at least one control, and wherein closure of said flow control valve stops fluid delivery from the other of said reagent delivery arrangement and said dialysate delivery arrangement due to said mechanical linkage. 5. The metabolite monitoring system of claim 1, wherein said metabolite monitoring system includes: (a) a measuring cell having a contained volume, said measuring cell being in fluid communication with said outlet of said microdialysis probe; and(b) an optical sensor deployed for sensing optical properties of fluid contained within said contained volume, wherein said optical sensor does not come into contact with the fluid within said measuring cell. 6. A metabolite monitoring system comprising: (a) a microdialysis probe including a semi-permeable membrane and a probe flow path passing from an inlet through a sensing volume adjacent to said semi-permeable membrane to an outlet;(b) a fluid delivery device for delivering dialysate to said inlet; and(c) a metabolite monitoring system associated with said outlet for monitoring a concentration of at least one metabolite in said dialysate from said microdialysis probe, said metabolite monitoring system including: (I) a measuring cell having a contained volume, said measuring cell being in fluid communication with said outlet of said microdialysis probe, said measuring cell having an inlet, an outlet and an additional opening, said additional opening being provided with at least one selected from of the group consisting of: hydrophobic surfaces to inhibit escape of the fluid through the additional opening; and an open area smaller than an open area of said outlet; and(II) an optical sensor deployed for sensing optical properties of fluid contained within said contained volume, said optical sensor including: (i) a radiation source for directing optical radiation in through a first of said outlet and said additional opening so that radiation passes into said contained volume without passing through any surface in contact with the fluid, and(ii) an optical sensor deployed for sensing optical radiation passing out through a second of said outlet and said additional opening so that radiation from said inner volume reaches said optical sensor without passing through any surface in contact with the fluid,and wherein said microdialysis probe has an operative volume, and wherein said fluid delivery device is configured to deliver a pulsed flow of said dialysate to said inlet such that each pulse of said dialysate delivered to said inlet has a volume less than said operative volume of said microdialysis probe. 7. The metabolite monitoring system of claim 6, wherein said contained volume is elongated from a first end to a second end, said inlet and said additional opening being located adjacent to said first end, and said outlet being located adjacent to said second end such that, when a new sample of fluid is provided via said inlet, the new sample passes along said elongated contained volume from said first end to said second end displacing a previous sample of the solution. 8. The metabolite monitoring system of claim 6, further comprising an absorbent medium deployed in proximity to said outlet without obstructing a light path passing through said outlet, said absorbent medium being configured for absorbing drops of the previous sample of the fluid as they are released from said outlet. 9. The metabolite monitoring system of claim 6, wherein said outlet and said additional opening are aligned between said radiation source and said optical sensor. 10. The metabolite monitoring system of claim 1, wherein said metabolite monitoring system includes: (a) a measuring cell having a contained volume, said measuring cell being in fluid communication with said outlet of said microdialysis probe; and(b) an optical sensor deployed for sensing optical properties of fluid contained within said contained volume, wherein said flow path arrangement is part of a disposable unit, and wherein said optical sensor is part of a reusable unit, said disposable unit and said reusable unit being configured to releasably interlock so as to produce a predefined spatial relation between said measuring cell and said optical sensor. 11. A metabolite monitoring system comprising: (a) a microdialysis probe;(b) a dialysate delivery arrangement for generating flow of a dialysate into and out from said microdialysis probe; and(c) a reagent delivery arrangement for supplying a reagent for mixing with the dialysate from said microdialysis probe, wherein said reagent delivery arrangement and said dialysate delivery arrangement each includes a fluid reservoir acted upon by a piston to deliver the fluid, wherein said reagent delivery arrangement and said dialysate delivery arrangement are mechanically linked so as to maintain a fixed ratio between a quantity of dialysate delivered and a quantity of reagent delivered and wherein said fluid reservoirs of said reagent delivery arrangement and said dialysate delivery arrangement are substantially concentric fluid reservoirs, said substantially concentric fluid reservoirs being at least partially enclosed between opposing overlapping piston elements such that relative axial displacement of said overlapping piston elements generates delivery of said dialysate and said reagent in said fixed ratio. 12. The metabolite monitoring system of claim 11, wherein a first of said reagent delivery arrangement and said dialysate delivery arrangement includes a flow control system having at least one control valve, and wherein closure of said flow control valve stops fluid delivery from the other of said reagent delivery arrangement and said dialysate delivery arrangement due to said mechanical linkage.
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이 특허에 인용된 특허 (14)
Jones Jeffrey S. (Salem VA), Closed loop dialysis system.
Pfeiffer Ernst (Stauffenbergstr. 34 89075 Ulm DEX) Sternberg Fabio (Robert-Stolz-Str. 17 89231 Neu-Ulm DEX), Method and apparatus for continuously monitoring the concentration of a metabolyte.
Markovsky,Robert J.; Boyer,Cheryl A.; Charm,Stanley E.; Donahue,Paul R.; Glickman,Yael Agi; Saul,Steven J.; Scheemaker,Joan L.; Skiffington,Richard T.; Trivedi,Shefali B.; Zomer,Eliezer, Method for detecting the presence of an analyte in a sample.
Hoss, Udo; Pfleiderer, Hans-Joerg; Gessler, Ralf; Zieten, Hans-Ulrich; Fussgaenger, Rolf, Method for determining the concentration of glucose in a body fluid with glucose-containing perfusate.
Korf Jakob,NLX ITX 9481 ER ; Terwee Thomas Henricus Marie,NLX ITX 9301 PK, Monitoring the concentration of a substance or a group of substances in a body fluid.
Clark Justin S. (Salt Lake City UT) Wallace William D. (Salt Lake City UT) Farr Frederick L. (Salt Lake City UT), Sampling and determination of diffusible chemical substances.
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