Sohrab Mansouri scite author profile

We describe affinity sensors for monitoring various metabolites in blood plasma by optical means. The principle of detection is similar to that used in radioimmunoassays and is based on the competitive binding of a particular metabolite and a fluorescein-labeled analogue with receptor sites specific for the metabolite and the labeled ligand. This concept has been directed toward the development of an affinity sensor for glucose. Concanavalin A, a protein with specific binding character for glucose, was immobilized on the inside surface of a hollow dialysis fiber. Fluorescein-labeled dextran was selected as the competitive labeled ligand. The molecular weight cutoff of the dialysis fiber is low enough to completely retain the 70,000 MW dextran within the fiber lumen while glucose can freely pass through the dialysis membrane. The sensor is completed by inserting a single optical fiber in the lumen of the dialysis fiber, thus allowing measurement of the unbound FITC-dextran. Preliminary tests of the sensor indicated the feasibility of the approach. Sensitivity to glucose in the physiologic range was obtained, but further work will be required to optimize the sensitivity and response time of the sensor.

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A Miniature Optical Glucose Sensor Based on Affinity Binding

Mansouri

Schultz

1984

Nat Biotechnol

135

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Validation of iQM Active Process Control Technology

Westgard

Fallon

Mansouri

2003

Point of Care: The Journal of Near-Patient Testing & Techno

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Hydroxocobalamin and cyanocobalamin interference on co-oximetry based hemoglobin measurements

Pamidi

DeAbreu

Kim

et al. 2009

Clinica Chimica Acta

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Coupling of concanavalin A to cellulose hollow fibers for use in glucose affinity sensor

Srinivasan

Mansouri

Schultz

1986

Biotech & Bioengineering

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This article describes a method for the chemical immobilization of concanavalin A (Con A) on the inside wall of a single hollow cellulose fiber for use in glucose affinity sensor. Periodate oxidation of cellulose fiber followed by a spacer for Con A attachment was deemed to be the most optimal procedure for achieving the highest sensitivity of the sensor without compromising its physical integrity. The effects of variables like the duration of periodate oxidation and its concentration and pH of the spacer coupling step and its duration have been examined. The mechanical strength of the hollow fiber as well as its permeability to the analyte (glucose) have been evaluated prior to and after Con A coupling process. It has been demonstrated that Con A bound hollow fiber prepared according to the procedure outlined here can be successfully used to construct glucose affinity sensor for operation in the physiological range of glucose concentrations.

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Sohrab Mansouri

Affinity Sensor: A New Technique for Developing Implantable Sensors for Glucose and Other Metabolites

A Miniature Optical Glucose Sensor Based on Affinity Binding

Validation of iQM Active Process Control Technology

Hydroxocobalamin and cyanocobalamin interference on co-oximetry based hemoglobin measurements

Coupling of concanavalin A to cellulose hollow fibers for use in glucose affinity sensor

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