Reflection hologram sensor in contact lens

US 7,927,519 B2
Filed: 06/16/2004
Issued: 04/19/2011
Est. Priority Date: 07/30/2003
Status: Active Grant

First Claim

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1. A method for making a biocompatible sensor containing a reflection hologram, comprising the steps of:

introducing a crosslinkable and/or polymerizable fluid material into a cavity formed by a mold, wherein the crosslinkable and/or polymerizable fluid material comprises at least a molecular sensing moiety which can interact or react with an analyte of interest to provide an optical signal which is indicative of a change in one or more optical properties of the reflection hologram, wherein the mold has a first mold half defining a first molding surface and a second mold half defining a second molding surface, wherein said first mold half and said second mold half are configured to receive each other such that the cavity is formed between said first molding surface and said second molding surface, wherein the second mold half has, on or behind the second molding surface, a mirror to reflect incident light coming from the first molding surface; and

producing and recording a pattern of interference fringes while polymerizing/crosslinking said crosslinkable and/or polymerizable fluid material in the cavity by directing an incident beam of coherent light through the first molding surface to said crosslinkable and/or polymerizable fluid material and to said mirror, wherein the incident beam and a beam reflected by the mirror form said pattern while polymerizing/crosslinking said crosslinkable and/or polymerizable fluid material to form the biocompatible sensor, whereby said pattern is recorded in said biocompatible sensor to form the reflection hologram.

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Abstract

This invention is generally related to a biocompatible sensor for detecting/measuring an analyte of interest in a body fluid and a method for making the biocompatible sensor. A biocompatible sensor of the invention comprises, consists essentially, or consists of a reflection hologram therein or thereon, wherein the reflection hologram is produced in a crosslinkable and/or polymerizable fluid material. The polymer matrix contains a molecular sensing moiety which interacts or reacts with an analyte of interest to provide an optical signal which is indicative of a change in one or more optical properties of the reflection hologram.

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8 Claims

1. A method for making a biocompatible sensor containing a reflection hologram, comprising the steps of:
- introducing a crosslinkable and/or polymerizable fluid material into a cavity formed by a mold, wherein the crosslinkable and/or polymerizable fluid material comprises at least a molecular sensing moiety which can interact or react with an analyte of interest to provide an optical signal which is indicative of a change in one or more optical properties of the reflection hologram, wherein the mold has a first mold half defining a first molding surface and a second mold half defining a second molding surface, wherein said first mold half and said second mold half are configured to receive each other such that the cavity is formed between said first molding surface and said second molding surface, wherein the second mold half has, on or behind the second molding surface, a mirror to reflect incident light coming from the first molding surface; and
  
  producing and recording a pattern of interference fringes while polymerizing/crosslinking said crosslinkable and/or polymerizable fluid material in the cavity by directing an incident beam of coherent light through the first molding surface to said crosslinkable and/or polymerizable fluid material and to said mirror, wherein the incident beam and a beam reflected by the mirror form said pattern while polymerizing/crosslinking said crosslinkable and/or polymerizable fluid material to form the biocompatible sensor, whereby said pattern is recorded in said biocompatible sensor to form the reflection hologram.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method of claim 1, further comprising the step of partially crosslinking and/or polymerizing the crosslinkable and/or polymerizable fluid material by actinic irradiation, before the step of producing and recording.
  - 3. The method of claim 1, wherein the crosslinkable and/or polymerizable fluid material comprises a water-soluble prepolymer.
  - 4. The method of claim 3, wherein the water-soluble prepolymer is selected from the group consisting of:
    - a water-soluble crosslinkable poly(vinyl alcohol) prepolymer;
      
      a water-soluble vinyl group-terminated polyurethane;
      
      a water-soluble crosslinkable polyurea prepolymer;
      
      a crosslinkable polyacrylamide;
      
      a crosslinkable statistical copolymers of vinyl lactam, MMA and a comonomer;
      
      a crosslinkable copolymers of vinyl lactam, vinyl acetate and vinyl alcohol;
      
      a polyether-polyester copolymer with crosslinkable side chains;
      
      a branched polyalkylene glycol-urethane prepolymer;
      
      a polyalkylene glycol-tetra(meth)acrylate pre polymer; and
      
      a crosslinkable polyallylamine gluconolactone prepolymer,wherein the polyurea prepolymer is obtained by reacting an acryloylchloride or an isocyanate group-containing acrylate or methacrylate with a polymerization product of NH2-terminated polyalkylene glycols and di- or polyisocyanates optionally in the presence of a triamine,wherein the vinyl group-terminated polyurethane is obtained by reacting an isocyanate-capped polyurethane with an ethylenically unsaturated amine (primary or secondary amine) or an ethylenically unsaturated monohydroxy compound, wherein the isocyanate-capped polyurethane is a copolymerization product of at least one polyalkylene glycol, a compound containing at least 2 hydroxyl groups, and at least one compound with two or more isocyanate groups,wherein the crosslinkable poly(vinyl alcohol) is a polyhydroxyl compound which has a molecular weight of at least about 2000 and comprises from about 0.5 to about 80%, based on the number of hydroxyl groups in the poly(vinyl alcohol), of units of the formula I, I and II, I and III, or I and II and III
  - 5. The method of claim 3, wherein the molecular sensing moiety is a phenyl boronic acid having formula (4), (5), or (6)
  - 6. The method of claim 3, wherein the crosslinkable and/or polymerizable fluid material is an aqueous solution, wherein the aqueous solution includes a low molecular weight additive which exhibit a limited compatibility with a polymer matrix resulted from the crosslinkable and/or polymerizable fluid material, but good compatibility with water, wherein the low molecular weight additive is present in an amount sufficient to increase refractive index differences (delta n) between high and low irradiated areas resulted from the pattern of interference fringes.
  - 7. The method of claim 6, wherein the low molecular weight additive is NaCl.
  - 8. The method of claim 1, wherein the crosslinkable and/or polymerizable fluid material comprises at least one prepolymer and optionally a vinylic monomer, wherein at least one of the prepolymer and the vinylic monomer contains aromatic groups in an amount sufficient to increase refractive index differences (delta n) between areas of different polymer densities which are caused by different irradiations resulted from the pattern of interference fringes.

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Current Assignee
EyeSense AG
Original Assignee
EyeSense AG
Inventors
Zhou, Jian S., Hu, Xiaodong, Domschke, Angelika Maria
Primary Examiner(s)
Del Sole; Joseph S
Assistant Examiner(s)
STEWART, KIMBERLY ANN

Application Number

US10/564,323
Publication Number

US 20070002470A1
Time in Patent Office

2,498 Days
Field of Search

264/1.31, 264/1.32
US Class Current

264/1.32
CPC Class Codes

A61B 5/14532   for measuring glucose, e.g....

A61B 5/1455   using optical sensors, e.g....

A61B 5/411   Detecting or monitoring all...

B29C 2035/0827   using UV radiation

B29C 35/0894   provided with masks or diap...

B29D 11/00134   Curing of the contact lens ...

B29D 11/0074   Production of other optical...

B29L 2011/0041   Contact lenses

G01N 2021/773   Porous polymer jacket; Poly...

G01N 2021/7773   Reflection

G01N 2021/7779   interferometric

G01N 21/75   Systems in which material i...

G01N 21/77   by observing the effect on ...

G03H 1/0005   Adaptation of holography to...

G03H 1/0248   Volume holograms

G03H 2001/0033   in hologrammetry for measur...

G03H 2001/0044   holographic fringes deforma...

G03H 2001/0264   Organic recording material

G03H 2001/0415   for recording reflection ho...

G03H 2260/12   Photopolymer

G03H 2270/55 : being an optical element, e...

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Reflection hologram sensor in contact lens

First Claim

2 Assignments

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Abstract

51 Citations

8 Claims

Specification

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Reflection hologram sensor in contact lens

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

51 Citations

8 Claims

Specification

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Solutions

Use Cases

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