WO2004106925A2 - Methods and apparatus for use in detection and quantitation of various cell types and use of optical bio-disc for performing same - Google Patents
Methods and apparatus for use in detection and quantitation of various cell types and use of optical bio-disc for performing same Download PDFInfo
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- WO2004106925A2 WO2004106925A2 PCT/IB2004/002780 IB2004002780W WO2004106925A2 WO 2004106925 A2 WO2004106925 A2 WO 2004106925A2 IB 2004002780 W IB2004002780 W IB 2004002780W WO 2004106925 A2 WO2004106925 A2 WO 2004106925A2
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/53—Immunoassay; Biospecific binding assay; Materials therefor
- G01N33/569—Immunoassay; Biospecific binding assay; Materials therefor for microorganisms, e.g. protozoa, bacteria, viruses
- G01N33/56966—Animal cells
- G01N33/56972—White blood cells
-
- G01N15/1433—
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/53—Immunoassay; Biospecific binding assay; Materials therefor
- G01N33/543—Immunoassay; Biospecific binding assay; Materials therefor with an insoluble carrier for immobilising immunochemicals
- G01N33/54366—Apparatus specially adapted for solid-phase testing
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/53—Immunoassay; Biospecific binding assay; Materials therefor
- G01N33/569—Immunoassay; Biospecific binding assay; Materials therefor for microorganisms, e.g. protozoa, bacteria, viruses
- G01N33/56966—Animal cells
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N35/00—Automatic analysis not limited to methods or materials provided for in any single one of groups G01N1/00 - G01N33/00; Handling materials therefor
- G01N35/00029—Automatic analysis not limited to methods or materials provided for in any single one of groups G01N1/00 - G01N33/00; Handling materials therefor provided with flat sample substrates, e.g. slides
- G01N35/00069—Automatic analysis not limited to methods or materials provided for in any single one of groups G01N1/00 - G01N33/00; Handling materials therefor provided with flat sample substrates, e.g. slides whereby the sample substrate is of the bio-disk type, i.e. having the format of an optical disk
-
- G01N15/149—
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N15/00—Investigating characteristics of particles; Investigating permeability, pore-volume, or surface-area of porous materials
- G01N15/10—Investigating individual particles
- G01N15/14—Electro-optical investigation, e.g. flow cytometers
- G01N2015/1486—Counting the particles
Definitions
- This invention relates in general to cellular assays and, in particular, to cellular assays conducted on optical b ⁇ o-discs. More specifically, but without restriction to the particular embodiments hereinafter described in accordance with the best mode of practice, this invention relates to methods and apparatus for conducting differential cell counts including leukocytes and use of optical bio-discs for performing such cell counts.
- a number of research and diagnostic situations require isolation and analysis of specific cells from a mixture of cells.
- the source could be blood, spinal fluid, bone marrow, tumor homogenates, lymphoid tissue, and the like.
- CBC Complete blood count
- mean corpuscular hemoglobin mean corpuscular hemoglobin concentration
- mean corpuscular volume mean corpuscular volume
- platelet count and white blood cell count.
- Blood count is the enumeration of the red corpuscles and the leukocytes per cu. mm. of whole blood.
- WBC White Blood Cell Count
- leukocytes is the total number of white blood cells in a standard sample of blood. In a normal healthy person, typically the WBC counts are 4000 to 10800 cells per microliter ( ⁇ L). Factors such as exercise, stress, and disease can affect these values. A high WBC may indicate infection, leukemia, or tissue damage. There is increased risk of infection if it falls below 1000 cells per microliter.
- Leukocyte differential testing is essential to gather information beyond that obtainable from the leukocyte count itself. Leukocyte differentraf count is used to evaluate newly suspected infection or fever (even if the CBC is normal), suspicion of a disorder associated with abnormalities, an abnormal leukocyte count, suspected leukemia, other abnormalities such as eosinophilia, monocytosis and basophilia. Repeated testing for leukocyte or leukocyte differential may be performed in the presence of severe leukopenia (e.g., secondary to drug therapy). During treatment, for e.g. chemotherapy or radiation therapy, blood counts are very important to determine if the treatment is depleting healthy blood cells in addition to cancerous celts.
- severe leukopenia e.g., secondary to drug therapy
- Differential leukocyte counts are determined by computerized cell counting equipment. The machine determines the total count and the percentages of the five major white cell types. In normal individuals, there are a majority of neutroph ⁇ ls (50-60%), followed by lymphocytes (20-40%), then monocytes (2-9%), with a few eosinophils (1-4%) and basophils (0.5-2%).
- lymphocytes there are further lymphocytes and further sub-types of cells.
- lymphocytes can be broadly divided into T-cells (thym us-derived lymphocytes) and B-cells (bursal-equivalent lymphocytes), which are largely responsible for cell-mediated and humoral immunity respectively.
- T-cells thym us-derived lymphocytes
- B-cells bursal-equivalent lymphocytes
- morphological characteristics have been used to classify groups within the leukocytes, morphology alone has proved inadequate in distinguishing the many functional capabilities of lymphocyte sub-types.
- techniques including analysis by resetting, immuno-fluorescence microscopy, enzyme histochemistry, and recently, monoclonal antibodies have been developed.
- T cells are distinguished by the presence of surface markers including two glycoproteins on their surface CD4 and CD8 (CD4+ T cells and CD8+ T cells).
- CD4+ T helper cells are involved in antibody-mediated immunity. They bind to antigen presented by B cells. And the result is development of clone of plasma cells secreting antibodies against antigenic material. T cells are also essential for cell-mediated immunity.
- CD4+ cells bind to antigen presented' by antigen-presenting cells (APCs) like phagocytic macrophages and dendritic cells. The T cells then release lymphokines that attract other cells to the area. The result is inflammation, the accumulation of cells and molecules that attempt to wall off and destroy the antigenic material.
- APCs antigen-presenting cells
- CD8+, cytotoxic/suppressor type cells secrete molecules that destroy the cell to which they have bound. This is a very useful function if the target cell is infected with a virus because the cell is usually destroyed before it can release a fresh crop of viruses which are able to infect other cells.
- Human immunodefiency virus a retrovirus has high affinity for CD4+ T cells and therefore CD4 T cells are potent targets for the virus.
- Acquired immune deficiency syndrome (AIDS) provides a vivid and tragic illustration of the importance of CD4+ T cells in immunity.
- the human immunodeficiency virus (HIV) binds to CD4 molecules and thus invades and infects CD4+ T cells. As the disease progresses, the number of CD4+ T cells declines below its normal range of about 1000 per microliter (ul).
- One of the explanations may be the unceasing effort of the patient's CD8+ T cells to destroy the infected CD4+ cells.
- CD4+ and CD8+ T-cell numbers and the ratio of CD4+/CD8+ T-cells is useful to assess the immune health of human patients with immune-compromised diseases.
- the number of CD4+ T-cells declines below its normal range of about 1000 cells per ⁇ l.
- the ratio of CD4+ to CD8+ T-cells provides a diagnostic marker for the progression of the disease.
- the U.S. Public Health Service recommends that CD4+ levels be monitored every 3-6 months in all infected persons (40 million tests are done every year in 600 testing laboratories in the United States).
- cell surface antigens e.g., CD3, CD16, CD19, CD45, CD56
- CD3 CD16, CD19, CD45, CD56
- the ability to detect these cell surface antigens by antibody techniques has added a new dimension to diagnostic pathology, and a variety of techniques are available for the study of immunophenotypes of hematolymphoid disorders (e.g., AIDS, leukemias, and lymphomas).
- micro ⁇ mmuno- assays such as radio-immunoassays (RIA), enzyme-immunoassay (EIA), fluorescence-immunoassay (FIA) use an isotope, an enzyme or a fluorescent substance to detect the presence or absence of corresponding analytes.
- RIA radio-immunoassays
- EIA enzyme-immunoassay
- FIA fluorescence-immunoassay
- the aim of leukemia phenotyping is to identify the cell type of the neoplastic process.
- This phenotypic identification should outline the cell lineage and level of maturation, as an aid to the classification of the leukemia or lymphoma. Further, this phenotypic identification should assist in the determination as to whether the cell population is normal or abnormal and in the detection of a previously characterized population of cells in a sample for monitoring the disease remission, development or recurrence.
- Leukemia immunophenotyping is performed on blood or bone marrow specimens, however, other body fluids or tissues may be examined. Leukocytes obtained using RBC lysis method or density gradient isolation such as ficoll hypaque can be used. Where possible, a total leukocyte count and differential should be performed before processing, and the cell concentration adjusted accordingly.
- lymphoma aid in identifying the tumor lineage for diagnostic and prognostic purposes.
- Comprehensive leukemia/lymphoma phenotyping begins with a review of the clinical history and morphology and a panel of markers are selected for each case. In most cases the lineage can be identified as T cell, B cell, or myeloid and a diagnosis, or differential diagnosis, is made.
- lymphoma phenotyping is to identify the cell type of the neoplastic process. This phenotypic identification should outline the cell lineage and level of maturation, as an aid to the classification of the lymphoma. Further, this phenotypic identification assists in the determination as to whether the cell population is normal or abnormal and in the detection of a previously characterized population of cells in a sample for monitoring the disease remission, development, or recurrence.
- a complete blood count (including white blood cell count) is performed.
- Blood cell count is an important index of the response of the disease to treatment. These counts are also important to learn the effects of drug treatment or radiation therapy.
- the normal white cell counts are about 4000 to 11,000 per cubic millimeter in the blood. If the total WBC count is over 11 ,000 cells/mm3, it is referred to as leukocytosis a normal response to infections of the body.
- a blood count helps to determine if a drug is working.
- cell counts are performed by expensive electronic counters, like the FACS scanner, that require technical expertise to perform the test. The patterns of each cell type indicate if lymphoma is present and the type of lymphoma.
- Antibodies routinely included are CD2, CD3, CD5, CD10, CD11c, CD14, CD19, CD20, CD22, CD23, CD25, CD45, CD103, FMC7, Heavy chains, Kappa, and Lambda. If clinical or morphologic features suggest a "T” or "NK” lymphocyte disorder, then the following additional antibody combinations are also performed: CD3/CD4/CD8, CD7/CD5/HLA-DR, CD25/CD2/CD3, CD16/CD56/CD19, CD57/CD8/CD3, TCR alpha-beta/delta-gamma/CD3.
- RIA radio-immunoassays
- EIA enzyme-immunoassay
- FIA fluorescence-immunoassay
- RIA requires special installations, precautions, limited half-life and various other factors.
- Methods using enzyme or fluorescence substances as labels is measured by determining coloring or luminescence require sensitive, sophisticated instruments to detect the calorimetric or fluorescent reactions in addition to requiring several washing steps to remove excess, unbound, un- reacted reagents.
- application of the above methods of detection for cells particularly lymphocytes and cancer cells and the Ijke specimens needs improvement in technology for the preparation, detection and analysis in high efficiency.
- FACS fluorescence-activated ceil sorting
- Antibody-based micro array technologies certainly are the state-of-the art technique, particularly in clinical diagnostics, for identification of specific antigens in the samples including blood and tissue samples.
- Most diagnostic tests require determination of only a limited panel of analytes (such as in of cancers, leukemia, lymphoma, thyroid disease, etc.). Therefore, the requirements by a miniaturized technology for only a very small amount of blood sample and the savings in time and cost of laboratory personnel, upon simultaneous measurement of all the clinically relevant parameters in a single test are likely to prove compelling attractive to hospital laboratories and point-of-care facilities due to its cost-effectiveness, labor effective and its simplicity.
- Micro technologies are very valuable particularly in clinical diagnostics for identification of cell types, parasites, pathogens and other biological matter.
- the present invention utilizes micro technologies to perform differential white cell counts in whole blood on optical bio-discs, in addition, this invention is directed to imaging blood cells, performing a differential white cell counts, and related processing methods and software.
- the present test or assay can be performed in two ways.
- the first method is based upon the principle of optical imaging of blood cells in special channels located on the optical bio-disc. Apprpximately seven microliters of whole blood is injected into specially designed channels on the disc. The images are analyzed with cell recognition software that identifies these various leukocyte sub-types and generates a white cell differential count.
- the second method is based on specific cell capture using cell specific antibodies against specific cell, in this particular case antibodies directed against lymphocytes (CD4, CD2, CD19), monocytes (CD14), eosinophils (CD15) and so on. These leukocyte sub-type specific antibodies are assembled/attached to the solid surface within a bio-disc that includes a flow chamber.
- the captured cells may be tagged with microparticles or beads coated with specific antibodies directed to either the cell type of interest, or unwanted or contaminant cells to thereby from a bead-cell complex.
- This method allows for the differentiation between specific target cells and contaminant cells in the capture zone. Further details relating to the use of beads in identifying cells are discussed below in conjunction with Figs. 18 to 24.
- a bio-disc drive assembly is employed to rotate the disc, read and process any encoded information stored on the disc, and analyze the cell capture zones in the flow chamber of the bio-disc.
- the bio-disc drive is provided with a motor for rotating the bio-disc, a controller for controlling the rate of rotation of the disc, a processor for processing return signals from the disc, and analyzer for analyzing the processed signals.
- the rotation rate is variable and may be closely controlled both as to speed and time of rotation.
- the bio-disc may also be utilized to write information to the bio-disc either before or after the test material in the flow chamber and target zones is interrogated by the read beam of the drive and analyzed by the analyzer.
- the bio-disc may include encoded information for controlling the rotation of the disc, providing processing information specific to the type of cellular immunoassay to be conducted and for displaying the results on a monitor associated with the bio-drive.
- Differential cell count protocol in general and in particular differential white blood cell counting protocol is developed for CD, CD-R, DVD, or DVD-R formats, modified versions of these formats, and alternatives thereto.
- the read or interrogation beam of the drive detects the various cells and bead-cell complexes in the analysis sample and generates images that can be analyzed with differential cell counter software.
- the present method uses optical bio-discs and its assemblies. Optical images of the various cell types and bead-cell complexes free in the analysis chamber or those captured by specific antibody capture method are generated and analyzed by cell recognition software program that identifies the various cellular elements in the blood or other body fluids by their light scattering properties.
- the present method may not require any processing of the sample prior to analysis like cell staining, RBC elimination and other laborious protocols. These methods include microscopic analysis or cell detection using an optical disc reader with a top-detector, bottom-detector, event counter, or cell counter described below in detail in conjunction with the drawing figures.
- tags may include, for example, microspheres, fluorescent labeled antibodies, and enzyme conjugated antibodies. Further details relating to other aspects associated with tagging or labeling of samples and/or reporter molecules is disclosed in, for example, commonly assigned co-pending U.S. Patent Application Serial No. 10/121,281 entitled “Multi-Parameter Assays Including Analysis Discs and Methods Relating Thereto” filed April 11, 2002, which is incorporated herein by reference in its entirety.
- 09/988,850 entitled “Methods and Apparatus for Blood Typing with Optical Bio-discs” filed November 19, 2001
- U.S. Patent Application Serial No. 09/989,684 entitled “Apparatus and Methods for Separating Agglutinants and Disperse Particles” filed November 20, 2001
- U.S. Patent Application Serial No. 09/997,741 entitled “Dual Bead Assays Including Optical Biodiscs and Methods Relating Thereto” filed November 27, 2001
- U.S. Patent Application Serial No. 09/997,895 entitled “Apparatus and Methods for Separating Components of Particulate Suspension” filed November 30, 2001
- Fig. 1 is a pictorial representation of a bio-disc system according to the present invention
- Fig. 2 is an exploded perspective view of a reflective bio-disc as utilized in conjunction with the present invention
- Fig. 3 is a top plan view of the disc shown in Fig. 2;
- Fig. 4 is a perspective view of the disc illustrated in Fig. 2 with cut-away sections showing the different layers of the disc;
- Fig. 5 is an exploded perspective view of a transmissive bio-disc as employed in conjunction with the present invention.
- Fig. 6 is a perspective view representing the disc shown in Fig. 5 with a cutaway section illustrating the functional aspects of a semi-reflective layer of the disc;
- Fig. 7 is a graphical representation showing the relationship between thickness and transmission of a thin gold film
- Fig. 8 is a top plan view of the disc shown in Fig. 5;
- Fig. 9 is a perspective view of the disc illustrated in Fig. 5 with cut-away sections showing the different layers of the disc including the type of semi- reflective layer shown in Fig. 6;
- Fig. 10 is a perspective and block diagram representation illustrating the system of Fig. 1 in more detail
- Fig. 11 is a partial cross sectional view taken perpendicular to a radius of the reflective optical bio-disc illustrated in Figs. 2, 3, and 4 showing a flow channel formed therein;
- Fig. 12 is a partial cross sectional view taken perpendicular to a radius of the transmissive optical bio-disc illustrated in Figs. 5, 8, and 9 showing a flow channel formed therein and a top detector;
- Fig. 13 is a partial longitudinal cross sectional view of the reflective optical bio-disc shown in Figs. 2, 3, and 4 illustrating wobble groove formed therein;
- Fig. 14 is a partial longitudinal cross sectional view of the transmissive optical bio-disc illustrated in Figs. 5, 8, and 9 showing a wobble groove formed therein and a top detector;
- Fig. 15 is a view similar to Fig. 11 showing the entire thickness of the reflective disc and the initial refractive property thereof;
- Fig. 16 is a view similar to Fig. 12 showing the entire thickness of the transmissive disc and the initial refractive property thereof;
- Fig. 17 is a pictorial flow chart showing the isolation of white blood cells using a gradient cell separation method and the analysis of a blood sample using the methods of the present invention
- Fig. 18 is a pictorial illustration of labelling a cell with a bead
- Fig. 19 is a pictorial representation of an embodiment of the present invention depicting the use of beads to prevent binding of unwanted cells to capture agents on a bio-disc;
- Figs, 20A and 20B present a graphic depiction of another embodiment of the present invention illustrating steps of a method for identifying various types of cells in a sample using various beads to specifically tag or label target cells immobilized on the bio-disc;
- Fig. 21 is a pictorial representation of the use of beads to capture a microorganism of interest and detect its presence using -the optical bio-disc;
- Fig. 22 is an illustration of tagging unwanted cells using beads
- Fig. 23A is a graphical representation of a 1 micron reporter bead and a 5 micron cell linked together in a complex positioned relative to the tracks of an optical bio-disc according to the present invention
- Fig. 23B is a series of signature traces derived from the complex of Fig. 23A utilizing a detected signal from the optical drive according to the present invention
- Fig. 24 presents micrographs of unattached beads, unlabeled cells, and bead-cell complexes or labeled cells;
- Figs. 25A and 25B are pictorial representations of another embodiment of the present invention showing steps of a method for differentiating unwanted cells from target cells using enzymes to identify unwanted cells.
- the present invention is directed to disc drive systems, optical bio-discs, and cell differentiation and quantitation assays. More specifically, but without restriction to the particular embodiments hereinafter described in accordance with the best mode of practice, this invention relates to methods for differentiation of various cell populations in a biological sample for cell quantitation including, for example, white blood cells and use of optical bio-discs for performing such cell quantitation. Each of these aspects of the present invention is discussed below in further detail.
- Fig. 1 is a perspective view of an optical bio-disc 110 according to the present invention as implemented to conduct the differential cell counts disclosed herein.
- the present optical bio-disc 110 is shown in conjunction with an optical disc drive 112 and a display monitor 114.
- Fig. 2 is an exploded perspective view of the principle structural elements of one embodiment of the optical bio-disc 110.
- Fig. 2 is an example of a reflective zone optical bio-disc 110 (hereinafter "reflective disc") that may be used in the present invention.
- the principle structural elements include a cap portion 116, an adhesive member 118, and a substrate 120.
- the cap portion 116 includes one or more inlet ports 122 and one or more vent ports 124.
- the cap portion 116 may be formed from polycarbonate and is preferably coated with a reflective surface 146 (as better illustrated in Fig. 4) on the bottom thereof as viewed from the perspective of Fig. 2.
- trigger markings 126 are included on the surface of the reflective layer 142 (as better illustrated in Fig. 4).
- Trigger markings 126 may include a clear window in all three layers of the bio- disc, an opaque area, or a reflective or semi-reflective area encoded with information that sends data to a processor 166, as shown Fig. 10, that in turn interacts with the operative functions of the interrogation or incident beam 152, Figs. 6 and 10.
- the second element shown in Fig. 2 is an adhesive member 118 having fluidic circuits 128 or U-channels formed therein.
- the fluidic circuits 128 are formed by stamping or cutting the membrane to remove plastic film and form the shapes as indicated.
- Each of the fluidic circuits 128 includes a flow channel 130 and a return channel 132.
- Some of the fluidic circuits 128 illustrated in Fig. 2 include a mixing chamber 134.
- the first is a symmetric mixing chamber 136 that is symmetrically formed relative to the flow channel 130.
- the second is an off-set mixing chamber 138.
- the off-set mixing chamber 138 is formed to one side of the flow channel 130 as indicated.
- the third element illustrated in Fig. 2 is a substrate 120 including target or capture zones 140.
- the substrate 120 is preferably made of polycarbonate and has a reflective layer 142 deposited on the top thereof, Fig. 4.
- the target zones 140 are formed by removing the reflective layer 142 in the indicated shape or alternatively in any desired shape.
- the target zone 140 may be formed by a masking technique that includes masking the target zone 140 area before applying the reflective layer 142.
- the reflective layer 142 may be formed from a metal such as aluminum or gold.
- Fig. 3 is a top plan view of the optical bio-disc 110 illustrated in Fig. 2 with the reflective layer 142 on the cap portion 116 shown as transparent to reveal the fluidic circuits 128, the target zones 140, and trigger markings 126 situated within the disc.
- Fig. 4 is an enlarged perspective view of the reflective zone type optical bio-disc 110 according to one embodiment of the present invention. This view includes a portion of the various layers thereof, cut away to illustrate a partial sectional view of each principle, layer, substrate, coating, or membrane.
- Fig. 4 shows the substrate 120 that is coated with the reflective layer 142.
- An active layer 144 is applied over the reflective layer 142.
- the active layer 144 may be formed from polystyrene.
- the plastic adhesive member 118 is applied over the active layer 144.
- the exposed section of the plastic adhesive member 118 illustrates the cut out or stamped U-shaped form that creates the fluidic circuits 128.
- the final principle structural layer in this reflective zone embodiment of the present bio-disc is the cap portion 116.
- the cap portion 116 includes the reflective surface 146 on the bottom thereof.
- the reflective surface 146 may be made from a metal such as aluminum or gold.
- Fig. 5 is an exploded perspective view of the principal structural elements of a transmissive type of optical bio-disc 110 according to the present invention.
- the principle structural elements of the transmissive type of optical bio-disc 110 similarly include the cap portion 116, the adhesive member 118, and the substrate 120 layer.
- the cap portion 116 includes one or more inlet ports 122 and one or more vent ports 124.
- the cap portion 116 may be formed from a polycarbonate layer.
- Optional trigger markings 126 may be included on the surface of a thin semi-reflective layer 143, as best illustrated in Figs. 6 and 9.
- Trigger markings 126 may include a clear window in all three layers of the bio-disc, an opaque area, or a reflective or semi-reflective area encoded with information that sends data to the processor 166, Fig. 10, which in turn interacts with the operative functions of the interrogation beam 152, Figs. 6 and 10.
- the second element shown in Fig. 5 is the adhesive member 118 having fluidic circuits 128 or U-channels formed therein.
- the fluidic circuits 128 are formed by stamping or cutting the membrane to remove plastic film and form the shapes as indicated.
- Each of the fluidic circuits 128 includes the flow channel 130 and the return channel 132.
- Some of the fluidic circuits 128 illustrated in Fig. 5 include the mixing chamber 134. Two different types of mixing chambers 134 are illustrated. The first is the symmetric mixing chamber 136 that is symmetrically formed relative to the flow channel 130. The second is the off-set mixing chamber 138. The off-set mixing chamber 138 is formed to one side of the flow channel 130 as indicated.
- the third element illustrated in Fig. 5 is the substrate 120 which may include the target or capture zones 140.
- the substrate 120 is preferably made of polycarbonate and has the thin semi-reflective layer 143 deposited on the top thereof, Fig. 6.
- the semi-reflective layer 143 associated with the substrate 120 of the disc 110 illustrated in Figs. 5 and 6 is significantly thinner than the reflective layer 142 on the substrate 120 of the reflective disc 110 illustrated in Figs. 2, 3 and 4.
- the thinner semi-reflective layer 143 allows for some transmission of the interrogation beam 152 through the structural layers of the transmissive disc as shown in Fig. 12.
- the thin semi-reflective layer 143 may be formed from a metal such as aluminum or gold.
- Fig. 6 is an enlarged perspective view of the substrate 120 and semi- reflective layer 143 of the transmissive embodiment of the optical bio-disc 110 illustrated in Fig. 5.
- the thin semi-reflective layer 143 may be made from a metal such as aluminum or gold.
- the thin semi-reflective layer 143 of the transmissive disc illustrated in Figs. 5 and 6 is approximately 100- 300 A thick and does not exceed 400 A.
- This thinner semi-reflective layer 143 allows a portion of the incident or interrogation beam 152 to penetrate and pass through the semi-reflective layer 143 to be detected by a top detector 158, Fig. 10, while some of the light is reflected or returned back along the incident path.
- Table 1 presents the reflective and transmissive characteristics of a gold film relative to the thickness of the film.
- the gold film layer is fully reflective at a thickness greater than 800 A. While the threshold density for transmission of light through the gold film is approximately 400 A.
- Fig. 7 provides a graphical representation of the inverse proportion of the reflective and transmissive nature of the thin semi- reflective layer 143 based upon the thickness of the gold. Reflective and transmissive values used in the graph illustrated in Fig. 7 are absolute values.
- Fig. 8 is a top plan view of the transmissive type optical bio-disc 110 illustrated in Figs. 5 and 6 with the transparent cap portion 116 revealing the fluidic channels, the trigger markings 126, and the target zones 140 as situated within the disc.
- Fig. 9 is an enlarged perspective view of the optical bio-disc 110 according to the transmissive disc embodiment of the present invention. The disc 110 is illustrated with a portion of the various layers thereof cut away to illustrate a partial sectional view of each principle, layer, substrate, coating, or membrane.
- Fig. 9 illustrates a transmissive disc format with the clear cap portion 116, the thin semi- reflective layer 143 on the substrate 120, and trigger markings 126. Trigger markings 126 include opaque material placed on the top portion of the cap.
- the trigger marking 126 may be formed by clear, non-reflective windows etched on the thin reflective layer 143 of the disc, or any mark that absorbs or does not reflect the signal coming from the trigger detector 160, Fig. 10.
- Fig. 9 also shows, the target zones 140 formed by marking the designated area in the indicated shape or alternatively in any desired shape. Markings to indicate target zone 140 may be made on the thin semi-reflective layer 143 on the substrate 120 or on the bottom portion of the substrate 120 (under the disc).
- the target zones 140 may be formed by a masking technique that includes masking the entire thin semi-reflective layer 143 except the target zones 140.
- target zones 140 may be created by silk screening ink onto the thin semi-reflective layer 143.
- an active layer 144 is applied over the thin semi-reflective layer 143.
- the active layer 144 is a 40 to 200um thick layer of 2% polystyrene.
- polycarbonate, gold, activated glass, modified glass, or modified polystyrene, for example, polystyrene- co-maleic anhydride may be used.
- hydrogels can be used.
- the plastic adhesive member 118 is applied over the active layer 144.
- the exposed section of the plastic adhesive member 118 illustrates the cut out or stamped U-shaped form that creates the fluidic circuits 128.
- the final principle structural layer in this transmissive embodiment of the present bio-disc 110 is the clear, non-reflective cap portion 116 that includes inlet ports 122 and vent ports 124.
- Fig. 10 is a representation in perspective and block diagram illustrating optical components 148, a light source 150 that produces the incident or interrogation beam 152, a return beam 154, and a transmitted beam 156.
- the return beam 154 is reflected from the reflective surface 146 of the cap portion 116 of the optical bio-disc 110.
- the return beam 154 is detected and analyzed for the presence of signal agents by a bottom detector 157.
- the transmitted beam 156 is detected, by a top detector 158, and is also analyzed for the presence of signal agents.
- a photo detector may be used as a top detector 158.
- Fig. 10 also shows a hardware trigger mechanism that includes the trigger markings 126 on the disc and a trigger detector 160.
- the hardware triggering mechanism is used in both reflective bio-discs (Fig. 4) and transmissive bio-discs (Fig. 9).
- the triggering mechanism allows the processor 166 to collect data only when the interrogation beam 152 is on a respective target zone 140.
- a software trigger may also be used.
- the software trigger uses the bottom detector to signal the processor 166 to collect data as soon as the interrogation beam 152 hits the edge of a respective target zone 140.
- Fig. 10 also illustrates a drive motor 162 and a controller 164 for controlling the rotation of the optical bio-disc 110.
- Fig. 10 further shows the processor 166 and analyzer 168 implemented in the alternative for processing the return beam 154 and transmitted beam 156 associated the transmissive optical bio-disc.
- Fig. 11 is a partial cross sectional view of the reflective disc embodiment of the optical bio-disc 110 according to the present invention.
- Fig. 11 illustrates the substrate 120 and the reflective layer 142.
- the reflective layer 142 may be made from a material such as aluminum, gold or other suitable reflective material.
- the top surface of the substrate 120 is smooth.
- Fig. 11 also shows the active layer 144 applied over the reflective layer 142.
- the target zone 140 is formed by removing an area or portion of the reflective layer 142 at a desired location or, alternatively, by masking the desired area prior to applying the reflective layer 142.
- the plastic adhesive member 118 is applied over the active layer 144.
- Fig. 11 illustrates the substrate 120 and the reflective layer 142.
- the reflective layer 142 may be made from a material such as aluminum, gold or other suitable reflective material.
- the top surface of the substrate 120 is smooth.
- Fig. 11 also shows the active layer 144 applied over the reflective layer 142.
- the target zone 140 is formed by
- FIG. 11 also shows the cap portion 116 and the reflective surface 146 associated therewith.
- the path of the incident beam 152 is initially directed toward the substrate 120 from below the disc 110.
- the incident beam then focuses at a point proximate the reflective layer 142. Since this focusing takes place in the target zone 140 where a portion of the reflective layer 142 is absent, the incident continues along a path through the active layer 144 and into the flow channel 130.
- the incident beam 152 then continues upwardly traversing through the flow channel to eventually fall incident onto the reflective surface 146. At this point, the incident beam 152 is returned or reflected back along the incident path and thereby forms the return beam 154.
- Fig. 12 is a partial cross sectional view of the transmissive embodiment of the bio-disc 110 according to the present invention.
- Fig. 12 illustrates a transmissive disc format with the clear cap portion 116 and the thin semi-reflective layer 143 on the substrate 120.
- Fig. 12 also shows the active layer 144 applied over the thin semi-reflective layer 143.
- the transmissive disc has the thin semi-reflective layer 143 made from a metal such as aluminum or gold approximately 100-300 Angstroms thick and does not exceed 400 Angstroms. This thin semi-reflective layer 143 allows a portion of the incident or interrogation beam 152, from the light source 150, Fig.
- a top detector 158 to penetrate and pass upwardly through the disc to be detected by a top detector 158, while some of the light is reflected back along the same path as the incident beam but in the opposite direction.
- the return or reflected beam 154 is reflected from the semi-reflective layer 143.
- the reflected light or return beam 154 may be used for tracking the incident beam 152 on pre-recorded information tracks formed in or on the semi-reflective layer 143 as described in more detail in conjunction with Figs. 13 and 14.
- a defined target zone 140 may or may not be present.
- Target zone 140 may be created by direct markings made on the thin semi-reflective layer 143 on the substrate 120. These marking may be done using silk screening or any equivalent method. In the alternative embodiment where no physical indicia are employed to define a target zone, the flow channel 130 in effect is utilized as a confined target area in which inspection of an investigational feature is conducted.
- Fig. 13 is a cross sectional view taken across the tracks of the reflective disc embodiment of the bio-disc 110 according to the present invention. This view is taken longitudinally along a radius and flow channel of the disc.
- Fig. 13 includes the substrate 120 and the reflective layer 142.
- the substrate 120 includes a series of grooves 170.
- the grooves 170 are in the form of a spiral extending from near the center of the disc toward the outer edge.
- the grooves 170 are implemented so that the interrogation beam 152 may track along the spiral grooves 170 on the disc.
- This type of groove 170 is known as a "wobble groove".
- a bottom portion having undulating or wavy sidewalls forms the groove 170, while a raised or elevated portion separates adjacent grooves 170 in the spiral.
- the reflective layer 142 applied over the grooves 170 in this embodiment is, as illustrated, conformal in nature.
- Fig. 13 also shows the active layer 144 applied over the reflective layer 142.
- the target zone 140 is formed by removing an area or portion of the reflective layer 142 at a desired location or, alternatively, by masking the desired area prior to applying the reflective layer 142.
- the plastic adhesive member 118 is applied over the active layer 144.
- Fig. 13 also shows the cap portion 116 and the reflective surface 146 associated therewith. Thus, when the cap portion 116 is applied to the plastic adhesive member 118 including the desired cutout shapes, the flow channel 130 is thereby formed.
- Fig. 14 is a cross sectional view taken across the tracks of the transmissive disc embodiment of the bio-disc 110 according to the present invention, as described in Fig. 12. This view is taken longitudinally along a radius and flow channel of the disc.
- Fig. 14 illustrates the substrate 120 and the thin semi- reflective layer 143.
- This thin semi-reflective layer 143 allows the incident or interrogation beam 152, from the light source 150, to penetrate and pass through the disc to be detected by the top detector 158, while some of the light is reflected back in the form of the return beam 154.
- the thickness of the thin semi-reflective layer 143 is determined by the minimum amount of reflected light required by the disc reader to maintain its tracking ability.
- the substrate 120 in this embodiment, like that discussed in Fig.
- Fig. 14 includes the series of grooves 170.
- the grooves 170 in this embodiment are also preferably in the form of a spiral extending from near the center of the disc toward the outer edge.
- the grooves 170 are implemented so that the interrogation beam 152 may track along the spiral.
- Fig. 14 also shows the active layer 144 applied over the thin semi-reflective layer 143.
- the plastic adhesive member 118 is applied over the active layer 144.
- Fig. 14 also shows the cap portion 116 without a reflective surface 146.
- Fig. 15 is a view similar to Fig. 11 showing the entire thickness of the reflective disc and the initial refractive property thereof.
- Fig. 16 is a view similar to Fig. 12 showing the entire thickness of the transmissive disc and the initial refractive property thereof.
- Grooves 170 are not seen in Figs. 15 and 16 since the sections are cut along the grooves 170.
- Figs. 15 and 16 show the presence of the narrow flow channel 130 that is situated perpendicular to the grooves 170 in these embodiments.
- Figs. 13, 14, 15, and 16 show the entire thickness of the respective reflective and transmissive discs.
- the incident beam 152 is illustrated initially interacting with the substrate 120 which has refractive properties that change the path of the incident beam as illustrated to provide focusing of the beam 152 on the reflective layer 142 or the thin semi-reflective layer 143.
- Fig. 17 is a pictorial flow chart showing the preparation analysis of a blood sample for a cluster designation (CD) marker assay using the optical bio-disc system described above.
- blood (4-8 ml) is collected directly into a 4 or 8 ml Becton Dickinson CPT VacutainerTM and an anticoagulant such as EDTA, acid citrate dextrose (ACD), or heparin.
- an anticoagulant such as EDTA, acid citrate dextrose (ACD), or heparin.
- 3 ml of blood in anticoagulant is overlayed into a tube 172 containing a separation gradient 176 such as Histopaque-1077 (Sigma Diagnostics, St. Louis, MO).
- the blood sample 174 is preferably used within two hours of collection.
- the tube 172 containing the separation gradient 176 with blood sample 174 overlay is centrifuged at 1500 to 1800 RCFs (2800 rpm) in a biohazard centrifuge with horizontal rotor and swing out buckets for 25 minutes at room temperature. After centrifugation, the plasma layer 178 is removed (step 2), leaving about 2 mm of plasma above the mononuclear cell (MNC) fraction 180.
- the MNC layer 180 is collected and washed with phosphate buffer saline (PBS). Ceils are pelleted by centrifugation at 300 RCFs (1200 rpm) for 10 minutes at room temperature to remove any remaining platelets. The supernatant is removed and the MNC pellet 180 is re-suspended in PBS by tapping the tube gently.
- PBS phosphate buffer saline
- the final pellet 180 is re-suspended (step 3) and diluted with PBS to a cell count of 10,000-30,000 cells/ul depending upon the thickness of the flow channel 130 of the bio-disc 110.
- the T-lymphocytes may be isolated from whole blood using bio-active reagents that cause agglutination and precipitation of unwanted cells.
- a non-limiting example of a bio-active reagent is PrepaCyte (BioE, St. Paul, MN).
- PrepaCyte allows the isolation of T-lymphocytes from whole blood by selective removal of granulocytes, platelets, monocytes, B cells (up to 80%), natural killer (NK) cells (up to 80%).
- T-Helper cells Cell capture by means of a surface coated with a single antibody results in (nearly) all cells containing that particular marker being captured. If the goal is to capture a specific cell type--for instance, T-Helper cells-then the use of a single marker may be insufficient. Techniques such as flow cytometry therefore use multiple markers, and only cells that contain all the chosen markers are counted. Therefore T-Helper and monocyte cells, both of which carry the CD4 antibody, are distinguished by means of a second marker such as CD3 (only CD4 cells) or CD19 (only monocytes). This gives a particular problem for surface capture methods with single antibodies, since it may be unavoidable that the monocytes are also captured.
- a second marker such as CD3 (only CD4 cells) or CD19 (only monocytes).
- this signal agent may be a bead or a dye that absorbs light at a predetermined wavelength.
- the predetermined wavelength is preferably at or around the wavelength of the incident beam 152 of the optical disc reader 112. Therefore although both cell populations will be captured on the surface of the bio-disc, the cells will be distinguishable by the measurement system discussed above in conjunction with Fig. 10.
- a CD4 antibody is deposited on the surface of the disc 110. It normally captures both a sub-population of CD4+ monocytes and CD4+ T- helper cells.
- IR absorbent beads coated with a CD19 antibody are introduced, resulting in coating the monocytes with these beads since monocytes are CD19+ while T-helper cells are not. This has two effects. Firstly, it reduces the binding probability of the monocytes to the CD4 capture area through steric hindrance. Secondly, the remaining monocytes that bind onto the capture area on the disc appear much darker to an IR laser beam than the CD4+ T-helper cells thereby allowing differentiation between monocytes and T-helper cells.
- the resultant monocyte absorption should be sufficient to reduce their S-curve amplitude below the threshold.
- the monocytes are distinguished with an IR dye, they appear darker and can be counted separately.
- CD8 antibodies captures NK cells, which can be (non-uniquely, in this case) marked with CD56; or granulocytes can be marked specifically to distinguish them from lymphocytes on a CD45 antibody coated capture or target zone 140.
- Dyes need not be applied such that they only coat the relevant cells: they can also be absorbed non- specifically into the internal structure of the cell, such as the nucleus. Such cells could be used as calibrator elements on a capture zone if stabilized by fixation and pre-mixed in sample at a known concentration.
- one signal agent may be a dye on a specific antibody, which binds to a marker on a cell.
- a second signal agent may be a micro-particle or bead on another specific antibody which binds to another marker. If the second marker is present, the beads will bind to the cell and prevent the cell from binding to the capture agents in the capture zone. If only the first, then the cells bind, but can be distinguished from the single-marker on the cells.
- Lymphocyte subset immunophenotyping and quantitation through image analysis using the optical disc system described above may require a secondary gate or parameter to increase the accuracy of cellular differentiation.
- the present invention relates to the use of reporter or signal agents such as beads or microparticles of different physical properties, with or without a functionalyzed surface, conjugated with at least one signal antibody that specifically binds to target cells or unwanted cells to thereby form a bead-cell complex which is detectable by the optical disc reader.
- the signal antibody may be conjugated to the reporter or signal agent by a cross linker.
- Cross linkers include receptor-ligand interactions or binding agent-affinity agent interactions.
- the binding agent may be, for example, Streptavidin or Neutravidin.
- the affinity agent may be, for example, biotin.
- beads with a modified functionalyzed surface can be used to covalently conjugate the signal antibodies onto the bead surface and promote a rigid attachment of the bead or reporter agent to the cell of interest. It is also possible to use beads of different physical properties such as size, color, texture, reflectivity, absorbance, mass, fluorescence, phosphorescence, and/or magnetic properties to isolate and/or differentiate target cells. This process facilitates to better distinguish a target cell by a distinctive feature that is at least one type of reporter agent or bead attached to the cell surface as discussed below in conjunction with Figs. 20A and 20B.
- the reporter agent to label a cell, one can differentiate, for example, target CD4+ T cells from unwanted CD4+ monocytes, captured using anti-CD4 antibody capture agents. This is achieved by labelling or tagging antigenic epitopes, other than the CD4 epitopes, on the monocytes.
- the monocytes may be tagged with beads attached to CD 14 antibodies which are specific for monocytes.
- image analysis is carried out using the optical bio- disc system to distinguish between CD4+ monocyte cells, with one or more beads bound to its CD14 surface antigen (as described below in Fig. 23), and the CD4+ T cells which are free of beads because of the absence of CD14 antigens on its surface.
- lymphocyte 200 and a monopyte 202 both having CD4 antigens on their surface.
- Monocytes also have CD14 antigens on their surface while lymphocytes do not.
- monocytes may be differentiated from lymphocytes by tagging them with beads 204 having a signal antibody 206, which is anti-CD14 antibody in this case, attached thereto.
- the beads are preferably large enough to be detected by the interrogation beam 152 (Fig. 10) of the disc reader 112 and smaller than the cells to be tagged.
- the preferred size of the beads is around 0.5 to 5um in diameter.
- the reporter complex 208 will thus bind only to monocytes 202 when placed in a suspension of cells containing CD4+ lymphocytes 200 and CD4+ monocytes 202 as illustrated.
- CD4+ lymphocytes 200 and CD4+ monocytes 202 as illustrated.
- the cells may be differentiated by the resulting signature traces as described below in conjunction with Figs. 23A and 23B.
- Fig. 19 there is illustrated an embodiment of the present invention depicting the use of beads to isolate or remove unwanted cells from a blood sample.
- the unwanted or contaminant cells are removed by blocking antigens on the surface of the unwanted cells using beads thereby preventing binding of these blocked cells to a capture probe on the disc.
- a sample 210 containing cells of various types 212 including CD4+ cells, CD8+ cells and natural killer (NK) cells is processed for analysis . All of the cells 212 have CD3 markers on their surface.
- CD4+ and CD8+ cells are the target cells of interest 216 while the NK cells 214 are the unwanted cells.
- a common antibody, anti-CD3, is used to capture the target cells.
- the NK cells contain CD56 antigens on their surface while the other cells in the sample do not.
- antibody coated beads 208 are mixed in with the sample 210.
- the beads 208 are coated with anti-CD56 antibodies.
- Beads 208 then bind to the CD56 antigens on the surface of the NK cells 214 rosetting or surrounding the NK cells.
- the assay solution containing the CD4+, CD8+ and rosetted NK cells 214 is then loaded into the fluidic chamber 130 in the bio-disc 110 as depicted.
- the CD4+ and CD8+ target cells 216 then bind to anti-CD3 capture agents 217 on the surface of the disc.
- the beads on the surface of the NK cells 214 prevent the binding of the NK cells 214 to the anti-CD3 capture antibody 217 by blocking the CD3 antigen epitopes on the NK cells.
- the unbound NK cells may then be removed by washing or centrifugation as illustrated.
- the captured cells are then analysed using the optical bio-disc system (Fig. 10) by scanning the incident beam 152 (Fig. 10), which interacts with the captured cells, through the target zones and analysing the return beam 154 to determine the relative amount of target cells in the sample.
- the transmitted beam 156 (Fig. 10) may be analysed to determine the number of captured cells.
- Figs. 19 includes the disc components described above in conjunction with Figs. 2 to 9 including the flow channel 130, cap portion 116, reflective surface 156, adhesive member 118, active layer 144, reflective layer 142 and substrate 120.
- the transmissive type optical bio-disc (Figs. 8 and 9) may also be used wherein the reflective layer 146 is removed and layer 142 is semi-reflective to allow the incident beam 152 to pass through the disc which allows detection and analysis of the transmitted beam 156 using a top detector 158 as described above in conjunction with Figs. 10, 12 and 16.
- the target cells for example may be CD4+ T cells while the unwanted cells are CD4+ monocytes.
- the capture antibody used in this example may be ahti-CD4 antigen. Since both cells types have CD4 antigens on their cell surface and monocytes have a unique CD14 surface marker, monocytes are removed from the sample using magnetic beads, which have greater mass than non-magnetic beads of the same size, coated with anti-CD14 antibodies. The greater mass allows for easy removal of the unwanted beads by centrifugation.
- the beads may be mixed with the sample solution prior to or after loading the sample into the disc.
- the beads are then allowed to bind to the surface CD14 antigens on the monocytes. Since magnetic particles are relatively heavy, the monocytes may be separated from the cells of interest by centrifugation using the bio-disc drive 112, or by using the magnetic properties of the beads in conjunction with a magnetic separator or a magneto-optical disc system. Further details relating to other aspects associated with magneto-optical disc systems are disclosed in, for example, commonly assigned co-pending U.S. Patent Application Serial No. 10/099,256 entitled “Dual Bead Assays Using Cleavable Spacers and/or Ligation to Improve Specificity and Sensitivity Including Related Methods and Apparatus" filed March 14, 2002; U.S. Patent Application Serial No.
- Figs. 20A and 20B there is shown a non-limiting example of an alternative embodiment, of the present invention, to that described in conjunction with Fig. 19.
- beads having different physical properties are used to identify various cell types captured, by a common surface marker, in one or more target or capture zones.
- a sample 210 containing cells of interest 216 is loaded into the bio-disc 110 using a pipette 218.
- leukocytes are the cells of interest which are captured by anti-CD45 capture antibodies 217 on the surface of the disc.
- the capture antibodies 217 bind the common CD45 leukocyte surface antigen.
- each group of beads 220 is then loaded into the disc 110 using pipette 218.
- Each group of beads has different physical characteristics, preferably distinguishable using the disc reader 112, and different antibodies attached thereto.
- the antibodies attached to each group of beads will have affinity to a specific antigen on the cell of interest, for example, a group of transparent beads 221 having antibodies to either CD3, CD19, or CD56 to tag lymphocytes 224, a group of opaque beads 223 having antibodies to CD14 attached thereto to tag monocytes 222, and a group of semi-transparent beads 225 having antibodies to CD116 to tag eosinophils 226.
- the unbound beads 227 are remdved by centrifugation or washing.
- the different cell types may then be quantitated based on the physical characteristics of the beads bound thereto using the optical disc reader. Since the transmissive type disc is used in this example, as illustrated, the bead-cells complexes are analyzed using the optical bio-disc system (Fig. 10) by scanning the incident beam 152 (Fig. 10), which interacts with the bead-cell complexes, through the target zones, detecting the transmitted beam 156 using a photo detector and analyzing the detected beam to determine the relative amount each respective target cell type in the sample.
- the reflective type disc may also be used for this analysis as described above.
- one or more groups of beads or reporters may bind to different surface antigens on the same cell type. This cell type may then be quantitated and distinguished from the other cell types by determining the absence or presence of one or more types of reporters bound thereto. This adds specificity to the assay since multiple parameters are used to identify as single cell type. Further details relating to other aspects associated with methods for detecting and quantitating various cell types using the optical disc is disclosed in, for example, commonly assigned U.S. Provisional Patent Application Serial No. 60/382,944 entitled "Methods and Apparatus for Use in Detection and Quantitation of Cell Populations and Use of Optical Bio-Disc for Performing Same" filed May 24, 2002, which is incorporated herein by reference in its entirety.
- Micro-particles or beads may also be used to label or tag cells from tissues, and microorganisms such as viruses and bacteria to facilitate identification, differentiation, and quantitation.
- Fig. 21 shows an example of tagging E. coli 234 with a capture bead 204 having at least one biotin 232 and a capture antibody 206 conjugated thereto.
- Antibody 206 has a specific affinity to an antigen on E. coli.
- a bead-bacteria complex 237 is formed when the beads are mixed with a sample containing E. coli, as illustrated.
- the complex 237 and unbound beads 204 are then captured on a capture zone in the disc using streptavidin 236.
- the disc is then analysed for the presence and amount of bead-bacteria complexes as described above.
- FIG. 22 is an illustration of tagging of unwanted cells using beads having antibodies with affinity to antigens on the unwanted cells.
- the target cells are thus untagged and are isolated or quantitated using the optical bio- disc system as described above.
- FIG. 23A there is shown a graphical representation of a 1 micron reporter bead and a 5 micron cell linked together in a bead-cell complex positioned relative to the tracks A-E of an optical bio-disc according to the present invention.
- Fig. 23B there are illustrated a series of signature traces, from tracks A-E, derived from the bead and cell of Fig. 23A utilizing a detected differentiating unwanted cells from target cells using detectable precipitates from an enzyme reaction.
- a magnified view of the target zone 140 within the fluidic circuit 130 is illustrated in Fig. 25.
- either the reflective or transmissive type discs may be used in this analysis.
- CD4 capture antibodies 244 are deposited on the target or capture zone 140 on the optical bio-disc 110 (Step I).
- Step II a sample containing mononuclear cells (MNC) is then introduced into the target zone.
- the cells having CD4 surface antigens will then bind to the CD4 capture antibodies 244 on the target zone. These cells include CD4+ T cells and monocytes.
- the unbound cells are then washed away or spun off the target zone as described above in conjunction with Figs. 19 to 21.
- a solution containing an enzyme 248 conjugated to a CD14 antibody 246 (reporter agent) is introduced to the target zone as shown in Step III. Since only monocytes contain CD14 antigens, the enzyme conjugated antibodies only bind to any monocyte bound to the target zone as illustrated.
- the target zone is then washed to remove unbound enzyme or reporter agent and an enzyme substrate is introduced to the target zone in Step IV.
- an enzyme-substrate reaction 250 occurs which produces a detectable product 252, shown in Step V.
- the detectable product 252 is preferably an insoluble product that forms precipitates 254 on the cell surface, as illustrated in Step VI.
- An interrogation beam of electromagnetic radiation 256 is then scanned through the target zone and the return beam or transmitted beam, depending on the type of disc used, is analysed for the presence and absence of precipitate labelled cells. The labelled or tagged and unlabelled or untagged cells are then quantitated. This allows for the specific detection, differentiation and quantitation of CD4+ T cells and monocytes as shown in Fig.
- the enzymes that may be used in this embodiment include, but not limited to, horse radish peroxidase (HRP) and alkaline phosphatase (AP).
- HRP horse radish peroxidase
- AP alkaline phosphatase
- the substrates that may be used in conjunction with these enzymes may be, for example, chosen from the group consisting of TMB (3,3', 5,5'-tetramethyl benzidine), DAB (3,3'-Diaminobenzidine), ABTS (2,2-Azino-
- These graphs represent the detected transmitted beam 156.
- the signatures for the 1 micron reporter bead 190 are sufficiently different from those for the 5 micron cell 192 such that the bead-cell complex can be detected and discriminated from single cells.
- a sufficient deflection of the trace signal from the detected return beam as it passes through a bead or cell is referred to as an event.
- the relative proximity of the events from the reporter and cell indicates the presence or absence the bead cell complex.
- the traces for the reporter and the cell are right next to each other indicating they are joined in a complex.
- reporter beads can be fluorescent or phosphorescent. Detection of these reporters can be carried out in fluorescent or phosphorescent type optical disc readers.
- Other signal detection methods are described, for example, in commonly assigned co-pending U.S. Patent Application Serial No. 10/008,156 entitled “Disc Drive System and Methods for Use with Bio-Discs” filed November 9, 2001, which is expressly incorporated by reference; U.S. Provisional Application Serial Nos. 60/270,095 filed February 20, 2001 and 60/292,108, filed May 18, 2001; and the above referenced U.S. Patent Application Serial No. 10/043,688 entitled "Optical Disc Analysis System Including Related Methods For Biological and Medical Imaging” filed January 10, 2002.
- Fig. 24 there are illustrated micrographs showing unattached beads 238, single cells 240, and bead-cell complexes 242.
- the beads used in this experiment were 4.5 urn magnetic beads coated with anti-CD2 antibodies. Cells having CD2 antigens are thus labeled or tagged with the beads forming a bead- cell complex while non-CD2+ cells remain single as shown. Details relating to this experiment are discussed below in conjunction with Example 8.
- FIGs. 25A and 25B there is illustrated a pictorial representation of another embodiment of a method of the present invention for
- Fig. 17 illustrates a pictorial flow chart showing the preparation of a sample, use of a bio-disc, and the provision of results.
- the details of the following example such as the individual time duration of process steps, rotation rates, and other details are more particular than those described above with reference to Fig. 17.
- the basic steps of the present example are, nonetheless, similar to those described above.
- a reflective disc or transmissive disc substrate 120 (Figs. 2 and 5, respectively) is cleaned using an air gun to remove any dust particles.
- the disc is rinsed twice with iso-propanol, using a spin coater.
- a 2% polystyrene is spin coated on the disc to give a very thick coating throughout.
- the chemistry is then deposited.
- One embodiment includes a three step deposition protocol that incubates: streptavidin, incubated for 30 minutes; biotinylated first antibody incubated for 60 minutes; and a second capture antibody incubated for 30 minutes.
- the first antibody can be raised in a first species (e.g., sheep) against a type of immunoglobulin (e.g., IgG, IgE, IgM) of a second species (e.g., mouse).
- the second capture antibody is raised in the second species against a specific cell surface antigen (e.g., CD4, CD8).
- the steps are done at room temperature in a humidity chamber using washing and drying steps between depositions.
- a 1 ⁇ l ratio of 1mg/ml streptavidin in phosphate buffered saline is layered over each window and incubated for 30 minutes. Excess streptavidin is rinsed off using distilled water and the disc is dried. Equal volumes of biotinylated anti- mouse IgG (125 ⁇ g/ml in PBS) and activated dextran aldehyde (200 ⁇ g/ml) are combined. Dextran aldehyde (DCHO)-biotinylated anti-mouse IgG is layered over streptavidin in each capture window and incubated for 60 minutes or overnight in refrigerator. Excess reagent is rinsed and the disc is spun dry.
- the disc is assembled using an adhesive layer that may, for example, be 25, 50, or 100 microns thick (channel layer 118 in Figs. 2 and 5), with a stamped out portion, such as a U-shape or "e-rad" channel, to create a fluidic channel, and a clear cap 116 (Fig. 5, for use with a transmissive disc with a top detector) or a cap 116 with a reflective layer 142 located over the capture zones (Fig. 2, for use with a reflective disc with a bottom detector).
- an adhesive layer that may, for example, be 25, 50, or 100 microns thick (channel layer 118 in Figs. 2 and 5), with a stamped out portion, such as a U-shape or "e-rad" channel, to create a fluidic channel, and a clear cap 116 (Fig. 5, for use with a transmissive disc with a top detector) or a cap 116 with a reflective layer 142 located over the capture zones (Fig. 2, for use with a reflective disc with
- the disc is a forward Wobble Set FDL21: 13707 or FDL21 :1270 CD-R disc coated with 300 nm of gold as the encoded information layer.
- FDL21 13707
- viewing windows of size 2 x 1 mm oval are etched out of the reflective layer by known lithography techniques. In some designs of transmissive disc, no separate viewing windows are etched, and the entire disc is available for use.
- the channel layer is formed from Fraylock adhesive DBL 201 Rev C 3M94661.
- the cover is a clear disc with 48 sample inlets each with a diameter of 0.040 inches located equidistantly at radius 26 mm. The data disc is scanned and read with the software at speed 4X and sample rate 2.67 MHz using CD4/CD8 counting software.
- the disc can be leak checked first to make sure none of the chambers leak during spinning of the disc with the sample in situ.
- Each channel is filled with a blocking agent, such as StabilGuard and PBS-Tween.
- the block is for at least 1 houn
- the disc is spun at 5000 rpm for 5 minutes to leak proof and check disc stability. After checking for leaks, the disc is placed in a vacuum chamber for 24 hours. After vacuuming for 24 hours, discs are placed in a vacuum pouch and stored in refrigerator until use.
- MNC Mononuclear cells
- a density gradient centrifugation method e.g., using a Becton Dickinson CPT Vacutainer.
- Blood (4-8 ml) js collected directly into a 4 or 8 ml EDTA containing CPT Vacutainer.
- the tubes are centrifuged at 1500 to 1800 x g in a biohazard centrifuge with horizontal rotor and swing out buckets for 25 minutes at room temperature.
- the blood is preferably used within two hours of collection.
- plasma overlying the mononuclear cell fraction is removed, leaving about 2 mm of plasma above an MNC layer.
- MNC are collected and washed with PBS.
- Cells are pelleted by centrifuge at 300 x g for 10 minutes at room temperature. The supernatant is removed and the pellet containing the MNC is resuspended in PBS by tapping the tube gently. One more washes are done at 300 x g for 10 minutes each at room temperature to remove platelets. The final pellet is resuspended to a cell count of 10,000 cells/ ⁇ l.
- An 18 ⁇ l volume of the MNC is introduced to one or more the analysis chamber or channel, incubated for 15 minutes at room terhperature with the disc stationary. The channels are sealed. The disc is then spun at 3000rpm for 3 to 4 minutes using a disc drive. The disc is preferably scanned and read with the software at speed 4X and sample rate 2.67 MHz.
- the assay in this example is a generic homogeneous solid phase cell capture assay for the rapid determination of absolute number of CD4+ and CD8+ T-lymphocyte populations and ratio of CD4+/CD8+ lymphocytes in blood samples.
- the test which is run within a small chamber incorporated into a CD-ROM, determines the number of CD4+, CD8+, CD2+, CD3+ and CD45+ cells captured by the specific antibodies on the capture zones in 7 ⁇ l of mononuclear cells (MNC) isolated from whole blood.
- MNC mononuclear cells
- MNC cells prepared in step D above (18 ⁇ l in PBS), are injected into the disc chamber, and inlet and outlet ports of the chamber are sealed.
- the disc is incubated for 15 minutes at room temperature, and then scanned using a 780nm laser in an optical drive with a top detector to image the capture field as described above.
- Software is encoded on the disc to instruct the drive to automatically perform the following acts: (a) centrifuge the disc to spin off excess unbound cells in one or more stages, (b) image specific capture windows, and (c) process data including counting the specifically-captured cells in each capture zone and deriving the ratio of CD4/CD8 (or which ever ratio is programmed to be determined).
- the software reads across each capture zone image and marks cells as it encounters them. For example, following estimation of number of CD4+ and CD8+ cells, the software calculates the ratio of CD4+/CD8+ cells and displays both the absolute numbers of cells in CD4+, CD8+, CD3+ and CD45+ capture zones per microliter of whole blood and also the CD4+/CD8+ ratio. The entire process takes about 12 minutes from inserting the disc into the optical drive to obtaining the numbers and ratios.
- Streptavidin (Sigma, cat. # S-4762): Add de-ionized water to make a 5 mg/ml solution, aliquot and store at -30°C. To use, add Tris buffer for a final concentration of 1 mg/ml.
- CD45 (Sigma, Lot # 038H4892, cat # C7556). Store at 2 - 8°C.
- Biotinylated anti-mouse IgG (raised in sheep, Vector laboratories, lot # L0602, Catalog # BA-9200) Stock solution 1.5 mg/ml made in distilled water.
- Working b-lgG solution 125 ⁇ g/ml in 0.1 M PBS. Store at 2-8°C. May be kept at -30°C for long term storage.
- Aldehyde activated Dextran (Pierce, lot # 97111761 , cat # 1856167). Stock solution stock solution 5 mg/ml in PBS, store at 2-8°C.
- CD4 (DAKO, cat # M0716), CD8 (DAKO, cat # M0707), CD2 (DAKO, cat # M720), CD45 (DAKO, cat # M0701), CD14 (DAKO, cat # M825), and CD3 (DAKO, cat # M7193). Store at 2-8°C.
- Negative control Mouse lgG1 (DAKO, cat # X0931). Store at 2-8°C.
- PBS Phosphate Buffered Saline
- pH 7.4 Life Technologies/GIBCO BRL, cat. # 10010-023 or equivalent.
- a 1x stock of ammonium chloride lysing buffer should be stored at 2 to 8°C. Comprised of 0.155M NH 4 CI, 10mM KHCO 3 , and 0.1mM disodium EDTA; pH7.3 to 7.4. Store at 2-8 °C. Bring to room temperature prior to use. Procedure
- step 2 If the cells cannot be processed immediately, resuspend mononuclear cells after the first centrifugation (step 2 above) in the separated plasma by gently inverting the CPT tube several times and store for up to 24 hours at room temperature. Within 24 hours, collect the cells in the plasma and continue with the washes as described above.
- Total cell counts per ul number of cells in 25 small squares X (times) 100.
- a transmissive disc substrate was cleaned with an air gun to remove dust.
- the disc was then mounted in the spin coater and rinsed twice with a steady stream of iso-propanol.
- a polystyrene solution with 2 % polystyrene dissolved in 310 ml of toluene and 65 ml of iso-propanol was evenly coated onto the disc.
- streptavidin deposition streptavidin stock solution was diluted to 1 mg/ml in PBS. Using manual pin deposition, approximately 1 ul of the streptavidin was deposited in each capture zone on the disc. The disc was incubated in a humidity chamber for 30 minutes. Then excess unbound streptavidin was rinsed off the capture zones with D. I. water and the disc was spun dried.
- a fresh solution of activated dextran aldehyde 200 ug/ml in PBS was combined with an equal volume of the Vector IgG (125 ug/ml in PBS).
- the Vector IgG 125 ug/ml in PBS.
- approximately 1ul of the IgG+DCHO complex was deposited (layered on top of the streptavidin layer) in each capture zone on the disc. The disc was incubated in a humidity chamber for 60 minutes. Excess antibody was rinsed off with D. I. water and the disc was spun dry.
- DAKO CD4 was diluted to 50 ug/ml in PBS
- DAKO CD8 was diluted to 25 ug/ml in PBS
- DAKO CD45 was diluted to 145 ug/ml in PBS.
- the manual pin applicator deposited approximately 1ul of each primary antibody on top of the bound secondary antibodies.
- the disc was then incubated in a humidity chamber for 30 minutes. The excess unbound antibody was removed by washing the capture zones with PBS and the disc was spun dried.
- the cover disc used was a clear disc with a Fraylock adhesive channel layer attached thereto. Stamped into the adhesive were 4 U-shaped channels that created the fluidic circuits, The cover was placed onto the transmissive disc substrate so that the fluid channels were over the capture zones. Next, to secure the discs together, they were passed through a disc press 8 times.
- Each fluid channel was filled with StableGuard and incubated for 1 hour. During the incubation, the disc was spun in the spin coater for 5 minutes at 5000 rpm. After the spin, the disc channels were checked for leaks. Next, the StableGuard was aspirated out of the channels, and the disc was placed under vacuum in a vacuum chamber overnight. The next morning, the disc was placed in a vacuum pouch and stored at 4°C.
- Discs (Nos. 27a, 27b, 27c, 27d, 27e, 27f & 28) were prepared similar to example 5, using 25um adhesive channels.
- a transmissive disc substrate was cleaned with an air gun to remove dust.
- the disc was then mounted in the spin coater and rinsed twice with a steady stream of iso-propanol.
- a polystyrene solution with 2 % polystyrene dissolved in 310 ml of toluene and 65mls of iso-propanol was evenly coated onto the disc.
- a fresh solution of activated dextran aldehyde 200 ug/ml in PBS was combined with an equal volume of the Vector IgG (125 ug/ml in PBS).
- the Vector IgG 125 ug/ml in PBS.
- approximately 1ul of the IgG+DCHO complex was deposited in each capture zone on the disc. The disc was incubated in a humidity chamber for 60 minutes. Excess antibody was rinsed off with D. I. water and the disc was spun dry.
- DAKO CD4 was diluted to 50ug/ml in PBS
- DAKO CD8 was diluted to 25 ug/ml in PBS
- DAKO CD45 was diluted to 145 ug/ml in PBS.
- approximately 1 ul of each primary antibody was deposited on top of the absorbed secondary antibodies. Incubated in the humidity chamber for 30 minutes. Rinsed off the excess antibody with PBS and spun dry the disc.
- a 20 ml volume of 1x ammonium chloride lysing buffer was added to 1ml of ACD blood sample.
- the samples were vortexed and incubated for 15 minutes at room temperature.
- the samples were centrifuged at 500 x g for 5 minutes at room temperature.
- the washed cells were then centrifuged at 500 x g for 5 minutes. After centrifugation, the supernatant was discarded and the cells resuspended in 1ml of 2% BSA in PBS.
- the final cell concentration in the suspension was 5,500 cells/ul.
- Dynal Magnetic anti-CD2 [Dynabeads® CD2 (Prod No. 111.02)] beads were prepared by washing a stock solution of beads with 0.1% BSA in PBS three times. 72ul of bead suspension was mixed in with the cells prepared in Section A above. The cell/bead suspension was then incubated at room temperature for 20 minutes to allow the beads to bind unwanted CD2+ NK cells in the sample. After incubation, the suspension was loaded into the disc prepared above. The disc containing the suspension was then incubated for 15 minutes at room temperature to allow the CD4+ cells (T-lymphocytes and NK Cells) in the sample to bind to the anti-CD4 capture agents within the capture zone on the disc.
- CD4+ cells T-lymphocytes and NK Cells
- NK cells 242 can be distiguished from T-lymphocytes 240 within the capture zone since the NK cells 242 are tagged with beads and the T-lymphocytes 240 are not, as Shown in Fig. 24.
- Patent Application Serial No. 10/241 ,512 entitled “Methods for Differential Cell Counts Including Related Apparatus and Software for Performing Same” filed September 11 , 2002; U.S. Patent Application Serial No. 10/279,677 entitled “Segmented Area Detector for Biodrive and Methods Relating Thereto” filed October 24, 2002; U.S. Patent Application Serial No. 10/293,214 entitled Optical Bio-Discs and Fluidic Circuits for Analysis of Cells and Methods Relating Thereto” filed on November 13, 2002; U.S. Patent Application Serial No. 10/298,263 entitled “Methods and Apparatus for Blood Typing with Optical Bio-Discs” filed on November 15, 2002; U.S. Patent Application Serial No.
Abstract
Description
Claims
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JP2006530721A JP2007501407A (en) | 2003-03-03 | 2004-03-02 | Methods and apparatus used for the detection and quantification of various cell types and the use of optical biodiscs to do this |
EP04769197A EP1599730A2 (en) | 2003-03-03 | 2004-03-02 | Methods and apparatus for use in detection and quantitation of various cell types and use of optical bio-disc for performing same |
CA002518677A CA2518677A1 (en) | 2003-03-03 | 2004-03-02 | Methods and apparatus for use in detection and quantitation of various cell types and use of optical bio-disc for performing same |
AU2004243690A AU2004243690A1 (en) | 2003-03-03 | 2004-03-02 | Methods and apparatus for use in detection and quantitation of various cell types and use of optical bio-disc for performing same |
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- 2004-03-02 JP JP2006530721A patent/JP2007501407A/en active Pending
- 2004-03-02 WO PCT/IB2004/002780 patent/WO2004106925A2/en not_active Application Discontinuation
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JP2008541098A (en) * | 2005-05-20 | 2008-11-20 | アールエムアイティー ユニバーシティー | Analysis equipment |
WO2008009952A2 (en) * | 2006-07-19 | 2008-01-24 | Shaw Water Engineering Limited | Flow-through cell and method of use |
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US9128082B2 (en) | 2009-03-24 | 2015-09-08 | Biocept, Inc. | Devices and methods of cell capture and analysis |
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WO2017055324A1 (en) * | 2015-09-29 | 2017-04-06 | INSERM (Institut National de la Santé et de la Recherche Médicale) | Methods for quantifying the population of cells of monocytic origin in a tissue sample |
WO2017055327A1 (en) * | 2015-09-29 | 2017-04-06 | INSERM (Institut National de la Santé et de la Recherche Médicale) | Methods for quantifying the population of endothelial cells in a tissue sample |
WO2017055321A1 (en) * | 2015-09-29 | 2017-04-06 | INSERM (Institut National de la Santé et de la Recherche Médicale) | Methods for quantifying the population of fibroblasts in a tissue sample |
Also Published As
Publication number | Publication date |
---|---|
AU2004243690A1 (en) | 2004-12-09 |
US20050032126A1 (en) | 2005-02-10 |
EP1599730A2 (en) | 2005-11-30 |
CA2518677A1 (en) | 2004-12-09 |
CN101044404A (en) | 2007-09-26 |
WO2004106925A3 (en) | 2005-06-16 |
JP2007501407A (en) | 2007-01-25 |
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