Patent application number | Description | Published |
20090237665 | METHOD AND APPARATUS FOR DETERMINING A FOCAL POSITION OF AN IMAGING DEVICE ADAPTED TO IMAGE A BIOLOGIC SAMPLE - A method and apparatus for focusing a device for imaging a biologic sample is provided. A method aspect of the disclosure includes the steps of: 1) disposing lenslets within a field of a biologic sample, which lenslets have a height, and have a refractive index and which refractive index is different from that of the sample, wherein one or both of the imaging device and the sample are relatively locatable so a focal position of the imaging device can be moved along the height of the lenslets; 2) imaging at least a portion of the sample including a plurality of lenslets using transmittance at one or more predetermined wavelengths; 3) determining an average light transmittance intensity of the sample at the wavelengths; 4) determining an average light transmittance intensity of a region of each lenslet at the wavelengths; and 5) determining the focal position of the imaging device using the average light transmittance intensity of the sample and the average light transmittance intensity of the region of the lenslets. | 09-24-2009 |
20090238437 | METHOD AND APPARATUS FOR DETERMINING THE HEMATOCRIT OF A BLOOD SAMPLE UTILIZING THE INTRINSIC PIGMENTATION OF HEMOGLOBIN CONTAINED WITHIN THE RED BLOOD CELLS - A method for determining the hematocrit of a blood sample is provided that includes the steps of: 1) depositing the sample into an analysis chamber adapted to quiescently hold the sample for analysis, the chamber defined by the interior surfaces of first and second panels and a height extending there between, wherein both panels are transparent, and the height is such that at least some of the red blood cells within the sample contact both interior surfaces of the panels and one or more lacunae within the quiescent sample extend between the interior surfaces; 2) imaging at least a portion of the quiescent sample, which sample portion contains the red blood cells and one or more lacunae to determine an optical density of the imaged portion of the sample on a per image unit basis; 3) selecting and averaging the optical density values of the image units aligned with the red blood cells contacting the interior surfaces, and assigning an upper boundary value of 100% to the average optical density value of those image units; 4) selecting the optical density values of the image units aligned with the one or more lacunae, and assigning a lower boundary value of 0% to the optical density values of those image units; and 5) determining the hematocrit of the sample by assigning relative values to the optical density value of each image of the imaged sample portion as a function of the upper and lower boundary values, and averaging the relative values. | 09-24-2009 |
20090238438 | METHOD AND APPARATUS FOR DETERMINING RED BLOOD CELL INDICES OF A BLOOD SAMPLE UTILIZING THE INTRINSIC PIGMENTATION OF HEMOGLOBIN CONTAINED WITHIN THE RED BLOOD CELLS - A method for the determination of the red blood cell indices including the volume, and hemoglobin content and concentration for individual red blood cells, as well as red blood cell population statistics, including total number of red blood cells present in the sample, and mean values for each of the aforementioned indices within a substantially undiluted blood sample is provided. | 09-24-2009 |
20090239257 | METHOD AND APPARATUS FOR ANALYZING INDIVIDUAL CELLS OR PARTICULATES USING FLUORESCENT QUENCHING AND/OR BLEACHING - A method for analyzing a blood sample is provided that includes the steps of: a) providing a blood sample having one or more first constituents and one or more second constituents, which second constituents are different from the first constituents; b) depositing the sample into an analysis chamber adapted to quiescently hold the sample for analysis, the chamber defined by a first panel and a second panel, both of which panels are transparent; c) admixing a colorant with the sample, which colorant is operative to cause the first constituents and second constituents to fluoresce upon exposure to predetermined first wavelengths of light, and which colorant is operative to absorb light at one or more predetermined second wavelengths of light; d) illuminating at least a portion of the sample containing the first constituents and the second constituents at the first wavelengths and at the second wavelengths; e) imaging the at least a portion of the sample, including producing image signals indicative of fluorescent emissions from the first constituents and the second constituents and the optical density of the first constituents and the second constituents; f) determining a fluorescence value for each the first constituents and second constituents using the image signals; g) determining an optical density value for each of the first constituents and second constituents, which optical density is a function of the colorant absorbed by the constituents, using the image signals; and h) identifying the first constituents and the second constituents using the determined fluorescence and optical density values. | 09-24-2009 |
20110059481 | METHOD AND APPARATUS FOR DETERMINING RED BLOOD CELL INDICES OF A BLOOD SAMPLE UTILIZING THE INTRINSIC PIGMENTATION OF HEMOGLOBIN CONTAINED WITHIN THE RED BLOOD CELLS - A method for the determination of the red blood cell indices including the volume, and hemoglobin content and concentration for individual red blood cells, as well as red blood cell population statistics, including total number of red blood cells present in the sample, and mean values for each of the aforementioned indices within a substantially undiluted blood sample is provided. | 03-10-2011 |
20110149061 | METHOD AND APPARATUS FOR IDENTIFYING RETICULOCYTES WITHIN A BLOOD SAMPLE - A method and apparatus for identifying reticulocytes within a blood sample is provided. The method includes the steps of: a) depositing the sample into an analysis chamber adapted to quiescently hold the sample for analysis, and the chamber has a known or determinable height extending between the interior surfaces of panels, which height is such that at least one red blood cell, or an aggregate of red blood cells, within the sample contacts both of the interior surfaces; b) admixing a supravital dye with the sample, which dye is operable to cause reticulin to fluoresce when excited by light of one or more predetermined wavelengths; c) imaging the sample using light that includes the one or more predetermined wavelengths that cause reticulin to fluoresce; d) imaging the sample using light that is absorbed by hemoglobin to produce values of optical density on a per image unit basis; and e) identifying reticulocytes within the sample using the image of the sample created with light that causes the dyed reticulin to fluoresce, and using the per image unit optical density values. | 06-23-2011 |
20110230740 | METHOD AND APPARATUS FOR DETERMINING THE HEMATOCRIT OF A BLOOD SAMPLE UTILIZING THE INTRINSIC PIGMENTATION OF HEMOGLOBIN CONTAINED WITHIN THE RED BLOOD CELLS - A method for determining the hematocrit of a blood sample is provided that includes the steps of: 1) depositing the sample into an analysis chamber adapted to quiescently hold the sample for analysis, the chamber defined by the interior surfaces of first and second panels and a height extending there between, wherein both panels are transparent, and the height is such that at least some of the red blood cells within the sample contact both interior surfaces of the panels and one or more lacunae within the quiescent sample extend between the interior surfaces; 2) imaging at least a portion of the quiescent sample, which sample portion contains the red blood cells and one or more lacunae to determine an optical density of the imaged portion of the sample on a per image unit basis; 3) selecting and averaging the optical density values of the image units aligned with the red blood cells contacting the interior surfaces, and assigning an upper boundary value of 100% to the average optical density value of those image units; 4) selecting the optical density values of the image units aligned with the one or more lacunae, and assigning a lower boundary value of 0% to the optical density values of those image units; and 5) determining the hematocrit of the sample by assigning relative values to the optical density value of each image of the imaged sample portion as a function of the upper and lower boundary values, and averaging the relative values. | 09-22-2011 |
20110256573 | METHOD AND APPARATUS FOR DETERMINING AT LEAST ONE HEMOGLOBIN RELATED PARAMETER OF A WHOLE BLOOD SAMPLE - A method and apparatus for determining at least one hemoglobin related parameter of a whole blood sample is provided. The method includes the steps of: a) depositing the sample into an analysis chamber adapted to quiescently hold the sample for analysis, the chamber defined by an interior surface of a first panel, and an interior surface of a second panel, and the chamber has a height extending between the interior surfaces of the panels, wherein the chamber is configured to increase the oxygenation state of the sample to a substantially oxygenated state within a predetermined amount of time after entry into the chamber; b) imaging the at least one red blood cell contacting the interior surfaces, and producing image signals; c) determining an optical density of at least a portion of the imaged red blood cell contacting both interior surfaces; and d) determining the at least one hemoglobin related parameter of the red blood cell contacting the interior surfaces, using the determined optical density and a molar extinction coefficient for oxygenated hemoglobin. | 10-20-2011 |
20120021456 | METHOD AND APPARATUS FOR DETECTING THE PRESENCE OF ANISOTROPIC CRYSTALS AND HEMOZOIN PRODUCING PARASITES IN LIQUID BLOOD - An apparatus and method for detecting the presence of anisotropic crystals within a biologic fluid sample is provided. The method includes the steps of: a) disposing the sample within a sample chamber in a sample layer having a height riot greater than about fifteen microns (15μ); b) disposing the sample layer within the sample chamber between a polarizing filter and an analyzing filter; a) disposing the polarizing filter, sample chamber, and analyzing filter in a configuration relative to a light source such that polarized light passes through the sample, and subsequently impinges on the analyzing filter; and d) wherein polar orientations of the polarizing filter and the analyzing filter are such that the polarized light will not pass through the analyzing filter, and light passing through an anisotropic crystal disposed within the sample will pass through the analyzing filter and appear as a point of light. | 01-26-2012 |
20120099108 | METHOD AND APPARATUS FOR DETERMINING A FOCAL POSITION OF AN IMAGING DEVICE ADAPTED TO IMAGE A BIOLOGIC SAMPLE - A method and apparatus for focusing a device for imaging a biologic sample is provided. A method aspect includes the steps of: disposing lenslets within a biologic sample, which lenslets have a height and a refractive index, which refractive index is different from that of the sample, wherein one or both of the imaging device and the sample are relatively locatable so a focal position of the imaging device can be moved along the height of the lenslets; imaging a portion of the sample including lenslets using transmittance at one or more wavelengths; determining an average light transmittance intensity of the sample at the wavelengths; determining an average light transmittance intensity of a region of each lenslet at the wavelengths; and determining the focal position of the imaging device using the average light transmittance intensity of the sample and the average light transmittance intensity of the region of the lenslets. | 04-26-2012 |
20120149118 | APPARATUS AND METHOD USING ANTI-ADSORPTION AGENT TO FACILITATE SAMPLE MIXING AND ANALYSIS - An apparatus and method for analyzing a biological fluid sample is provided. The method includes the steps of: a) providing an analysis cartridge having a channel and an analysis chamber, wherein the channel is in fluid communication with the analysis chamber and includes at least one hydrophobic interior wall surface; b) admixing one or more anti-adsorption agents with fluid sample disposed within the channel, wherein the anti-adsorption agents are operable to inhibit adsorption of fluid sample onto the interior wall surface of the channel; c) moving the fluid sample into the analysis chamber; and d) analyzing the sample within the analysis chamber. | 06-14-2012 |
20120164682 | METHOD AND APPARATUS FOR ANALYZING INDIVIDUAL CELLS OR PARTICULATES USING FLUORESCENT QUENCHING AND/OR BLEACHING - A method for analyzing a blood sample residing within an analysis chamber, which sample has one or more first and second constituents, which constituents are different from one another. The method includes the steps of: a) imaging the sample containing the first and second constituents, which sample is mixed with a colorant that causes the first and second constituents to fluoresce upon exposure to light, and which colorant is also operative to absorb light, the imaging produces image signals representative of fluorescent emissions from the sample and optical density of the sample; b) determining one or more values representative of fluorescent emission from the first and second constituents; c) determining one or more values representative of optical density for the first and second constituents; and d) distinguishing the first constituents from the second constituents using the fluorescent emission representative values and the optical density representative values. | 06-28-2012 |
20120164719 | METHOD AND APPARATUS FOR ANALYZING INDIVIDUAL CELLS OR PARTICULATES USING FLUORESCENT QUENCHING AND/OR BLEACHING - A method for analyzing a blood sample is provided that includes the steps of: providing a blood sample having one or more of each first and second constituents; admixing a colorant with the sample, which colorant is operative to cause the first constituents and second constituents to fluoresce and absorb light; illuminating at least a portion of the sample; e) imaging a portion of the sample; determining a fluorescence value for each the first constituents and second constituents; determining an optical density value for each of the first constituents and second constituents; and identifying the first constituents and the second constituents using the determined fluorescence and optical density values. | 06-28-2012 |
20120195489 | METHOD AND APPARATUS FOR DETERMINING THE HEMATOCRIT OF A BLOOD SAMPLE UTILIZING THE INTRINSIC PIGMENTATION OF HEMOGLOBIN CONTAINED WITHIN THE RED BLOOD CELLS - A method and apparatus for determining the hematocrit of a blood sample disposed within an analysis chamber, the method comprising the steps of: a) imaging at least a portion of the sample that contains one or more red blood cells contacting the interior surfaces of the chamber and one or more areas void of red blood cells; b) determining a representative optical density value for a plurality of image units optically aligned with portions of the red blood cells that are in contact the interior surfaces, and assigning an optical density first boundary value to those image units; c) determining a representative optical density value of a plurality of image units optically aligned with the one or more regions of the sample devoid of red blood cells, and assigning a second optical density boundary value to those image units; and d) determining the hematocrit of the sample. | 08-02-2012 |
20120219457 | BIOLOGIC FLUID ANALYSIS CARTRIDGE WITH SAMPLE HANDLING PORTION AND ANALYSIS CHAMBER PORTION - A biological fluid analysis cartridge is provided. In certain embodiments, the cartridge includes a base plate extending between a sample handling portion and an analysis chamber portion. A handling upper panel is attached to the base plate within the sample handling portion. A collection port is at least partially formed with the handling upper panel. An initial channel and a secondary channel are formed between the handling upper panel and the base plate. The collection port and initial and secondary channels are in fluid communication with one another. A chamber upper panel is attached to the base plate within the analysis chamber portion. At least one analysis chamber is formed between the chamber upper panel and the base plate. The secondary channel and the analysis chamber are in fluid communication with one another. | 08-30-2012 |
20130029373 | METHOD AND APPARATUS FOR ANALYZING INDIVIDUAL CELLS OR PARTICULATES USING FLUORESCENT QUENCHING AND/OR BLEACHING - A method for analyzing a blood sample is provided that includes the steps of: providing a blood sample having one or more of each first and second constituents; admixing a colorant with the sample, which colorant is operative to cause the first constituents and second constituents to fluoresce and absorb light; illuminating at least a portion of the sample; e) imaging a portion of the sample; determining a fluorescence value for each the first constituents and second constituents; determining an optical density value for each of the first constituents and second constituents; and identifying the first constituents and the second constituents using the determined fluorescence and optical density values. | 01-31-2013 |
20130170729 | METHOD AND APPARATUS FOR IDENTIFYING RETICULOCYTES WITHIN A BLOOD SAMPLE - A method and apparatus for identifying reticulocytes within a blood sample is provided. The method includes the steps of: a) depositing the sample into an analysis chamber adapted to quiescently hold the sample for analysis, and the chamber has a known or determinable height extending between the interior surfaces of panels, which height is such that at least one red blood cell, or an aggregate of red blood cells, within the sample contacts both of the interior surfaces; b) admixing a supravital dye with the sample, which dye is operable to cause reticulin to fluoresce when excited by light of one or more predetermined wavelengths; c) imaging the sample using light that includes the one or more predetermined wavelengths that cause reticulin to fluoresce; d) imaging the sample using light that is absorbed by hemoglobin to produce values of optical density on a per image unit basis; and e) identifying reticulocytes within the sample using the image of the sample created with light that causes the dyed reticulin to fluoresce, and using the per image unit optical density values. | 07-04-2013 |
20140004554 | METHOD AND APPARATUS FOR DETERMINING AT LEAST ONE HEMOGLOBIN RELATED PARAMETER OF A WHOLE BLOOD SAMPLE | 01-02-2014 |
20140248647 | METHOD AND APPARATUS FOR ANALYZING INDIVIDUAL CELLS OR PARTICULATES USING FLUORESCENT QUENCHING AND/OR BLEACHING - A method for analyzing a blood sample is provided that includes the steps of: providing a blood sample having one or more of each first and second constituents; admixing a colorant with the sample, which colorant is operative to cause the first constituents and second constituents to fluoresce and absorb light; illuminating at least a portion of the sample; e) imaging a portion of the sample; determining a fluorescence value for each the first constituents and second constituents; determining an optical density value for each of the first constituents and second constituents; and identifying the first constituents and the second constituents using the determined fluorescence and optical density values. | 09-04-2014 |
20140368631 | METHOD AND APPARATUS FOR DETERMINING A FOCAL POSITION OF AN IMAGING DEVICE ADAPTED TO IMAGE A BIOLOGIC SAMPLE - A method and apparatus for focusing a device for imaging a biologic sample is provided. A method aspect includes the steps of: disposing lenslets within a biologic sample, which lenslets have a height and a refractive index, which refractive index is different from that of the sample, wherein one or both of the imaging device and the sample are relatively locatable so a focal position of the imaging device can be moved along the height of the lenslets; imaging a portion of the sample including lenslets using transmittance at one or more wavelengths; determining an average light transmittance intensity of the sample at the wavelengths; determining an average light transmittance intensity of a region of each lenslet at the wavelengths; and determining the focal position of the imaging device using the average light transmittance intensity of the sample and the average light transmittance intensity of the region of the lenslets. | 12-18-2014 |
20150030215 | METHOD AND APPARATUS FOR PRODUCING AN IMAGE OF UNDILUTED WHOLE BLOOD SAMPLE HAVING WRIGHT STAIN COLORATION - An apparatus and method for imaging a sample of substantially undiluted whole blood is provided. The method includes the steps of: providing a substantially undiluted whole blood sample admixed with at least one non-Wright stain colorant, which colorant is operable to differentially identify constituents containing cytoplasmic material; providing an analysis device having an analyzer with at least one processor, at least one sample illuminator, and at least one image sensor; creating an image of the sample using the analysis device; and using the analysis device to transform the image to a transformed image having a coloration recognizable as a Wright stained sample. | 01-29-2015 |