Abstract: This document provides methods and materials for enhancing the storage capabilities of red blood cell preparations. For example, methods and materials for using CO2 to store red blood cells in a manner that (a) reduces the level of glucose or 2,3-DPG consumption of or reduces the level of 2,3-DPG production by a red blood cell preparation, (b) reduces the level of lactate formation by a red blood cell preparation, and/or (c) reduces the pH level of a red blood cell preparation are provided. Such methods and materials can result in prolonging the useful lifespan of the red blood cells of the red blood cell preparation. This document also provides methods and materials involved in prolonging useful storage of platelet preparations. For example, methods and materials for storing platelets in a manner that reduces platelet metabolism, that preserves platelet function, and/or that reduces the risk of bacterial contamination are provided.

Abstract: A device and method for oxygenating blood is disclosed herein. The device includes a plurality of passive mixing elements that causes a fluid to mix as it flows through the device. The passive mixing elements continually expose new red blood cells to the portion of the flow channel where oxygenation can occur. Accordingly, in some implementations, the device and method uses less blood to prime the device and allows for the oxygenation of blood with a substantial shorter flow channel when compared to conventional oxygenation methods and devices.

Abstract: The present invention is directed to methods for assaying blood samples to quantitate the types of white blood cells present. In addition, the invention includes equipment that can be used for these methods. One feature of the methodology is the use of micro fluidic devices for the separation of white blood cells from red blood cells.

Abstract: A method is disclosed for filtering a protein in a liquid mixture in a manner that does not substantially damage or otherwise limit the recovery of the protein in the filtration filtrate. The method generally includes passing a liquid mixture containing a protein (e.g., an aqueous vWF mixture) through a filter while applying a counter pressure to the liquid mixture filtrate to accurately reduce and control the pressure differential across the filter. The disclosed method has the advantage that relatively high filtration flow rates can be achieved at relatively low pressure differentials, in contrast to high pressure differentials, which actually reduce the filtration flow rate of protein liquid mixtures. Further, the method can recover substantially all of the protein that is initially present in the liquid mixture.

Abstract: The present invention provides a method of cryopreserving sperm that have been selected for a specific characteristic. In a preferred embodiment, the method is employed to freeze sex-selected sperm. Although the cryopreservation method of the invention can be used to freeze sperm selected by any number of selection methods, selection using flow cytometry is preferred. The present invention also provides a frozen sperm sample that has been selected for a particular characteristic, such as sex-type. In preferred embodiments, the frozen sperm sample includes mammalian sperm, such as, for example, human, bovine, equine, porcine, ovine, elk, or bison sperm. The frozen selected sperm sample can be used in a variety of applications. In particular, the sample can be thawed and used for fertilization. Accordingly, the invention also includes a method of using the frozen selected sperm sample for artificial insemination or in vitro fertilization.

Abstract: A method of detecting one or more diseased blood cells in a blood sample includes introducing a blood sample into at least one inlet of a microfluidic device comprising one or more linear channels wherein each channel has a length and a cross-section of a height and a width defining an aspect ratio adapted to isolate diseased blood cells along at least one portion of the cross-section of the channel based on reduced deformability of diseased blood cells as compared to non-diseased blood cells, wherein diseased blood cells flow along a first portion of the channel to a first outlet and non-diseased blood cells flow along a second portion of the channel to a second outlet. The one or more channels can be adapted to isolate cells along portions of the cross-section of the channel based on cell size. In some embodiments, the one or more channels can be spiral channels.

Abstract: The current invention discloses methods to treat disease caused by virus infection, bacterial infection, parasites infection, autoimmune disease, disease caused by production of unwanted antibodies, sepsis as well as methods to treat cancer and methods for virus infection detection using blood purification method. The current invention provides a method to treat pathogen infection by inactivating the pathogens in the blood. During the treatment, blood is withdrawn from a patient and is separated into its plasma and cellular components. The plasma portion is treated with physical means such as UV radiation to inactivate the pathogens inside and then is returned to the patient. The current invention also provide a method to treat cancer especially to prevent tumor metastasis and tumor recurrence by removing and/or inactivating (e.g. killing) the circulating tumor cells (CTC) in the blood after removing the tumor or treating the tumor with therapeutical means.

Abstract: The invention is directed to methods to distinguish among different protein conformers of the same protein such as proteins which form amyloid deposits. Using the methods of the invention, one or more protein conformers in a sample can be detected, differentiated, and quantitated. An example of a protein which is known to exist in at least two conformations is the normal prion protein (PrPC) and its infectious isoform (PrPSc). The invention provides means to distinguish PrPC from PrPSc and allows quantitation of each individually, even when the conformers are present together in a mixture. Thus, the methods of the invention can provide important tools for human and animal health.

Abstract: Methods for reducing or eliminating biomaterial-induced procoagulant activity in blood subjected to extracorporeal treatment that exposes the blood to the biomaterial are disclosed. The methods involve treatment of the blood, or the extracorporeal biomaterial, or both, with a complement inhibitor to inhibit C5a/C5aR-mediated tissue factor formation in the blood.

Abstract: Described herein are kits for use in cryopreserving mammalian sperm including a composition that comprises a cryoprotectant; a membrane protectant that stabilizes or assists in stabilization of membranes of sperm; and monothioglycerol.

Abstract: Described herein is a composition that comprises a cryoprotectant; a membrane protectant that stabilizes or assists in stabilization of membranes of sperm; and a free radical scavenger (e.g., a reducing agent, an antioxidant).

Abstract: A semen extender composition is provided. The semen extender composition includes a sperm cell protecting amount of phospholipid, an effective amount of surfactant to reduce ice crystal formation during freezing of the composition; a carbohydrate, and a biological buffer to provide a semen extender use solution having a pH of between about 6.9 and about 7.5, and wherein the use solution exhibits an osmolality of about 250 mOsM to about 350 mOsM. Methods for manufacturing and using a semen extender composition are provided.

Abstract: The present invention relates to methods for preserving platelet. In one embodiment, the method includes the steps of mixing platelets with a platelet preservation composition to form a platelet preparation, storing the platelet preparation for a desired period of time, and removing the antiplatelet agent and the anticoagulant from the platelet preparation by diafiltration prior to transfusion of the platelets. The platelet preservation composition comprises an effective amount of an antiplatelet agent and an effective amount of an anticoagulant.

Abstract: Matrices for manipulation of biopolymers, including the separation, purification, immobilization and archival storage of biopolymers is disclosed.

Abstract: A method for concentrating and isolating nucleated cells, such as a maternal and fetal nucleated red blood cells (NRBC's), in a maternal whole blood sample. The invention also provides methods and apparatus for preparing to analyze and analyzing the sample for identification of fetal genetic material as part of prenatal genetic testing. The invention also pertains to methods and apparatus for discriminating fetal nucleated red blood cells from maternal nucleated red blood cells obtained from a blood sample taken from a pregnant woman.

Abstract: The inventive technology relates to methods and apparatus for reducing protein content in sperm cell extenders and may include one or more of the following features: techniques for reducing protein content in a sperm cell extender; techniques for reducing protein content in a cryoprotectant-containing B fraction of a sperm cell extender; techniques for preparing sperm cell extenders that do not require clarification; techniques for preparing low density gradient sperm cell extenders suitable for centrifugation; techniques for reducing protein content between individual steps in preparing a sperm cell extender, and techniques for establishing novel values of reduced protein content in sperm cell extenders.

Abstract: This application relates to a newly identified animal cell structure, the midbody scar. This structure is a remnant of the midbody that is retained by one daughter cell following cytokinesis and persists through multiple subsequent cell cycles. The midbody scar can be useful as a marker of dividing cells or of a cell's replicative age.

Abstract: Described herein is a composition that comprises a cryoprotectant; a membrane protectant that stabilizes or assists in stabilization of membranes of sperm; and a free radical scavenger (e.g., a reducing agent, an antioxidant).

Abstract: This invention discloses a substantially protein-free cell culture solution for assisted reproductive technologies and methods of use thereof.

Abstract: A tube and float system for use in separation and axial expansion of the buffy coat includes a transparent or semi-transparent, flexible sample tube and a rigid separator float having a specific gravity intermediate that of red blood cells and plasma. The float includes a main body portion of reduced diameter to provide a clearance gap between the inner wall of the sample tube and the float. One or more protrusions on the main body portion serve to support the flexible tube. During centrifugation, the centrifugal force causes the diameter of the flexible tube to expand and permit density-based axial movement of the float in the tube. The float further includes a pressure relief system to alleviate pressure build up in the trapped red blood cell blood fraction below the float, thereby preventing red blood cells from being forced into the annular gap containing the buffy coat layers.

Abstract: A first amount of sperm of a first animal and a second amount of sperm of a second animal of the same species, the first amount of sperm and the second amount of sperm sex-selected sperm of the same sex, useful in the in-vivo or in-vitro fertilization of an egg of a female animal of the same species of animal for the production of sex-selected embryos and sex-selected offspring.

Abstract: A method of sex sorting sperm is disclosed. The sperm may be stained with a DNA selective fluorescent dye, which fluoresces when excited, a dead quenching dye, which selectively quenches fluorescence emitted by the DNA selective fluorescent dye within the membrane of compromised sperm, and a split enhancing dye. The stained sperm may then sorted into one or more gender enriched subpopulations of viable sperm.

Abstract: The present invention relates to a new method for the preservation of blood platelets. In particular, the present invention provides a method which includes submitting the platelets to zeodration carried out at temperatures between 18° C. and 24° C. The dried platelets thus obtained can be preserved at room temperature for long period of time. The invention also provides kits and compositions for using the preserved platelets.

Abstract: The present invention provides compositions and methods for treating or preventing antibody mediated graft rejection and blood typing.

Abstract: This invention provides a method for concentrating and collecting small quantities of fetal nucleated red blood cells contained in the maternal blood. The method for concentrating and collecting nucleated red blood cells from the maternal blood comprises: (i) subjecting the maternal blood to a first density-gradient centrifugation and collecting a cell fraction containing nucleated red blood cells; (ii) treating the cell fraction containing nucleated red blood cells so as to selectively changes the density of the nucleated red blood cells from that of the white blood cells; and (iii) subjecting the treated cell fraction containing the nucleated red blood cells to a second density-gradient centrifugation so as to collect a fraction containing nucleated red blood cells.

Abstract: Whole blood is treated extracorporeally to remove substances contrary to health using mesoporous/microporous or macroporopus/microporous carbon in the form of beads or a channel monolith. The carbon may be the result of carbonising a mesoporous or macroporous phenolic resin. Substances contrary to health include externally introduced toxins such as bacterially derived staphylococcus enterotoxins A, B, TSST-1 or autologous, biologically active molecules with harmful, systemic effects when their activity is excessive or unregulated. Examples include the removal of inappropriate amounts of pro- or anti-inflammatory molecules and toxic mediators of systemic inflammatory response syndrome related to sepsis, cardio-pulmonary by-pass surgery, ischaemic reperfusioninjury; the removal of larger molecular weight and protein bound uremic toxins related to kidney and hepatic toxins related to liver failure and the removal of toxins relevant to biological and chemical warfare.

Abstract: The invention concerns a gem-difluorinated C-glycopeptide compound of formula (I) in which N is an integer between 1 and 5, R4=H, AA1, AA1-AA2 and R5=OH, AA1, AA1, AA2, with AA1, and AA2 are independents groups and represent amino acids with a non-functionalized side chain and R1, R2, R3 are independent groups and one of them is equal to formula (II), in which n is an integer between 3 and 4, Y, Y? are independent groups in which Y, Y?=H, OR, N3, NR?R?, SR??, where R=H, benzyl, trimethylsilyl, tert-butyldimethylsilyl, tert-butyldiphenylsilyl, acetate group, R?, R???H, alkyl, allyl, benzyl, tosylate group, C(?O)-alkyl, C(?O)?Bn, R??=H, alkyl, acetate group, R6 is notably a group H, CH3, CH2OH, CH2-Glycoside group, CH2-OGP in which GP is a protector group such as an alkyl, benzyl, trimethylsilyl, tert-butyldimethylsilyl, tertbutyldiphenylsilyl, acetate group,; and R7=OH, OGP?, NH2, N3, NHGP?, NGP?GP? in which GP? and GP? is or not a protector group such as an alkyl, benzyl, trimethylsilyl, tertbutyldimethyl

Abstract: Peptide-lipid constructs of the structure L-S-F are disclosed, where F is a peptide, S is a spacer covalently linking F to L via an oligomer of ethylene glycol, and L is a diacyl- or dialkyl-glycerolipid (including glycerophospholipids). The spacer ideally has 6 to 14 ethylene glycol repeats, corresponding to PEG with a molecular weight of approximately 250 to 600. Also disclosed is a method of detecting reactive antibodies in serum by contacting serum with cells modified to incorporate a peptide-lipid construct, where the peptide is an epitope of the antibody, and determining the degree of aggluthination of the cells.

Abstract: The present invention provides modified platelets having a reduced platelet clearance and methods for reducing platelet clearance. Also provided are compositions for the preservation of platelets. The invention also provides methods for making a pharmaceutical composition containing the modified platelets and for administering the pharmaceutical composition to a mammal to mediate hemostasis.

Abstract: The present invention relates to a method for the enrichment and/or isolation of target cells in a sample, which sample comprises red blood cells and/or platelets, comprising (a) filtering the sample through a filter element having a pore or mesh size of between 0.5 and 5 ?m, (b) contacting the cells retained by the filter element in step (a) with a separation surface, wherein said separation surface comprises affinity molecules which selectively bind to the target cells, (c) incubating the cells and the separation surface under conditions which allow for the binding of the affinity molecules to the target cells; and (d) separating the separation surface from any unbound cells and material.

Abstract: In one aspect of the present disclosure there is provided a method for preparing reticulocyte mimetics. In another aspect of the present disclosure there are provided reticulocyte mimetics obtained using the method. In yet another aspect of the present disclosure there is provided a whole blood reference control including the reticulocyte mimetics as provided. In still another aspect of the present disclosure there is provided a composition useful for preparing reticulocyte mimetics.

Abstract: A method for removing a photosensitizer from a platelet preservation composition is disclosed. The method comprises passing the platelet preservation composition through a tangential flow filtration device to separate the photosensitizer from the platelets in the platelet preservation composition.

Abstract: The present invention provides systems, apparatuses, and methods to detect the presence of fetal cells when mixed with a population of maternal cells in a sample and to test fetal abnormalities, e.g. aneuploidy. The present invention involves labeling regions of genomic DNA in each cell in said mixed sample with different labels wherein each label is specific to each cell and quantifying the labeled regions of genomic DNA from each cell in the mixed sample. More particularly the invention involves quantifying labeled DNA polymorphisms from each cell in the mixed sample.

Abstract: The invention features methods for separating cells from a sample (e.g., separating fetal red blood cells from maternal blood). The method begins with the introduction of a sample including cells into one or more microfluidic channels. In one embodiment, the device includes at least two processing steps. For example, a mixture of cells is introduced into a microfluidic channel that selectively allows the passage of a desired type of cell, and the population of cells enriched in the desired type is then introduced into a second microfluidic channel that allows the passage of the desired cell to produce a population of cells further enriched in the desired type. The selection of cells is based on a property of the cells in the mixture, for example, size, shape, deformability, surface characteristics (e.g., cell surface receptors or antigens and membrane permeability), or intracellular properties (e.g., expression of a particular enzyme).

Abstract: Systems and methods for isolating and characterizing various target materials of a suspension are disclosed. A suspension suspected of containing the target materials is added to a tube. A float with a specific gravity corresponding to that of the target material is inserted into the tube. The tube, float, and suspension are centrifuged together causing the various materials suspended in the suspension to separate into different layers along the axial length of the tube according to their specific gravities. The float and/or tube are configured to drive the various target materials to a region of space between the float and inner wall of the tube.

Abstract: This invention describes unique patterns of distribution of ganglioside GM1 in non-capacitated sperm and demonstrates that the pattern of distribution of GM1 undergoes changes that can be correlated with the process of capacitation and/or with acrosomal exocytosis. Accordingly, the present invention discloses a method for determining the ability of sperm to respond to capacitation and/or acrosomal exocytosis stimuli. The method comprises determination of distribution pattern for GM1. The method can be used for both diagnostic and predictive purposes when assessing male reproductive fitness, and can also be used to assess the effects of any agent or environment on sperm including cryoprotective agents and protocols, and contraceptive agents.

Abstract: An apparatus for separating components and a method of separating components using the apparatus are provided. The apparatus includes: a main chamber which contains a sample that is separated into a plurality of layers by a centrifugal force; a component separating chamber which is connected to the main chamber, and receives a specific layer including specific components among the plurality of layers; a first channel which connects the component separating chamber to the main chamber; and a first channel valve which is disposed in the first channel to control a liquid flowing through the first channel.

Abstract: Methods, systems and apparatus for preparing sperm for ICSI by combining selective enrichment benefits of sperm gradient preparation, sperm swim-up preparation and hyaluronan-binding for selection of mature sperm into a single processing unit. The single processing unit of the invention reduces operator labor steps and time, is efficient, easy to use, offers quick processing time and provides highly motile, mature and specific individual sperm that retain desired sperm characteristics selected by each individual selection principal that are ready for capture and use in ICSI.

Abstract: Stimulating tissue resident pluripotent stem cells in a manner that the respective subject (e.g., human) acts as its own sterile bioreactor for in vivo stem cell proliferation thus eliminating the need to isolate, cultivate, maintain, proliferate and release stem cells ex vivo. The stimulation mobilizes excess pluripotent stem cells into the peripheral vasculature where the pluripotent stem cells can either migrate to damaged tissues and/or be harvested by simple venipuncture, thus eliminating potential morbidity and mortality elicited from harvesting tissue from solid tissue sites. The pluripotent stem cells are separated from the blood by gravity sedimentation, after which the pluripotent stem cells can easily be aspirated from the white blood cells and red blood cells. Billions of pluripotent stem cells can be generated in this fashion for infusion/injection into the body, via the vasculature, and into the organ(s) in need of tissue repair and regeneration.

Abstract: The present invention relates to diuretic pharmaceutical compositions and methods and in particular to certain derivatives of the formula I: or a prodrug or pharmaceutically acceptable salt thereof; and a pharmaceutically acceptable carrier.

Abstract: Provided are a novel amidine derivative having an activated blood coagulation factor X inhibitory activity, a production method thereof, a production intermediate therefor, and a pharmaceutical composition containing the amidine derivative. An amidinoaniline derivative represented by the following formula (1-1) or a pharmaceutically acceptable salt thereof: <in the formula (1-1), each symbol is as defined in the Description>, and a pharmaceutical composition containing the amidinoaniline derivative or a pharmaceutically acceptable salt thereof.

Abstract: Disclosed are methods for the preservation and storage of living biological tissues, organs, and populations of isolated cells. Also disclosed are compositions and methods to permit biological samples (including e.g., cells, cell cultures, tissues, and organs) to be harvested from suitable donor animals, stored for prolonged periods under refrigerated, cryogenic, or near-freezing, and then transported and implanted into a site within the body of a selected recipient animal, all without significant loss of cellular viability, tissue integrity, and/or biochemical function of the stored biological sample.

Abstract: A method and system for processing reproductive cell samples and for sorting sperm with reduced levels and occurrences of DNA fragmentation compared to conventional sorting and processing methods, and for using reproductive cell and sperm cell samples with low levels of DNA fragmentation to improve viability of insemination samples fertility and success rates of assisted reproductive procedures, including artificial insemination, in vitro fertilization, intracytoplasmic injection, and other related techniques.

Abstract: The invention concerns methods of treating blood, blood products or physiologic fluid to maximize shelf life and/or minimizing transfusion related complications such as non-hemolytic transfusion reactions such as fever, transfusion-related acute lung injury (TRALI), transfusion associated dyspnea (TAD), and allergic reactions by removing undesirable molecules in the blood, blood product or physiologic fluid milieu through use of a sorbent.

Abstract: Methods for diagnosis and surveillance of complex multi-factorial disorders such as cancer by screening of easily accessible biomarkers are disclosed. Highly stable cell free Circulating Nucleic Acids (CNA) present as both RNA and DNA species have been discovered in the blood and plasma of humans. Correlations between tumor-associated genomic/epigenetic/transcriptional changes and alterations in CNA levels are strong predictors of the utility of this biomarker class as clinical indicators. Methods for using microRNAs (miRNAs) representing a class of naturally occurring small non-coding RNAs of 19-25 nt as markers that can associate their specific expression profiles with cancer development are disclosed. Methods for isolating plasma fractions for the study of miRNA biomarkers and for measurement of circulating miRNA levels are disclosed.

Abstract: A new blood unit cooling system was designed to cool blood rapidly to about 22° C. and maintain it at about that temperature, even in ambient temperature extremes, for several hours. The system incorporating a preferred eutectic solution including 98% 1-dodecanol, 1.5% myristyl alcohol and 0.5% 1-decanol (having, a melting point of about 23° C.) contained in a sealed flexible polymer layer, was used to cool whole blood-filled bags. The preferred design uses inner and outer containers, each made of transparent polyethylene sheets, where the inner compartments are filled with the solution and sealed, and then placed into each compartment in an outer container, wherein two compartments in the outer container are separated by a flattened and sealed portion of the polyethylene.

Abstract: Methods and devices for causing uptake of materials by cells, temporary using local chemical environment modification. The modification may be caused chemically by reducing pH. The uptake method is passive and does not require bioactivity of the cells.

Abstract: A system and methodology for the preservation of red blood cells is described in which red blood cells are oxygen or oxygen and carbon dioxide depleted, treated and are stored in an anaerobic environment to optimize preparation for transfusion. More particularly, a system and method for extended storage of red blood cells from collection to transfusion that optimizes red blood cells prior to transfusion is described.

Abstract: The invention relates to the field of blood coagulation. Novel oxazolidinone derivatives of the general formula (I) processes for their preparation and their use as medicinally active compounds for the prophylaxis and/or treatment of disorders are described.

Abstract: The invention relates to a method for detecting specific target-cells in a simple and time saving way, using paramagnetic particles, antibodies recognizing the Fc portions of target-cell associating antibodies and target-cell associating antibodies directed to specific antigen determinants in the target-cell membranes. Incubation of the cell suspension with a mild detergent and/or second set of antibodies or antibody fragments, prelabeled or not with fluorescent agents, metallocolloids, radioisotopes, biotincomplexes or certain enzymes allowing visualization, with dramatically increase the specificity of the method. The method can further be used for isolation of the target-cells by magnetic field application and kit for performing the method according to the invention is described.