Abstract: The invention provides methods, compositions, and medical kits comprising a nitrite-reductase promoter, such as an allosteric modulator of hemoglobin, for use in treating medical disorders and preservation of blood products. In one aspect, the invention provides methods, compositions, and medical kits comprising an inorganic nitrite salt and a nitrite-reductase promoter, such as an allosteric modulator of hemoglobin, for use in treating medical disorders, such as cancer, cardiovascular disorders, ischemic conditions, hemolytic conditions, and bacterial infections. Exemplary inorganic nitrite salts include sodium nitrite and arginine nitrite. Exemplary allosteric modulators of hemoglobin described herein include alkyl-substituted and acyl-substituted di-nitroheterocycles.

Abstract: The invention provides methods, compositions, and medical kits comprising a nitrite-reductase promoter, such as an allosteric modulator of hemoglobin, for use in treating medical disorders and preservation of blood products. In one aspect, the invention provides methods, compositions, and medical kits comprising an inorganic nitrite salt and a nitrite-reductase promoter, such as an allosteric modulator of hemoglobin, for use in treating medical disorders, such as cancer, cardiovascular disorders, ischemic conditions, hemolytic conditions, and bacterial infections. Exemplary inorganic nitrite salts include sodium nitrite and arginine nitrite. Exemplary allosteric modulators of hemoglobin described herein include alkyl-substituted and acyl-substituted di-nitroheterocycles.

Abstract: The invention provides methods, compositions, and medical kits comprising a nitrite-reductase promoter, such as an allosteric modulator of hemoglobin, for use in treating medical disorders and preservation of blood products. In one aspect, the invention provides methods, compositions, and medical kits comprising an inorganic nitrite salt and a nitrite-reductase promoter, such as an allosteric modulator of hemoglobin, for use in treating medical disorders, such as cancer, cardiovascular disorders, ischemic conditions, hemolytic conditions, and bacterial infections. Exemplary inorganic nitrite salts include sodium nitrite and arginine nitrite. Exemplary allosteric modulators of hemoglobin described herein include alkyl-substituted and acyl-substituted di-nitroheterocycles.

Abstract: The present invention features colony-forming unit cells derived from the chorion of human placenta and describes compositions and methods for the uses of chorionic cells and their products for therapeutic purposes based upon production and release of multiple growth factors and cytokines by these cells stimulating tissue regeneration independent of engraftment, as well as differentiation into a specific cell type.

Abstract: The subject matter of this invention is a novel method to augment the process of obtaining populations of placental hematopoietic stem and progenitor cells for use in medical practices. A method of augmentation of stem cells collection from placenta is claimed comprising the steps of (a) infusing placental vessels cell preservation compound and a with a composition containing blockers of cell adhesion receptors, (b) incubating said placenta for a sufficient period of time, (c) placing placenta in a containment with sufficient intensity of electromagnetic or ultrasound field for a sufficient period of time; (d) eluting cell suspension from placental vessels, (e) collecting cell suspension and harvesting cells. Invention further claims a method of treatment a disease by means of administering therapeutic composition containing said placental-derived hematopoietic stem cells.

Abstract: A method of using Joule heating to regenerate nanowire based biosensors. The nanowire based biosensor contains various detection molecules, such as nucleic acids, bound to the surface of the nanowire. Binding of analyte nucleic acids to the detection molecules alters the electrical properties of the nanowire, producing a detectable signal. By passing a Joule heating effective amount of electrical current through the nanowire, the nanowire may be heated to a temperature sufficient to dissociate the bound analyte from the detection molecule, without damaging the detection molecules or the bond between the detection molecules and the nanowire surface. The Joule heated nanowires may thus be regenerated to an analyte-free “fresh” state and used for further sensing. In alternate embodiments, the specificity of the nanowire for a particular analyte may be modulated by using Joule heating to heat the nanowire to an intermediate temperature where some analytes bind and some do not.

Abstract: The present invention provides methods of cryopreserving stem and progenitor cells in a mammalian placenta; and methods of obtaining fetal stem and progenitor cells from a cryopreserved mammalian placenta. Cells obtained by carrying out the methods can be used in a variety of therapeutic applications.

Abstract: The subject matter of this invention is a novel method to augment the process of obtaining populations of placental hematopoietic stem and progenitor cells for use in medical practices. A method of augmentation of stem cells collection from placenta is claimed comprising the steps of (a) infusing placental vessels cell preservation compound and a with a composition containing blockers of cell adhesion receptors, (b) incubating said placenta for a sufficient period of time, (c) placing placenta in a containment with sufficient intensity of electromagnetic or ultrasound field for a sufficient period of time; (d) eluting cell suspension from placental vessels, (e) collecting cell suspension and harvesting cells. Invention further claims a method of treatment a disease by means of administering therapeutic composition containing said placental-derived hematopoietic stem cells.

Abstract: A method of using Joule heating to regenerate nanowire based biosensors. The nanowire based biosensor contains various detection molecules, such as nucleic acids, bound to the surface of the nanowire. Binding of analyte nucleic acids to the detection molecules alters the electrical properties of the nanowire, producing a detectable signal. By passing a Joule heating effective amount of electrical current through the nanowire, the nanowire may be heated to a temperature sufficient to dissociate the bound analyte from the detection molecule, without damaging the detection molecules or the bond between the detection molecules and the nanowire surface. The Joule heated nanowires may thus be regenerated to an analyte-free “fresh” state and used for further sensing. In alternate embodiments, the specificity of the nanowire for a particular analyte may be modulated by using Joule heating to heat the nanowire to an intermediate temperature where some analytes bind and some do not.

Abstract: The present invention provides methods of cryopreserving stem and progenitor cells in a mammalian placenta; and methods of obtaining fetal stem and progenitor cells from a cryopreserved mammalian placenta. Cells obtained by carrying out the methods can be used in a variety of therapeutic applications.

Abstract: The present invention features colony-forming unit cells derived from the chorion of human placenta and describes compositions and methods for the uses of chorionic cells and their products for therapeutic purposes based upon production and release of multiple growth factors and cytokines by these cells stimulating tissue regeneration independent of engraftment, as well as differentiation into a specific cell type.

Abstract: The invention is a method for analyzing immature reticulocytes for the presence of micronuclei. The method includes reticulocyte enrichment, fluorescent labeling, micronuclei staining, and analysis using single-laser flow cytometry. The invention also includes kits containing reagents to use in the method.

Abstract: An optically readable device is provided for use in an assay process, where the device includes a surface readable by an optical reading device and at least one binder located on the surface for exposure to a medium and configured to bind to a target entity that may be present in the medium. An optical reading can then read the target entity using appropriate software for reading, counting or otherwise analyzing the entities bound to the disk. The device may further be exposed to another medium that includes obstructions such as assay beads that are configured to bind to the bound target entities on the disk, so that their presence may be detected by the optical reading device.

Abstract: The invention is a method for analyzing immature reticulocytes for the presence of micronuclei. The method includes reticulocyte enrichment, fluorescent labeling, micronuclei staining, and analysis using single-laser flow cytometry. The invention also includes kits containing reagents to use in the method.