A vitreous composition according to Table (I) is described. Continuous vitreous fibers are obtained by downdrawing said molten composition, with a length ranging from millimeters to kilometers and diameters ranging from 2 μm to 3 mm. The fibers are covered with collagen and form vitreous fabrics. The fabrics form articles with a variety of medical uses.

The present invention provides a stabilized hypohalous acid solution (or formulation thereof), which may be conveniently packaged for sale, or stored for later use on demand. The invention further provides methods of making the stabilized hypohalous acid solution, as well as methods of use for disinfecting mammalian tissue, including wounds and burns, disinfecting or cleansing surfaces, or treating and/or preserving food products and cut flowers, among other uses.

Composition, preferably, in the form of capsules or chewable wafers in quantities suitable for relieving the symptoms of fibromyalgia comprise formulations of phospholipids, specifically identified concentrations of phosphatidylglycerol, phosphatidic acid, phosphatidylethanolamine, phosphatidylcholine, glycolipids and phosphatidylserine along with inulin and other desirable active ingredients are described.

Composition, preferably, in the form of capsules or chewable wafers in quantities suitable for relieving the symptoms of fibromyalgia comprise formulations of phospholipids, specifically identified concentrations of phosphatidylglycerol, phosphatidic acid, phosphatidylethanolamine, phosphatidylcholine, glycolipids and phosphatidylserine along with inulin and other desirable active ingredients are described.

Methods for processing and or removing organic residuals and or impurities from a solgel-derived bioactive glass-ceramic and compositions comprising solgel-derived bioactive glass-ceramics processed using these methods, are described.

Methods for processing and or removing organic residuals and or impurities from a solgel-derived bioactive glass-ceramic and compositions comprising solgel-derived bioactive glass-ceramics processed using these methods, are described.

Methods for processing and or removing organic residuals and or impurities from a solgel-derived bioactive glass-ceramic and compositions comprising solgel-derived bioactive glass-ceramics processed using these methods, are described.

Method and apparatus for monitoring health as related to immune system function, and for measuring the effects of toxins and other stresses. A method for pre-screening drugs for the pharmaceutical pipeline. A method for using an Immunogram as a research tool. A method for preparing compounds or drugs for treatment, therapy, or cure of diseases.

Method and apparatus for monitoring health as related to immune system function, and for measuring the effects of toxins and other stresses. A method for pre-screening drugs for the pharmaceutical pipeline. A method for using an Immunogram as a research tool. A method for preparing compounds or drugs for treatment, therapy, or cure of diseases.

Iron garnet nanoparticles and or iron garnet particles containing various activatable nuclides, such as holmium-165 (.sup.165Ho) and dysprosium-164 (.sup.164Dy), are disclosed in this application. The iron garnet (e.g., HoIG and DyIG) nanoparticles and iron garnet particles can prepared using hydroxide co-precipitation methods. In some embodiments, radiosensitizers can be loaded on radioactive magnetic nanoparticles or radioactive iron garnet particles and, optionally, coated with suitable lipid bilayers. Methods of using the disclosed nanoparticles and particles for mediating therapeutic benefit in diseases responsive to radiation therapy are also provided. Another aspect of the invention provides films, electrospun fabrics or bandage coverings for the delivery of radiation to the site of a skin lesion amenable to treatment with radiation (e.g., skin cancers or psoriasis).