Abstract: Targeting agents are provided that have an affinity for aberrant cells and tissues. These agents are comprised of chelates, ligands, and/or particles combined with high atomic weight elements so that treatment with ionizing electromagnetic radiation (X-rays, or Gamma rays) results in a higher dose to aberrant cells and tissues than other cells and tissues of a host. The invention further provide methods to enhance the tumor to normal tissue damage ratio by concentrating agents with high atomic number elements to the site of the tumor prior to administering radiotherapy. The result is greater therapeutic efficacy with fewer side effects. These compounds also permit diagnostic uses in combination with the therapeutic use.

Abstract: Contrast agents developed specifically for x-ray diagnostics provide dose-enhanced radiotherapy and radiosurgery. The presence of heavy elements, for example, gold or iron, from these contrast agents, even small quantities, leads to a major dose increase in target tissue when combined with in vivo calibration of the amount of contrast agent. The technique can also be used in combination with other techniques, such as focused x-rays, to achieve further enhancement of therapeutic ratio. The technique is enhanced by employing oil-based contrast agents, which will remain in the target much longer than conventional agents. Through optimization of the equipment it is possible to achieve very large ratios of dose in target to dose in healthy tissue.

Abstract: Contrast agents developed specifically for x-ray diagnostics provide dose-enhanced radiotherapy and radiosurgery. The presence of heavy elements, for example, gold or iron, from these contrast agents, even small quantities, leads to a major dose increase in target tissue when combined with in vivo calibration of the amount of contrast agent. The technique can also be used in combination with other techniques, such as focused x-rays, to achieve further enhancement of therapeutic ratio. The technique is enhanced by employing oil-based contrast agents, which will remain in the target much longer than conventional agents. Through optimization of the equipment it is possible to achieve very large ratios of dose in target to dose in healthy tissue.

Abstract: X-ray radiation from conventional electron-impact x-ray sources can be focused to very high intensity using a curved array of silicon wafers or other crystals having a spiral shape. This optic is of use for high-speed radiation treatment, radiosurgery, and radiotherapy.

Abstract: A new class of nucleic acid compounds, referred to as nucleic acid ligands, have been shown to exist that have a specific binding affinity for three dimensional molecular targets, including cell surface macromolecules. The nucleic acid ligands are identified by the method of the invention referred to as the Systematic Evolution of Ligands by EXponential enrichment (SELEX), wherein a candidate mixture of nucleic acids are iteratively enriched and the high affinity nucleic acids are amplified for further partitioning. The high affinity nucleic acid ligands are useful in capturing target cells.

Abstract: This invention discloses high-affinity oligonucleotide ligands to complex tissue targets, specifically nucleic acid ligands having the ability to bind to complex tissue targets, and the methods for obtaining such ligands. Tissue targets comprise cells, subcellular components, aggregates or cells, collections of cells, and higher ordered structures. Specifically, nucleic acid ligands to red blood cells ghosts, glioblastomas, and lymphomas are described.

Abstract: This invention discloses high-affinity oligonucleotide ligands to complex tissue targets, specifically nucleic acid ligands having the ability to bind to complex tissue targets, and the methods for obtaining such ligands. Tissue targets comprise cells, subcellular components, aggregates or cells, collections of cells, and higher ordered structures. Specifically, nucleic acid ligands to red blood cells ghosts, glioblastomas, and lymphomas are described.

Abstract: This invention discloses high-affinity oligonucleotide ligands to complex tissue targets, specifically nucleic acid ligands having the ability to bind to complex tissue targets, and the methods for obtaining such ligands. Tissue targets comprise cells, subcellular components, aggregates or cells, collections of cells, and higher ordered structures. Specifically, nucleic acid ligands to red blood cells ghosts, glioblastomas, and lymphomas are described.

Abstract: This invention discloses high-affinity oligonucleotide ligands to complex tissue targets, specifically nucleic acid ligands having the ability to bind to complex tissue targets, and the methods for obtaining such ligands. Tissue targets comprise cells, subcellular components, aggregates or cells, collections of cells, and higher ordered structures. Specifically, nucleic acid ligands to red blood cells ghosts, glioblastomas, and lymphomas are described.