Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles. The nanoparticles are non-magnetic, not iron oxide and not polyacrylamide. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier.

Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles. The nanoparticles are non-magnetic, not iron oxide and not polyacrylamide. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier.

Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles, and optionally containing gadolinium. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier. The composition enhances the effectiveness of radiation therapy, enhancing contrast in X-ray imaging techniques, and when gadolinium is present, provide cancer selective MRI contrast agents.

Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles, and optionally containing gadolinium. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier. The composition enhances the effectiveness of radiation therapy, enhancing contrast in X-ray imaging techniques, and when gadolinium is present, provide cancer selective MRI contrast agents.

Abstract: A micelle, comprises a first phospholipid, a second phospholipid, a targeting agent, conjugated to the first phospholipid, a perfluorocarbon, and a therapeutically active compound. The first phospholipid and the second phospholipid form a shell enclosing the perfluorocarbon and the therapeutically active compound. The targeting agent comprises an anti-nucleolin agent, and the therapeutically active compound comprises a chemotherapeutic agent and/or a cytotoxic agent. An emulsion may be formed, comprising a plurality of the micelles, and continuous aqueous phase. A pharmaceutical composition for treating cancer may be prepared, comprising the emulsion, and a pharmaceutically acceptable carrier. A method of treating cancer includes administering an effective amount of the pharmaceutical composition to a patient in need thereof.

Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles, and optionally containing gadolinium. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier. The composition enhances the effectiveness of radiation therapy, enhancing contrast in X-ray imaging techniques, and when gadolinium is present, provide cancer selective MRI contrast agents.

Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles. The nanoparticles are non-magnetic, not iron oxide and not polyacrylamide. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier.

Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles. The nanoparticles are non-magnetic, not iron oxide and not polyacrylamide. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier.

Abstract: Provided herein are methods for predicting efficacy of a DNA (cytosine-5)-methyltransferase 1 (DNMT1) inhibitor treatment in a subject having a cancer, methods of identifying a subject having a cancer that is more likely to respond to a DNMT1 inhibitor treatment, and methods of selecting a treatment for a subject having a cancer that include determining a level of SOX9 in a sample containing cells from a subject having a cancer. Also provided are methods of treating a subject having a cancer that include selectively administering a DNMT1 inhibitor to a subject having cancer determined to have an elevated level of SOX9 in a sample containing cells from the subject compared to a reference level. Also provided are antibodies and antigen-binding antibody fragments that specifically bind to SOX9, and nucleic acid sequences that contain at least 10 nucleotides complementary to a contiguous sequence present in a SOX9 nucleic acid for use in these methods.

Abstract: Provided herein are methods for predicting efficacy of a DNA (cytosine-5)-methyltransferase 1 (DNMT1) inhibitor treatment in a subject having a cancer, methods of identifying a subject having a cancer that is more likely to respond to a DNMT1 inhibitor treatment, and methods of selecting a treatment for a subject having a cancer that include determining a level of SOX9 in a sample containing cells from a subject having a cancer. Also provided are methods of treating a subject having a cancer that include selectively administering a DNMT1 inhibitor to a subject having cancer determined to have an elevated level of SOX9 in a sample containing cells from the subject compared to a reference level. Also provided are antibodies and antigen-binding antibody fragments that specifically bind to SOX9, and nucleic acid sequences that contain at least 10 nucleotides complementary to a contiguous sequence present in a SOX9 nucleic acid for use in these methods.

Abstract: A composition comprises an anti-nucleolin agent conjugated to nanoparticles. The nanoparticles are non-magnetic, not iron oxide and not polyacrylamide. Furthermore, a pharmaceutical composition for treating cancer comprises a composition including an anti-nucleolin agent conjugated to nanoparticles, and a pharmaceutically acceptable carrier.

Abstract: A novel swimming pool deck drainage system and expansion joint that are adapted to be cast into a concrete pool deck surface. The drainage system is designed to properly drain water from pool overflow and rain water from the decking while enhancing the aesthetics of the swimming pool deck. The drainage system provides an effective drainage for pool decks and effectively collects and carries water away quickly from pool decks and other patio areas. The joint system protects against cracking and buckling of the concrete deck surface. The decorative swimming pool joint and drainage systems are formed using a co-extrusion process. The drain and joint systems are made from an exterior grade of PVC. While the drain and joint components are being extruded, a cap stock made from ASA (weatherable ABS) material is extruded and fused into the top of the drain and joint. The cap stock material includes a base color and seed resin mixed with the ASA to provide a wood grain appearance.

Abstract: A bituminous water vapor retarder is disclosed of the type which can be used under concrete slabs in contact with soil or granular fill. The vapor barrier is a multi-ply weather coated permanently bonded semi-flexible bituminous core board composed of the homogeneous high melt point bituminous material in combination with an exclusive core suspended midpoint in the board. This core is sealed under heat and pressure between liners of asphalt and impregnated felt and a glass mat liner. An asphalt weather coat is applied to the glass mat liner and covered with a polyethylene anti-stick sheet.

Abstract: A system that reduces worker exposure during coke drum unheading and cutting operations and that reduces risk to workers also provides a capacity increase in that the time a coke drum is not being filled is reduced. This system employs a containment shield that safely permits drainage through the bottom head and contains water and coke avalanches.