52-24-4

Articles about 52-24-4

Method for preparing thiotepa

The invention provides a method for preparing thiotepa. The method comprises the following steps: cooling ethylenimine and an organic solvent to a temperature of 15-17 DEG C, dropping an organic solvent of trihalothiophosphorus, dropping an acid-binding agent when the trihalothiophosphorus is dropped to reach a scheduled quantity Y of 49%, maintaining the temperature of 15-17 DEG C, and reacting for 30-45 minutes; filtering, performing reduced pressure distillation on the filtrate to remove the organic solvent so as to obtain the residue, and purifying, so as to obtain the thiotepa. The raw materials and reagent used in the preparation method provided by the invention are cheap and readily available, the produced three wastes are less, and the method is simple in operation, high in yield and suitable for industrial production.

THERAPEUTIC FOR HEPATIC CANCER

A novel pharmaceutical composition for treating or preventing hepatocellular carcinoma and a method of treatment are provided. A pharmaceutical composition for treating or preventing liver cancer is obtained by combining a chemotherapeutic agent with an anti-glypican 3 antibody. Also disclosed is a pharmaceutical composition for treating or preventing liver cancer which comprises as an active ingredient an anti-glypican 3 antibody for use in combination with a chemotherapeutic agent, or which comprises as an active ingredient a chemotherapeutic agent for use in combination with an anti-glypican 3 antibody. Using the chemotherapeutic agent and the anti-glypican 3 antibody in combination yields better therapeutic effects than using the chemotherapeutic agent alone, and mitigates side effects that arise from liver cancer treatment with the chemotherapeutic agent.

Anti-Claudin 3 Monoclonal Antibody and Treatment and Diagnosis of Cancer Using the Same

Monoclonal antibodies that bind specifically to Claudin 3 expressed on cell surface are provided. The antibodies of the present invention are useful for diagnosis of cancers that have enhanced expression of Claudin 3, such as ovarian cancer, prostate cancer, breast cancer, uterine cancer, liver cancer, lung cancer, pancreatic cancer, stomach cancer, bladder cancer, and colon cancer. The present invention provides monoclonal antibodies showing cytotoxic effects against cells of these cancers. Methods for inducing cell injury in Claudin 3-expressing cells and methods for suppressing proliferation of Claudin 3-expressing cells by contacting Claudin 3-expressing cells with a Claudin 3-binding antibody are disclosed. The present application also discloses methods for diagnosis or treatment of cancers.

Particles with improved solubilization capacity

A particle is disclosed that comprises a first volume of hydrophobe-rich material with tunable dissolution and solubilization characteristics and a distinct second volume of nanostructured nonlamellar liquid crystalline material, said second volume containing said first domain and being capable of being in equilibrium with said first volume. Preferably, the nanostructured nonlamellar liquid crystalline material is capable of being in equilibrium with a polar solvent or a water-immiscible solvent or both.

Soluble phosphorylated glucan: methods and compositions for treatment of neoplastic diseases

A new class of soluble phosphorylated glucans is described as well as the process for making the same. According to one embodiment, the soluble phosphorylated glucan is derived from the yeast Saccharomyces cerevisiae. The soluble phosphorylated glucans are useful for prophylactic and therapeutic applications against neoplastic, bacteria, viral, fungal and parasitic diseases. The soluble phosphorylated glucans are used either alone or in combination with a known antimicrobial agent for prophylactic and therapeutic antimicrobial applications. Additionally, they may be administered either alone or as a non-toxic adjuvant, in combination with chemotherapy. The soluble phosphorylated glucans are also useful for stimulating macrophage cells, either in vivo or in vitro, to produce a cytotoxic/cyctostatic factor effective against cancer cells.

Method of treating nausea and vomiting with certain substituted-phenylalkylamino (and aminoacid) derivatives and other serotonin depleting agents

A method for the treatment of emesis in a mammal, which method comprises administering to said mammal an emesis inhibiting amount of a compound which depletes serotonin in the brain of mammals; among which are compounds having the formula: STR1 wherein, R is selected from hydrogen, loweralkyl, trifluoromethyl, carboxyl, or loweralkoxycarbonyl; R1 and R2 are hydrogen or loweralkyl; Z is trifluoromethyl or halogen; the optical isomers and pharmaceutically acceptable salts thereof; two of the preferred compounds of the invention are fenfluramine and norfenfluramine.

Amino acid and hydroxyamino acid transporter compounds for therapeutic applications, process and use

Amino acid and hydroxyamino acid transporter compounds are provided, in which an amino acid or hydroxyamino acid as a carrier is linked via an ester linkage to a therapeutic compound, and having one of the general formulae: in which AA represents the amino acid or hydroxyamino acid, HAA represents the hydroxyamino acid, and Z1 and Z2 represent a therapeutic compound, or a linking compound attached to COOH or OH of the hydroxyamino acid and to the therapeutic compound, as well as a process for preparing the same, and a process for administration of the same to animals, to obtain the benefit of the therapeutic effect of the therapeutic compound.