ChemGenex Pharmaceuticals has announced that it has filed for patent protection for a further five novel depression-associated gene targets discovered by its depression and anxiety research group.
Elan Corporation and Wyeth Pharmaceuticals have announced that the United States Patent and Trademark Office recently issued Neuralab Limited, a subsidia
Vitro Diagnostics has announced the development of new methods for the growth and development of human pancreatic beta islets (Islets of Langerhans) and the filing of a new patent application with t
Competitive Technologies announced today that patent number 6,808,561 has been issued by the US Patent Office for Dr. Brian R. Genge's nanotechnology bone biomaterial developed at the Universi
Patent litigation remains the most commonly used generic defense strategy among pharmaceutical companies. 71% of drug companies have used legal battles to defend their patents in the past three years, according to research from pharmaceutical business
Morphotek announced today the issuance of United States Patent 6,808,894 covering the generation of genetically enhanced antibody producer cell lines. The issued patent covers the use of the
Hydroderm announced today that after years of clinical research, Hydroderm's exclusive Collagen Infusion Delivery System was granted a U.S. patent. The system delivers whole molecules of mar
Lorus Therapeutics today announced that its wholly owned subsidiary, GeneSense Technologies Inc., has been allowed a patent by the Canadian Patent Office entitled "Antitumor Antisense Sequences Dir
Morphotek announced today the issuance of United States Patent 6,825,038 covering the regulation of mismatch repair (MMR), a powerful process for generating functional diversity in mammalian cells,
Biolase Technology today announced that it has been granted a new U.S. patent protecting key areas related to its laser pulse technology. U.S. Patent No. 6,821,272, granted by the U.S. Patent
The role of BNO69 as a target for inhibiting angiogenesis (blood vessel formation) was published late last year in the prestigious scientific journal Proceedings of the National Academy of Sciences USA (PNAS) and more recently in the scientific journal Physiological Genomics. Recent clinical successes with drugs which inhibit angiogenesis, a key factor in the growth of solid cancers, have intensified the interest of pharmaceutical companies in this area.
More recent findings indicate that BNO69 and molecules that silence its expression may have therapeutic utility in directly targeting cancer cells. Cell-based assays demonstrated that BNO69 silencing molecules curtail the tumorigenic behaviour exhibited by a number of tumour cell types, including, breast and colon cancer. Previously reported animal studies have shown that molecules which silence BNO69 have a profound effect on tumour growth and that BNO69 is potentially an effective drug target for treating breast cancer. In those studies, breast cancer cells that were treated with BNO69 gene-silencing molecules showed a significantly reduced capacity in forming solid tumours in mice. Solid tumours arising from cells treated with BNO69 silencing molecules were over 75% smaller compared to tumours arising from untreated cells. Bionomics has confirmed this data in repeat studies with observed tumour size reductions as high as 94%.
http://www.bionomics.com.au/