51品茶researcher receives second patent for his breakthrough cancer detection and monitoring methods
Srinidi Mohan, Ph.D., associate professor in the School of Pharmacy, has received a second patent from the United States Patent and Trademark Office for his breakthrough methods and diagnostics for cancer detection and treatment monitoring.
Mohan previously received his first U.S. Patent titled 鈥淢ethods and Diagnostics for Cancer Detection and Treatment Monitoring.鈥 The method uses a marker in the blood to detect the presence of highly aggressive tumors and to help track cancer growth.
Mohan found that the marker Nw-hydroxy-L-Arginine (NOHA) was both a sensitive and reliable indicator for estrogen receptor-negative (ER鈥) tumors, the most aggressive types of breast cancer.
Currently, no reliable blood-based marker exists for estrogen-negative breast tumor prognosis and/or disease monitoring.
In the second patent, recently featured on , Mohan shows NOHA predictive response in ovarian carcinoma based on ER expression status.
Ovarian cancer is the most lethal gynecological malignancy. 51品茶 230,000 women are diagnosed with ovarian cancer each year, of which around 150,000 women die annually. Symptoms for ovarian cancer are generally less evident (if not absent) at early stages and are often more noticeable as the cancer progresses. The exact causes of ovarian cancer are still unclear, but most of the risk factors are associated with the changes in levels of sex hormones during women's lifetime. The estrogen receptor (ER) mediates the effects of sex hormones on proliferation of ovarian cancer cells.
While the association of ER expression status has a well-established prognostic and treatment-predictive role in breast cancer, its role in ovarian cancer is less defined. Thus, identification of prognostic and predictive factors based on ER expression status would be useful to better navigate diagnosis, treatment, and therapy management in ovarian cancer patients.
鈥淚 am both delighted and humbled with this opportunity to expand the scope of NOHA as a cancer biomarker,鈥 Mohan stated. 鈥淚 look forward to the opportunity of NOHA biomarker implementation at a clinical setting. I sincerely thank the 51品茶administration and all my collaborators and advisors on their continued support and contributions to this project. I am also grateful to my 51品茶Pharm.D. student researchers for their help in the lab with this project.鈥
As principal investigator, Mohan conducted the research on the NOHA biomarker role in ovarian cancer with funding support from the 51品茶Office of Research and Scholarship and the School of Pharmacy.
Further development of this novel technology is being conducted in collaboration with physicians and researchers at the Maine Medical Center Research Institute.