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Composition and Methods for Lung Cancer Diagnosis and Treatment

Clinical Area
Life & Health Sciences
Oncology
Diagnostics
Therapeutics
Biomarkers
Other
College
College of Medicine (COM)
Researchers
Croce, Carlo
Calin, George
Licensing Manager
Willson, Christopher
614-247-9303
Willson.62@osu.edu

T2006-008

The Need: Advancing Lung Cancer Detection and Treatment

Lung cancer continues to be a global health concern, accounting for the highest number of cancer-related deaths worldwide. In the United States, it is the leading cause of cancer mortality for both men and women, with a disheartening five-year survival rate of just 13% for all cases. Early detection remains a significant challenge, as symptoms often go unnoticed until the disease has reached an advanced stage. Despite considerable efforts, current diagnostic and treatment methods have not been entirely effective in combating this devastating disease. There is an urgent and critical need for improved technologies that can aid in the early detection and treatment of lung cancer.

The Technology: MicroRNA-Based Diagnostic and Therapeutic Approach

The innovative technology at hand focuses on microRNAs (miRNAs), a class of small, non-coding RNAs that play a crucial role in controlling gene expression. By identifying specific miRNAs associated with altered expression levels in lung cancer cells, this breakthrough technology offers novel methods and compositions for diagnosing, prognosticating, and treating lung cancer.

Commercial Applications:

  • Early Diagnosis: Enabling early detection of lung cancer by analyzing the level of miR gene products in patient samples, thereby facilitating timely intervention and improved outcomes.
  • Prognostic Assessment: Assessing the prognosis of lung cancer patients by measuring the expression levels of miR gene products associated with adverse prognoses, aiding in personalized treatment planning.
  • Therapeutic Intervention: Developing anti-lung cancer agents by identifying test agents that modulate the expression of specific miR gene products in lung cancer cells, offering potential new avenues for targeted therapies.

Benefits/Advantages:

  • Enhanced Survival Rates: With improved early detection methods, patients can receive treatment at a localized stage, significantly increasing the chances of survival and better disease management.
  • Personalized Treatment Strategies: Prognostic information based on miRNA expression profiles allows for tailored treatment plans, ensuring patients receive the most effective therapies.
  • Targeted Therapies: Identifying miRNAs associated with lung cancer enables the development of novel anti-cancer agents, leading to more precise and potentially less toxic treatments.