WAKEFIELD, Mass.--(BUSINESS WIRE)--Cellaria Inc (Wakefield, MA, USA), a scientific innovator with breakthrough tools for cancer research, now offers five stable, fully authenticated lung cancer cell models to support the development of more effective and targeted drug therapies. Lung cancer was responsible for around 1.80 million deaths globally in 20201, more than any other cancer, making it an important area of clinical research. Each Cellaria model is securely linked to a well-defined patient tumor enabling the in vitro study of disease progression and drug response in a specific patient biology with defined genetic and epigenetic characteristics. Such studies accelerate progress towards better therapies for specific patient populations.
Cellaria’s lung cancer cell models are all derived from tumors associated with non-small cell lung cancer (NSCLC), which accounts for around 85% of lung cancer cases. In recent years considerable progress has been made towards optimizing treatment for different subtypes of NSCLC with the targeting of specific genetic mutations proving particularly productive. Cellaria’s new lung cancer models – Bastion, Boulder, Pincer and Throne – join Jacket (an existing model), to provide a diverse patient cohort for the extension of such studies. All the patients within the cohort were over 60 years of age and had a history of smoking, but they exhibited notable, clinically significant differences including:
- Documented variation in consumption and duration of smoking
- Comorbidities – Throne had a previous diagnosis melanoma
- Throne and Jacket have a KRAS genetic mutation, Pincer, Boulder and Bastion did not.
All Cellaria models are extremely stable and supplied with a Certificate of Analysis, to support optimal application. In addition, Cellaria produces drug response reports showing data for three baseline relevant treatments. For the lung cancer cohort this report includes results for etoposide and cisplatin and for two targeted treatments: 1) larotrectinib which is prescribed for patients with a neurotrophic receptor tyrosine kinase (NRTK) gene fusion and 2) erlotinib, which is prescribed for patients with a KRAS mutation. Detailed information such as this makes it straightforward to use Cellaria models effectively from the outset to implement reproducible and relevant research and maximize the benefit of in vitro studies.
“With the increase in availability of targeted therapeutics like larotrectinib and erlotinib, patient-specific models are adding essential utility,” comments David Deems President and Founder, Cellaria Inc. “Jacket has mutations that make the patient a candidate for either larotrectinib or erlotinib. This unique patient-derived model enables the interrogation of each drug's performance with the model to determine differences.”
To find out more about the new lung cancer models view our product overviews here.
1 WHO Cancer Fact Sheet Detail. 3rd March 2021. Available to view at: https://www.who.int/news-room/fact-sheets/detail/cancer
About Cellaria Inc
Cellaria Inc’s mission is to develop and build more informative disease cell models to revolutionize and accelerate the search for a cure. The company provides a suite of products and services that are actionable, replicable and that originate from a patient’s unique specimens. With 7 years of research and development, Cellaria’s solutions better enable disease researchers to select promising compounds and ultimately identify the most effective treatment for each patient’s needs. This helps lead the research community to more personalized therapeutics, revolutionizing and accelerating the search for a cure and/or personalized treatments.