We use a variety of innovative preclinical drug development platforms for this purpose. Technologically, we focus on genetically engineered cancer models incorporating novel imaging (optical and ...

Atelectasis can be due to tumors growing in lung tissue or an airway. Cancer develops when cells in a person’s body begin to divide uncontrollably. These abnormal cells can form tumors and cause ...

Our group’s long-term goal is to develop specific biomarkers for detecting cancers and to evaluate these biomarkers in pre-clinical cancer models Notwithstanding the remarkable clinical success of mAb ...

Introduction: This systematic review and meta-analysis aim to evaluate the efficacy of artificial intelligence (AI) models in identifying prognostic and predictive biomarkers in lung cancer. With the ...

Feb. 6, 2025 — Scientists have created a new low-cost, fast response sensor to detect lung cancer biomarkers, paving the way for the development of screening devices to spot the disease even ...

When cells of the lung start growing rapidly in an uncontrolled way, the condition is called lung cancer This disease can affect any part of the lung, and it's the leading cause of cancer ...

Fromen and two UD alumni have developed an adaptable 3D lung model that can replicate realistic breathing maneuvers and offer personalized evaluation of aerosol therapeutics under various breathing ...

Researchers at the University of Delaware have developed a cutting-edge 3D lung model that significantly advances the study of respiratory diseases. This model allows for the simulation of realistic ...

University of Delaware Assistant Professor Catherine Fromen and current graduate student Dominic Hoffman work with an adaptable lung model that can replicate realistic breathing maneuvers and ...

Fromen and two UD alumni have developed an adaptable 3D lung model that can replicate realistic breathing maneuvers and offer personalized evaluation of aerosol therapeutics under various ...

In a paper published in the journal Device, Fromen and her team demonstrate how their new 3D lung model can advance understanding of how inhalable medications behave in the upper airways and ...

Fromen and two UD alumni have developed an adaptable 3D lung model that can replicate realistic breathing maneuvers and offer personalized evaluation of aerosol therapeutics under various breathing ...