Integrating Cell and Molecular Biology Techniques for Translational Research in Immunology and Pulmonology By Dilip Shah, PhD, Philadelphia, PA
The Power of Integration in Modern Biomedical Science Translational research has emerged as a cornerstone of modern biomedical science, bridging the gap between laboratory discovery and clinical application. This approach is particularly critical in immunology and pulmonology, where intricate cellular and molecular interactions govern health and disease. By integrating cell and molecular biology techniques, researchers […]
Protein Analysis and Subcellular Dynamics: Illuminating the Pathways Behind Lung Injury and Cancer By Dilip Shah, PhD, Philadelphia, PA
Proteins are the fundamental drivers of biological function, orchestrating processes that range from metabolism and signal transduction to growth, immune defense, and tissue repair. Dysregulation of protein function lies at the heart of many human diseases, including lung injury and cancer. My research is centered on elucidating the molecular mechanisms by which proteins and subcellular […]
Molecular Insights into Viral Immunogenicity: From Cell Culture to Vaccine Development By Dilip Shah, PhD of Philadelphia, PA
The development of effective vaccines has always been at the forefront of modern medicine. Vaccines save millions of lives each year by training the immune system to recognize and respond to pathogens before they can cause disease. Central to this process is the concept of viral immunogenicity, or the ability of a virus to trigger […]
Decoding Immune Cell Signaling: Advanced Techniques in Flow Cytometry and Immunoassays By Dilip Shah, PhD, Philadelphia, PA
The human immune system is a complex and dynamic network, responsible for defending the body against infections and maintaining homeostasis. At the heart of this system are immune cells, each performing specialized functions and communicating through intricate signaling pathways. Understanding these signals is crucial for developing treatments for autoimmune diseases, infections, and cancers. Over the […]