As a Postdoctoral Associate at the University at Buffalo, I apply my expertise in multiscale modeling and quantitative systems pharmacology to understand and predict the disease dynamics and treatment effects of various inflammatory and fibrotic conditions. I have a Ph.D. in Chemical Engineering from Missouri University of Science and Technology, where I investigated intracellular to tissue-scale phenomena of drug-delivery nanoparticles and bacterial cell populations. I have also trained in human and bacterial cell culture and microfluidic devices in experimental labs.My current research projects include developing a multiscale agent-based simulator to identify the mechanisms of lung fibrosis in COVID-19 patients, building a mathematical model to quantify the patient-specific differences in the renin-angiotensin system and fibrosis outcomes, and integrating pharmacokinetics/pharmacodynamics modeling of bacterial metabolite in the gut-bone axis on osteoimmunology. I have published several papers in peer-reviewed journals and participated in several Kaggle competitions, winning silver and bronze medals. I am always eager to learn new skills and techniques, collaborate with other researchers and experts, and contribute to the advancement of science and medicine. I enjoy solving challenging problems, exploring new ideas, and communicating my findings to diverse audiences. I am looking for opportunities to further develop my career and apply my skills and knowledge to real-world problems and solutions.Google Scholar: https://scholar.google.com/citations?user=MHLemwoAAAAJ&hl=enGitHub: https://github.com/mixvcKaggle: https://www.kaggle.com/aminul01