At CISS Global, our Bio Imaging & Biosensing research group pioneers next-generation techniques in real-time biological detection, molecular imaging, and smart diagnostics. We integrate engineering, nanotechnology, and computational intelligence to address challenges in healthcare, biosensing, and bioelectronics.
We develop innovative imaging systems and biosensors tailored for disease detection, therapeutic monitoring, and cellular behavior analysis.
Our labs are equipped with state-of-the-art technology to support high-throughput screening, spectroscopy, and real-time signal acquisition.
We accelerate innovation through rapid sensor prototyping, field-testing, and performance optimization.
Dr. Qasim Mehmood leads the core research agenda at CISS Global, focusing on computational lithography, metamaterials, and AI-driven nanoengineering. With over a decade of experience in academic research and innovation, he mentors multidisciplinary teams and coordinates collaborative international projects. His contributions have earned recognition in journals and conferences globally.
“We strive to bridge fundamental science with engineering solutions for a more intelligent and sustainable world.”
Dr. Isma Javed postdoctoral work explores biosensing interfaces and biophotonic imaging techniques. She plays a pivotal role in projects involving cellular diagnostics, neural mapping, and sensor calibration systems, contributing toward global healthcare innovations.
“Technology should not only solve problems but also inspire progress in the way we care, heal, and connect.”
With a background in material sciences and nanostructures, Azhar Javed advances research in energy harvesting and optical metamaterials. He leads the experimental setup for precision-based simulations in nanoscale photonics.
“Every layer of research brings us closer to energy-efficient, scalable solutions for the future.”
We aim to push the frontiers of biosignal intelligence through imaging and sensing innovations. Our mission is to create efficient, accurate, and affordable biosensing systems with potential applications in smart hospitals, personal health devices, and point-of-care diagnostics.
Our work spans the following domains:
Cellular imaging & signal tracking
Nano-biosensors for pathogen detection
Real-time monitoring of physiological parameters
AI-assisted diagnostics & data interpretation
We are developing deep learning-enabled imaging systems to observe apoptotic and necrotic cell death processes in real time. This helps in studying the effectiveness of cancer treatments and immunotherapies.
This project investigates ferroptosis, a novel regulated cell death mechanism, using electrochemical biosensors. Our findings contribute to new therapeutic strategies against neurodegeneration and cancer.
CBE-Life Sciences Education, 17(1), ar10., 2018
his paper introduces an IDC pressure sensors-enabled smart footwear system to detect and monitor diabetic foot ulcers in vitro.
National Academy of Science (PNAS), 114(51), 13531-13536.
A model for student engagement in science. Hanauer, D.I, Graham, M.J., SEA-PHAGES, Betancur, L., Bobrownicki, A., Cresawn, S.G., Garlena, R.A., Jacobs-Sera, D., Kaufmann, N., Pope, W.H., Russell, W.R. Jacobs, D.A., Sivanathan, V., Asai, D.J., & Hatfull, G.F. (2017).
Critical Reviews in Molecular & Cell Biology 53: 99-114.(2018)
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CBE-Life Sciences Education, 17(1), ar10., 2018
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Science, 343(6171), 615-616. (2014).
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