Our primary area of interest is the broad application of soft nanomaterials to engineer devices which monitor, mimic or augment biological function. Specific topics of research include wearable and implantable biosensors, organ-on-chip models and human-machine interfaces.
Our lab is interested in the nonlinear propagation of ultrasound and mechanical waves and their applications to medical imaging and therapy. Our research has been motivated by the observation that for intense sources the speed of wave propagation is no … Read more
Life is animate and three-dimensional. Our lab develops tools to better understand living specimens at single molecule, cellular and tissue level length scales. This work exists at the interface of physics, engineering and biology and is highly collaborative. The lab … Read more
The Greenbaum Lab is an emerging advanced bio-imaging and computational lab. We are a multidisciplinary lab that focuses on the development of complex imaging devices and algorithms to advance 3D profiling of intact organs to answer biological questions regarding aging … Read more
The Neuromuscular Rehabilitation Engineering Laboratory investigates the control mechanism of neuromuscular system in normal and neurologically disordered persons, develops advanced neural-machine interfacing technologies, and applies these techniques to neural control of prosthetics, orthotics, computers and other assistive devices.
The ABL specializes in the neuromuscular biomechanics of human movement, with an emphasis on aging and disease-related mobility impairment. The lab’s primary research seeks to discover the musculoskeletal and sensorimotor adaptations that underlie a loss of independent mobility, and to … Read more
The Zaharoff Lab focuses on the development of innovative, translatable vaccine and immunotherapy delivery platforms that will have high clinical impact in an immediate timeframe. Our multidisciplinary research program utilizes the engineering design process to develop novel biomaterials-based strategies for … Read more
The Gomez Lab is primarily a bioinformatics and computational modeling group. Its research focuses on the study of biological processes from an integrated, or systems viewpoint – commonly referred to as Systems Biology. The group is particularly interested in better … Read more
Ultrasonic imaging is non-ionizing, real-time, cost-efficient, and portable. These unique advantages make it a prominent tool in modern medicine. Our group is working to advance medical ultrasound by developing new imaging technologies and processing algorithms. We test our methods in specially designed tissue mimicking materials, ex vivo tissue preparations, and in vivo studies.
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