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SELECTBIO Conferences Extracellular Vesicles (EVs) & Nanoparticles 2024: Diagnostics, Delivery, Therapeutics

Abstract



Acoustofluidics: Merging Acoustics and Fluid Mechanics for Biomedical Applications

Tony Jun Huang, Professor of Mechanical Engineering and Materials Science (MEMS), Duke University

The use of sound has a long history in medicine. Dating back to 350 BC, the ancient Greek physician Hippocrates, regarded as “the father of medicine”, devised a diagnostic method for detecting fluid in the lungs by shaking patients by their shoulders and listening to the resulting sounds emanating from their chest. As acoustic technology has advanced, so too has our ability to “listen” to the body and better understand underlying pathologies.  The 18th century invention of the stethoscope allowed doctors to gauge the health of the heart; the 20th century invention of ultrasound imaging revolutionized the field of biomedical imaging and enabled doctors to diagnose a range of conditions in the fields of obstetrics, emergency medicine, cardiology, and pulmonology. In the last decade, a new frontier in biomedical acoustic technologies has emerged, termed acoustofluidics, which joins cutting-edge innovations in acoustics with micro- and nano- scale fluid mechanics. Advances in acoustofluidics have enabled unprecedented abilities in the early detection of cancer, the non-invasive monitoring of prenatal health, the diagnoses of traumatic brain injury and neurodegenerative diseases, and have also been applied to develop improved therapeutic approaches for transfusions and immunotherapies. In this talk, I summarize our lab’s recent progress in this exciting field and highlight the versatility of acoustofluidic tools for biomedical applications through many unique examples, ranging from the development of high-purity, high-yield methods for the separation of circulating biomarkers such as exosomes and circulating tumor cells, to highly precise, biocompatible platforms for manipulating cells and studying cell-cell communication, to strategies for high-resolution 3D bioprinting. These acoustofluidic devices can precisely manipulate objects across 7 orders of magnitude (from a few nanometers to a few centimeters). Thanks to these favorable attributes (e.g., versatility, precision, and biocompatibility), acoustofluidic devices harbor enormous potential in becoming a leading technology for a broad range of applications, playing a critical role for translating innovations in technology into advances in biology and medicine.


Add to Calendar ▼2024-04-03 00:00:002024-04-04 00:00:00Europe/LondonExtracellular Vesicles (EVs) and Nanoparticles 2024: Diagnostics, Delivery, TherapeuticsExtracellular Vesicles (EVs) and Nanoparticles 2024: Diagnostics, Delivery, Therapeutics in Miami, FloridaMiami, FloridaSELECTBIOenquiries@selectbiosciences.com