WEBINAR: Mechanical biomarkers for 3D in vitro models.
Join us for an innovative webinar (headed by Dr. Kanupriya Khurana) on examining cells, tissues, hydrogels, organoids, and spheroids in fibrosis, cancer, and tumor conditions by leveraging nanoindentation and micro-mechanical screening.
We’ll explore these technologies’ role in identifying mechanical biomarkers in 3D in vitro disease models, offering a comprehensive view of disease prediction, diagnosis, and treatment. This session is ideal for researchers, healthcare professionals, and enthusiasts eager to grasp the latest developments in this dynamic field. Don’t miss this opportunity to engage with our expert panel and delve into this fascinating subject matter.
Secure your spot today!
13th July 2023 | 1630hrs CET | Register on Zoom
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Exploring the Role of Mechanical Forces and the Potential of Nanoindentation for Monitoring and Accelerating the Healing Process
Wounds arise from various causes, including surgery, injury, extrinsic factors (e.g., pressure, burns, and cuts), or illnesses like diabetes and vascular diseases 1. Mechanical forces
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Hydrogels, a versatile class of biomaterials, play a central role in bioengineering and regenerative medicine. They are a three-dimensional (3D) network of hydrophilic polymers made
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Fibrotic diseases and tumor-associated fibrosis constitute a worldwide health problem that, together, are responsible for enormous morbidity and mortality. Approximately 1 in 8 people worldwide
Published articles (2022) endorse Optics11 Life’s unique technology.
https://www.optics11life.com/wp-content/uploads/2022/11/ENGINEERED-MARBLE-LIKE-BOVINE-FAT-TISSUE.mp4 Written by Fabiany Da Costa Gonçalves and illustrated by Yashjit Gangopadhyay Studies on the mechanobiology of cells, spheroids, organoids, tissues, and biomaterials are developing