Ankle-foot orthoses (AFOs) are crucial for those needing ankle support, but traditional designs are often bulky and lack personalization. This project explores 3D printing to revolutionize AFOs. By leveraging this additive manufacturing (ADM) technique, we aim to create AFOs that are both functional and stylish. Imagine AFOs designed to reflect the user's personality, fostering self-expression instead of stigma.
This project dives into the potential of ADM for AFO creation, investigating how it can offer patients and healthcare providers more choices and empowerment. The core question is: can AFOs be aesthetically pleasing while meeting critical functional needs? Through innovative design and 3D printing technology, we hope to transform AFOs from a medical necessity into a personal statement.
Sprache
Verlagsort
Zielgruppe
Ankle braces get a makeover! 3D printing brings both function and fashion to AFOs. Ditch boring beige for designs that match your style. Now you can be supported and stylish with a custom-made brace
Produkt-Hinweis
Maße
Höhe: 234 mm
Breite: 155 mm
Dicke: 9 mm
Gewicht
ISBN-13
978-3-384-22783-6 (9783384227836)
Schweitzer Klassifikation
Autor*in
Professor Nain, for your Advanced Bioanalytical Chemistry course, I propose "Live Analysis: Membrane Mass Spectrometry." This book explores a revolutionary technique called MAMS that allows us to analyze biomolecules directly within living cells. Unlike traditional methods that offer static snapshots, MAMS provides real-time insights into the dynamic world within cells. Imagine watching molecules flow across cell membranes - "Live Analysis" sheds light on this fascinating process.
By analyzing these interactions in real-time, the book equips researchers with a powerful tool to understand cellular signaling, drug-target interactions, and the intricate dance of life at the molecular level. "Live Analysis" is a valuable resource for researchers, students, and anyone interested in cutting-edge bioanalytical chemistry and its impact on unraveling the mysteries of cellular function.
