A5062824257- Wound Healing and Treatments
- Electrospun Nanofibers in Biomedical Applications
- Heart Rate Variability and Autonomic Control
- 3D Printing in Biomedical Research
- Color perception and design
- Emotion and Mood Recognition
Tecnológico de Monterrey
2022
Brigham and Women's Hospital
2021
Harvard University
2021
Advanced wound scaffolds that integrate active substances to treat chronic wounds have gained significant recent attention. While and advanced functionalities previously been incorporated into one medical device, the wirelessly triggered release of has remained focus many research endeavors. To combine multiple functions including light-triggered activation, anti-septic, angiogenic, moisturizing properties, we developed a 3D printed hydrogel patch encapsulating vascular endothelial growth...
Virtual Reality (VR) video games have become popular in recent years with the emergence of a wide variety enhanced VR hardware systems. Typically, current incorporate high-quality auditory and feedback along vibro-tactile cues to provide an immersive experience. However, ongoing software do not consider state user determine whether game is generating enjoyable experience, or if it has stressing boring This work provides assessment stress level estimation from features extracted...
In article number 2007555, Leonard Siebert, Eunjung Lee, Su Ryon Shin, and co-workers develop a 3D printed smart wound scaffold encapsulating growth factors decorated with light-sensitive antibacterial tetrapodal zinc oxide (t-ZnO) microparticles for the treatment of chronic wounds. The multifunctional pro perties combined light-triggered angiogenic factor release, properties, tissue compatibility enable fast recovery.