Medical
Inspiration: The idea for this project was inspired by research conducted by several universities, which focused on tracking finger misalignments using physical systems. These systems, while effective, are typically large, rigid, and require customization for each user. This limits their flexibility and practicality, especially for widespread testing across different age groups, from children to adults.
Allow Motion revolutionizes upper-limb prosthetics with a modular, 3D-printed myoelectric system that adapts to any amputation level—from partial hand to full arm—via customizable, lightweight designs. By integrating AI-driven gesture recognition and 3D scanning of residual limbs, it eliminates the need for invasive surgery or pre-programmed patterns, enabling seamless human-machine interaction.
The Brain Predict offers an original and cutting-edge computer simulation system that utilizes Artificial Intelligence and COMSOL Multiphysics patient-specific modeling for the prediction of cerebral arteries vasospasms (CV) and delayed cerebral ischemia (DCI) following spontaneous subarachnoid hemorrhage (SAH).
SAH is a type of stroke associated with high rates of mortality and morbidity. Worldwide,
Hydrocephalus, a neurosurgical disorder characterized by an abnormal accumulation of cerebrospinal fluid (CSF) within the brain's ventricles, often requires timely surgical intervention through procedures such as Endoscopic Third Ventriculostomy (ETV) and Ventricular Shunt Placement. These neurosurgical techniques demand a high level of precision and skill, given the intricacy of intracranial anatomy and the proximity of vital structures.
Making elicitors with nanoparticles involves using engineered nanoparticles to stimulate plants to produce valuable bioactive compounds, especially secondary metabolites, which have applications in medicine, agriculture, and industry.
What are nanoparticle elicitors?
Nanoparticles (NPs) such as zinc oxide (ZnO), copper oxide (CuO),
Sit Sense is a “smart” recliner that knows what you need before you do and is designed to reduce pressure injury risk. Every year, 2.5 million hospital patients suffer from pressure injuries in the US, and 60,000 patients die. These injuries, commonly known as bedsores or pressure ulcers, are painful,
We are developing a category-defining innovation: the first real-time, wearable blood viscosity (BV) monitoring device. This breakthrough fills a long-standing void in trauma, burn, and sepsis care by delivering continuous, noninvasive insights into the body's fluid and vascular dynamics. Unlike traditional vitals, BV reflects the blood’s resistance to flow—capturing subtle, early physiologic shifts caused by dehydration,
This invention introduces Time-resolved Hyperspectral Imaging Spectroscopy (THIS), a novel spectroscopic technique for the life sciences.
It can find potential applications in diverse fields,
At Simply Nest, we are committed to creating thoughtful, inclusive solutions that make mealtimes accessible and enjoyable for all families. By combining cutting-edge design with compassionate care, we strive to remove barriers, celebrate individuality, and support children in developing lifelong skills. Through collaboration with experts, caregivers, and the children themselves,
Mosquito-borne diseases devastate communities worldwide, infecting hundreds of millions and causing over 700,000 deaths each year. In many resource-limited regions, affordable, scalable mosquito control is unavailable. Existing solutions are costly, require maintenance or electricity, and cannot be deployed at sufficient scale, leaving lives at risk.
Page 3 of 8
Gold Sponsor
