Knack: A low-cost 3D printed prosthetic hand using thermoplastic polyurethane.
Archive | Emerging Technologies
3D Printed Prosthetic Hand
Accidental Decannulation Detection Washington University in St. Louis
This project aims to design a device that alerts physicians earlier than current detection method when an endotracheal tube is removed.
Aquatin Hydrostander University of Florida
Aquatin Hydrostander: A Novel Device for Pediatric Aquatic Physical Therapy
ToeTronics University of Oklahoma Health Science Center
ToeTronics is a portable device features an intuitive, comfortable, and lightweight design that measures the force produced by the great toe extensors.
SipClip: An assistive dental device for people with bulbar dysfunction Duke University Pratt School of Engineering
SipClip, a suction attachment solution for electric toothbrushes to allow users to brush their teeth and suction liquid simultaneously
UP-H2O: A Device for Upright Posture in Water University of Hartford–Doctorate of Physical Therapy
This device enables all children, regardless of the severity of their impairments, to develop autonomy of movement and enjoy water recreation in a way that was not previously possible.
Trunk Muscle Transducer: A device to quantify trunk muscle forces Case Western Reserve University, Biomedical Engineering Department
The Trunk Muscle Transducer (TMT), was designed to interface with both a six-axis load cell and a subject to accurately determine trunk muscle forces as trunk orientation changes in the anterior/posterior (AP) and medial/lateral (ML) directions.
ReACH: Rehabilitation for Augmenting Children’s Healthcare Georgia Institute of Technology
The ReACH Game is designed to exercise everyday motions through repetitive arm movements. The main components of this system include the robot NAO, a structural frame, two targets, touch sensor, and a custom Arduino program.
A Smart Cooling Vest for People with Thermoregulatory Disorder City College of New York
We designed a cooling vest to cool water with a Peltier cooler and circulate it through a network of tubes around the vest by inducing flow with a centrifugal pump.
FoVi: A wearable focal vibration device provides adjustable precision vibration therapy University of Oklahoma
Our product FoVi (A wearable focal vibration device provides adjustable precision vibration therapy) is a low-cost wearable FV device which can adjust the intensity settings of vibration motors that can easily attach to the body and can provide direct feedback to users.