A slight departure for our pages, but nonetheless warranted as the Designs of the Year Awards at London’s Design Museum has bestowed Best Product Design award to a medical device. The winner is the Wyss Institute’s human organs-on-chips, represented by the human lung, gut and liver chips.
Currently in its eighth year, the annual awards and museum exhibition by the Design Museum in London recognizes the most innovative, high-impact, and forward-thinking designs from across the world. This year it features 76 total nominees across six categories, chosen by the world’s top design experts, practitioners, curators and academics and an overall Design of the Year prize will ultimately be bestowed upon one of the six selected finalists.
The Wyss’ human organs-on-chips competed against 22 other product designs, including: QardioArm, a discreet personal heart monitor; Project Daniel, a lab that braves hostile war conditions to 3D-print prosthetic arms for children in Sudan; Dragonfly, an asymmetric chair inspired by insects; a DIY gamer kit, which can be a technology learning aid for children; CurrentTable, a table that photosynthesizes electricity; and an air-purifying billboard that turns pollution into clean air.
The initial human organ-on-a-chip, designed at the Wyss Institute in 2010 by Ingber and Huh, has since been leveraged for the design of several additional human organs-on-chips. These microdevices have the potential ability to deliver transformative change to human health and pharmaceutical care due to the accuracy with which they emulate human organ-level functions. They stand to significantly reduce the need for animal testing by providing a faster, less expensive, less controversial and much more accurate means to predict whether new drug compounds will be successful in human clinical trials. In 2014, the startup company Emulate, Inc., sprang out of the Wyss Institute in order to commercialize human organs-on-chips.
Human organs-on-chips are built using an innovative microfabrication process adapted from the computer chip industry, in which multi-layer photolithography is used to manufacture memory-stick-sized blocks of crystal-clear, flexible rubber that contain hollow microchannels. These microchannels are then lined with living organ cells and blood capillary cells under fluid flow and manipulated mechanically using vacuum-powered movements to replicate organ movements.
“This year’s judges were united in their responsibility to award projects that emphasize design’s impact on our lives now and in the future. Solving diverse problems with innovation, intelligence and wit, each of these six designs is a worthy winner,” said Gemma Curtin, Curator of Designs of the Year, speaking about the six prize winners representing Product, Architecture, Fashion, Transport, Digital and Graphics design.
“With drug development costs running into billions of pounds, this entry really caught the imagination of all the judges. It’s an intriguing and exciting prospect that has the potential to reduce animal testing, and at the same time speed up development of new drugs,” said member of the award jury Richard Woolley, who is Studio Director at Land Rover Design Research & Special Vehicle Operations.
“As a scientist whose work has been influenced and inspired by art and design from the very beginning of my career, I am greatly honored that organs-on-chips have won this year’s Product prize for design,” said Wyss Institute Founding Director Donald E. Ingber, M.D., Ph.D., who invented human organs-on-chips alongside Dan Dongeun Huh, Ph.D., who was a Wyss Technology Development Fellow at the time of its invention. “We are thrilled to know that an international forum of experts who are passionate about the power of design appreciate both the elegance and potential impact of our living organs-on-chips microdevices.”
Source: PR Newswire