Latex, platform that simulates 8 organs for drug testing
The device could lead us to more effective drug tests, simulating the interaction and possible effects on different organs
The device could lead us to more effective drug tests, simulating the interaction and possible effects on different organs
A team of scientists has created a device that monitors transplanted organs, detecting signs of rejection weeks in advance.
Lund University's organic electrodes are a breakthrough against tumors and nerve injuries.
Although the so-called traditional trade is still the most common in our country, there is no doubt that the e-commerce sector is constantly expanding and has significant capital movements (just under 50 billion per year); as time passes, it is reasonable to expect an ever greater increase in the share relating to electronic commerce. Given these perspectives, the efficiency of the organization of e-commerce warehouses has become a critical factor for the success of companies in the sector. Optimal management of goods storage… Read more
A non-profit organization and an advertising agency team up to promote organ donation through a free tattoo.
By creating organoids from patient-specific stem cells, doctors and researchers can develop personalized treatment strategies.
The Department of the Californian city in the storm, between omissions on military weapons and regularization of lethal force with robots.
In the right place with the right tools: Perseverance finds more organic matter and perhaps evidence of life on the red planet.
Artificial blood can repair cell damage caused by lack of oxygen. It could make transplants easier, treat heart attacks and strokes, and even reverse cell death.
An ultrasound 'patch' developed by MIT can do continuous ultrasound for two days straight: you put it on and see what happens in your body.
Technological innovation goes hand in hand with changes in society and the governance systems of our communities. What will they be like?
A “bath” of enzymes allows the organs to eliminate the antigens that produce rejection. New perspectives for transplants.
From “traditional” fireworks (bad for animals, our hands and the environment) to a fantastic biodegradable display.
The Supermarine is a bold, aerodynamic bike built with an organic design. It will inspire several models of the future.
Research on asteroids in our solar system detects celestial bodies with complex organic matter that simply shouldn't be there.
A new method called stereolithography will allow us to print 3D organs with more detail and much, much faster.
A truly important discovery sheds light on the development of life. For the first time, we know that even a multicellular organism can live without breathing.
A new method makes human organ tissues completely transparent: an important step towards reducing the wait for transplants.
The goal of ARMI, Dean Kamen's new creation, is ambitious: an "organ factory" that creates tissues and organs through biofabrication.
Bioavionics integrates biological and electromechanical systems to see how their interaction will change our flight experiences.
The small device uses nano transfection of tissues to regenerate entire organs with the touch of a finger: what was once matter for Star Trek now comes close to reality.