Lifeboat Foundation

Nearly one in 30 Americans over the age of 40 experience low vision—significant visual impairment that can’t be corrected with glasses, contact lenses, medication or surgery.

In a new study of patients with retinitis pigmentosa, an inherited degenerative eye disease that results in poor vision, Keck School of Medicine of USC researchers found that adapted augmented reality (AR) glasses can improve patients’ mobility by 50% and grasp performance by 70%.

“Current wearable low vision technologies using virtual reality are limited and can be difficult to use or require patients to undergo extensive training,” said Mark Humayun, MD, Ph.D., director of the USC Dr. Allen and Charlotte Ginsburg Institute for Biomedical Therapeutics, codirector of the USC Roski Eye Institute and University Professor of Ophthalmology at the Keck School.

A University of Texas at Dallas physicist has teamed with Texas Instruments Inc. to design a better way for electronics to convert waste heat into reusable energy.

The collaborative project demonstrated that silicon’s ability to harvest energy from heat can be greatly increased while remaining mass-producible.

Dr. Mark Lee, professor and head of the Department of Physics in the School of Natural Sciences and Mathematics, is the corresponding author of a study published July 15 in Nature Electronics that describes the results. The findings could greatly influence how circuits are cooled in electronics, as well as provide a method of powering the sensors used in the growing “internet of things.”

But in many ways, the field of AI ethics remains limited. Researchers say they are blocked from investigating many systems thanks to trade secrecy protections and laws like the Computer Fraud and Abuse Act (CFAA). As interpreted by the courts, that law criminalizes breaking a website or platform’s terms of service, an often necessary step for researchers trying to audit online AI systems for unfair biases.

Whittaker acknowledges the potential for the AI ethics movement to be co-opted. But as someone who has fought for accountability from within Silicon Valley and outside it, Whittaker says she has seen the tech world begin to undergo a deep transformation in recent years. “You have thousands and thousands of workers across the industry who are recognizing the stakes of their work,” Whittaker explains. “We don’t want to be complicit in building things that do harm. We don’t want to be complicit in building things that benefit only a few and extract more and more from the many.”

It may be too soon to tell if that new consciousness will precipitate real systemic change. But facing academic, regulatory and internal scrutiny, it is at least safe to say that the industry won’t be going back to the adolescent, devil-may-care days of “move fast and break things” anytime soon.

Continue reading “Meet the Researchers Fighting to Make Sure Artificial Intelligence Is a Force for Good” »

The ability to edit genes in living organisms offers the opportunity to treat a plethora of inherited diseases. However, many types of gene-editing tools are unable to target critical areas of DNA, and creating such a technology has been difficult as living tissue contains diverse types of cells.

Now, Salk Institute researchers have developed a new tool—dubbed SATI—to edit the mouse genome, enabling the team to target a broad range of mutations and cell types. The new genome-editing technology, described in Cell Research on August 23, 2019, could be expanded for use in a broad range of gene mutation conditions such as Huntington’s disease and the rare premature aging syndrome, progeria.

“This study has shown that SATI is a powerful tool for genome editing,” says Juan Carlos Izpisua Belmonte, a professor in Salk’s Gene Expression Laboratory and senior author of the paper. “It could prove instrumental in developing effective strategies for target-gene replacement of many different types of mutations, and opens the door for using genome-editing tools to possibly cure a broad range of genetic diseases.”

In new research published in Psychoneuroendocrinology, scientists have shown that loving-kindness meditation has a positive impact at the cellular level. The study examined how different types of meditation influenced telomere length, an indicator of physiological aging.

Telomeres are the end caps of DNA on our chromosomes, which help in DNA replication and get shorter over time.

“Chronological age and biological age are not identical. The former is measured in years, whereas the latter is often indexed by telomere length,” the authors of the new study explained. “Telomeres progressively shorten with cell division (i.e., aging) in general, but may also be replenished, or lengthened, by the enzyme telomerase.”

A South African professor, Mashudu Tshifularo, and his team at the University of Pretoria pioneered the world’s first middle ear transplant using 3D-printed bones. Here is how he carried out the successful surgery.

Inspired by the human eye, researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed an adaptive metalens that is essentially a flat, electronically controlled artificial eye. The adaptive metalens simultaneously controls for three of the major contributors to blurry images: focus, astigmatism, and image shift.

The research is published in Science Advances.

“This research combines breakthroughs in artificial muscle technology with metalens technology to create a tunable metalens that can change its focus in real time, just like the human eye,” said Alan She, an SEAS graduate student at the Graduate School of Arts and Sciences, and first author of the paper. “We go one step further to build the capability of dynamically correcting for aberrations such as astigmatism and image shift, which the human eye cannot naturally do.”

The Lazarus Effect.

What should you chose to get the best pain relief? StemCures in Cincinnati.