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Category: biotech/medical – Page 1,197

“China was leading the global recovery after the Covid-19 pandemic and accounted for half of worldwide robot installations in 2021,” said Marina Bill, President of the International Federation of Robotics. “Growth is strong across all industries with electrical and electronics being the dominant sector – up 30% to 81,600 installations. The automotive industry also showed a strong recovery. This was mainly driven by electric vehicle manufacturing in China. It rose by 89% in 2021 with 50,700 installations.”

Chinese government supports robotic automation

In China aging population’s demographics causes shortage of labor and drives the growth of robotic automation. The continued robotization of industries has been announced earlier this year by the government. The Five-Year plan for the robotics industry, released by the Ministry of Industry and Information Technology (MIIT) in Beijing, focuses on promoting innovation — making China a global leader of robot technology and industrial advancement.

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Stability AI, the venture-backed startup behind the text-to-image AI system Stable Diffusion, is funding a wide-ranging effort to apply AI to the frontiers of biotech. Called OpenBioML, the endeavor’s first projects will focus on machine learning-based approaches to DNA sequencing, protein folding and computational biochemistry.

The company’s founders describe OpenBioML as an “open research laboratory” — and aims to explore the intersection of AI and biology in a setting where students, professionals and researchers can participate and collaborate, according to Stability AI CEO Emad Mostaque.

“OpenBioML is one of the independent research communities that Stability supports,” Mostaque told TechCrunch in an email interview. “Stability looks to develop and democratize AI, and through OpenBioML, we see an opportunity to advance the state of the art in sciences, health and medicine.”

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Beyond passenger cars and pickups: 5 questions answered about electrifying trucks.

As part of its effort to reduce air pollution and cut greenhouse gas emissions contributing to climate change, California is pursuing aggressive policies to promote clean trucks. The state already requires that by 2035, all new cars and other light-duty vehicles sold in the state must be zero emission. Its powerful Air Resources Board has adopted rules requiring that most trucks be zero emission by 2035 and is now proposing that all trucks sold by 2040 must be zero emission. The Conversation asked a panel of transportation experts from the University of California, Davis, what’s involved in such a rapid transition.

XH4D/iStock.

Pollutants in diesel exhaust include nitrogen oxides, fine particulates, and numerous cancer-causing compounds. Since many disadvantaged communities are located near highways and industrial centers, their residents are especially affected by diesel truck pollution. Two regions in California – the Central Valley and Los Angeles-Long Beach – have some of the dirtiest air in the U.S., so the state has placed particular emphasis on cutting diesel use.

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It would be the first new treatment in 20 years for UTIs, which affect more than half of women at least sometime in their life, according to data compiled by the Department of Health and Human Services.

Called Gepotidacin, the antibiotic’s trial has halted enrollment early due to excellent effectiveness and safety results thus far, drugmaker GSK announced in a press release Thursday. GSK will seek approval and peer-reviewed publication early next year.

There is a need for new antibiotics such as this due to increasing antibiotic resistance. Antibiotic resistance to bacteria has become so prevalent that the World Health Organization recently began publishing a list of bacteria that pose the greatest public health threats.

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Cancer research – and its impact on patient care – has made some significant strides in just the last 10 years. For example, the availability and affordability of sequencing genetic information has improved greatly – meaning researchers and doctors are now better able to get information about a person’s risk for certain cancers as well as what drugs might work best for cancer patients. Another major leap forward came with the approval of vaccines that help prevent infections from the human papilloma virus (HPV) that cause cervical cancers. Many other advances have occurred in the areas of targeted therapy, immunotherapy, and cancer screening technology.

Still, cancer remains a massive health problem that researchers across the United States and elsewhere are working tirelessly to solve. Many experts are hopeful that they can build on decades of learning and recent advances to move even more rapidly toward reducing the cancer burden.

We invited 10 American Cancer Society Research Professors to share their perspectives and predictions for how cancer research will evolve over the next 10 years – and what this might mean for patients. These 10 experts are among the very best in their field; the Society’s Research Professor grants are awards that go to a select group – researchers and doctors who have made seminal contributions that have changed the direction of basic, clinical, psychosocial, behavioral, health policy or epidemiologic cancer research.

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On December 6–7, 2022, the Buck Institute for Research on Aging will be hosting the Longevity Summit 2022. Lifespan.io is pleased to announce that we are an official media partner for this upcoming conference.

The Summit will see many of the leading experts in the field coming together in the grounds of the architecturally distinct Buck Institute. It is being framed as a peer-to-peer learning experience aiming to unite longevity entrepreneurs, pharma and biotech companies, investors, researchers, and government organizations.

Here’s what the organizers had to say about the event:

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The lone volunteer in a unique study involving a gene-editing technique has died, and those behind the trial are now trying to figure out what killed him.

Terry Horgan, a 27-year-old who had Duchenne muscular dystrophy, died last month, according to Cure Rare Disease, a Connecticut-based nonprofit founded by his brother, Rich, to try and save him from the fatal condition.

Although little is known about how he died, his death occurred during one of the first studies to test a gene editing treatment built for one person. It’s raising questions about the overall prospect of such therapies, which have buoyed hopes among many families facing rare and devastating diseases.

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A major hallmark of Parkinson’s disease is the loss of dopamine-producing neurons in the brain, which in turn causes patients to lose motor control abilities. NYSCF – Robertson Stem Cell Investigator Alumna Malin Parmar, PhD, of Lund University, has spent a decade developing a cell therapy to replace these cells, and this revolutionary treatment (called ‘STEM-PD’) has just received approval for a Phase I/IIa clinical trial in Sweden.

“We are excited and looking forward to this clinical study of STEM-PD, hoping that it could potentially help reduce the significant burden of Parkinson’s disease. This has been a massive team effort for over a decade, and the regulatory approval is a major and important milestone,” said Dr. Parmar, who is a Professor of Developmental and Regenerative Neurobiology at Lund, in a statement.

Dr. Parmar’s innovative work towards a Parkinson’s cell therapy earned her the NYSCF – Robertson Stem Cell Investigator Award in 2016, which provided support for her lab’s research until 2021, including her work on STEM-PD.

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