Tesla is recalling 120,423 vehicles in the United States due to the risk of doors unlocking in the event of a crash, according to a report on Friday.
According to Reuters, the country’s traffic safety regulator, the National Highway Traffic Safety Administration, on Friday announced a recall affecting 2021-2023 model year Model S and Model It said it did not meet federal safety standards. .
Tesla has released an over-the-air software update to address this issue.
Tesla last week carried out the largest recall ever in the Elon Musk-led company’s 20-year history, recalling more than 2 million vehicles in the U.S. and nearly all vehicles on U.S. roads. Vehicles were targeted.
Federal regulators say Tesla’s advanced driver-assistance system, Autopilot, has “inadequate” safeguards against misuse, and the company is warning drivers to remain on the road even when Autopilot is engaged. A voluntary recall has been launched to carry out “additional inspections” to remind people to be careful.
According to the Washington Post, NHTSA wrote last week that activating the driver-assistance system Autopilot “may increase the risk of a collision,” adding, “The driver is not responsible for operating the vehicle and is at risk of an accident.” “I’m not ready to intervene.” need. “
The recall applies to 2021-2023 Model S (above) and Model X vehicles, which do not meet certain federal safety standards for side-impact protection. APModel X is also subject to a recall. AP
Other major automakers also announced recalls this week.
Toyota Motor Corp. said Wednesday it is recalling 1 million vehicles due to a defect that could prevent airbags from deploying if a sensor in the passenger seat shorts out. According to the Associated Press, the recall applies to Toyota Avalon, Camry, Highlander, RAV4, Sienna, Corolla, and some hybrid versions of these models, as well as some Lexus models such as the ES250 sedan and RX350 SUV. It is said that she is a model.
Honda on Monday said it was shutting down more than 2.5 million vehicles due to fuel pump problems that could cause the engines to not start or stall while driving, increasing the risk of crashes and injuries, NHTSA said. announced that it had been recalled.
Elon Musk’s Tesla recalled more than 2 million vehicles last week over concerns about Autopilot. Getty Images
General Motors is discontinuing sales of some 2024 Chevrolet Silverado and GMC Sierra trucks due to concerns about cracking metal in the passenger-side roof, according to a document released Wednesday by NHTSA. As a result, approximately 3,067 vehicles will be inspected.
Last month, Toyota recalled 1.9 million RAV4 SUVs due to battery deterioration that could cause a fire.
Researchers have made significant progress in understanding neuromuscular diseases by developing a two-dimensional neuromuscular junction model using pluripotent stem cells. This model enables high-throughput drug screening and complements previously developed three-dimensional organoids. (Artist’s concept) Credit: SciTechDaily.com
Scientists have developed a groundbreaking two-dimensional model to study neuromuscular diseases. This has enabled efficient drug testing and improved our understanding of diseases such as spinal muscular atrophy and amyotrophic lateral sclerosis.
Researchers have so far identified about 800 different neuromuscular diseases. These conditions are caused by problems with how muscle cells, motor neurons, and peripheral cells interact. These diseases, such as amyotrophic lateral sclerosis and spinal muscular atrophy, can cause muscle weakness, paralysis, and even death.
“These diseases are very complex and the causes of dysfunction are diverse,” said Dr. Mina Gouti, head of the Max Delbrück Center’s Developmental Stem Cell Modeling and Disease Laboratory. The problem could be in the neurons, the muscle cells, or the connections between the two. “To better understand the causes and find effective treatments, we need human-specific cell culture models that allow us to study how motor neurons in the spinal cord interact with muscle cells.”
Innovative research using organoids
Researchers working with Gouti had already developed a three-dimensional neuromuscular organoid (NMO) system. “One of our goals is to use our cultures for large-scale drug testing,” Gouti says. “Three-dimensional organoids are so large that they cannot be cultured for long periods of time in the 96-well culture dishes we use to conduct high-throughput drug screening studies.”
Human self-assembling 2D neuromuscular junction model. Immunofluorescence analysis of the whole dish shows myocytes (magenta) organized into bundles surrounded by spinal neurons (cyan). Credit: Alessia Urzi, Max Delbrück Center
For this type of screening, an international team led by Gouti has now developed a self-organizing neuromuscular junction model using pluripotent stem cells. The model includes neurons, muscle cells, and chemicals. synapse It is called the neuromuscular junction, which is necessary for two types of cells to interact. The researchers have now published their findings in the journal. nature communications.
“The 2D self-assembled neuromuscular junction model allows us to perform high-throughput drug screening for various neuromuscular diseases and study the most promising candidates in patient-specific organoids,” says Gouti. .
2D neuromuscular model development
To establish a 2D self-organizing neuromuscular junction model, the researchers first needed to understand how motor neurons and muscle cells develop in the embryo. Although Minas’ team does not conduct embryo research themselves, they use a variety of human stem cell lines and induced pluripotent stem cell lines (iPSCs), which are allowed for research purposes under strict guidelines.
“We tested several hypotheses. We found that the cell type required for functional neuromuscular connections is derived from neuromesodermal progenitor cells,” says doctoral student and author of the paper. says lead author Alessia Urzi.
Urji discovered the right combination of signaling molecules that allow human stem cells to mature into functional motor neurons and muscle cells, and the necessary connections between them. “It was very exciting to see muscle cells contracting under the microscope,” Urji says. “That was a clear sign that we were on the right path.”
Another observation was that upon differentiation, cells organized into regions containing muscle cells and nerve cells, rather like a mosaic.
Optogenetic advances in neuromuscular research
Myocytes grown in culture dishes contract spontaneously as a result of their connections with neurons, but without any meaningful rhythm. Urji and Guti wanted to solve it. In collaboration with researchers at the Charité University of Berlin, they used optogenetics to activate motor neurons. Neurons activated by the flash of light fire and contract muscle cells in synchrony, causing them to move in a way that mimics the physiological conditions of an organism.
Modeling and testing for spinal muscular atrophy
To test the effectiveness of the model, Professor Urji used human iPSCs taken from patients with spinal muscular atrophy. Spinal muscular atrophy is a serious neuromuscular disease that affects children during their first year of life. Neuromuscular cultures generated from patient-specific induced pluripotent stem cells showed severe problems with muscle contraction similar to the patient’s disease state.
For Gooty, 2D and 3D cultures are important tools to study neuromuscular diseases in more detail and test more efficient and personalized treatment options. As a next step, Gouti and her team hope to conduct high-throughput drug screens to identify new treatments for patients with spinal muscular atrophy and amyotrophic lateral sclerosis. “We want to start by using new drug combinations to see if we can achieve more successful outcomes to improve the lives of patients with complex neuromuscular diseases. ” says Gooty.
Reference: “Efficient Generation of Self-Assembling Neuromuscular Junction Models from Human Pluripotent Stem Cells,” Alessia Urzi et al., December 19, 2023. Nature Communications. DOI: 10.1038/s41467-023-43781-3
Almost all TV shows and movies use computer graphics (CG) these days, but a show with fully digital characters takes it to another level. Seth MacFarlane’s “Ted” is one such show, and his production company Fuzzy Door has developed a new tool to enhance the filming process. This tool, called Viewscreen, turns the potentially messy process of working with CG characters and environments into an opportunity for collaboration and improvisation on set.
Viewscreen is an on-set augmented reality tool that allows for real-time interaction with CG assets through the camera. This has dramatically improved the creative process, making it easier to get the necessary shots faster, according to MacFarlane. Typically, the process of filming with CG assets occurs after the camera is turned off, and it involves using stand-ins like tennis balls and motion capture performers. The footage is then sent to a VFX person for adjustments, which can be a repetitive and traditional process, leaving little room for spontaneity.
Viewscreen Studio is a wireless system that can sync between multiple cameras and integrate various data streams simultaneously. This system creates a middle ground between pre and post-production, allowing for live compositing and positioning of CG assets in the viewfinder and on a monitor. It also allows for live adjustments, such as changing waypoints and lighting, and creating different shots and scenarios naturally.
This new tool enables directors and camera operators to see and interact with invisible CG elements in real time, allowing for more creative freedom and spontaneity. It has already been successfully used in the production of “Ted” to enhance over 3,000 shots in the film.
Fuzzy Door has made Viewscreen available today and is already working with several studios and productions. The company offers four specific modules, including a tracker, compositor, exporter, and motion, to assist in the filming process. This tool has the potential to revolutionize the way CG elements are integrated into live-action productions.
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