In June 2019, a doctor in Spain dismissed her symptoms as menopause and it was only six months later that she found out it was stage 4 bowel cancer.
The genetically modified lymphocytes were then multiplied into the hundreds of millions in the laboratory and infused back into the patients, where they expressed the tumor-specific T-cell receptors and continued to multiply.
“By taking the natural T-cell receptors that are present in a very small number of cells and putting them into normal lymphocytes for which we have enormous numbers—a million in every thimbleful of blood—we can generate as many cancer-fighting cells as we want,” Dr. Rosenberg explained.
As part of a larger phase 2 trial, seven patients with metastatic colon cancer were treated with the experimental personalized cellular immunotherapy. All seven received several doses of the immunotherapy drug pembrolizumab (Keytruda) before the cell therapy and another immunotherapy drug called IL-2 afterward. Three patients had substantial shrinkage of metastatic tumors in the liver, lung, and lymph nodes that lasted for four to seven months. The median time to disease progression was 4.6 months.
TencentARC/SEED-Story
Posted in futurism
Multimodal Long Story Generation with Large Language Model https://huggingface.co/papers/2407.
With the remarkable advancements in image generation and open-form text generation, the creation of interleaved image-text content has become an…
Contribute to TencentARC/SEED-Story development by creating an account on GitHub.
Elon Musk teased the next iteration of Tesla’s humanoid robot Optimus 2.0 on X recently.
“The new Optimus design, which will be complete later this year, is something special,” Musk replied to an X post.
In June, Tesla shared a few updates about Optimus and the milestones the humanoid robot has reached over the past year. According to Tesla, Optimus has already undergone three major design revisions. The humanoid robot’s hand were revised four times in the last two years.
AMD is reportedly planning to develop Glass Substrate chips as early as 2025 as Intel & Samsung eye mass production for post-2025.
Glass Substrates Are Expected To Be The Next Big Thing For The Tech Industry, Intel & Samsung Eye Towards Establishing Their Production While AMD Aims Chip Development As Early As 2025
Glass substrates are used in packaging solutions to replace organic materials. They have numerous benefits, such as higher packaging strength, which ensures more extended durability & reliability, and a higher interconnected density since glass is usually much thinner than organic material. This allows the integration of multiple transistors into a single pack. It is said to overcome flaws associated with traditional methods and open a new wave of innovation for computing chips employing glass substrates.
Apple is developing technology that would allow any number of willing people in close proximity to start an audio chat, using only an iPhone and a headset like AirPods, with no WiFi or cell service needed.
Instantaneous communication like the Walkie-Talkie feature on the Apple Watch would be possible but with groups of people instead of individuals.
Unlike the Walkie-Talkie feature, this new technology would eliminate the roundtrip to Apple’s cloud servers, a step that makes Walkie-Talkie unreliable at times. Also, unlike Walkie-Talkie, this would allow groups of willing people to talk to each other simultaneously.
Musk seemed to acknowledge the issue, though he also hinted at upcoming improvements to FSD’s highway performance. “12.5.x will finally combine the city and highway software stacks,” Musk wrote.
This is not the first time that Elon Musk mentioned a single FSD stack for both inner city and highway driving. Back in May, Musk estimated that FSD V12.5 should be out in late June, and the update should see some notable improvements.
NASA has invested $725,000 in a new rocket system that could solve one of the major obstacles standing in our way of sending humans to Mars: travel time.
With current technology, a round-trip to the red planet would take almost two years. For astronauts, spending that much time in spaceflight comes with big health risks.
They’d be exposed to high levels of solar and cosmic radiation, the harmful effects of zero-gravity, and a long period of isolation.
In 2021, NASA’s Perseverance rover landed in the Jezero Crater on Mars. For the next three years, this astrobiology mission collected soil and rock samples from the crater floor for eventual return to Earth. The analysis of these samples is expected to reveal much about Mars’ past and how it transitioned from being a warmer, wetter place to the frigid and desiccated place we know today. Unfortunately, budget cuts have placed the future of the proposed NASA-ESA Mars Sample Return (MSR) mission in doubt.
As a result, NASA recently announced that it was seeking proposals for more cost-effective and rapid methods of bringing the samples home. This will consist of three studies by NASA and the Johns Hopkins University Applied Physics Laboratory (JHUAPL).
In addition, NASA has selected seven commercial partners for firm-fixed-price contracts for up to $1.5 million to conduct their own 90-day studies. Once complete, NASA will consider which proposals to integrate into the MSR mission architecture.