About Us
Founded in 1944, the American Committee for the Weizmann Institute of Science develops philanthropic support for the Weizmann Institute in Israel, and advances its mission of science for the benefit of humanity.
https://weizmann-usa.org/news-media/in-the-news/how-much-does-all-the-sars-cov-2-in-the-world-weigh/
Jun 10, 2021...
If all the SARS-CoV-2 particles currently circulating in humans around the globe were gathered together into one place, they would weigh somewhere between the weight of an apple and that of a young toddler, according to a new study.
A group of researchers recently calculated that each infected individual carries about 10 billion to 100 billion individual SARS-CoV-2 particles at the peak of their infection. That suggests that all of the SARS-CoV-2 viruses currently infecting people around the world — which has been about 1 million to 10 million infections at any given time during the course of the pandemic — have a collective mass of somewhere between 0.22 and 22 pounds (0.1 and 10 kilograms).
Sep 18, 2021... Taking a third dose of the Pfizer COVID-19 vaccine boosts the immunity of recipients more than tenfold compared to those who received only two doses of the vaccine more than five months prior, according to a report published Wednesday night by Israeli researchers in the New England Journal of Medicine.A version of the study had been previously published and reported on, though not peer-reviewed, on the online research hub MedRxiv at the beginning of the month.
Sep 29, 2021... REHOVOT, ISRAEL—September 29, 2021—The world’s largest open-science drug discovery effort, COVID Moonshot, has recently received key funding of £8 million from biomedical funding charity, Wellcome, on behalf of the Covid-19 Therapeutics Accelerator. The global non-profit is dedicated to the discovery of globally affordable and easily-manufactured antiviral drugs against COVID-19 and future viral pandemics.
Aug 31, 2021...
When SARS-CoV-2 first began rampaging around the world, it was thought to primarily affect the respiratory system. It soon became clear that the virus had more far-reaching effects, including on the gastrointestinal system and its bacterial symbionts.
This came as no surprise to Siew Ng, a gastroenterologist in the Center for Gut Microbiota Research at the Chinese University of Hong Kong. “We previously had found quite a lot of impaired gut microbiome in different conditions, including people with infectious disease,” says Ng. COVID-19 patients were no different. “In quite a substantial proportion of people, they also have gut manifestations, such as diarrhea, such as abdominal pain.”
Nov 30, 2021... Like every Israeli, Alon Chen had to do three years of military service, and was posted with the paratroopers to the middle of the war in Lebanon. “I lost a friend. When you go and you treat the person that is injured and is dying, and you cannot help him, it leaves its mark,” he recalls. From then on, he knew he wanted to dedicate the rest of his life to understanding what happens to a brain that suffers a traumatic experience.
https://weizmann-usa.org/news-media/video-gallery/from-pandemic-to-endemic/
Mar 04, 2022... Director General Emeritus of Israeli Ministry of Health Discusses the New Phase of COVID-19
Nov 21, 2022... Weizmann Scientist, Prof. Yonina Eldar of the department of Computer Science and Applied Mathematics, explains how Artificial Intelligence can be used to improve signal processing. Signal processing is a crucial component that enables many of the devices we use today including hearing aids and medical imaging equipment, like MRI, CT and X-ray, which can all greatly benefit from better imaging and resolution. Prof. Eldar’s specializes in developing algorithms for signal processing, and for the representation and transmission of information using advanced mathematical techniques. Her lab develops AI tools and to acquire and extract information and combine them with other modes like physics or medicine to pave the way to new technologies that can see, hear, and communicate beyond existing limits. Prof. Eldar’s innovations have helped to make ultrasound devices smaller, cheaper, and uploadable to the cloud; optimize MRI scans for medical imaging, improve data storage and communications, create super-resolution microscopy, and support computational biology.
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