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Category: biotech/medical

There are now several monoclonal antibodies, identical copies of a therapeutic antibody produced in large numbers, that are authorized for the treatment of COVID-19. But in the ongoing effort to beat this terrible pandemic, there’s plenty of room for continued improvements in treating infections with SARS-CoV-2, the virus that causes COVID-19.

With this in mind, I’m pleased to share progress in the development of a specially engineered therapeutic antibody that could be delivered through a nasal spray. Preclinical studies also suggest it may work even better than existing antibody treatments to fight COVID-19, especially now that new SARS-CoV-2 “variants of concern” have become increasingly prevalent.

These findings come from Zhiqiang An, The University of Texas Health Science Center at Houston, and Pei-Yong Shi, The University of Texas Medical Branch at Galveston, and their colleagues. The NIH-supported team recognized that the monoclonal antibodies currently in use all require time-consuming, intravenous infusion at high doses, which has limited their use. Furthermore, because they are delivered through the bloodstream, they aren’t able to reach directly the primary sites of viral infection in the nasal passages and lungs. With the emergence of new SARS-CoV-2 variants, there’s also growing evidence that some of those therapeutic antibodies are becoming less effective in targeting the virus.-Dr Francis Collins.

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The EU’s data protection agencies on Monday called for an outright ban on using artificial intelligence to identify people in public places, pointing to the “extremely high” risks to privacy.

In a non-binding opinion, the two bodies called for a “general ban” on the practice that would include “recognition of faces, gait, fingerprints, DNA, voice, keystrokes and other biometric or behavioural signals, in any context”.

Such practices “interfere with and freedoms to such an extent that they may call into question the essence of these rights and freedoms,” the heads of the European Data Protection Board and the European Data Protection Supervisor said.

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In case you need the information.

The CDC designated the delta variant of the coronavirus — first identified in India — as a “variant of concern” June 15, reigniting attention on the race between vaccines and coronavirus variants.

The new classification comes amid mounting evidence that the variant spreads more easily than existing strains and causes more severe infections, the CDC said in a June 15 statement to Becker’s. People infected by the delta variant may have twice the risk of hospitalization of people infected with the alpha variant first identified in the U.K., according to research released this week from Scotland. In May, the U.K.’s Scientific Advisory Group for Emergencies also said the delta variant could be up to 50 percent more transmissible than alpha, which is currently the dominant strain in the U.S., though research is still preliminary.

The delta variant now accounts for about 10 percent of COVID-19 cases in the U.S. and could become the nation’s dominant strain by this fall, according to Scott Gottlieb, MD, a former FDA commissioner who now serves on Pfizer’s board of directors.

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In America, at least 17 people a day die waiting for an organ transplant. But instead of waiting for a donor to die, what if we could someday grow our own organs?

Last week, six years after NASA announced its Vascular Tissue Challenge, a competition designed to accelerate research that could someday lead to artificial organs, the agency named two winning teams. The challenge required teams to create thick, vascularized human organ tissue that could survive for 30 days.

The two teams, named Winston and WFIRM, both from the Wake Forest Institute for Regenerative Medicine, used different 3D-printing techniques to create lab-grown liver tissue that would satisfy all of NASA’s requirements and maintain their function.

“We did take two different approaches because when you look at tissues and vascularity, you look at the body doing two main things,” says Anthony Atala, team leader for WFIRM and director of the institute.

The two approaches differ in the way vascularization—how blood vessels form inside the body—is achieved. One used tubular structures and the other spongy tissue structures to help deliver cell nutrients and remove waste. According to Atala, the challenge represented a hallmark for bioengineering because the liver, the largest internal organ in the body, is one of the most complex tissues to replicate due to the high number of functions it performs.

Researchers used 3D-printing to create human liver tissue that could soon be tested on the International Space Station.

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HOMA calculator: https://www.omnicalculator.com/health/homa-ir.

Papers referenced in the video:
Growth hormone-releasing hormone disruption extends lifespan and regulates response to caloric restriction in mice.
https://pubmed.ncbi.nlm.nih.gov/24175087/

Glucose regulation and oxidative stress in healthy centenarians.
https://pubmed.ncbi.nlm.nih.gov/12543271/

Distribution of blood glucose and prevalence of diabetes among centenarians and oldest-old in China: based on the China Hainan Centenarian Cohort Study and China Hainan Oldest-old Cohort Study.
https://pubmed.ncbi.nlm.nih.gov/32643047/

Prevalence and Ethnic Pattern of Diabetes and Prediabetesin China in 2013
https://pubmed.ncbi.nlm.nih.gov/28655017/

Families enriched for exceptional longevity also have increased health-span: findings from the long life family study.
https://pubmed.ncbi.nlm.nih.gov/24350207/

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Experts predict that we’ll be able to live up to 20% longer over the next 100 years. Here’s how humans are trying to live forever. Andrea Schmitz and Benji Jones Apr 3, 2019, 12:00 PM @ These potential treatments for aging could unlock cures to a range of age-related illnesses, from cancer to heart disease – Charlotte Hu Aug 20, 2018, 1:21 PM @ Animals that defy the rules of aging — like naked mole rats — could help scientists unravel the secrets to longevity – Charlotte Hu Aug 15, 2018, 2:54 PM @ Everything you thought you knew about aging is wrong – Erin Brodwin Apr 27, 2016, 12:13 PM *© 2021 Insider Inc. @ Other very important information, images, YouTube Videos (Ray Kurzweil – Physical Immortality – 3 de jan. de 2017 & Ray Kurzweil + Disruptive Technologies and Dangerous Ideas – 5 de dez. de 2017), websites, social networks and links.

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“Well, it has to do with our technology,” said Hoge. “We use something called messenger RNA, or mRNA for short. It’s really just an instruction molecule, kind of like a software program for your cells. It just sends instructions about what the virus looks like to your immune system. So just like a software program, or a Word document, we can simply edit something, change it, and then manufacture it very, very quickly.”

He makes it sound so easy, but it’s taken more than a decade of research, and many technological hurdles. Now, the company has some big plans. “We’ve had an incredible year using messenger RNA to fight a pandemic,” Hoge said. “But we think we’re just starting in the infectious disease space, And so, there’s a large number of other vaccines we’re bringing forward.”

Moderna’s research pipeline includes everything from an HIV vaccine, to heart disease treatments, to vaccines for different kinds of cancer, including lymphoma and melanoma.

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Nanobots, tiny nano-sized robots and vehicles that can navigate through blood vessels to reach the site of a disease could be used to deliver drugs to tumours that are otherwise difficult to treat.

Once injected or swallowed, most drugs rely upon the movement of body fluids to find their way around the body. It means that some types of disease can be difficult to treat effectively in this way.

One aggressive type of brain tumour known as glioblastoma, for example, kills hundreds of thousands of people a year. But because it produces finger-like projections into a patient’s brain tissue that damage the blood vessels around them, it is hard for drugs to reach the tumour site.

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Hello everybody! In this episode, we interview Felix Werth, a trully hero of the rejuvenation field: in 2015 he created a party in Germany to defend more investments in our field, and his party is contesting the general elections in the country on September 26th 2021! However, he needs our help right now, since his party has until July 19th to collect enough signatures to participate in 14 German states covering 98% of the country’s population. So be sure to check the interview and the party’s website (https://parteifuergesundheitsforschung.de) to see how you can help.

In this episode of ImmortaliCast, Nicolas and Nina talk to Felix Werth, the founder and leader of the German Party for Health Research, a party with a single issue: 10% of the government budget should be spent on research for the development of treatments of age-related diseases. The party will contest the German general elections of September 26th 2021.

Party for Health Research website: https://parteifuergesundheitsforschung.de.

Fundraising page: https://parteifuergesundheitsforschung.de/superwahljahr-spendenaktion.

ImmortaliCast website: https://www.ntzplural.com/immortalicast.

ImmortaliCast Patreon: https://www.patreon.com/immortalicast.

ImmortaliCast Padrim: https://www.padrim.com.br/immortalicast.

ImmortaliCast e-mail: [email protected].

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