Do you want to work for Tesla remotely and test its latest Autopilot and Full Self-Driving features? You may be in luck as we learn that the automaker is now looking to hire self-driving car test drivers around the world.
You don’t even need a college education.
When it comes to Autopilot and Full Self-Driving package features, people often say that Tesla’s own paying customers are the testers and that’s mostly true, but the automaker also does plenty of internal testing.
Check out this short educational video in which I explain some super exciting research in the area of nanotechnology: gigadalton-scale DNA origami! I specifically discuss a journal article by Wagenbauer et al. titled “Gigadalton-scale shape-programmable DNA assemblies”.
Here, I explain an exciting nanotechnology paper “Gigadalton-scale shape-programmable DNA assemblies” (https://doi.org/10.1038/nature24651).
Though I am not involved in this research myself, I have worked in adjacent areas such as synthetic biology, nanotechnology-based tools for neuroscience, and gene therapy. I am endlessly fascinated by DNA origami and would love to use it in my own research at some point in the future.
I am a PhD candidate at Washington University in St. Louis and the CTO of the startup company Conduit Computing. I am also a published science fiction writer and a futurist. To learn more about me, check out my website: https://logancollinsblog.com/.
Senior director, milken institute center for the future of aging, milken institute; executive director, alliance to improve dementia care.
Nora Super is the Senior Director of the Milken Institute Center for the Future of Aging (CFA) (https://milkeninstitute.org/centers/center-for-the-future-of-aging) and the Executive Director of the Milken Institute Alliance to Improve Dementia Care (https://milkeninstitute.org/centers/center-for-the-future-of-aging/alliance-to-improve-dementia-care).
Mr. Super provides strategic direction for the two primary focus areas of CFA: Financial Wellness and Healthy Longevity, and oversees data-driven research, meaningful policy initiatives, and impactful convenings around the world.
Launched in 2020, the Alliance to Improve Dementia Care seeks to transform and improve the complex health and long-term care systems that people at risk for and living with dementia must navigate.
Ms. Super studied political science at Tulane University and completed her master’s degree in public administration, with a concentration in health policy, at George Washington University, and is a respected thought leader, frequent speaker, and prolific writer on healthy longevity and the economic and social impact of global population aging. In 2019, she authored two major reports: “Reducing the Cost and Risk of Dementia: Recommendations to Improve Brain Health and Decrease Disparities” and “Age-Forward Cities for 2030.”
Before joining the Milken Institute, Ms. Super held several key leadership roles in the public and private sectors. In 2014, President Barack Obama appointed Ms. Super Executive Director of the White House Conference on Aging, where she received wide recognition for her nationwide efforts to improve the lives of older Americans. In 2015, Ms. Super was recognized as one of America’s top 50 “Influencers in Aging” by PBS Next Avenue and was the Honoree for Outstanding Service to Medicare Beneficiaries by the Medicare Rights Center.
Ms. Super has also held leadership roles at the US Department of Health and Human Services, AARP, Kaiser Permanente, and the National Association of Area Agencies on Aging.
Ms. Super serves on several boards, including the Long-Term Quality Alliance, the Brain Health Partnership Advisory Board, the Bipartisan Policy Center’s Advisory Committee on Improving Care Delivery for Individuals with Serious Illness, the Better Medicare Alliance Beneficiary Education Technical Advisory Council, the Brookings Institution and Kellogg School of Management Retirement Security Advisory Board, Columbia University Medical Center’s Health and Aging Policy Fellows Program Steering Committee, Retirement Income Institute’s Scholars Advisory Group, and Gerontological Society of America’s Policy and Aging Report Editorial Board and Reframing Aging Initiative Advisory Board.
Is this the reason why the general public view the emerging field of regenerative medicine with such scepticism? Has a combined cultural history of being bombarded with empty promises of longevity made us numb to such a prospect? Possibly, although I believe it might go deeper than old fashioned scepticism. After all, our species is hardly a stranger to believing something if we desire for it to be true, regardless of how much evidence is presented to us.
Maybe we are simply experiencing just another example of humans finding dramatic change to our way of life hard to comprehend and accept. After all, practically every major change in our recent history was largely believed to be an impossibility by the general public, right up until the point that it became the norm. Everything from the aeroplane to the internet was seen as science fiction, but yet today they are integral parts of our lives. Now, this is not to say that everything the general public is sceptical of will inevitably turn out to prove them wrong, but lessons from our history do show that when it comes to scientific progress, the public will not believe it until they can see it.
Some would believe that scepticism towards regenerative medicine strikes at something much deeper in our psych, as it threatened to fundamentally change our entire outlook on the world. For our entire lives, we have been taught by our interactions with others exactly how life is supposed to progress. You are supposed to suffer a gradual decay of mental and physical abilities, until eventually you die. That is just how it is, and if that were to ever change then we would all have to change how we think about the world. The concept of a 125 year old with the appearance of a 25 year old seems bizarre to us right now, and to many the idea of ever lasting health just goes against their fundamental beliefs of how the world functions to such an extent that they cannot comprehend anything different. Some would even go far as to defend the ageing process as being an integral part of life, displaying what can only be described as ‘Stockholm syndrome with extra steps’.
A team of North Hollywood High School science students emerged victorious Saturday over scholars from 63 other schools nationwide in this year’s U.S. Department of Energy Office of Science National Science Bowl Championship.
The win marks North Hollywood High’s second National Science Bowl championship, following the title captured in 2001.
The school has placed among the top five teams 12 times at the national event.
Most important part comes at 1:49 where Liza talks about gene therapies for people to stop people from aging, reaching homeostasis, or even exceeding it a little bit.
In this video Liz introduces BioViva Science and how the company works with its partners in delivering gene therapies.
BioViva https://bioviva-science.com. *********************************************************************************** If you would like to support our channel, we’d love a coffee…thank you! https://www.buymeacoffee.com/mhealthspan.
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Learn how a young team of additive manufacturing engineers helped bring 3D printed parts to the design of the GE9X, the world’s largest jet engine.
Stefka Petkova enjoys building things. It’s a passion she’s had since she was a small child when her dad, an electrician who liked to work on cars, kept the door to his workshop open. “I was exposed to that as a very young child and just got a lot of encouragement,” says Petkova, who she spent many afternoons watching him weld and wire automobiles.
Her childhood tinkering led her to study mechanical engineering at the University of North Florida, near America’s Space Coast, where she joined the school’s space club. She traveled with the club to Cocoa Beach to watch the liftoff of Space Shuttle Atlantis in 2011, NASA’s final flight in its Space Shuttle Program. “At the Atlantis launch, we were able to go in the overhaul facility, touch the space tiles protecting the shuttles and talk to the engineers,” she says. “It was an amazing experience.”
Pediatrician, Medical Innovator, Educator — Dr. Jamie Wells, MD, FAAP — Director, Research Science Institute (RSI), Center for Excellence in Education, Massachusetts Institute of Technology (MIT) — Professor, Drexel University School of Biomedical Engineering, Science and Health Systems.
Dr. Jamie L. Wells, MD, FAAP, is an Adjunct Professor at Drexel University’s School of Biomedical Engineering, Science and Health Systems, where she has been involved in helping to spearhead the nation’s first-degree program focused on pediatric engineering, innovation, and medical advancement.
Dr. Wells is an award-winning Board-certified pediatrician with many years of experience caring for patients. With her BA with Honors from Yale, and her MD from Jefferson Medical College, Philadelphia, PA, she has served as a Clinical Instructor/Attending at NYU Langone, Mt. Sinai-Beth Israel and St. Vincent’s Medical Centers in Manhattan.
Dr. Wells is on the leadership council of the Wistar Institute (the USA’s first independent biomedical research facility and certified cancer center), Ambassador of the Healthcare Global Blockchain Business Council, was a grant reviewer for the Susan G. Komen Community Grants Program, judged both the local, district and world robotics championships for Dean Kamen’s F.I.R.S.T. (For Inspiration & Recognition of Science & Technology) nonprofit, as well as the Miss America’s Outstanding Teen scholarship competition (for which she is now a member of its Board of Directors), and is the Chair of the Yale Alumni Health Network (YAHN).
Dr. Wells has a proven track record of success in communications on various platforms (e.g. BBC, Reuters TV, Fox News Channel, Discovery Health), routinely appearing as a medical expert and has published over 400 articles as director of medicine for an educational advocacy nonprofit.
Dr. Wells has broad ranging interests in patient safety and optimizing care delivery, bioethics, public health and policy, science communications, med-tech innovation, diagnosis and management of disease, identifying healthcare trends, bridging interdisciplinary knowledge gaps to prevent medical error and expedite discovery, thought integration of clinical practice and biomedical engineering approaches with an emphasis on patient-centered design, debunking medical myths and pediatrics.
A group of “ethical hackers” has obtained access to sensitive systems and proprietary online data hosted by the Fermi National Accelerator Laboratory in the US after accessing multiple unsecured entry points in late April and early May. The group – Sakura Samurai – discovered configuration data for the lab’s NoVa experiment and more than 4500 “tickets” for tracking internal projects.
The Sakura Samurai team has previous experience probing the vulnerabilities of scientific and educational organizations, which hold critical information that if leaked could put those institutions at risk. “Fermilab was no different,” Sakura Samurai leader Robert Willis told Physics World. “Oversharing can be very dangerous, especially when it’s sharing credentials that could enable a malicious actor to take over a server with the potential to move across their network to access items that the organization wouldn’t even think of being vulnerable.”