Biden’s Administration Should Immediately Prioritize These Five Pandemic Tasks
Dr. Adalja is focused on emerging infectious disease, pandemic preparedness, and biosecurity. He has served on US government panels tasked with developing guidelines for the treatment of plague, botulism, and anthrax in mass casualty settings and the system of care for infectious disease emergencies, and as an external advisor to the New York City Health and Hospital Emergency Management Highly Infectious Disease training program, as well as on a FEMA working group on nuclear disaster recovery. Dr. Adalja is an Associate Editor of the journal Health Security. He was a coeditor of the volume Global Catastrophic Biological Risks, a contributing author for the Handbook of Bioterrorism and Disaster Medicine, the Emergency Medicine CorePendium, Clinical Microbiology Made Ridiculously Simple, UpToDate's section on biological terrorism, and a NATO volume on bioterrorism. He has also published in such journals as the New England Journal of Medicine, the Journal of Infectious Diseases, Clinical Infectious Diseases, Emerging Infectious Diseases, and the Annals of Emergency Medicine. He is a board-certified physician in internal medicine, emergency medicine, infectious diseases, and critical care medicine. Follow him on Twitter: @AmeshAA
Democratic U.S. presidential nominee and former Vice President Joe Biden puts his face mask back on after answering questions following a speech on the effects on the U.S. economy of the Trump administration's response to the coronavirus disease (COVID-19) pandemic during a campaign event in Wilmington, Delaware, U.S., September 4, 2020.
The response to the COVID-19 pandemic will soon become the responsibility of President-elect Biden. As is clear to anyone who honestly looks, the past 10+ months of this pandemic have been a disastrous litany of mistakes, wrong actions, and misinformation.
The result has been the deaths of 240,000 Americans, economic collapse, disruption of routine healthcare, and inability of Americans to pursue their values without fear of contracting or spreading a deadly infectious disease. With the looming change in administration, many proposals will be suggested for the path forward.
Indeed, the Biden campaign published their own plan. This plan encompasses many of the actions my colleagues and I in the public health and infectious disease fields have been arguing for since January. Several of these points, I think, bear emphasis and should be aggressively pursued to help the U.S. emerge from the pandemic.
Support More and Faster Tests
When it comes to an infectious disease outbreak the most basic question that must be answered in any response is: "Who is infected and who is not?" Even today this simple question is not easy to answer because testing issues continue to plague us and there are voices who oppose more testing -- as if by not testing, the cases of COVID cease to exist. While testing is worlds better than it was in March – especially for hospital inpatients – it is still a process fraught with unnecessary bureaucracy and delays in the outpatient setting.
Just this past week, friends and colleagues have had to wait days upon days to get a result back, all the while having to self-quarantine pending the result. This not only leaves people in limbo, it discourages people from being tested, and renders contact tracing almost moot. A test that results in several days is almost useless to contact tracers as Bill Gates has forcefully argued.
We need more testing and more actionable rapid turn-around tests. These tests need to be deployed in healthcare facilities and beyond. Ideally, these tests should be made available for individuals to conduct on themselves at home. For some settings, such as at home, rapid antigen tests similar to those used to detect pregnancy will be suitable; for other settings, like at a doctor's office or a hospital, more elaborate PCR tests will still be key. These last have been compromised for several months due to rationing of the reagent supplies necessary to perform the test – an unacceptable state of affairs that cannot continue. Reflecting an understanding of the state of play of testing, the President-elect recently stated: "We need to increase both lab-based diagnostic testing, with results back within 24 hours or less, and faster, cheaper screening tests that you can take right at home or in school."
Roll Out Safe and Effective Vaccine(s)
Biden's plan also identifies the need to "accelerate the development of treatments and vaccines" and indeed Operation Warp Speed has been one solitary bright spot in the darkness of the failed pandemic response. It is this program that facilitated a distribution partnership with Pfizer for 100 million doses of its mRNA vaccine -- whose preliminary, and extremely positive data, was just announced today to great excitement.
Operation Warp Speed needs to be continued so that we can ensure the final development and distribution of the first-generation vaccines and treatments. When a vaccine is available, it will be a Herculean task that will span many months to actually get into the arms (twice as a 2-dose vaccine) of Americans. Vaccination may begin for healthcare workers before a change in administration, but it will continue long into 2021 and possibly longer. Vaccine distribution will be a task that demands a high degree of competence and coordination, especially with the extreme cold storage conditions needed for the vaccines.
Anticipate the Next Pandemic Now
Not only should Operation Warp Speed be supported, it needs to be expanded. For too long pandemic preparedness has been reactive and it is long past time to approach the development of medical countermeasures for pandemic threats in a proactive fashion.
What we do for other national security threats should be the paradigm for infectious disease threats that too often are subject to a mind-boggling cycle of panic and neglect. There are an estimated 200 outbreaks of viral diseases per year. Luckily and because of hard work, for many of them we have tools at our hands to control them, but for the unknown 201st virus outbreak we do not –as we've seen this year. And, the next unknown virus will likely appear soon. A new program must be constructed guaranteeing that we will never again be caught blindsided and flatfooted as we have been with the COVID-19 pandemic.
A new dedicated "Virus 201" strategy, program, and funding must be created to achieve this goal. This initiative should be a specific program focused on unknown threats that emanate from identified classes of pathogens that possess certain pandemic-causing characteristics. For example, such a program could leverage new powerful vaccine platform technologies to begin development on vaccine candidates for a variety of viral families before they emerge as full-fledged threats. Imagine how different our world would be today if this action was taken after SARS in 2003 or even MERS in 2012.
Biden should remove the handcuffs from the Centers for Disease Control and Prevention (CDC) and allow its experts to coordinate the national response and to issue guidance in the manner they were constituted to do without fear of political reprisal.
Resurrect Expertise
One of the most disheartening aspects of the pandemic has been the denigration and outright attacks on experts in infectious disease. Such disgusting attacks were not for any flaws, incompetence, or weakness but for their opposite -- strength and competence – and emanated from a desire to evade the grim reality. Such nihilism must end and indeed the Biden plan contains several crucial remedies, including the restoration of the White House National Security Council Directorate for Global Health Security and Biodefense, a crucial body of experts at the White House that the Trump administration bafflingly eliminated in 2018.
Additionally, Biden should remove the handcuffs from the Centers for Disease Control and Prevention (CDC) and allow its experts to coordinate the national response and to issue guidance in the manner they were constituted to do without fear of political reprisal.
Shore Up Hospital Capacity
For the foreseeable future, as control of the virus slips away in certain parts of the country, hospital capacity will be the paramount concern. Unlike many other industries, the healthcare sector is severely constrained in its ability to expand capacity because of regulatory and financial considerations. Hospital emergency preparedness has never been prioritized and until we can substantially curtail the spread of this virus, hospitals must remain vigilant.
We have seen how suspensions of "elective" procedures led to alarming declines in vital healthcare services that range from childhood immunization to cancer chemotherapy to psychiatric care. This cannot be allowed to happen again. Hospitals will need support in terms of staffing, alternative care sites, and personal protective equipment. Reflecting these concerns, the Biden plan outlines an approach that smartly uses the Departments of Defense and Veterans Affairs assets and medical reserve corps, coupled to the now-flourishing telemedicine innovations, to augment capacity and forestall the need for hospitals to shift to crisis standards of care.
To these five tasks, I would add a long list of subtasks that need to be executed by agencies such as the Centers for Medicare and Medicaid, the Food and Drug Administration, and many other arms of government. But, to me, these are the most crucial.
***
As COVID-19 has demonstrated, new deadly viruses can spread quickly and easily around the globe, causing significant loss of life and economic ruin. With nearly 200 epidemics occurring each year, the next fast-moving, novel infectious disease pandemic could be right around the corner.
The upcoming transition affords the opportunity to implement a new paradigm in pandemic response, biosecurity, and emerging disease response. The United States and President-elect Biden must work hard to to end this pandemic and increase the resilience of the United States to the future infectious disease threats we will surely face.
Dr. Adalja is focused on emerging infectious disease, pandemic preparedness, and biosecurity. He has served on US government panels tasked with developing guidelines for the treatment of plague, botulism, and anthrax in mass casualty settings and the system of care for infectious disease emergencies, and as an external advisor to the New York City Health and Hospital Emergency Management Highly Infectious Disease training program, as well as on a FEMA working group on nuclear disaster recovery. Dr. Adalja is an Associate Editor of the journal Health Security. He was a coeditor of the volume Global Catastrophic Biological Risks, a contributing author for the Handbook of Bioterrorism and Disaster Medicine, the Emergency Medicine CorePendium, Clinical Microbiology Made Ridiculously Simple, UpToDate's section on biological terrorism, and a NATO volume on bioterrorism. He has also published in such journals as the New England Journal of Medicine, the Journal of Infectious Diseases, Clinical Infectious Diseases, Emerging Infectious Diseases, and the Annals of Emergency Medicine. He is a board-certified physician in internal medicine, emergency medicine, infectious diseases, and critical care medicine. Follow him on Twitter: @AmeshAA
Friday Five Podcast: New drug may slow the rate of Alzheimer's disease
On September 27, pharmaceuticals Biogen and Eisai announced that their drug, lecanemab, can slow the rate of Alzheimer's disease, according to a clinical trial. Today's Friday Five episode covers this story and other health research over the month of September.
The Friday Five covers important stories in health and science research that you may have missed - usually over the previous week, but today's episode is a lookback on important studies over the month of September.
Most recently, on September 27, pharmaceuticals Biogen and Eisai announced that a clinical trial showed their drug, lecanemab, can slow the rate of Alzheimer's disease. There are plenty of controversies and troubling ethical issues in science – and we get into many of them in our online magazine – but this news roundup focuses on scientific creativity and progress to give you a therapeutic dose of inspiration headed into the weekend and the new month.
Listen on Apple | Listen on Spotify | Listen on Stitcher | Listen on Amazon | Listen on Google
This Friday Five episode covers the following studies published and announced over the past month:
- A new drug is shown to slow the rate of Alzheimer's disease
- The need for speed if you want to reduce your risk of dementia
- How to refreeze the north and south poles
- Ancient wisdom about Neti pots could pay off for Covid
- Two women, one man and a baby
Could epigenetic reprogramming reverse aging?
A range of strategies are being explored to reprogram the body's cells to an earlier state. Most scientists aren't betting on a new fountain of youth just yet - but, in theory, epigenetic reprogramming is a recipe for self-renewal.
Ten thousand years ago, the average human spent a maximum of 30 years on Earth. Despite the glory of Ancient Greece and the Roman Empire, most of their inhabitants didn’t surpass the age of 35. Between the 1500s and 1800, life expectancy (at least in Europe) fluctuated between 30 and 40 years.
Public health advancements like control of infectious diseases, better diet and clean sanitation, as well as social improvements have made it possible for human lifespans to double since 1800. Although lifespan differs widely today from country to country according to socioeconomic health, the average has soared to 73.2 years.
But this may turn out to be on the low side if epigenetic rejuvenation fulfills its great promise: to reverse aging, perhaps even completely. Epigenetic rejuvenation, or partial reprogramming, is the process by which a set of therapies are trying to manipulate epigenetics – how various changes can affect our genes – and the Yamanaka factors. These Yamanaka factors are a group of proteins that can convert any cell of the body into pluripotent stem cells, a group of cells that can turn into brand new cells, such as those of the brain or skin. At least in theory, it could be a recipe for self-renewal.
“Partial reprogramming tries to knock a few years off of people’s biological age, while preserving their original cell identity and function,” says Yuri Deigin, cofounder and director of YouthBio Therapeutics, a longevity startup utilizing partial reprogramming to develop gene therapies aimed at the renewal of epigenetic profiles. YouthBio plans to experiment with injecting these gene therapies into target organs. Once the cargo is delivered, a specific small molecule will trigger gene expression and rejuvenate those organs.
“Our ultimate mission is to find the minimal number of tissues we would need to target to achieve significant systemic rejuvenation,” Deigin says. Initially, YouthBio will apply these therapies to treat age-related conditions. Down the road, though, their goal is for everyone to get younger. “We want to use them for prophylaxis, which is rejuvenation that would lower disease risk,” Deigin says.
Epigenetics has swept the realm of biology off its feet over the last decade. We now know that we can switch genes on and off by tweaking the chemical status quo of the DNA’s local environment. "Epigenetics is a fascinating and important phenomenon in biology,’’ says Henry Greely, a bioethicist at Stanford Law School. Greely is quick to stress that this kind of modulation (turning genes on and off and not the entire DNA) happens all the time. “When you eat and your blood sugar goes up, the gene in the beta cells of your pancreas that makes insulin is turned on or up. Almost all medications are going to have effects on epigenetics, but so will things like exercise, food, and sunshine.”
Can intentional control over epigenetic mechanisms lead to novel and useful therapies? “It is a very plausible scenario,” Greely says, though a great deal of basic research into epigenetics is required before it becomes a well-trodden way to stay healthy or treat disease. Whether these therapies could cause older cells to become younger in ways that have observable effects is “far from clear,” he says. “Historically, betting on someone’s new ‘fountain of youth’ has been a losing strategy.”
The road to de-differentiation, the process by which cells return to an earlier state, is not paved with roses; de-differentiate too much and you may cause pathology and even death.
In 2003 researchers finished sequencing the roughly 3 billion letters of DNA that make up the human genome. The human genome sequencing was hailed as a vast step ahead in our understanding of how genetics contribute to diseases like cancer or to developmental disorders. But for Josephine Johnston, director of research and research scholar at the Hastings Center, the hype has not lived up to its initial promise. “Other than some quite effective tests to diagnose certain genetic conditions, there isn't a radical intervention that reverses things yet,” Johnston says. For her, this is a testament to the complexity of biology or at least to our tendency to keep underestimating it. And when it comes to epigenetics specifically, Johnston believes there are some hard questions we need to answer before we can safely administer relevant therapies to the population.
“You'd need to do longitudinal studies. You can't do a study and look at someone and say they’re safe only six months later,” Johnston says. You can’t know long-term side effects this way, and how will companies position their therapies on the market? Are we talking about interventions that target health problems, or life enhancements? “If you describe something as a medical intervention, it is more likely to be socially acceptable, to attract funding from governments and ensure medical insurance, and to become a legitimate part of medicine,” she says.
Johnston’s greatest concerns are of the philosophical and ethical nature. If we’re able to use epigenetic reprogramming to double the human lifespan, how much of the planet’s resources will we take up during this long journey? She believes we have a moral obligation to make room for future generations. “We should also be honest about who's actually going to afford such interventions; they would be extraordinarily expensive and only available to certain people, and those are the people who would get to live longer, healthier lives, and the rest of us wouldn't.”
That said, Johnston agrees there is a place for epigenetic reprogramming. It could help people with diseases that are caused by epigenetic problems such as Fragile X syndrome, Prader-Willi syndrome and various cancers.
Zinaida Good, a postdoctoral fellow at Stanford Cancer Institute, says these problems are still far in the future. Any change will be incremental. “Thinking realistically, there’s not going to be a very large increase in lifespan anytime soon,” she says. “I would not expect something completely drastic to be invented in the next 5 to 10 years. ”
Good won’t get any such treatment for herself until it’s shown to be effective and safe. Nature has programmed our bodies to resist hacking, she says, in ways that could undermine any initial benefits to longevity. A preprint that is not yet peer-reviewed reports cellular reprogramming may lead to premature death due to liver and intestinal problems, and using the Yamanaka factors may have the potential to cause cancer, at least in animal studies.
“Side effects are an open research question that all partial reprogramming companies and labs are trying to address,” says Deigin. The road to de-differentiation, the process by which cells return to an earlier state, is not paved with roses; de-differentiate too much and you may cause pathology and even death. Deigin is exploring other, less risky approaches. “One way is to look for novel factors tailored toward rejuvenation rather than de-differentiation.” Unlike Yamanaka factors, such novel factors would never involve taking a given cell to a state in which it could turn cancerous, according to Deigin.
An example of a novel factor that could lower the risk of cancer is artificially introducing mRNA molecules, or molecules carrying the genetic information necessary to make proteins, by using electricity to penetrate the cell instead of a virus. There is also chemical-based reprogramming, in which chemicals are applied to convert regular cells into pluripotent cells. This approach is currently effective only for mice though.
“The search for novel factors tailored toward rejuvenation without de-differentiation is an ongoing research and development effort by several longevity companies, including ours,” says Deigin.
He isn't disclosing the details of his own company’s underlying approach to lowering the risk, but he’s hopeful that something will eventually end up working in humans. Yet another challenge is that, partly because of the uncertainties, the FDA hasn’t seen fit to approve a single longevity therapy. But with the longevity market projected to soar to $600 billion by 2025, Deigin says naysayers are clinging irrationally to the status quo. “Thankfully, scientific progress is moved forward by those who bet for something while disregarding the skeptics - who, in the end, are usually proven wrong.”