On Monday, 13 months after He Jiankui announced that he had created the worlds first gene-edited babies, the Chinese scientist was sentenced to three years in prison and fined $430,000.

Working with two embryologists, who were also sentenced to fines and imprisonment, and an unsuspecting doctor, He used in vitro fertilization to create single cell embryos, whose DNA he then altered with the gene editing tool CRISPR-Cas9 to carry a gene variant thought to confer resistance to HIV. Couples recruited for the experiment included HIV positive men, who, He reasoned, would understand the value of resistance to the virus.

Edited embryos were transferred to their intended mothers. Twin girls were born in October 2018 and, we learned yesterday, a baby girl was born in 2019.

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He Jiankui was proud of his experiment, which he deemed a success even though one of the twin girls was born with a mix of edited and unedited genes. The scientist likened his achievement to the work of Dr. Robert G. Edwards, the British physician who won the 2010 Nobel Prize in Physiology or Medicine for the development of IVF.

The international scientific community didnt see it that way. Its reaction was almost uniform condemnation. Scientific leaders called it irresponsible and premature, saying it failed to conform with international norms.

Whether the work was also a violation of Chinese law wasnt immediately clear to the international community. Several months later, however, a task force of the Health Commission of China in Guangdong Province reported that He Jiankui had violated general clinical research laws and rules, such as using a fake ethical review certificate and misleading participants about the studys risks, and also violated an ethics guidance from 2003 that barred the reproductive use of research embryos. At yesterdays sentencing, those violations were bundled together under the crime of illegal medical practice essentially practicing medicine without a license which in China carries a maximum sentence of 10 years in prison.

If He Jiankui had been a U.S. scientist, his alleged misleading of research participants and forging an ethics approval would have been considered unethical, and he would likely have been subject to sanctions from his employer, loss of research funding, and disqualification from clinical research. But the work would also have been illegal, although in a somewhat circuitous and distinctly American way.

In the 1990s and 2000s, well before the latest gene editing tools were developed but following advances in reproductive technology and completion of the human genome project, many countries passed national laws prohibiting the reproductive use of genetically modified human embryos. In the United Kingdom, which since 1990 has had one of the most developed legal frameworks for reproductive technology, transferring a genetically modified human embryo for gestation carries a penalty of up to 10 years in prison.

No directly analogous laws were ever passed in the U.S. until December 2015, when Congress included a brief 101-word provision in a budget appropriations bill that effectively outlawed human germline editing in the U.S.

The provision is a budget rider a condition of federal funding for the U.S. Food and Drug Administration. For the past four years, it has prohibited the FDA from considering any application to conduct research in which a human embryo is intentionally created or modified to include a heritable genetic modification.

The 101 words amount to a ban because the FDA has asserted jurisdiction over all clinical uses of genetically manipulated human cells. As a result, anyone planning to use gene-edited cells in humans must submit an investigational new drug (IND) application to the FDA.

If the application proposes transfusing gene-edited cells into adults with sickle cell disease or some other genetic condition as certain ongoing and proposed studies do then the FDA will consider whether to issue the application or a waiver. But if the IND application involves transferring a genetically modified human embryo for gestation even if only in one patient or one research subject the FDA is absolutely barred from even considering it.

Sanctions for proceeding without an IND application include administrative actions like disqualification by the FDA from ongoing and future research. But violations of the Federal Food, Drug and Cosmetics Act also carry criminal penalties, including fines of up to $250,000 and imprisonment for up to 10 years.

Budget riders, however, expire. Since 2015, Congress has a chance every year to alter the language in this defacto germline editing ban or remove the provision altogether and turn the question over to the FDAs regular decision-making processes. But it hasnt done this.

In the summer of 2019, the U.S. House of Representatives was urged to amend the rider to carve out from the general prohibition a procedure that aims to prevent transmission of mitochondrial disease. Although Congress ultimately left the rider unchanged, it was, apparently for the first time, openly discussed by the House Appropriations Committee. Several members called for a fuller debate of the issue, noting that the prospect of germline genome modification raises profound questions that go well beyond where the federal government should spend its money.

If and when that fuller debate occurs, American lawmakers and the American public will have a chance to engage with the scientific and ethical complexities of gene editing technologies and to consider together how best to police its use in humans.

Until then, researchers in the U.S., like He Jiankui in China, risk prison time if they attempt germline gene editing.

Josephine Johnston is director of research and research scholar at The Hastings Center, and co-editor of the book Human Flourishing in an Age of Gene Editing (Oxford University Press, 2019).

Continued here:
He Jiankui is going to jail. Would the US criminally prosecute a rogue gene-editing researcher? - STAT

Know a UI alum youd like us to track down? Were taking requests at jdalessio@news-gazette.com.

Among the 1,974 former students and faculty members featured on our Gies College of Business-powered UI at 150 & Beyond website: two-degree alumna, Champaign architect and Parkland professor BRIDGETT WAKEFIELD.

***

This Illini memory is dedicated to the late, great James Warfield, who saw the world with different eyes and invited his students into that world, says one of those students, Bridgett Wakefield.

The view of architecture that he professed was people-centric, and his methods were intimately effective, adds the Parkland College professor and Reifsteck Reid & Company architect, who earned her UI bachelors degree in 1996 and her masters two years later.

Professor Warfield was the advisor for my thesis, Through the Eyes of a Child: Building Environments that Work. The first six months flew by as my research easily flowed into place. I combined psychology, education theories and physiology of children to determine what their ideal environment would be at each elementary grade level.

However, since I had so much great research, I found myself stumbling when trying to translate it into the design. I will never forget the day that Professor Warfield raided my desk removing all of the drawing utensils and paper.

He handed me a large sumi-e brush, a well of black ink and a pad of thick paper. Only draw with this for a week.

I thought he was insane. But of course, I did as he requested. The result was an award-winning design.

Professor Warfield has since passed away, but his memory will definitely live on through the students he guided.

Excerpt from:
UI at 150 & Beyond: 'His memory will definitely live on' - Champaign/Urbana News-Gazette

Leaders have specific characteristics that define them as figures that others look up to and as people. Effective leaders typically have a routine with key habits and processes practiced daily. While most people have heard about The 7 Habits of Highly Effective People by Stephen Covey, many leaders don't follow that model. Truly great leaders develop their own set of habits that dictate how their days go and how they can reach their fullest potential.

What are some of the practices that define today's great leaders? Fifteen members of Forbes Coaches Council explain the patterns of behavior that they think good leaders should adopt, and how those actions can make them into more successful individuals in the long term.

Forbes Coaches Council members offer insight on the customs of good leaders.

1. Take Time To Be

As a society, we are focused on the next goal and the never-ending to-do list. We do not spend enough time just being. This means complete silence at times to let your thoughts flow through you, write thoughts down and listen to what your subconscious is trying to tell you. Some of the best ideas I have come up with have not been when I am doing, but when I am just being. - Galit Ventura-Rozen, Empowering U

2. Start Each Day Offline

Its amazing how many clients jump on their phone or tablet first thing in the morning to check the markets, see what emails arrived overnight or simply browse their Twitter feed. Consider starting each day free of online activities. You might meditate, pray, exercise, read or spend time with your spouse or kids instead. The possibilities for starting the day healthier are endlessjust not online. - John Hittler, Evoking Genius

3. Take Time To Connect With Yourself

As leaders, the stuff we do drives us to show up determined, focused and decisive. Leaders push down uncertainties and emotions and we do everything we can to be free of or ignore gut feelings. Spend time connecting with your heart, gut and head each day. The people you are leading are fully human and they deserve to have you show up in the same way. - Brian Gorman, TransformingLives.Coach

4. Establish A Morning Routine

Begin each day with a morning routine that sets you up for success. Your morning routine might include meditation, exercise or a gratitude practice. By taking care of yourself first, you will be able to contribute to others, navigate difficult situations effectively and increase your ability to lead and listen. It's best if you finish your routine before you turn on your phone and computer. - Gina Lavery, Gina Lavery Inc.

5. Track Your Physiology

We tend to overlook our physiology in the world of leadership. We talk about having emotional intelligence, providing motivation and increasing the likes, but a lot of our ability to do these effectively lies in our physiology. I use tools and techniques with my clients so they can scientifically track their physiology and make actual beneficial improvements they can see to have more impact as a leader. - Cody Dakota Wooten, The Leadership Guide

6. Walk Around

Most leaders get set into a routine where they talk and meet with the same people every day. Great leaders break that habit by walking around and meeting new peopleespecially employeeswhen they're not expected to. Informally dropping in on a team or part of the organization you seldom interact with will make you a more authentic, grounded and approachable leader. - Eric Beaudan, Odgers Berndtson

7. Set Your Intention For The Day

Before checking the various mediacalendar, voicemail, emailthat will distract you and demand your time or attention, set your intention for the day. Activate the mindset that will drive your actions to create the leadership impact and influence you want to have rather than getting bogged down merely reacting to external forces. Lead your day before it leads you. - Mia Eng, Cognascent Inc.

8. Implement Reading Time

I have had the pleasure to work with many entrepreneurs over my career. The single factor that all the successful ones had in common was their reading habits. It goes something along the lines of there being a time block set aside to catch up on readings. Short of a disaster that has to be dealt with, that time is nonnegotiable and will stay off limits for any other activity. - Kamyar Shah, World Consulting Group

9. Embrace Relentless Learning

Effective leaders understand the value of continuous learning and also realize that it can happen anywhere and at any time. Commit yourself to learning something new each day, whether it be from your barista, frontline employees, board or grandchildren. Intentionally adopting a learning mindset creates the space for openness and curiosity and allows you to show up as a relentless learner. - Palena Neale, Ph.D, unabridged

10. Practice Daily Meditation

Meditation is like a Swiss army knife that has more unpredictably positive outcomes than any other good habit, but take the time to learn the right way to do it. It's not about not thinking as many people believe; it's about realizing you're not your thoughts. The result is more energy, less friction due to judgment, clearer decision making because you don't need to be right and much more. - Josef Shapiro, Clear and Open

11. Create A Meaningful Habit

Im from the village that says you should create your own habit. Someone elses habits may not necessarily be a fit for you. Create a habit that has meaning to you and your employees and acknowledges their contributions. I pass out a chocolate square at least two afternoons a week to each employee every week. It keeps me conscious of who Im leading and how much I appreciate their contributions. - Thomas Larkin, Communico, Westport CT

12. Prioritize The Habit Of Gratitude

Committing to a daily gratitude journal practice where you write a list of three or more things you're grateful for each day can be transformative for leaders. It's simple, quick (mine takes about 90 seconds) and orients you toward positivity every single day. When you journal about positive stuff at night, it helps you sleep better. Journaling in the morning can help you get off to a great start! - Kate Dixon, Dixon Consulting

13. Practice The Art Of Visualization

One natural ability to develop is the art of visualization, which can be extraordinarily powerful on top of a regular habit of meditation. Our capacity to use our imagination through purposeful visualization can be a differentiator for leaders, and layering visualization on top of meditation adds a multiplying effect. As a starter, try visualizing various scenarios from a relaxed state. - James Glasnapp, James Glasnapp Coaching

14. Ask How Questions

Leaders make tons of decisions daily, so it's crucial that they have good problem-solving skills. What doesn't help is asking too many "why" questions that cause you to dwell on the problem. For example, "Why did this happen to me? Ask more "how" questions instead, like "How can I fix this issue? You can go from powerless to powerful and successful. - Lizette Ojeda, Dr. Lizette LLC

15. Lead With Energy

Integrating a daily physical fitness routine prepares leaders for the mental and intellectual challenges they face. Regular exercise is one form of self-care needed for a leader's well-being as it allows them to sustain the emotional energy required to lead an organization. By modeling self-care, leaders encourage similar behaviors in their employees, which in turn impacts their well-being. - Jonathan Silk, Bridge 3 LLC

Link:
15 Daily Habits Of Great Leaders - Forbes

Aaron Judge is the face of the New York Yankees. Gleyber Torres is giving him a run for his money, but the team is all about Judge right now. That being said, they ought to be concerned for him.

Yes, taking a pitch on the wrist is not exactly his fault, but that makes all four seasons of his career where hes been dogged by injury.

His rookie season was cut short by a lat injury. He played less than 30 games after getting called up in July (I was there, and yes, the home run was THAT majestic). They shut him down to help preserve him.

Yes, he played a full season in 2017. But he was bothered by injury most of the second half of the season. His offense took a nosedive after June, and he needed to remove debris from his throwing shoulder surgically.

2018, yes, the wrist, as mentioned earlier.

Then he missed 60 games due to ANOTHER lat injury in 2019.

Ive documented Hicks injury history. Giancarlo Stanton has been hampered by various soft muscle injuries throughout his career, due to his size and physiology. Aaron Judge is taller than Stanton and has similar physiology to Stanton. Think about it all of our outfielders last year played just barely half a season each, paving the way for Brett Gardners offensive juggernaut of a season.

We saw last year that we can get by without Stanton, even though he improves our lineup twenty fold. Someone will replace Hicks regularly throughout his current 7-year contract. We wont miss him as much as others think we will. But Judge needs to stay healthy for 120+ games a season. He can be better than Mike Trout. But he hasnt been able to prove just what hes completely capable of yet. What if that 2017 season is the best we ever see of Judge. Its too much of a risk.

The New York Yankees top priority for 2020 is to ensure Aaron Judge stays healthy for an entire season.

Read the original:
The New York Yankees Should Be Worried About Aaron Judge - Empire Sports Media

Those who sleep in cold environments, meanwhile, tend to fare better. A study of people with a sleep disorder found that they slept longer in temperatures of 61 degrees Fahrenheit versus 75 degrees. The cold-sleepers were also more alert the next morning. The basic physiology is that your body undergoes several changes at night to ease you into sleep: Your core and brain temperatures decrease, and both blood sugar and heart rate drop. Keeping a bedroom hot essentially fights against this process. Insomnia has even been linked to a basic malfunctioning of the bodys heat-regulation cyclesmeaning some cases could be a disorder of body temperature.

In light of this physiology, sleep experts unanimously suggest keeping your bedroom cooler than the standard daytime temperature of your home. There is no universally accepted temperature that is the correct one, but various medical entities have suggested ideal temperature ranges. The most common recommendation, cited by places like the Cleveland Clinic and the National Sleep Foundation, is 60 to 67 degrees Fahrenheit. Within that range, experts vary. A neurologist in Virginia told Health.com that the magic number is 65. Others have advised an upper limit of 64.

Read: How to sleep

The U.S. Department of Energy recommends keeping your home at 68 degrees during the day and lower while youre asleep. That guideline is based on money, not health: It was originally suggested by President Richard Nixon as a way of conserving oil during an embargo. In 1977, President Jimmy Carter went further, suggesting 65 degrees in daytime and 55 at night. He ordered that the White House thermostat be lowered accordingly, and subsequently extended the rule to all public buildings. The change was estimated to have saved around 300,000 gallons of oil daily.

Even though no one was fined under the thermostat rule, Ronald Reagan promptly undid it in 1981, citing unnecessary regulatory burden. No such executive thermoregulatory fiats have since been attempted. If you want to work and sleep in a sauna-like sweat box, that is your God-given right as a red-blooded American. But it should be done with the knowledge that thermostat decisions affect far more than ones own personal sleep. The burning of fossil fuels contributes to the air pollution that kills millions of people every year, and the health effects of climate change are far-reaching.

As for individual health guidelines, human variation makes giving any specific number almost impossibleand borderline irresponsible. Different temperatures will suit different people differently. At the same time, a range like 60 to 67 degrees can feel nebulously broad. Its less satisfying than a single number, and it doesnt solve the bed-partner argument. So I will say this: 60 degrees is the correct temperature for winter sleep. Anything warmer is incorrect.

Continued here:
Your Bedroom Is Too Hot - The Atlantic

Over time as our understanding and instrumentation have changed and improved, we have reframed the villain from particulate matter as a whole to its various components. The evil du jour has been PM2.5, the smaller particles, but some scientists are focusing on the even smaller components of PM2.5 as the bad actors. A new paper in the Journal of Physiology feels it has identified a new culprit, polycyclic aromatic hydrocarbons (PAH). To say that PAH's, as a class is a new concern is not entirely true, levels at the World Trade Center site increased 65-fold and raised questions of cancer risk. More recently, and relevant to this study, PAH levels were a concern as a water pollutant entering the food chain after the Deepwater Horizon blowout. And this is the starting point for this latest study.

The Hypothesis

Despite "clear differences in air pollutants and aquatic environmental pollution (e.g., physicochemical properties of the pollutants, interaction between pollutants and the environment, the biology of the species exposed and the route of exposure) it has become apparent that parallels exist, especially in terms of the ability of these pollutants to cause cardiovascular toxicity."

While the lung is the gateway for air pollution, the researchers put to the side any linkage of pollution to asthma or chronic obstructive pulmonary disease. Instead, they focus on the presumptive impact of air polluted with PM2.5s on the heart and its roles in cardiovascular disease. But how to explain how these particles affect more distant organs?

Within the lung, particles captured by alveolar macrophages trigger an inflammatory response, and it is hypothesized that a "sufficient particle dose, reactivity, or lack of clearance leads to amplification of the response causing systemic inflammation." Or that these particles, by an unknown mechanism, "stimulate alveolar sensory receptors" to ultimately altering the autonomic function of the heart and vasculature. Finally, advances in our understanding of the composition of PM2.5 have identified ultrafine particles (UFP), paving the way for a third hypothesis. The tiny size of UFPs allows them to translocate across the thin alveolar-capillary wall (by an as-yet-undetermined mechanism) and enter the circulation themselves to directly affect cardiovascular function." [1]

These statements have significant limitations. First, these mechanisms are theoretical, and as their citation states, "There is a wealth of evidence for and against each of these hypotheses." That the mechanisms are not explicitly described as theoretical can be forgiven because they are writing to their peers who presumably already are aware of the hypothetical nature of their argument. But there is an additional deal-breaking limitation, the PAH's an "ultrafine" particle within the PM2.5, and "Ultrafine PM cannot presently be routinely measured in the environment." Without a quantifiable measure, no amount of statistical sophistry will yield a dose-response curve, the biologic gradient necessary for an epidemiologic study.

"The translocation pathway is of importance as it provides a biological basis that could account for the widespread effects of inhaled PM across the cardiovascular system, and elsewhere in the body."

The evidence they do cite comes from the translocation of gold nanoparticles in both rats and human subjects. Here, volunteers inhaled gold particles off and on over two hours, and subsequent blood and tissue analysis found that at best, 0.2% of the inhaled gold translocated. But translocation is size-dependent, with smaller particle being translocated more readily. PAHs are five times the size of the gold particles so that the translocation pathway may be more important to the researcher's beliefs and funding than to a biologic pathway.

The heart of their argument begins with the 1989 Exxon Valdez spill putting a lot of PAHs into the water and the subsequent finding of significant cardiotoxic effects on the herring and salmon of the area. These effects involved not only the cardiac structure but the heart's rhythm and ability to pump. The Deepwater Horizon disaster demonstrated an additional reduction of cardiac work in fish spawning in the area. They also detail in vitro studies showing an effect by PAHs on electrical excitation of fish heart cells

The Path from Fish to Humans

The researcher point out that core function and physiologic properties, like those of the heart, are conserved evolutionarily. Vertebrates share some common characteristics; we are similar in some ways to fish. Their argument is bolstered by the "similar" cardiotoxic effects of some drugs, like tricyclic anti-depressants, on fish and humans. But those similarities need to be balanced by the "significant differences between human and zebrafish hearts." And of course we need not forget the "differences in routes of uptake between fish (water/gill/gut) and terrestrial mammals (air/lung/gut).

With ambiguity firmly in hand, they point to tantalizing, unproven, threads of possibility. The general format of their argument is that PAHs cause these particular effects in fish, that PM2.5 has been implicated in adverse cardiac health, that PAHs are contained in PM2.5 and therefore may well be the smoking gun. In writing about the general process of atherosclerosis, "These results suggest tissue-specific cytotoxic effects by individual PAHs and PM warrants further study."

At times they point out that in the PM2.5 studies considered, "specific PAHs were not described," at other times they are more disingenuous.

"Mammalian (including human) studies from urban areas around the world implicate PM2.5 and its associated tricyclic PAHs in the induction of cardiac arrhythmias, the exacerbation of heart failure, the triggering of myocardial infarction and other atherosclerotic/ischemic complications."

No ambiguity in that statement, and in writing those words, the authors cite two papers. Neither has any information linking PAH's to these outcomes. At best, the only comment I could find was this.

"Although there is only limited epidemiological evidence directly linking UFPs [ultrafine particulates, the fraction in which PAH would be found] with cardiovascular health problems, the toxicological and experimental exposure evidence is suggestive that this size fraction may pose a particularly high risk to the cardiovascular system." [1]

So, where are we left?

There are a few key messages.

What is the impact of air pollution on our health? The short answer is we do not know, although, as I have said before, it is hard to argue against cleaner air. Nor do we understand the underlying biological plausible mechanisms and their relationship to one another. Our understanding is in its infancy, and perhaps we should be more humble in our declarations.

[1] Nanomaterials Versus Ambient Ultrafine Particles: An Opportunity to Exchange Toxicology Knowledge Environmental Health Perspectives DOI: 10.1289/EHP424.

Source: Polyaromatic hydrocarbons in pollution: a heart-breaking matter Journal of Physiology DOI: 10.1113/JP278885.

Here is the original post:
Linking Health And Air Pollution To Biologic Plausibility - Easier Said Than Proved - American Council on Science and Health

Robin Horton, who has died aged 87, was a British anthropologist who specialised in the study of the Kalabari people of Nigeria, where he lived and worked as a professor for much of his life.

His connection with Nigeria began while he was doing national service, during which he was sent to the country in 1951. By the early 1960s he had returned on an academic research trip and fell in love with a local woman, my sister Hanna (nee Douglas).

Mixed-race couples were frowned upon both in Nigeria and Britain at the time, but they were an extraordinary match and soon married. However, their happiness did not last long, for Hanna died in childbirth, and Robin therefore lost both his wife and their twin baby girls.

Being 20 years younger than my sister, I was living with them at the time and Uncle, as all his friends and family called Robin, decided to become my guardian. He wanted to continue his academic studies in Nigeria and also to be part of our family, and as a result stayed in the country for the rest of his life, sponsoring my education and encouraging me to become an artist.

As his ward, I was immersed in conversations at home with people from all sorts of fields who came to discuss their work and to research in our house. Among them were the playwright Wole Soyinka, the photographer Pierre Verger, the ethnographic film-makers Peggy Harper and Frank Speed, and Uncles great friend, John Peel, a historian of the Yoruba.

Listening to those conversations shaped my own interest in Nigerian anthropology; it was an opportunity not given to most children in the country at the time.

Robin was born in London to William, a lieutenant colonel in the Scots Guards, and his wife, Gwendolen (nee Le Bas), who was killed during the second world by a V1 flying bomb. He went to Harrow school and then, after national service, to New College, Oxford (1953-56), where he took a first in philosophy, psychology and physiology.

From there he moved to University College London to work on a doctorate. In 1962 he became a lecturer at the University of Ife (now Obafemi Awolowo University), and later he moved to Ibadan University, then back to Ife and finally to Port Harcourt University, where he was professor of philosophy and religion until his retirement.

Much of Uncles anthropological study was with the Kalabari of the Niger Delta and he did a lot to bring their culture to wider world attention, including via a book on Kalabari sculpture.

He helped many things happen in Nigeria: when infant mortality was high, for instance, he paid for sick children to go to hospital and he also arranged for a Sekiapu dance and masquerade troupe to perform in London, a visit that inspired my own early art on Kalabari masquerades.

Uncles second wife, Suzy West, predeceased him. He is survived by his third wife, Ibiene, their daughter, Edwina, and two granddaughters, Zelda and Elsa, and by his sister, Carlotta.

Read more:
Robin Horton obituary - The Guardian

By Brendan LaChance on December 30, 2019

CASPER, Wyo. Two Casperites will suit up for the final game of their career as Wyoming Cowboys in the Arizona Bowl on New Years Eve.

Senior linebackerLogan Wilsonand senior tight endJosh Harshmanwere among the captains for the University of Wyoming Cowboys football team this season.

Theyll finish their time playing for UW against the Georgia State Panthers. Kick off is scheduled for 2:30 pm.

Article continues below...

Wilson and Harshman grew up in Casper going to Oregon Trail Elementary School together and donning the orange and black for the Mustangs football team at Natrona County High School.

Both were born in 1996. Wilson, who racked up a number of accolades this season, is majoring in kinesiology and health promotion.

He was named First Team All-American by Pro Football Focus. Wilson has notched 90 tackles, three interceptions, one forced fumble and one sack so far this season.

In his career as a Cowboy, hes made 414 tackles, 10 interceptions, forced four fumbles, recovered four fumbles and made seven sacks.

Harshman has made 13 receptions for 183 yards this season and scored two touchdowns.

In his career, hes grabbed 42 passes for 505 yards and snagged three touchdown passes.

Harshman is majoring in physiology.

Read more from the original source:
Two Casperites concluding Cowboy football careers on New Years Eve - Oil City News

Spurs were involved in the early kick-off on Boxing Day, rallying from a half-time deficit at home to record a hard-fought 2-1 triumph over Brighton and Hove Albion.

However, the victory came at a cost, with Harry Winks andMoussa Sissoko both picking up yellow cards that mean the duo will be suspended forSunday's (AEDT) game at Norwich City.

Son Heung-min is also banned following his red card against Chelsea, leaving Mourinho with a lack of options -as well aslittle preparation time -for the trip to Carrow Road.

However, before his focus switched to the next game, the Portuguese took aim at the schedule.

"I cannot imagine these boys, not just my boys, but the [Graham] Potter boys, how they can play in 48 hours," Mourinho told the media.

"If you go to control the distances they run, the intensity, the breaks, if you are going to control that and if we are going to tell anyone who understands physiology, it is a crime that they are going to play football again on the 28th.

"It is against every rule of physiology, biology, biochemistry, every rule. But that is the way it is, even with three guys suspended.

"I think from the three, two of them are unfair, Sonny unfair, Winks unfair, I can only say Sissoko had a reason for the fifth yellow card. We have to go."

Tanguy Ndombele may provide a solution to the absences inmidfield after the Frenchman was not involved against Brighton.

Mourinho clarified that while the record signing from Lyon was not injured, the player had raised concerns over his physical condition prior to the game.

"I cannot say he is injured, in five minutes we start a training session and you can go to the stands and watch it, he is going to be training normally so I cannot say he is injured," Mourinho said.

"I can say that yesterday he told me he was not feeling in condition to play the game. Not based on injuries, based on fears of previous injuries that he has had since the beginning of the season.

"Feeling not ready to start the game, but I cannot say he is injured, I can say he is not in condition to start the game, which is different."

See the article here:
Mourinho: Festive schedule against every rule of physiology, biology, biochemistry - The World Game

Exercise is good for you. Thats hardly news: People who exercise tend to have longer, healthier lives. But until recently, researchers have tallied its benefits only in narrow slices: Exercise lowers your cholesterol and blood pressure; it keeps you from getting fat. Now its becoming clear that those known slices dont add up to the full pie.

When people totaled up those effects, they only account for about half the benefit, says Michael Joyner, an exercise physiologist at the Mayo Clinic in Rochester, Minnesota. So whats contributing to the biomedical dark matter?"

To solve that mystery, researchers are now digging deeper into the mechanisms that underlie the benefits of physical activity. They are finding that exercise is both powerful and wide-reaching, affecting not just muscles and the cardiovascular system, but almost every part of the body, from the immune system to the brain to the energy systems within individual cells. And as scientists understand more precisely which levers exercise pulls to improve our health, clinicians are on the verge of being able to change their practice. The goal is to think of exercise as a medicine a therapy that they can prescribe in specific doses for specific needs.

Its like your own personal regenerative medicine, says Joyner.

Scientists have long known that some of the benefits of exercise are a simple matter of plumbing. Exercise makes blood vessels bigger and keeps them functioning smoothly, which makes them less likely to plug up and cause a heart attack or stroke. There have been hints that this may also mean more blood flow to the brain, which could help prevent cognitive decline. For example, studies have linked exercise to a reduced risk of Alzheimers.

Now researchers are making a more explicit connection between exercise and brain health. They are discovering that the full benefit of exercise comes not from mere physical movement but from actual physical fitness, the bodys cardiovascular health. A long-term study of Norwegian military recruits, for example, found that theiraerobic fitness at age 18 was highly predictive of their risk of dementiain old age. And Swedish women who were highly fit in middle age had aneight times lower risk of dementiaover the next 44 years than women of only moderate fitness, researchers reported in 2018 inNeurology.

Another recent study, led by K. Sreekumaran Nair, an endocrinologist at the Mayo Clinic, found that after just 12 weeks of a high-intensity exercise regimen, participants brains showedincreased glucose uptake and higher metabolic activity, particularly in regions that usually show decline in Alzheimers disease.High-intensity exercise was found to have a similar effecton the parts of the brain most affected by Parkinsons disease, in research led by Marcas Bamman, an exercise physiologist at the University of Alabama at Birmingham.

Exercise doesnt just build bigger blood vessels; it also builds bigger muscles. That benefits health in a number of ways, from minimizing the risk of diabetes to enhancing the bodys immune response to ills such as cancer.

Muscle is the largest consumer of all the glucose that floods into the bloodstream after a meal. More muscle means quicker removal of this glucose surge, says Bamman and therefore, less exposure to the harm caused by elevated blood sugar, a serious health issue for people prone to diabetes.

Just getting the minimum recommended amount of exercise (7.5 metabolic equivalent (MET) hours per week) reduces mortality risk by 20 percent compared with no exercise at all. Exercising a little more than that minimum continues to reduce the risk, but such benefits taper off after about three times the recommended minimum. (MET is the ratio of a person's working metabolic rate relative to their resting metabolic rate, 1 MET is the rate of energy expenditure while at rest, walking at 3 to 4 miles-per-hour is considered to require 4 METs.)

The muscle-building aspects of exercise also help reverse a key change associated with aging: a decline in the function of mitochondria, our cells energy generators. This decline, often seen in sedentary individuals, can leave the mitochondria unable to completely burn the cellular fuel and that can lead cells to generate more oxidants, the oxygen-rich, reactive molecules that damage proteins and DNA.

Muscles are chock-full of mitochondria and exercise can help avoid this oxidative damage. Nairs studies show that aerobic exercise, alone or in combination with strength training,improves peoples mitochondrial function, reduces the production of oxidants and forestalls oxidative damage. High-intensity aerobic exercise alsoencourages mitochondria to produce more of the proteinsthey use to burn fuel.

Muscle has another important role: Its abundant proteins serve as reservoirs of amino acids for the rest of the body. Usually, when other organ systems need amino acids, says Bamman, those are drawn from muscle. Thats especially important when someone is sick because the immune system needs lots of amino acids to make antibodies that fight infection.

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The biggest benefit from building muscle, though, may come from the signaling molecules it pumps into the blood. Bente Klarlund Pedersen, an exercise physiologist at the University of Copenhagen, identified the most-studied of these signaling molecules back in 2000, and later coined a term for them: myokines. Since then, she and other researchers have found hundreds more, many of which are activated by exercise. These molecules, which are released in response to muscular exertion, help regulate muscle growth, nutrient metabolism, inflammation and a host of other processes. I think for most people its difficult to understand why muscle work can influence my liver or be good for my brain or bones, she says. Myokines serve as the link between muscle activity and these other organs.

One of the most important myokines in this crosstalk is interleukin-6. Released in response to muscular exertion, IL-6 has several effects, includingsuppressing hungerandenhancing the immune systems response to cancer. Another signaling molecule, cathepsin B, triggersbeneficial changes in the brain, including the production of new brain cells. Other signaling molecules can help moderate depression.

Exercise, of course, also helps keep you thinner and especially, it forestalls the accumulation of abdominal fat, a particularly harmful sort. One reason abdominal fat is so bad for you is its partnership with inflammation. If we take out visceral fat and study it in the lab, we see that visceral fat is more inflamed than subcutaneous fat, says Pedersen. This inflammation will spill over into the blood, causing chronic systemic inflammation.

Chronic inflammation, Pedersen suggests in the 2019Annual Review of Physiology, may be the underlying reasonwhy inactivity contributes to so many different diseases. We know that being physically inactive increases the risk of approximately 35 different diseases or disorders, she says. And if you have one of these diseases lets say you have type 2 diabetes you have increased risk of others, like cancer or heart disease. If we tie it all together, one feature of all these diseases is physical inactivity, and the other is chronic inflammation.

Even a few weeks of inactivity can cause fat to accumulate in the abdomen, which spurs chronic inflammation throughout the body. This inflammation contributes to a range of ailments, including type 2 diabetes, cardiovascular disease and Alzheimers disease.

About a decade ago, Pedersen conducted an experiment in which she had healthy young men reduce their daily step count from about 10,000 steps per day to just 1,500. Within two weeks, the men showed a7 percent increase in abdominal fat mass. Along with this change, the men showed hints of reduced insulin sensitivity, a change also seen in type 2 diabetes.

Interleukin-6 appears to be at the heart of exercises effect on visceral fat and inflammation. In a recent experiment, Pedersen and her colleagues put 27 potbellied volunteers on a 12-week exercise-bike program, while 26 other volunteers remained inactive. Half the participants in each group also received a drug that blocks the action of IL-6. At the end of the 12 weeks, the exercisers had lost abdominal fat, as expected butonly if they had not received the IL-6 blocker. (Oddly, IL-6 is generally thought of as a pro-inflammatory molecule, because it is more abundant in obese people with systemic inflammation. But Pedersen has some evidence that in these people, elevated IL-6 is an effect, not a cause, of the inflammation.)

As researchers tease out more of the details about how physical activity benefits health, the moment is fast approaching when exercise becomes not merely a good thing to do, but a medicine in its own right, just like pharmaceutical drugs. Several studies already point in this direction. For example, more than half of 64 adults with type 2 diabetes were able tostop taking medication to lower their blood sugarwithin a year of beginning a regular exercise program, Pedersen and her team found. And a survey of more than 300 randomized controlled trials found thatexercise was just as effective as drugsfor people at risk of heart disease and diabetes, and was more effective than drugs for rehab after a stroke.

But if exercise is to truly become a medicine like any other, clinicians will need to learn how much to prescribe to maximize its benefits. Just saying be physically active is like telling people eat better it doesnt tell us what we should be doing, says Kirk Erickson, an exercise psychologist at the University of Pittsburgh. But developing more precise dosing recommendations is difficult, because there are so many ways to exercise, which vary in duration, intensity, frequency and kind. (Tailoring to individual disease risks telling one person to doX because theyre at risk of diabetes, and another person to doY because of a family history of dementia is an even more distant goal.)

Researchers are still working out what matters in this complex arena. Exercises that involve more muscle groups generate more IL-6, so full-body exercises like running have a greater anti-inflammatory effect than exercises that target just a few muscle groups, says Pedersen. And the benefits go away within a couple of days, suggesting that exercising frequently is important. If its been 48 hours since you exercised, its time to do it again, says Jill Barnes, an exercise physiologist at the University of WisconsinMadison.

A series of upcoming randomized trials may soon bring more certainty to the dosing question. One of the largest, which Bamman is involved with at the University of Alabama, will have nearly 2,000 volunteers undertaking either 12 weeks of endurance exercise, 12 weeks of weight training or no exercise program. Researchers will measure gene activity, molecular signaling and other changes within the body, which could allow them topin down exactly how these two modes of exercise differin effect. Because the study is so large, researchers should also be able to explore why some people respond more strongly than others to the same dose of exercise.

Another large study that Bamman is participating in, funded by the US Department of Defense, aims to comparegenes activated by moderate exercise to those activated by high-intensity exercisein young, healthy volunteers.

Erickson is trying to parse the specifics with a study that will assess theeffect of exercise volume on brain aging. Researchers will measure inflammation, signaling molecules, body composition and other markers, as well as mental acuity, on more than 600 volunteers ages 65 to 80, both before and after a year of exercise. Some of the volunteers will do 150 minutes per week of supervised moderate exercise, others will do 225 minutes per week, while a third group will do light stretching instead.

Of course, even after the results of these and other forthcoming trials are in, the right amount of exercise for a particular person is likely to depend on their individual circumstances. For someone with diabetes who wants to improve blood-sugar control, even 10 minutes is probably great, says Barnes. But for cardiovascular risk or brain health, that may be different.

Bamman agrees. Theres not a single organ system in the body that isnt affected by exercise, he says. Part of the reason the effect of exercise is so consistent and so robust is that there isnt a single molecular pathway its going to be a combination of all these things. So at the end of all these trials, were going to look back and list off not just one or two mechanisms, but a number of them. Its going to be a complicated answer in the end.

If exercise is good medicine, how do researchers in the field dose themselves?Knowableasked the experts about their own exercise regimens.

K. Sreekumaran Nair, Mayo Clinic:For many of my diabetic patients, I recommend three days per week of high-intensity aerobic exercise and two days of weight training, with the other two days to do walking. But myself, I do 5 days of high-intensity interval training. And every day I do one kind of resistance exercise: leg press, chest press

Michael Joyner, Mayo Clinic:Forty-five to 60 minutes every morning. I do alternate days biking with intervals one day and a strength circuit the next day. I ride my bike to work 100 to 150 days per year. We just moved near a small lake and I have been swimming across it and back (about a mile) three to four times per week. That will stop when it gets cold.

Jill Barnes, University of WisconsinMadison:Six days a week, movement in the morning (usually yoga, 10 to 60 minutes). Five days a week, cardio in the evening (cycling, running, paddling, hiking at a moderate pace) 25 to 80 minutes. One to two days a week, strength training in the evening, 10 to 25 minutes."

Marcas Bamman, University of Alabama, Birmingham:I exercise five days per week, and sometimes six. I exercise at a pretty high intensity and combine resistance and endurance training.

Kirk Erickson, University of Pittsburgh:I run regularly, usually four to five times per week, and also do some strength training exercises. I have also played squash for many years.

10.1146/knowable-121919-1

Bob Holmesis a science writer based in Edmonton, Canada.

This article originally appeared in Knowable Magazine, an independent journalistic endeavor from Annual Reviews.

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