A new study from researchers at the Smidt Heart Institute at Cedars-Sinai shows that electronic nicotine delivery systems, including devices such as e-cigarettes, may be just as harmful to the heart, if not more, than traditional cigarettes. The findings were presented today at the annual American Heart Association Scientific Sessions 2019.

What makes e-cigarettes so harmful to the heart and lungs is not just nicotine. It's the completely unknown bucket of manufactured products used to form vapors that is likely causing the most harm. This is what we believe is underlying the current public health problem."

Florian Rader, MD, MSc, senior author, medical director of the Human Physiology Laboratory and assistant director of the Non-Invasive Laboratory at the Smidt Heart Institute

These findings come at a crucial time, as reports of lung-related e-cigarette injuries are increasing, even while many distributors continue to claim that using e-cigarettes are safe and can help tobacco cigarette smokers kick the habit.

A recent study by the Food and Drug Administration found that 27.5% of high school students used e-cigarettes in 2019, compared to 20.8% in 2018. The same study also estimates 3.62 million middle and high school students were e-cigarette users in 2018.

In the Smidt Heart Institute study, the team of researchers compared healthy, young-adult smokers aged 18 to 38 who were regular users of e-cigarettes or tobacco cigarettes. The researchers then measured participants' blood flow to the heart muscle-focusing on a measure of coronary vascular function-before and after sessions of either e-cigarette use or cigarette smoking, while participants were at rest and also after they performed a handgrip exercise which simulates physiologic stress.

In smokers who used traditional cigarettes, blood flow increased modestly after traditional cigarette inhalation and then decreased with subsequent stress. However, in smokers who used e-cigarettes, blood flow decreased after both inhalation at rest and also after handgrip stress.

"Our results suggest that e-cigarette use is associated with coronary vascular dysfunction at rest, even in the absence of physiologic stress," said Susan Cheng, MD, MPH, MMsc, director of Public Health Research at the Smidt Heart Institute and director of Cardiovascular Population Sciences at the Barbra Streisand Women's Heart Center. "These findings indicate the opposite of what e-cigarette and vaping marketing is saying about their safety profile."

The original concept and design of this study was initiated by the late Ronald G. Victor, MD, a foundational pioneer in cardiovascular physiology studies.

"We have known for decades that smoking increases your risk for heart attack and dying from heart disease," said Christine Albert, MD, MPH, founding chair of the newly established Department of Cardiology at the Smidt Heart Institute. "Now, with this study, we have compelling evidence suggesting that newer methods of electronic nicotine delivery may be equally, or potentially more, harmful to your heart as traditional cigarettes."

Given that e-cigarettes represent a relatively new product on the market, Albert cautions users that there may be a number of unforeseen health effects.

To better understand the potentially dangerous consequences of e-cigarettes, Rader, Cheng and investigators in the Human Physiology Laboratory at the Smidt Heart Institute plan on studying the mechanisms underlying changes in heart and blood vessel flow seen in their work to-date, as well as the effects of e-cigarette use across a more diverse population of study participants including those with existing cardiovascular risk.

"What we are learning from our own research, along with the work of others, is that use of any electronic nicotine delivery system should be considered with a high degree of caution until more data can be gathered," said Rader.

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Europe's oldest kingdom Denmark is also one of the most space-minded countries. Its University of Copenhagen, Danish Aerospace Company in Odense and Ohmatex in Aarhus collaborate on a project involving smart workout clothes for astronauts

The Department of Biomedical Sciencesat the Copenhagen University has spent years with the project, validating intelligent sports tights that in the near future will be taken to the ISSto be tried out by astronauts.

The role of the Danish Aerospace Companyis to ascertain that the electronics in the smart clothing are suitable and safe to use.

The three organizations signed a DKK 7.75 million contract within the General Support Technology Programme (GSTP) that foresees collection of data, launch and development of various space appliances, tools and instruments manufactured in Denmarkover the next three years. The funding is provided by ESA.

The ESAintends to find out how astronaut exercise routine when in space can be improved, and what specific astronauts need to remain healthy throughout their missions. That's where automated mobile measurements Ohmatexsmart tights provide come in.

The ISScrew will test the development in space, and theUniversity of Copenhagenwill run control tests on Earthusing data the astronauts send.

Dr Lonnie Grove Petersen,both of theDepartment of Biomedical Sciences at the University of Copenhagenand at the University of CaliforniainSan Diego, explained that these smart tights intended to be used for regular workout for crew members will also provide an excellent opportunity for researchers to learn more about the connection between the presence or absence of gravity and human physiology.

The manufacturer of the workout suitsOhmatexprovides each of the items with six sensors to pick up electrical muscle activity, oxygen and blood flow data while the astronauts exercise.

Dr Petersenbelieves that the new development will allow researchers to improve astronaut training programs and monitor their health to a greater advantage, seeing that they stay in shape during their missions, for instance, to Mars and the Moon, and return to Earthin good health.

'Many of the changes we see in space are similar to an accelerated aging process and there are many parallels to specific diseases on Earth: Muscles atrophy, bones decalcify, and we see major effects on the cardiovascular system and the brain. Moreover, when the astronauts return, the opposite happens: A kind of regeneration process. In this way, physiology in space can teach us a lot about the development of diseases,' she explains.

See original article at the Copenhagen University website

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Smart Workout Clothes To Help Astronauts Stay Fit and Healthy on Missions - Asgardia Space News

Description of the following video:

[Video: Indiana University "Grand Challenge Responding to the Addictions Crisis" graphic fades in, in red on a white screen]

[Music: Music fades in]

[Video: Exterior wall of Indiana University Neurosciences Research Building fades in]

[Video: Exterior front entrance glass of IU Neurosciences Research Building School of Medicine]

Brady Atwood speaks in voiceover: I'm Brady Atwood; I'm an assistant professor ...

[Video: Atwood appears onscreen, sitting in some sort of laboratory, continuing to speak; graphic appears in the lower left of the screen showing his name and affiliation: ... in the Department of Pharmacology and Toxicology at the Indiana University School of Medicine.

[Video: Slow motion of Atwood walking toward the camera as the lower-thirds graphic pushes toward camera and fades away to the left; video fades into next shot]

[Video: Atwood's lab team together, looking at the camera, as camera pushes in]

Atwood speaks in voiceover: So, my lab is very much interested in how drugs of abuse such as opioids affect how the brain functions.

[Video: Slow-motion pan of lab member using equipment]

[Video: Three brain images pan across the screen, fading into one another. The first two are tinted red; the third is green]

Atwood speaks in voiceover: Specifically looking at how it changes the way brain cells talk to one another and how that translates into changes of behavior ...

[Video: Two separate shots of computer monitors showing activity on screens]

Atwood speaks in voiceover: ... with hopes of someday being able to find ways to undo some of those changes as ways to treat drug abuse and addiction

[Video: Atwood is briefly shown speaking in the same lab environment, but it quickly switches to voiceover]

[Video: Lab member pipetting solution into a small tube]

Atwood speaks in voiceover: So we do have a project with the Grand Challenges Responding to the Addictions Crisis.

[Video: Lab member pouring substance into a clear large-mouthed bottle of clear liquid]

Atwood speaks in voiceover: Our project is very much focused on ...

[Video: Silhouette of mother holding baby in the air]

Atwood speaks in voiceover: ... children that are born to mothers that were dependent on opioids ...

[Video: Close up on a baby's face as it lies on its back, smiling]

Atwood speaks in voiceover: ... or mothers that used opioids during pregnancy.

[Video: Lab member handling lab materials]

Atwood speaks in voiceover: Increasingly in the news -- opioids have been abused for a long time, but there's an increasing number of children that are born to opioid-dependent mothers.

[Video: Lab member using lab equipment as Brady Atwood supervises]

[Video: Lab member handling a red-tinged solution in a test tube; a test tube with green liquid is in a holder nearby]

Atwood speaks in voiceover: And we don't quite know what the long-term outcomes for these children are.

[Video: Children playing in water spouts]

Atwood speaks in voiceover: We don't know how this will affect their ability to learn and develop and social interactions.

[Video: Young girl in chair interacting with an object and looking up]

[Video: A group of children at a table working on an assignment of some sort]

Atwood speaks in voiceover: We don't know how this will affect gene expression and how that will affect their long-term outcomes.

[Video: A child in a stroller drinking out of a bottle as other children play nearby

[Video: Lab member opening a door to lab equipment]

Atwood speaks in voiceover: So the Addictions Grand Challenge was a fantastic opportunity. We brought together nine different investigators for our project with a range of expertise from understanding pharmacology, understanding genetics, physiology ...

[Video: Male and female lab members working in lab]

[Video: Solution in glass tubes spinning]

[Video: Monitor showing ultrasound]

[Video: Atwood speaks on camera in the lab environment: ... and we all got together and brought our ... ]

Atwood speaks in voiceover: ... different expertises and are approaching this project from a lot of different angles to really capture every aspect that we can of ...

[Video: Lab team together, looking at camera as a group as camera pulls back

[Video: Atwood walking through lab, looking at what members are doing]

[Video: Atwood is shown speaking onscreen: ... how this in utero opioid overexposure affects children.]

[Video: Fade to Indiana University "Grand Challenge Responding to the Addictions Crisis" graphic, in red on white background, then fades out to black screen with red-and-white IU trident and "Indiana University" in white.]

[Music: Music fades out]

[Video: Indiana University fades out]

END OF TRANSCRIPT

The number of babies born exposed to opioids has increased fivefold since 2000. While medication-assisted therapies are recommended for treating opioid use disorder in pregnant women, the long-term consequences of in utero opioid exposure, including medication-assisted therapies, on health and the risk for substance abuse later in life are unknown.

Brady Atwood, assistant professor of pharmacology and toxicology at the Indiana University School of Medicine, is studying the effects of in utero exposure to opioids on neonatal, adolescent and adult physiology and behavior as part of the Responding to the Addictions Crisis Grand Challenge initiative.

Atwood's research reflects IU's extensive expertise and research regarding addictions. To build on this area of strength, IU President Michael A. McRobbie, along with Indiana Gov. Eric Holcomb and IU Health President and CEO Dennis Murphy, announced the Responding to the Addictions Crisis Grand Challenge initiative in October 2017.

April Toler is assistant director of communications in the Office of the Vice President for Research.

Continued here:
In utero opioid exposure is subject of IU School of Medicine research - IU Newsroom

Jobs in Karachi University: KU invites applications for post of Teaching Assistant, Teaching Associate

KARACHI: University of Karachi (KU) has invited applications for the post of Teaching Assistant/Teaching Associate in the Department of Chemical Engineering and Physiology.

Qualifications for Teaching Associate in Department of Chemical Engineering

Qualifications for Teaching Assistant in Department of Chemical Engineering

Required Qualifications for Teaching Associate/Teaching Assistant in Department of Physiology

Candidates are required to submit their applications along with attested documents by November 15, 2019.

Only shortlisted candidates will be contacted for interview.

Appointment will be made for one semester only in Physiology Department

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Jobs in Karachi University: KU invites applications for post of Teaching Assistant, Teaching Associate - The News International

The impact can feel immediate. Anecdotally, walking outside and into sunshine feels reinvigorating.

Science has long proven this to be true: Research shows that time spent outdoors can reduce stress, improve cognition and increase sleep quality. Now, a new study has put a dollar value on the improvement in well-being due to park visits.

Researchers at Griffith University in Australia suggest that national parks and protected areas save an approximate $6 trillion globally in mental health care costs. Lead study author Ralf Buckley said while that is a conservative estimate, its still 10 times greater than the global value of park tourism and 100 times greater than the global value of park agency budgets.

Researchers surveyed a population-representative sample of nearly 20,000 in the Australian states of Queensland and Victoria. Study participants described their own mental health and reported how often they visit parks both recently and over the span of their life. Buckley said his team then used a statistical regression technique to identify what proportion of their well-being was due to park visits, he added.

The researchers found that 2.5 to 3% of a persons mental health is based on how often they visit parks. While the percentage seems low, its about the same as the effect of additional income on a persons mental health, according to the study.

The researchers found that 2.5 to 3% of a persons mental health is based on how often they visit parks. While the percentage seems low, its about the same as the effect of additional income on a persons mental health.

Researchers calculated what they define as the "health services value" for Australia's national parks to be about $100 billion before extrapolating the figure to a global scale. Their findings suggest that national parks contribute about $6 billion to the global economy, though the figure ranges anywhere between $5-31 trillion per year. The big range is a reflection of the researchers caution in what the numbers mean exactly.

You can scale up by mental health factors; quality-adjusted life years; population. You can scale up by GDP. You can scale up by number of park visits, Buckley said. We dont know which will prove to be the best scaling factor. Depending which of those factors we use, we get a different number. And thats why we have that big range.

Ideally, Buckley said, he and his team would have identical studies in countries worldwide and added up the numbers.

The study adds to a growing body of research that quantifies the economic benefits of being outside. A 2016 study in England looked at green exercise, which include activities done outside, such as dog walking, running, horseback riding and mountain biking. Researchers estimated that these green activities can save around $2.7 billion per year.

But committing to a hiking trip every weekend is not necessary to reap these rewards. Previous research has shown that spending a mere 20 minutes in a park even if you sit on a bench and dont exercise is enough to improve a persons mental health.

Studies show that being outside is good for your physical health, as well. Research published in 2016 suggests nearly 10% of people with high blood pressure could regulate their levels by going outside for at least 30minutes every week.

Scientists have also found nature to have a psychological effect on humans well-being. Researchers at Chiba University in Japan pointed to the fact that of the 7 million years of human evolution, less than 0.01% of our species history has been spent in modern surroundings.

The gap between the natural setting, for which our physiological functions are adapted, and the highly urbanized and artificial setting that we inhabit is a contributing cause of the stress state in modern people, the 2016 Chiba University study said. In the future, the researchers added, long-term data over days, weeks, and months will be needed to clarify natures impact on humans physiology.

Considering the significance of quality of life in our modern stressful society, the importance of nature therapy will further increase. The therapeutic effects of natural stimulation suggest a simple, accessible, and cost-effective method to improve the quality of life and health of modern people, the study continued.

Some countries have long known about the healing effects of nature. One of the most long-standing nature therapies in transcontinental Japan and China is shinrin-yoku, or forest therapies. Chiba Universitys Miyazaki Yoshifumi is widely considered to be the father of shinrin-yoku.

Professor Emerita Margaret Hansen of the University of San Francisco, is a self-proclaimed nature enthusiast who learned about shinrin-yoku in 2015. Shinrin-yoku is an ancient Japanese practice that surfaced in the 1980s, when the Japanese government started to act on its citizens highly stressed state. The government began developing forest bathing areas throughout Japan, focusing efforts in urban areas where green space is more rare.

In 2017, she published a review of 63 scientific articles primarily out of Japan, Korea and China that studied forest bathing and nature therapys impact. Her mission was to educate health professionals in the United States about the therapy so they could contemplate using it in practice.

In 2018, Hansen traveled to Chiba University in Japan to meet with Yoshifumi. There, she walked the first-ever forest therapy path developed by the government. But, Hansen said, forest therapy is not just about being active; its about really slow movement through a forest.

The Japanese practice is using all of your five senses. Even cupping your ears to bring in more sound of nature. Or doing some exercises to enhance your peripheral vision when youre in nature, Hansen said. Smelling taking some leaves or pine cones and crunching them and putting them up to your nose.

The Japanese practice is using all of your five senses. Even cupping your ears to bring in more sound of nature. Or doing some exercises to enhance your peripheral vision when youre in nature. Smelling taking some leaves or pine cones and crunching them and putting them up to your nose.

Buckley said nature-based therapies should be designed, insured and prescribed more often. More and more providers are joining the trend.

Both Buckley and Hansen said its largely the governments responsibility to secure budgets for park agencies and protect natural lands, which often suffer from budgetary constraints, the researchers noted.

Chelsea Sullivan, public affairs specialist at the National Park Service, said in an emailed statement to The World that the improvements to visitor facilities, campgrounds, trails, and backbone infrastructure are essential to providing a world-class experience to our more than 300 million annual visitors. Addressing the $11.9 billion in backlogged maintenance in our national parks is critical to our core mission and remains a top priority.

Sullivan added that NPS supports the link the researchers identified between enjoyable recreation experiences and healthy landscapes, through programs like the Healthy Parks Healthy People initiative, noting that these needed to be balanced with preservation and conservation needs.

Now retired from teaching, Hansen is training to be a forest therapy guide through the Association of Nature and Forest Therapy. She continues to research forest bathing, though, and is currently analyzing the tie between nature and a persons spirituality. While researchers continue to test the link between nature and well-being, Hansen said the connection is simple and it makes sense.

I cant get enough of nature, she said. Im not going to stop.

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Nature therapies can save trillions in health care costs - PRI

There are three major seasons in the life of a bear: the active season, beginning in May; a period of intense eating, in late September, and hibernation, from January into spring.

Physiologically, the hibernation period is the strangest, and the most compelling, to researchers. When a bear hibernates, its metabolic rate and heart rate drop significantly. It does not defecate or urinate. The amount of nitrogen in its blood rises sharply, without damaging the kidneys or liver. The animal becomes resistant to insulin but doesnt suffer from fluctuations in its blood sugar levels.

A human experiencing those conditions every year for several months at a time could easily end up with diabetes, obesity, bone loss, atrophied muscles or worse. But each spring the bear emerges no worse for wear, albeit a little groggy.

Even when they are very fat, its a healthy obesity, said Brian Barnes, who studies black bear hibernation in Alaska. They dont suffer from the same kinds of pathologies that occur in people.

Why not? A group of researchers at Washington State University published a study in Communications Biology in September that sought to better understand what goes on in the cells of hibernating grizzly bears. The university is home to the W.S.U. Bear Center, the only grizzly bear research center in the United States; it houses 11 bears that were either raised in captivity or relocated to the center after being identified as problem bears in the wild.

Researchers took samples from the liver, fat and muscle of six captive grizzly bears at three times during the year. In the lab, a team of researchers analyzed the DNA to understand the changes that occur in the cells over the course of the year.

The effect of hibernation on each tissue is different, said Joanna Kelley, an evolutionary biologist at Washington State University and one of the papers authors. Hibernation is not just as simple as hibernating and not hibernating. There are transitional things happening throughout the year.

The team found that the bears fatty tissues changed the most during hibernation, whereas the muscle tissue hardly changed at all. The muscle cells remained active through the hibernation period, which might help explain why those tissues do not atrophy.

Most surprising to Heiko Jansen, the studys lead author, was that the bears fat contained a large number of genes that change their level of expression over the course of the year. Its in the thousands, he said. In contrast, when dwarf lemurs in Madagascar hibernate, only a few hundred genes in their fat tissues change their level of expression seasonally.

Hibernation isnt a one-size-fits-all phenomenon, Dr. Jansen said. Different genes are utilized by different species.

In the early days of hibernation studies, researchers were on the lookout for a physiological trigger, something singular and obvious that set the process in motion something, perhaps, that scientists could isolate and inject into a non-hibernating animal, and have them fall over and go to sleep, said Charles Robbins, the director of the W.S.U. Bear Center. Now we realize that there are an enormous number of genes changing.

Other animals hibernate, too, like mountain pygmy possums in Australia, thirteen-lined ground squirrels in North American grasslands, and various species of bat. Their activity has long been of interest to researchers, who are eager to learn how a state of suspended animation might be applied to human health.

Matt Andrews, a molecular biologist at the University of Nebraska-Lincoln, studied the biology of hibernating ground squirrels and later helped develop a treatment for hemorrhagic shock. In the early 2000s, during the military conflicts in Afghanistan and Iraq, Dr. Andrews learned that victims of roadside bombings were at high risk of death from blood loss. Such incidents are survivable if the patient has access to a tourniquet and transfusion, but in remote areas the victims could not reach help quickly enough.

Dr. Andrews noticed that hibernating squirrels use melatonin, a potent antioxidant, to protect the cells when blood flow increases after months of inactivity. His team put together a cocktail of melatonin and ketones that might be injected into a person experiencing hemorrhagic shock, to reduce damage to tissues when blood supply returns. The treatment so far has passed tests with rats and pigs, and the team has met with the U.S. Food and Drug Administration to plan future clinical trials.

The physiology of hibernation might also be applicable to organ transplants. A waiting kidney or liver can be preserved in cold solutions for 24 hours, but after that it cant be used; a heart or a lung is only viable for four to six hours.

Transplantations have to be very well planned out, and theres no such thing as organ banks, Dr. Andrews said. Individuals in need must wait for a donation. But if organs could be induced to enter something like hibernation, with a lower metabolic rate, that might allow organ donation banks to exist.

Hibernation could also be handy during extraterrestrial travel. With current-day propulsion technology, a round trip to Mars takes about two and a half years and a lot of food, air, water and medical supplies for the astronauts. Induced torpor might be just what humans need to get us permanently off our Earthbound behinds.

Were a long way from that, Dr. Jansen said. But we know we can manipulate the energetic profiles of a cell in cell cultures.

Hibernation may yet be something that humans learn to master, fully or in part. In the meantime, wildlife researchers are keen to emphasize how important hibernation is to the survival of the animals that can already do it. We are all better off having these animals in the wild, Dr. Jansen said.

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Hibernation Works for Bears. Could It Work for Us, Too? - The New York Times

Treatment with 3 adrenergic agonists reverses impaired cardiac myocyte Na+ export and improves severely decompensated heart failure a clinical application of an experimental finding

Natasha AS Fry, Chia-Chi Liu, Alvaro Garcia, Elisha J Hamilton, Keyvan Karimi Galougahi, Yeon Jae Kim, Jacqueline L Harris, Gregory IC Nelson, David W Whalley, Henning Bundgaard, Helge H Rasmussen

bioRxiv 804245; doi: https://doi.org/10.1101/804245 New Results

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Physiology | bioRxiv

nounmass noun

1The branch of biology that deals with the normal functions of living organisms and their parts.

More example sentences

the physiology of the brain

More example sentences

Early 17th century from Latin physiologia (perhaps via French), from Greek phusiologia natural philosophy (see physio-, -logy).

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Physiology | Definition of Physiology by Lexico

Extracellular Fluid (ECF)

What is ECF compartmentalized into? (3)

Intracellular Fluid (ICF)

What ions are higher in concentration i

THe fluid found outside of the cell

Interstitial fluid... Plasma... Lymph ... (also transcellular fluid- bu

The fluid found within the cell

Na+, Cl-, Ca+2, HCO3-, glucose

Extracellular Fluid (ECF)

THe fluid found outside of the cell

What is ECF compartmentalized into? (3)

Interstitial fluid... Plasma... Lymph ... (also transcellular fluid- bu

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physiology Flashcards and Study Sets | Quizlet

Physiology. It keeps us ticking. It's the processes happening inside of us, and inside all the creatures with whom we share the planet. Physiologists work to unravel life's great mysteries, and solve global issues.Subscribe to our channel and follow us on Twitter (@ThePhysoc ) & Facebook (facebook.com/physoc), to keep up with the science of life.

Produced by Orinoco Communications Animation: Rosie Holtom Illustration: Alex Scarfe Sound Design/Music: Alexander BradleyNarration: Tamara FairbairnScientific advisors: Sarah Hall, Max Headley, Andy Powell, Clare RayDirector: Peter Barker

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What is physiology?