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Millennials Want to Tan, No Matter the Risks

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In my youth, a popular song advised its listeners — purportedly a class graduating in 1999 — to “wear sunscreen.” It’s the narrator’s number one tip for the future, as “the long term benefits of sunscreen have been proved by scientists.”

Apparently my fellow millennials didn’t get the message.

According to a study in the Journal of Consumer Affairs, my generation doesn’t know much about how important sunscreen is to health and continues to sunbathe — particularly people with low self-esteem and narcissistic tendencies. The actual title of the paper is a thing to behold: I Know, but I Would Rather Be Beautiful: “The Impact of Self-Esteem, Narcissism, and Knowledge on Addictive Tanning Behavior in Millennials.”

It’s easy to see write this off as another story in the vein of “Those darn millennials!” but the findings actually reveal a lot about a huge public health hazard, and help reveal a way to mitigate it in the future.

The Last Generation

First, let’s clarify. Millennials might not be who you think they are: Young people. The term usually refers to people born from the early 1980s to the early 2000s; they’re in college and their late 30s. Kids in high school today, and younger, are considered Gen Z. (I actually consider myself part of the Oregon Trail generation, and not a millennial, but that’s just splitting hairs.)

So this isn’t a “kids are dumb about tanning” story, it’s a “younger adults are dumb about tanning” story. Specifically, the study involved 256 older college students (no freshmen) enrolled at “a major university in the southwestern United States,” as the authors cryptically state. And boy do they love tanning!

Fun In the Sun

Based on an online questionnaire, the study tracked participants’ general knowledge of sunscreen, their enthusiasm and reasons for tanning, and their levels of self-esteem and narcissism.

Most depressingly: It turned out it didn’t matter how much they knew about the dangers of tanning and the power of sunscreen — tanners gonna tan. Not that there was too much knowledge there in the first place; on the 11 fact-based questions, the participants scored an average of 54 percent. Examples include: “What do you think SPF stands for?” (sun protection factor — 47 percent got this right) and “True or False: When applied correctly SPF 100 is twice as effective as SPF 50” (False — 48 percent go this right).

Students with lower self-esteem and higher narcissism were more likely to exhibit “addictive tanning levels,” and they mostly did it for cosmetic or emotional reasons, to look or feel better. A third of participants said having a tan is important to them, with 70 percent “purposefully exposing their body to the sun in order to achieve a tan,” as the study puts it. That’s a lot of sun.

Skin Job

The context, of course, is skin cancer. It’s the most common type of cancer in the world — more than 3.5 million cases diagnosed a year — and it makes up nearly half of all cancers in the U.S. And things are getting worse. From 1970 to 2009, women ages 18-39 in the U.S. have seen an 800 percent increase in melanoma rates. This is serious stuff.

Current public safety campaigns are focused on education, hoping that if people knew the dangers and how to avoid them (i.e., covering up more and wearing sunscreen more often), they’d act on them. Turns out, that’s not really the case.

So at least researchers know they have to come up with a new way of reaching younger people, who can do the most to avoid harmful solar exposure. It’ll take some work convincing people that tans aren’t as healthy and beautiful as they think. “There’s no such thing as a safe tan,” the FDA warns.

What better time, with summer and graduation season coming up, to remember the advice of “The Suncreen Song”? Respect your elders, millennials: Wear sunscreen!

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The Aftermath of Michael Jackson’s Antigravity Lean

The infamous lean.

In Michael Jackson’s 1987 music video “Smooth Criminal,” the legendary performer leans forward 45 degrees from a straight-up position — and comes back. It’s a feat that seemingly defies both physics and physiology, and the move has become another element of MJ’s aura of mystery.

Some type of cinematic or mechanical trick must be responsible, since most people can manage only a 20-degree forward tilt before toppling headlong. Yet Jackson performed the move live on tours around the world for years.

Lean In

In a study published this week in the Journal of Neurosurgery, three scientists examine the so-called Antigravity Lean, not from a physics but from a physiological perspective. The three neurosurgeons, all at the Postgraduate Institute of Medical Education and Research in Chandigarh, India, combine in the article their knowledge of Jackson with data on spine biomechanics.

It’s been known for years how Jackson defied gravity. His shoes had a slot that slid onto a bolt in the floor, allowing him to perform the dramatic lean.

Bending forward is limited by the erector spinae muscles, which act like cables to support forward bends up to 20 degrees, though some dancers can achieve 30 degrees, the paper says. When near the max of a bend, you can feel the strain on the Achilles’ heel as the ankles become the fulcrum for balance. People soon return to vertical or catch themselves from falling headlong.

Though Jackson’s 45-degree bend is not physically possible without trickery, the King of Pop still needed incredible core strength and leg muscles to pull it off, the authors write. Not just anyone can lock their shoes into the floor and become Michael Jackson, it seems.

“Several MJ fans, including the authors, have tried to copy this move and failed, often injuring themselves in their endeavors,” the researchers write.

Figure A shows the Antigravity Tilt (a 45-degree forward bend) and the normal limit that most people can bend forward. Jackson used shoes with a slot that slid onto a bolt in the floor. Figure B shows the shift when the body’s fulcrum is the hip and when it’s the Achilles’ tendon. (Illustration courtesy of Manjul Tripathi)

Figure A shows the Antigravity Tilt (a 45-degree forward bend) and the normal limit that most people can bend forward. Jackson used shoes with a slot that slid onto a bolt in the floor. Figure B shows the shift when the body’s fulcrum is the hip and when it’s the Achilles’ tendon. (Illustration courtesy of Manjul Tripathi)

Tough Act to Follow

Jackson’s sleight of foot inspired generations of dancers who push the limits physically. This has resulted in spinal stresses not previously seen by neurosurgeons.

This is not to point the finger at Jackson. But it does suggest the reality that injuries can occur that might require implant spinal surgery, the article says, something potentially devastating to a dancer.

But it’s not all bad news — neurosurgeons have gained a lot of new information on how to treat spinal cord injuries in recent years, something that could be in part thanks to MJ’s envelope-pushing dance moves.

“The King of Pop has not only been an inspiration but a challenge to the medical fraternity,” Tripathi says.

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Your Emergency Contact Does More Than You Think

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You know when you’re filling out your medical paperwork and it asks for your emergency contact? Sure, the process might be annoying, but that emergency contact could actually be put to good use by researchers.

Since many of us use a family member, those contacts can help scientists create family trees. And they can also be used for genetics and disease research, according to a study released Thursday in Cell. Discovering what diseases are inheritable can be a laborious and expensive process — patients must be recruited and researchers must clearly determine patients’ phenotypes (physical traits that include eye color, height, and overall health and are often influenced by your genes).

To make that process easier researchers from three major New York medical centers generated family trees from millions of electronic medical records to create a database.This is the first time electronic health records have been used to trace ancestry and it’s the largest study of heritability using such records.

The More You Know

The researchers identified 7.4 million relatives with an algorithm that matched names, addresses and phone numbers from three medical centers. They found 500 inheritable phenotypes in the data just by looking at test results and observations in health records. The traits included diseases affecting skin, blood and mental health.

The data can help determine the heritability level of many common diseases. For example, researchers found that having an increase of HDL (good) cholesterol is 50 percent heritable, while LDL (bad) cholesterol is only 25 percent heritable. The study’s findings were consistent across the participating medical centers and published studies.

Previous heritability research primarily documented Caucasians of northern European descent, according to the study’s first author Fernanda Polubriaginof, but this research is much broader.

“This dataset will allow us for the first time to compute whether there are differences in other races and ethnicities,” said Polubriaginof in a news release.

Future studies could look at medical records for the hereditary contribution of any trait. Due to privacy issues, patient identifiers were removed for the data, which can only be used for research at the moment. Though, with patient consent, emergency contacts could be put to important use in the future.

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Mosquito Bites Leave A Lasting Impression On Our Immune System

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Mosquito bites are like a gross form of French kissing — the insects swap your blood with their saliva, and leave a trail of salivary secretions behind like mosquito cooties. Some of those compounds prevent clotting as the insects slurp up your blood. Now researchers find mosquito spit aggravates your immune system for days afterward. The findings could help scientists develop vaccines for mosquito-born diseases like Zika.

Rebecca Rico-Hesse, a virologist at Baylor College of Medicine in Houston, Texas, wanted to know how mosquitoes exploit our immune systems with their drool. So, she and her team exposed mice with human-like immune systems to live mosquitoes. Then, they sized up the mice’s immune response as it reacted to the mosquito spittle.

The bug’s saliva toyed with their immune systems in both bone marrow and skin cells with effects that lasted up to seven days after biting, the team reports today in PLoS: Neglected Tropical Diseases. The researchers say their discovery could explain how these tissues might act as virus incubators and help spread disease.

Master Manipulators

In 2012, Rico-Hesse was looking to untangle how Dengue virus causes Dengue hemorrhagic fever — an illness that affects 400 million people each year and can lead to death — when she came across a strange occurrence. Mice infected with the virus from mosquito bites fared far worse than mice that had received an injection of the virus but hadn’t been served as a mosquito meal. The result made Rico-Hesse take a step back.

It seems that mosquito bites caused the immune system to behave differently, and in ways that could potentially give infectious diseases a leg up.

To find out, Rico-Hesse and her team set starving Aedes aegypti mosquitoes on mice that had received a dose of human stem cells to make their immune systems look more like a human’s. Each mouse endured eight mosquito bites total. Then the team checked out different parts of the immune system — blood, bone marrow, spleen, and skin cells — six and 24 hours after biting, as well as seven days later. By then, the immune system should have returned to normal.

Sneaky Viruses

Instead, the team discovered immune cells that had disappeared from the skin at least six hours post-bite came back seven days later after maturing in bone marrow, something that shouldn’t have happened. If those cells harbored a virus, they could then pass it on to new mosquitoes, who could infect others.

The research is pointing out new ways in which mosquito bites affect our immune systems, and it goes beyond simple itching and scratching.

“Mosquito saliva has evolved to modify our immune system,” Rico-Hesse said. And as their new research shows, viruses and parasites could be hijacking that activity to get to the cells they reproduce in, like bone marrow cells, faster, according to her.

Essentially, viruses might be taking advantage of the immune system’s response to travel from their point of entry — the skin — to a place they can multiply in that’s away from attacks by the immune system.

“It’s mind-blowing,” Rico-Hesse said. “No one has ever seen this before.”

Ultimately, the work could lead to infection-blocking vaccines, said Duane Gubler, an international health expert who was not involved in the research.

That’s what Rico-Hesse hopes, too. “If we can make a vaccine that would protect us against the effects of the [mosquito] saliva, or blocking our immune reaction … then we could stop global vector-born diseases,” she said.

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