captionStress may cause gray hair prematurely.sourceManop_Phimsit/Shutterstock

Stress can affect the body in many different ways. And while it seems that stressful life events like being president may cause gray hair, the truth is a bit more complicated.

Gray hair is likely caused by a combination of genetics, aging, and hormones, and there is some research to suggest that stress can turn hair gray prematurely. Heres what you need to know.

When youre born, your hair color is determined by natural pigments in your skin called melanin.

Human hair follicles contain two types of melanin: eumelanin and pheomelanin, says Leann Poston, MD, a licensed physician. The wide diversity of possible hair colors comes from the production ratio of these two types of melanin.

Melanin is created from melanocytes, which are the cells found in your skin and hair follicles. When melanocytes stop producing melanin, your hair color changes to gray.

Melanocytes often stop producing melanin as you age, which is why gray hair is so common among the elderly. However, its common for hair to start turning gray around age 35.

Overall, Poston says that a combination of factors such as genetics, hormones, and your environment will determine exactly when your hair turns gray.

Though stress alone will not cause gray hair, there is some research that suggests it may speed up the graying process.

For example, a 2020 study published by the journal Nature found that when mice were exposed to stress, they lost melanocyte cells and gained gray hair as a result.

This is an interesting study that links stress to an abnormal conversion of stem cells to a more differentiated form, melanocytes, Poston says.

Melanocyte stem cells typically decrease in numbers as you age. But premature activation, associated with increases in a stress hormone called norepinephrine (or noradrenaline), actually caused these cells to decline more quickly in mice leading to the gray hair that researchers observed.

Poston says she doesnt believe this animal study is enough to definitively say that the same is true for humans. But other research has also suggested that stress can accelerate graying.

For example, a 2018 study in the International Journal of Trichology observed an increase in oxidative stress as a result of psychological stress and higher levels of oxidative stress, which contributes to a complicated biological imbalance in humans, are associated with an increased risk of many chronic diseases as well as premature aging.

The study suggests that premature gray hair, or the graying of hair by age 20, is linked with higher levels of oxidative stress, which may increase with more of your everyday psychological stressors like a difficult job or the pressure to provide for your family.

In addition, cigarette smoking and vitamin deficiencies which can also increase oxidative stress have been associated with early graying.

Overall, genetics and aging are likely to be more determinate for when your hair turns gray. But, as some research has suggested, psychological stress and other unhealthy risk factors may accelerate this graying process.

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Does stress cause gray hair? It may lead to premature graying - Business Insider

Skin Stem Cells Comments Off on Does stress cause gray hair? It may lead to premature graying – Business Insider | April 14th, 2020

Stress can affect the body in many different ways. And while it seems that stressful life events like being president may cause gray hair, the truth is a bit more complicated.

Gray hair is likely caused by a combination of genetics, aging, and hormones, and there is some research to suggest that stress can turn hair gray prematurely. Here's what you need to know.

When you're born, your hair color is determined by natural pigments in your skin called melanin.

"Human hair follicles contain two types of melanin: eumelanin and pheomelanin," says Leann Poston, MD, a licensed physician. "The wide diversity of possible hair colors comes from the production ratio of these two types of melanin."

Melanin is created from melanocytes, which are the cells found in your skin and hair follicles. When melanocytes stop producing melanin, your hair color changes to gray.

Melanocytes often stop producing melanin as you age, which is why gray hair is so common among the elderly. However, it's common for hair to start turning gray around age 35.

Overall, Poston says that a combination of factors such as genetics, hormones, and your environment will determine exactly when your hair turns gray.

Though stress alone will not cause gray hair, there is some research that suggests it may speed up the graying process.

For example, a 2020 study published by the journal Nature found that when mice were exposed to stress, they lost melanocyte cells and gained gray hair as a result.

"This is an interesting study that links stress to an abnormal conversion of stem cells to a more differentiated form, melanocytes," Poston says.

Melanocyte stem cells typically decrease in numbers as you age. But premature activation, associated with increases in a stress hormone called norepinephrine (or noradrenaline), actually caused these cells to decline more quickly in mice leading to the gray hair that researchers observed.

Poston says she doesn't believe this animal study is enough to definitively say that the same is true for humans. But other research has also suggested that stress can accelerate graying.

For example, a 2018 study in the International Journal of Trichology observed an increase in oxidative stress as a result of psychological stress and higher levels of oxidative stress, which contributes to a complicated biological imbalance in humans, are associated with an increased risk of many chronic diseases as well as premature aging.

The study suggests that premature gray hair, or the graying of hair by age 20, is linked with higher levels of oxidative stress, which may increase with more of your everyday psychological stressors like a difficult job or the pressure to provide for your family.

In addition, cigarette smoking and vitamin deficiencies which can also increase oxidative stress have been associated with early graying.

Overall, genetics and aging are likely to be more determinate for when your hair turns gray. But, as some research has suggested, psychological stress and other unhealthy risk factors may accelerate this graying process.

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Does stress cause gray hair? It may lead to premature graying - Insider - INSIDER

Skin Stem Cells Comments Off on Does stress cause gray hair? It may lead to premature graying – Insider – INSIDER | April 13th, 2020

Theres no doubt that as we get older, our skin's wants and needs begin to change. Whileskincare routines of our late teens andearly twenties might have focused heavily on oil-absorbing products that worked to keepbreakouts in check, as we enter our thirties, its likely that other, more pressingskin issues start cropping up. For instance, spots of pigmentation might start surfacing, fine lines may begin to form and skin that was once plump andglowing could appear lacklustre and dull.

The sorry truth is that as we enter our thirties, all of the stuff that makes our skin naturally healthy starts to deteriorate. By the time we get to our thirties, we have around 50% collagen left in our skin.Hyaluronic acid production also slows down and cellular turnover only hits us around every four to six weeks. Everything starts to slow down, says celebrity facialist, Michaella Bolder.

So what exactly does all of this mean? And how can we help minimise the affects of ageing on our skin? To help decode everything there is to know about caring for skin in your thirties, I caught up with some of the top skincare experts in the business. Unsurprisingly, I found that, for the most part, they all preached the same message: As we make our way into our thirties, certainingredients simply cannot be compromised on.

Keeping scrolling for the six products they seriously recommend and to shop the best formulas out there.

As we enter our thirties, its understandable to assume that well start experiencing less breakouts as natural oil production starts to decline. However, thats not to say that regularexfoliation isnt necessary anymore.

Just because breakouts are most associated with teenage years, acne can still occur well into our thirties. In my clinical practice I frequently see patients in their thirties with adult onset acne, says Dr Catherine Borysiewicz, Consultant Dermatologist at the Cadogan Clinic. Data suggests women are more frequently affected by adult acne compared with men. The exact reason for this is unknown, but felt to be related to fluctuating hormone levels: during periods or from birth control pills, and also during and following pregnancy. The role of stress is also becoming more apparent, she warns.

Not only do regular acid treatments encourage cell turnover (something that starts slowing down in our thirties), they can also help to exfoliate for a clearer, more radiant complexion. Just remember, only exfoliate once or twice a week and always follow up with SPF.

REN Clean Skincare Ready Steady Glow Daily AHA Tonic (27)

Medik8 Blemish Control Pads (26)

Paula's Choice Resist Advanced Smoothing Treatment 10% AHA (37)

This Works Morning Expert Multi-Acid Pads (33)

Weve heard it time and time again, but its true that no skincare routine is complete without some sort ofvitamin C product, especially if youre in your thirties. But what exactly is it, and what does it do? To start with, vitamin C is a very powerful antioxidant that works against skin-damaging free radicals such as pollution and UV. And unfortunately, by the time we reach our thirties, the effects of free radical damage start to become more and more evident. Vitamin C eradicates free radicals that have hidden within our skin cells that start to diminish our healthy cells, turning them into unhealthy, broken ones. It basically eats free radicals up like Pacman, says Bolder.

On top of that, vitamin C is great for treating pigmentation and lightening dark spots without altering normal skin tone. Leading aesthetic doctor and surgeon,Dr Mayoni also warns, In our thirties, pigment cells can start to become overactive and so the skin starts to look less plump, less hydrated and with more areas of pigmentation appearing.

Drunk Elephant C-Firma Day Serum (67)

Kiehl's Powerful-Strength Line-Reducing Concentrate (52)

La Roche-Posay Pure Vitamin C10 Serum (38)

SkinCeuticals C E Ferulic Serum (140)

As a rule, it tends to be that the older we get, the more potent and active our skincare needs to be. However, there is one particular product that we can never have too much of. Although it sounds scary, hyaluronic acid isnt actually an acid in the way that you might think. Whereas most acids work to exfoliate, hyaluronic acid is a powerful moisture-binder that occurs naturally in our skin.

What is a moisture-binder, I hear you ask? Able to retain up to x1000 its own weight in water, hyaluronic acid is able to hold onto any moisture and hydration in order to keep skin looking plump and supple. The bad news is that as we enter our thirties, our hyaluronic acid supplies start declining. Upon reaching our thirties, our natural stores of hyaluronic acid decrease, warns Rowan Hall-Farrise, Head of Global Education at QMS Medicosmetics. Not only does the amount that our skin naturally produces start to diminish, but years of exposure to free radicals also begins to wear our existing supplies down, hence why vitamin C is important. Are you keeping up?

Using a hyaluronic acid serum twice a day is essential and be sure to apply it 10 minutes before you use any retinol, advises Bolder.

Zelens Z Hyaluron Hyaluronic Acid Complex Serum Drops (55)

The INKEY List Hyaluronic Acid Serum (6)

Vichy Mineral 89 (25)

Eucerin Hyaluron-Filler Ultra Light Moisture Booster Gel-Cream (25)

Collagen might just be one of the most-mentioned words in beauty advertising, but its actually quite a complex thing. A naturally-occurring protein, collagen is the stuff that really helps hold everything together and support the skin, making it healthy, plump and bouncy. Just like hyaluronic acid, free radicals and ageing start to impact our collagen production as we get into our thirties. From the age of 25, our collagen production starts to decrease. Our late twenties and early thirties is when we should start incorporating collagen treatments into our regimens, says Hall-Farrise.

However, despite what beauty brands might tell you, supplementing collagen isn't as easy as slapping on a collagen-infused face cream - the molecules are far too big to be absorbed by the skin. Luckily, there are ways to encourage the bodys natural collagen production, but were warning you that they dont come cheap. The professional treatment of microneedling helps to stimulate collagen, but you can also use stem cell products at home. The stem cells are there to encourage collagen stimulation and preserve the collagen that we have left in our skin, says Bolder.

If you can't justify the expense, don't worry too much, keeping on top of your hyaluronic acid serums twice a day should be enough to keep skin looking plump and firm in the short term.

Augustinus Bader The Cream (205)

QMS Medicosmetics Collagen System Sensitive (199)

Sarah Chapman Skinesis Stem Cell Collagen Activator Duo (149)

Indie Lee Stem Cell Serum (127)

You knew this was coming, right? While its all too easy to switch off the minute you hear the word retinol (seriously, do we ever stop talking about it?), experts warn that now is actually the time to start paying attention. In fact, Bolder actually advises against using retinol any time before your mid-thirties. Retinol should not be in your early thirties, but in your mid to late thirties I recommend starting to use a retinol at around 1%, she says.

If youre totally out of the loop with exactly what retinol does and why its beautys ingredient du jour, let me explain. A form of vitamin A (dont be fooled by the word vitamin, this stuff is seriously powerful), retinol increases cell turnover and is thought to be one of the only skincare ingredients that can actually help reverse the signs of ageing. Dr Laura Hamilton, aesthetic doctor and founder ofVictor & Garth explains, Retinol can really do wonders for your skin. It can improve skin texture, reduce pore size and minimise the appearance of fine lines and wrinkles. In our thirties, most of us will see results with retinol.

But be warned, its not always fun and games. Side effects of redness and peeling can take some getting used to, so start with a lower strength twice a week at night time only and build up, says Dr Hamilton.

La Roche-Posay Retinol B3 Serum (39)

Sunday Riley A+ High-Dose Retinoid Serum (70)

Origins Plantscription Overnight Moisturiser (49)

Elizabeth Arden Retinol Ceramide Line Erasing Night Serum Capsules X 30 (38)

Sure, the importance of SPF application might not be specific to any one decade of your life, but its crucial to reiterate that it should always feature in your daily skincare routine if you want to protect your skin from sun damage and ageing. While daily sun cream application might have been considered a more preventative measure in your twenties, in your thirties you might be starting to notice the physical damage that prolonged sun exposure can cause. Sun damage starts to come through in your thirties. So while vitamin C and retinol are needed to help reduce the damage already caused, SPF every single day will help prevent any further sun damage, says Bolder.

The Body Shop Skin Defence Multi-Protection Lotion SPF 50+ (18)

Institut Esthederm Adaptasun Sensitive Skin Face Cream Strong Sun (30)

Medik8 Advanced Day Total Protect (55)

Shiseido Expert Sun Ageing Protection Lotion SPF30 (35)

Next up, I've done my research, and these are the best anti-ageing products.

This article originally appeared on Who What Wear

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People who develop Parkinson's disease at a younger age (before age 50) may have malfunctioning brain cells at birth, according to a study that also identified a drug that may help these patients.

At least 500 000 people in the United States are diagnosed with Parkinson's each year. Most are 60 or older at diagnosis, but about 10% are between 21 and 50.

Parkinson's is a neurological disease that occurs when brain neurons that make dopamine become impaired or die. Dopamine helps coordinate muscle movement.

Symptoms get worse over time and include slow gait, rigidity, tremors and loss of balance. There is currently no cure.

"Young-onset Parkinson's is especially heart-breaking because it strikes people at the prime of life," said study co-author Dr Michele Tagliati, director of the Movement Disorders Program at Cedars-Sinai Medical Center in Los Angeles.

"This exciting new research provides hope that one day we may be able to detect and take early action to prevent this disease in at-risk individuals," he said in a hospital news release.

For the study, Tagliati and colleagues generated special stem cells from the cells of patients with young-onset Parkinson's disease. These stem cells can produce any cell type of the human body. Researchers used them to produce dopamine neurons from each patient and analysed those neurons in the lab.

The dopamine neurons showed two key abnormalities: build-up of a protein called alpha-synuclein, which occurs in most forms of Parkinson's disease; and malfunctioning lysosomes, structures that act as "trash cans" for the cell to break down and dispose of proteins. This malfunction could result in a build-up of alpha-synuclein, the researchers said.

"Our technique gave us a window back in time to see how well the dopamine neurons might have functioned from the very start of a patient's life," said senior author Clive Svendsen, director of the Cedars Sinai Board of Governors Regenerative Medicine Institute.

"What we are seeing using this new model are the very first signs of young-onset Parkinson's," Svendsen said in the release. "It appears that dopamine neurons in these individuals may continue to mishandle alpha-synuclein over a period of 20 or 30 years, causing Parkinson's symptoms to emerge."

The study was published in the journal Nature Medicine.

The researchers also tested drugs that might reverse the neuron abnormalities. A drug called PEP005 already approved by the US Food and Drug Administration for treating pre-cancers of the skin reduced elevated levels of alpha-synuclein both in mice and in dopamine neurons in the lab.

The investigators plan to determine how PEP005, which is available in gel form, might be delivered to the brain to potentially treat or prevent young-onset Parkinson's.

They also want to find out whether the abnormalities in neurons of young-onset Parkinson's patients also exist in other forms of Parkinson's.

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Young-onset Parkinson's may start in the womb - Health24

Skin Stem Cells Comments Off on Young-onset Parkinson’s may start in the womb – Health24 | April 12th, 2020

By Jessica Lake

Updated April 12, 2020 08:32:52

Almost two years ago, our world fell apart.

Our cheeky and sweet three-year-old son Larry suddenly became unwell. His previously robust physicality waned. His ruddy complexion became creamy.

His rosy cheeks and rose red lips glowed a pale pink at best. There were bad bruises on his legs darker and deeper ones than those dotting the knees of his identical twin brother. There was a strange patch of little red dots on his neck petechia, we would later learn pin-prick bleeding under the skin.

We took him to our GP. Then we took him to Monash Children's Emergency. Then, a few weeks later, we arrived at the Children's Cancer Centre of the Royal Children's Hospital.

He was diagnosed with idiopathic very severe aplastic anaemia. For unexplained reasons, his bone marrow had spontaneously started shutting down. We were disoriented and devastated.

Without the ability to make blood, Larry required constant transfusions. Every six-to-10 days, when his nose oozed or a blood blister appeared in his mouth, we would race to the clinic or emergency department (sometimes via ambulance) for a bag of platelets: "yellow medicine" our son called it. Once he could clot again we could relax a little.

About every one-to-three weeks, when he struggled to pull himself out of bed or off the couch, when his appetite diminished and his pallor grew too pale, he would receive a bag of "red medicine" to resuscitate his system.

Until mid 2018, I had the privilege and luck of never thinking much about blood donation. But now, the prospect of a shortage terrifies me.

Due to COVID-19, the Australian Red Cross Lifeblood service faces a critical shortage unless thousands of people donate.

Over a period of 14 months, while our son battled bravely through immunosuppressive treatment and multiple infections, he underwent more than 70 platelet transfusions and 40 blood transfusions. The blood of more than 100 kind souls kept him going.

One day last April, Larry's haemoglobin was the lowest it had ever been. In the 50s. Less than half the level of a "normal" person.

It was a Saturday morning, and I'd just raced him through city traffic to the hospital emergency department yet again.

Once we arrived, they ordered a bag of red cells. He dozed on the trolley bed. His lips the same colour as his skin. His skin the same colour as the sheet he had just vomited on.

I fidgeted and hopped back and forth around the doorway of our cubicle watching for the blood bank delivery. Please. Please. Please. An agonising wait. Finally, it arrived.

A rush of immense gratitude. The nurses did their double cross checks. Name, date of birth, patient number. Then it was hooked up to the IV Pump and connected. 235 millilitres over four hours.

I stared at the bag: "Collected 15 April 2019, due to expire 15 May 2019". I wondered who donated it on that Monday two weeks before. A man or a woman? Young or old? Which centre had they attended? Had they congratulated or rewarded themselves for their gift? I hoped so.

After 20 minutes, my dear little boy started to stir. He'd only had 19ml by then but it was already making a difference. A dusky warm colour was creeping into his complexion. Energy was reaching his cells again. By the time one hour had passed, he was sitting up, demanding food, drawing, playing I-spy and cracking jokes.

I assume if everyone could witness this miraculous transformation, we would all run to the blood bank and offer up our veins. By the end of the day, the bag of blood was empty and Larry was full of life again temporarily.

In August 2019, our son underwent a long-awaited bone marrow transplant.

From a pool of more than 30 million bone marrow donors worldwide, only three were a match, all from overseas.

Someone in Europe willingly, with no financial incentive or reward, booked into their local hospital and had stem cells sucked from their hip bones so that a stranger our son might live. An amazing act of generosity.

The sludgy burgundy bag arrived in Melbourne late at night on a commercial flight. Our little Larry had already undergone seven days of heavy chemotherapy in order to be ready to receive the cells. The last scraps of his immune system had been destroyed to make necessary space.

It was either the beginning, or the end of the road.

After a couple of months in isolation, Larry was discharged from hospital. A new beginning.

He is now six months post-transplant and doing well. He plays riotously with his twin brother and big sister. He no longer needs blood. He can make his own again, for now.

But many children at the Children's Cancer Centre cannot. They rely on platelets, plasma and blood to survive day-to-day. A shortage spells disaster.

Many are also relying on a bone marrow transplant for an ultimate cure. And due to travel bans and overwhelmed hospital systems globally, overseas bone marrow donors are now inaccessible indefinitely.

It is painful to imagine Larry's plight if the coronavirus occurred a year earlier.

Let's honour the tremendous courage of kids like Larry by showing ours. Make an appointment at Australia Red Cross Lifeblood today.

Give blood. Give your name to the bone marrow register. Give laughter, hope and life to these incredible kids.

Let's not let cancer treatment become another casualty of the coronavirus crisis.

Jessica Lake is a mother, writer, academic, and member of the Parent's Advisory Group of the Children's Cancer Centre at the Royal Children's Hospital, Melbourne.

Topics:covid-19,diseases-and-disorders,health,blood,children,family-and-children,community-and-society,melbourne-3000,australia

First posted April 12, 2020 05:00:59

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A.I.has already gotten to almost sci-fi levels of emulating brain activity, so much so that amputees can experience mind-controlled robotic arms, and neural networks might soon be a thing. That still wasnt enough for the brains behind one ambitious startup, though.

Cortical Labs sounds like it could have been pulled from the future. Co-founder and CEO Hong Wen Chong and his team are merging biology and technology by embedding real neurons onto a specialized computer chip. Instead of being programmed to act like a human brain, it will use those neurons to think and learn and function on its own. The hybrid chips will save tremendous amounts of energy with an actual neuron doing the processing for them.

Biological neural networks can solve problems in unfamiliar situations independent of acquired knowledge due to their self-organizing properties, says the companys website. Fluid intelligence is an essential requirement for autonomous robots.

Bio-computing was first switched on with neurons from mouse embryos, but can now use human neurons. Cortical Labs can morph human skin cells back into stem cells and then induce them to grow into actual human neurons. This was a process originally developed by Japanese scientists who were looking to eliminate the controversy that comes with using human embryonic stem cells. These cells are so useful because they havent yet decided what their function will be. That means they can be manipulated into just about anything.

After the skin cells undergo their transformation into neurons, a nourishing liquid medium is used to embed them onto a tiny metal oxide chip that has an even tinier grid of 22,00 electrodes. It is these electrodes that speak to programmers about when to zap electrical inputs to the neurons, letting them know what kind of outputs they are getting.

Artificially created neurons turn out the same as neurons that would (hypothetically) be taken from your gray matter, except there is no brain invasion required. Something like that would cross over from science fiction to science horror.

Right now, these chips are close to processing things like a dragonfly brain, so there are still upgrades to be made. Remember spending hours at the arcade playing Pong? Chong is determined to teach the chips to play that retro Atari game, and being powered by neurons uses just a fraction of what they would if they were only functioning on computerized intelligence. Think about it. The human brain has over a billion neurons, and our level of intelligence runs on only about 20 watts of power. Thats more than enough to play a marathon session of Pong.

Biological computing is the new frontier of computational power efficiency, the website says.

By the way, this wasnt the first time Pong got scientific star power. A.I. company DeepMind used it, along with other early Atari games that might be collecting dust in your basement somewhere, to demo how algorithms modeled after human neuron functions could perform. DeepMinds software scored high enough to convince Google into buying it. Now Google is using that tech to control the monster air conditioning units in its data centers, where it gets unbearably hot from servers devouring enough energy to keep entire cities running.

Cortical Labs is currently using mouse neurons on its quest to get hybrid chips to play Pong, but it probably wont be long before they use mutant human neurons. Gnarly.

(via Business Insider/Cortical Labs)

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Cyborg computer chips will get their brain from human neurons - SYFY WIRE

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Adrenoleukodystrophy is also known as Adrenomyeloneuropathy or Schilder-Addison Complex, it is a hereditary condition that damages the myelin sheath (membrane surrounding nerve cells in your brain) and disrupts the breakdown process of long-chain fatty acids (VLCFA). Adrenoleukodystrophy is passed down from parents to their children in a form of X-linked genetic trait. The genetic trait causes deposition of very-long chain fatty acids in the body tissues due to impaired beta oxidation. Myelin sheath in central nervous system, the adrenal cortex and Ledydig cells in the testes are the most severely affected tissues. Adrenoleukodystrophy give rise to three major disease categories such as childhood cerebral form (observed between 4 to 8 years of age), adrenomyelopathy and impaired adrenal gland function (also known as Addison disease).

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The major symptoms observed in a childhood cerebral form adrenoleukodystrophy patient are muscle spasms, crossed eyes (strabismus), hearing loss, seizures and other disorders related with the nervous system. In adrenomyelopathy the patients are observed with difficulty in controlling urination, muscle weakness or leg stiffness, difficulties in thinking speed and lack of visual memory. In Addison disease or adrenal gland failure the major symptoms observed are coma, decreased apetite, skin pigmentation, loss of weight, muscle weakness and vomiting. According to Centers for Disease Control and Prevention (CDC), approximately 1 in 20,000 people suffer from X-linked adrenoleukodystrophy. The Office of Rare Diseases (ORD) of the National Institutes of Health (NIH) has listed Adrenoleukodystrophy as a rare disease. In addition to this, CDC also reported that adrenoleukodystrophy, is a subtype of adrenoleukodystrophy, affects less than 200,000 people in the U.S. population annually.

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The adrenoleukodystrophy is diagnosed primarily with plasma very long chain fatty acid (VLCFA) examination by application of gas chromatography and/or mass spectrometery. The other diagnostics methods include chromosome studies that are carried out to understand the mutation in ABCD 1 gene and magnetic resonance imaging (MRI) scan of head. Adrenoleukodystrophy is treated with dietary therapy, transplant, adrenal insufficiency and gene therapy.

The dietary therapy consists of prohibiting the patient for the intake of very-long chain fatty acids (VLCFA) and this is a supportive therapy to normalize the disease conditions of the patient. The transplants are performed with allogeneic hematopoietic stem cells that assist in the demyelination process where myelin sheath is restored and its deterioration is inhibited. In gene therapy appropriate vectors are selected and modified according to the normal ABCD 1 and later these are transplanted into patients bone marrow or stem cell transplant. Adrenal insufficiency is the treatment still under research and trials as this process is ineffective and needs assistance form hormonal replacement therapy. In some cases genetic counseling is recommended for prospective parents with a family history of X-linked adrenoleukodystrophy.

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The product pipeline of adrenoleukodystrophy undergoing phase III trials is as follows:

North America was observed to be the leading geography followed by Europe due to high prevalence rate, increasing social awareness and key players based in the same geography. Asia-Pacific and Rest of the World lack due to unavailability and inaccessibility of the diagnostic techniques, counseling bodies and modern treatments.

The key players involved in the adrenoleukodystrophy therapeutics market are ,

Adrenoleukodystrophy is a rare disease hence the companies involved in therapeutics market of disease are few in number.

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Scientists at Lund University in Sweden showed long ago they could reprogram human cells into nerve cells and implant them into the brains of rats after a stroke. But would the cells form the vital connections needed to restore mobility and sensations like touch?

Now, they have early evidence that the answer to that question isyes. The Lund team turned skin cells into nerve cells, transplanted them into the brains of the rodent stroke models and observed them for six months. The new cells repaired the damage caused by strokes in the animals, the researchers reported in the journal PNAS.

The Lund University team transplanted the reprogrammed skin cells into the rats cerebral cortices, the region of the brain thats most commonly damaged by stroke. Then they used electron microscopy and other technologies to track the cells. That allowed them to see that the cells were making the connections needed to repair damaged nerve circuits.

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This virtual event will bring together industry experts to discuss the increasing pace of pharmaceutical innovation, the need to maintain data quality and integrity as new technologies are implemented and understand regulatory challenges to ensure compliance.

We have been able to see that the fibers from the transplanted cells have grown to the other side of the brain, the side where we did not transplant any cells, and created connections, said co-author Zaal Kokaia, professor of neurology at Lund, in a statement.

RELATED: Restoring neurons to preserve memory after heart attack or stroke

Cell therapy has been proposed for treating stroke damage in the past, but efforts to make it a reality have hit some roadblocks. A stem cell therapy being developed by British biotech ReNeuron failed to hit its primary trial endpoint of improving arm and leg movements. ReNeuron has since turned in better results from a trial of its cell therapy for improving vision in patients with retinitis pigmentosa.

Meanwhile, academic researchers are testing a variety of other therapies aimed at repairing stroke damage. Last year, for example, Stanford researchers showed that blocking a particular microRNA prompted star-shaped brain cells called astrocytes to become neurons, which helped restore memory in rats.

The Lund team is now planning additional animal trials to study how their transplanted cells affect memory and other intellectual functions, they said. They will also watch the rats closely to make sure they arent experiencing side effects, and theyll study the impact of the transplants on regions of the brain.

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When Jeff Bezos, the Amazon kingpin, debuted his new muscular physique at the Sun Valley Conference in 2017, he almost broke the internet. His Vin Dieselesque guns launched countless memes about how the dweebs dweeb had transformed himself into a jacked-up specimen worthy of an action franchise.

In interviews Bezos credits his diet (which includes roast iguana and octopus for breakfast), his unwavering commitment to working out, and eight hours of sleep. But not everyone is buying it.

Clean livingthats the catchphrase, isnt it? quips Patricia Wexler, the ne plus ultra of Manhattan dermatologists. Very few admit to doing any procedures.

Not a chance its just diet and exercise, says Roberta Del Campo, a dermatologist based in Miami, the countrys plastic surgery capital. Behind the scenes these people are getting all sorts of injectables and body sculpting treatments, such as Emsculpt and Trusculpt Flex, which have surged in popularity, especially among men, in the last couple of years.

Drew AngererGetty Images

Other experts suspect that captains of industry such as Bezos, who is 56, are going to even greater lengths to project vigor for both boards and broads. The tech titans are all looking much better than they used to, says Jessie Cheung, a Chicago-based cosmetic dermatologist whose holistic approach often involves testosterone and growth hormone substitutes, especially for men of a certain age who are lacking in muscle and look frail.

Access to bio-hacking tools such as stem cells and hormones is allowing men to look, perform, and think better. Its worth noting that Bezos, along with fellow billionaire Peter Thiel, invested in Unity Biotechnology, a company researching drugs and treatments to keep aging at bay. Im pretty sure hes gotten a taste of some good stuff, Cheung says.

Welcome to the new male vanity, in which even Silicon Valley bigwigs considerably younger than Bezos are resorting to newfangled procedures to avoid aging out of the workforce. The stakes have never been higher. American men underwent 1.1 million noninvasive cosmetic procedures in 2018a 72 percent increase since 2000, a trend that shows no signs of abating. In its forecast for 2020, the American Society for Aesthetic Plastic Surgery predicts the continued rise of the Daddy-Do-Over, the male equivalent of the Mommy Makeover, as men look to boost their confidence and improve their physical appearance.

Its a lesson in maintenance the men in the presidential race would do well to learn. In the not so distant past politicians could dismiss reporters questions about whether theyd had a face-lift, as Arnold Schwarzenegger did during his 2003 run for governor of California, when he joked that they must be confusing him with Cher. Now pols and pundits of every party are being grilled as mercilessly about their appearance as about their Medicare plans.

"Unfortunately for Biden, you can see the work thats been done," says one NYC dermatologist.

Joe Bidens forehead and Donald Trumps hair flap and skin color are dissected with the rigor of Kremlinologists (some of them actually are Kremlinologists, in Trumps case). And with good reason: If Hillary Clintons wrinkles, Elizabeth Warrens glasses, and Amy Klobuchars eyebrows are fair game, why not the nipped and tucked peacocks strutting around on Capitol Hill?

Denials about the scars on the side of Bidens face are, according to the experts, malarkey. Unfortunately for Biden, who has obviously had hair transplants and Botox, among other things, you can see the work thats been done, says Wexler. Nobody should be talking about work. When you have work done, the last thing you want is for people to notice it.

The queen of Fraxels laser focus on male primping is not partisan. Mr. Trump has definitely had workand not great work, at that, she adds. Give him his crumb, though: He wasnt bad looking when he was younger and in better shape.

Trumps penchant for cosmetic adjustments has been an open if much denied secret since at least 1991, when Ivana Trump disclosed his scalp reduction surgery and chin and waist liposuction in their divorce papers. In February the world was served a fresh reminder, when the president was photographed, in an image that quickly went viral, stepping out of Marine One with a windswept rug and a fake tan for the history books.

At tony dermatologist practices from coast to coast, man-tans like Trumps and obvious old-school work like the kind favored by Vladimir Putin is frowned uponif anyone can move any facial muscles at all. Instead, next-gen lasers such as NeoSkin by Aerolase, IBeam, and Nd:YAG are used to eliminate redness and discoloration.

Instead of surgical face-lifts, which, to be fair, remain popular in certain parts of the country (I definitely see them more on the West Coast, Wexler says, where its been around longer and is more accepted), men of means are turning to noninvasive procedures, most notably Ultherapy, a relatively painless FDA-cleared ultrasound treatment that requires no downtime.

Edward George/Alamy Stock Photo

For the ultimate injection of masculine vigor, though, Cheung works with membersand not necessarily of Congress. We make penises bigger and better, she says. Self-confidence for men is tied up with their penises and how well they work. We give them their swagger back.

Men looking for an extra glide in their stride are considering the augmented Priapus Shot, or P-shot, Cheung says, a treatment thats the male equivalent of the O-shot. She is also increasingly recommending a machine called Emsella, better known as the Orgasm Throne, which generates approximately 11,000 Kegel contractions in 30 minutes (it was originally developed for female incontinence). It really gives you an invigorating kick in the pants, Cheung says.

If the recent past is anything to go by, theres no guarantee that the candidates who end up squaring off in November will provide anything resembling accurate medical recordswhich is a shame, as they would make interesting reading. Like Bezos and less heralded moguls across the country, they are unlikely to reveal any touch-ups to anyone but their best pals.

Men will come in and ask for something their friend has had done, Wexler says. But you wont hear anyone on Jimmy Fallon saying, Im so tired: I was at the dermatologist all day.

This story appears in the May 2020 issue of Town & Country.

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Jeff Bezos and the New Face of Male Vanity - TownandCountrymag.com

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Tyto Cares kit includes a connected otoscope among other things

Numerous startups offering telehealth or remote monitoring solutions closed funding rounds this week, despite slowing activity due to the Covid-19 pandemic. One of them is Tyto Care, a startup with a platform for at-home medical exams. It actually includes a kit with several tools that can allow physicians to remotely listen to a patients heart, measure their temperature, and image their throat and ears. Several hospitals in Israel, including Sheba Medical Center, deployed its technology to care for patients remotely.

On the biotech side, there were some notable rounds, too, including $70 million for Aspen Neuroscience, which is developing a new treatment for Parkinsons disease. The company was founded by Scripps Research Professor Emeritus Jeanne Loring, who developed a way to turn pluripotent skin cells derived from skin cells or other adult cells into neurons that produce dopamine.

Read more about the companies that recently raised funding:

Tyto Care

Funding amount: $50 million

Headquarters: New York, Israel

Tyto Care, a company that lets people conduct at-home medical exams, already saw rising demand before the Covid-19 pandemic. The company said it saw threefold growth in sales last year and has continued to see its users increase during the pandemic. Its at-home telehealth kit includes a handheld device with attachments that allow physicians to remotely listen to the heart and lungs, measure temperature, and look at the throat and ears during an exam.

The company closed an oversubscribed $50 million round, co-led by Insight Partners, Olive Tree Ventures and Qualcomm Ventures. Tyto Care plans to use the additional funds to further expand its footprint in the U.S., Europe and Asia, and add new features to its platform, such as home diagnostics.

Aspen Neuroscience

Funding amount: $70 million

Headquarters: San Diego, California

Aspen Neuroscience is developing a treatment for Parkinsons disease using a patients own cells. The company uses induced pluripotent stem cells to make dopamine-producing neurons, which are affected by the disease.

The company closed a $70 million series A round, led by New York-based healthcare investor OrbiMed, with participation from ARCH Venture Partners, Frazier Healthcare Partners, Domain Associates, Section 32 and Sam Altman.

We are impressed by the progress Aspen has made to date against its goals to develop innovative therapies to treat Parkinson disease and encouraged by the broader investment communitys support of the company, OrbiMed Managing Partner Jonathan Silverstein said in a news release.

The company plans to use the capital to fund the development of its lead candidate, including completing studies needed to submit an investigational new drug application to the FDA, and recruiting for clinical trials.

Tango Therapeutics

Funding amount: $60 million

Headquarters: Cambridge, Massachusetts

Tango Therapeutics, a biotechnology company focusing on developing cancer therapies, closed a $60 million series B round. The company is working on developing treatments to counteract the loss of tumor suppressor genes, reverse cancer cells ability to evade the immune system, and identify new combinations that are more effective than single-agent therapies. The oversubscribed financing was led by Boxer Capital, with additional new investors in Cormorant Asset Management and Casdin Capital.

SonderMind

Funding amount: $27 million

Headquarters: Denver, Colorado

SonderMind, a startup that matches users with in-network therapists, raised $27 million in funding. The series B round was led by prominent VC General Catalyst and F-Prime Capital. Existing investors include the Kickstart Seed Fund, Di?ko Ventures and Jonathan Bush.

The company has a large network of behavioral providers in Colorado, and is expanding in Texas and Arizona. It plans to use the proceeds of the funding round to expand its partnership with payors, employers and health systems.

SilverCloud

Funding amount: $16 million

Headquarters: Boston, Massachusetts

SilverCloud has seen an uptick in users tapping into its mental health programs for depression, anxiety and other conditions. The company raised a $30 million series B round, led by MemorialCare Innovation Fund, the VC arm of MemorialCare Health System. Other participating investors included LRVHealth, OSF Ventures and UnityPoint Health Ventures.

So far, the company had drummed up partnerships with more than 300 companies. Notably, it was also one of the products selected for Express Scripts first digital health formulary. SilverCloud said it would use the additional funds to expand access to mental health support services for healthcare professionals, as well as their families and their patients.

CyberMDX

Funding: $20 million

Headquarters: New York

Healthcare security startup CyberMDX closed a $20 million funding round. Sham, a French risk management and insurance provider, led the funding round, with participation from Pitango Venture Capital and Oure Ventures.

CyberMDX monitors a providers network for threats to its IT systems, connected medical devices, and other IoT devices. The company said it will use the $20 million to expand its platform to new markets.

Photo credit: Tyto Care

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Funding roundup: At-home medical exams and a Parkinson's treatment - MedCity News

Skin Stem Cells Comments Off on Funding roundup: At-home medical exams and a Parkinson’s treatment – MedCity News | April 10th, 2020

We can summon our cars with our smart phones, have a drone bring our wildest wishes to our door, and were just an Alexa and Roomba partnership away from having our own The Jetsonsstyle domestic assistant at our beck and call. In the world of aesthetics, futuristic procedures we never knew we needed are here now, too. These are todays top tweaks that prove the future is actually now.

Future FatMoving fat from one part of the body to another is a procedure that has been around since the late 1800s, and because fat transfers have been a reliable source of volume for faces, butts and breasts, their popularity continues to rise. Now, you dont even need your own fat to get a volume boost. Renuva is an alternative way to do fat transfers without liposuction, says Vero Beach, FL plastic surgeon Alan Durkin, MD. It can fill in scars and dimples, and plump hollow cheeks and hands. Instead of creating collagen, it induces natural human fat. When injected, Renuva acts as a scaffold that allows the body to stimulate its own fat cells to grow and divide creating organic fat. So, where does this fat come from? Dr. Durkin says its donated human tissue that is screened extensively and processed for quality and safety. It arrives in dehydrated form and we rehydrate it with saline before injecting it.

Glow GettersThink of microdroplets of filler as the Tiny House Nation of injectable rejuvenation. Although microdroplets have not yet been approved by the FDA in the United States, Juvderm Volite was created for this specific application and is being used extensively and successfully in Europe, says Bloomfield Hills, MI dermatologist Linda C. Honet, MD. Restylane Skinboosters Vital and Vital Lite are also used with the microinjection technique in Canada and marketed with a special microinjection syringe that delivers tiny amounts0.01 milliliters of fillerin a serial injection fashion. The main benefit of this approach? A consistent, superficial glow. We have found that when the hyaluronic acidbased filler is deposited in one area, deeper into the dermis, we still see the plumping and hydration in all areas of the skin,adds Beverly Hills, CA dermatologist Ava Shamban, MD.

A few years ago, under-eye carboxytherapy injection videos were going viral, as the insertion of carbon dioxide under the skin causes skin to inflate like a balloon. That visual hasnt stopped doctors from utilizing carboxytherapy to boost skin rejuvenation. The intent of carboxy injections is to increase oxygen in the skin by increasing capillary blood flow to eliminate carbon dioxide, says San Antonio dermatologist Vivian Bucay, MD. Now, a CO2 Lift mask gives similar benefits without the intense skin expansion. The mask is made of two gels that we mix together and apply on the skin, she adds. Although there are no formal studies to show carboxytherapy speeds recovery compared to other topicals, Dr. Bucay uses it after laser treatments, Ultherapy, microneedling and chemical peels to reduce healing time.

Miracle GrowWhen we think of getting something lasered, we tend to think of the skin- resurfacing treatments that obliterate layers of dead skin to reveal baby-fresh skin. But some doctors, like New York dermatologist Doris Day, MD, are harnessing laser energy to help hair grow in places where it hasnt for years. I use the Fotona laserit employs photobiomodulation, a form of gentle deep heatto stimulate the stem cells of dormant hair follicles and encourage regrowth. The laser energy penetrates the tissue, where it interacts with chromophores and induces a complex set of reactions that increases circulation, reduces inflammation and helps restore normal cellular function. Currently, there are no clinical studies to prove the efficacy of this hair growth treatment, but there are controlled studies being planned. Dr. Day has seen results with some patients as part of a long-term plan that also includes Nutrafol, DuoZyme supplements and quercetin, as well as topical treatments and sometimes platelet-rich plasma therapy.

Body MovinBelly buttons get an automatic upgrade during a tummy tuck or Mommy Makeover, but stand-alone umbilicoplasty is trending as patients continue to find small areas of their bodies to tinker with and perfect. And, its not just about turning an outie into an innie. Most of the belly button surgeries performed by Raleigh, NC plastic surgeon Michael Law, MD are on those who have had a tummy tuck with another doctor and are left with visible scarring, or their belly button has an odd, or operated-on look.

For tummies in need of extra tightening, theres a nonsurgical option being explored that involves the same polydioxanone (PDO) threads used in thread lifts for the face. Abdominal thread lifts are essentially retention sutures, which are placed into the lower, mid or upper abdomen to lift tissue, explains Spokane, WA dermatologist Wm. Philip Werschler, MD. Ideal candidates are those who arent surgical candidates, those who dont want surgery, or those whose concerns are less than what a typical tummy tuck would correct. The in-office procedure takes about one hour and is performed under local anesthetic. There are no current studies to show the efficacy or benefits of thread lifts in this area, but Dr. Werschler says he continues to see good results.

To slenderize the legs, calf reduction is actually a thing. Excess fat on the calves may result in the appearance of cankles being a bit shorter can also make the calves appear thicker, says Los Angeles plastic surgeon Peter Lee, MD. We can perform liposuction in order to trim them down to the patients goal size. Excision techniques may also be needed for the removal of excess tissue. To make calves look smaller without surgery, New York dermatologist Tatiana Khrom, MD uses Botox Cosmetic to reshape: We target the back of the lower leg, the gastrocnemius muscles, to slim the calves and help patients fit into their favorite boots or feel more confident in their shorts, with results lasting up to six months.

Important IntelAll the doctors included in this story mentioned how important creative, off-label use is to the medical communityand strongly stressed seeing a board-certified doctor, practicing within scope, who has vast experience and knowledge on the treatments in question. Off-label use can be safe when done by an experienced doctor who specializes in that off-label treatment; that doctor may also produce research showing efficacy of the off-label use, has been trained on the off-label use, or performs it regularly. Of course, all cosmetic treatments can have a potential risk whether on-or off-label and this is why its important to see a properly board-certified doctor.

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Cosmetic Treatments The New New Wave: Trending Treatments You've Never Heard of Until Now Apr - NewBeauty Magazine

Skin Stem Cells Comments Off on Cosmetic Treatments The New New Wave: Trending Treatments You’ve Never Heard of Until Now Apr – NewBeauty Magazine | April 10th, 2020

Bizizz Market Research has recently published a research report, 3D Bioprinting Market By Component (3D Bioprinters (Magnetic 3d bioprinting, Laser-assisted bioprinting, Inkjet 3d bioprinting, Micro extrusion Bioprinters, and Other) Bioprinters Bio inks (Natural bio inks, Synthetic bio inks, and Hybrid bio inks)), Material (Hydrogels, Extracellular Matrices, Living Cells, and Other Biomaterials), Application (Research Applications (Drug Research, Regenerative Medicine, 3d Cell Culture) Clinical Applications (Skin, Bone & Cartilage, Blood Vessels, and Others), End User (Hospitals, Research Organizations and Academic Institutes Biopharmaceutical, and Companies), and Region-Global Industry Trends, Estimation & Forecast, 2019 2027. As per the report,Global 3D Bioprinting Marketwas valued at US$ 623 Mn in 2018 and it is anticipated to reach at market value of US$ 1.4 Bn by 2027, witnessing a CAGR of 18.6 % during the forecast period. Key drivers of the market are increasing prevalence of chronic disorders like kidney and heart failures, growing elderly populace, and the insufficient number of organ donors. However, dearth of skilled professionals may hinder the growth of the market during the forecast period.

3D bioprinting technology has witnessed accelerated adoption in the healthcare industry. Bioprinting has emerged as a promising technological know-how for the fabrication of synthetic tissues and organs, which can revolutionize the analysis and cure of more than a few scientific conditions. Bioprinting businesses around the world are constantly innovating in regenerative medicine, tissue engineering, drug therapies, and stem cell therapy, which is gaining attention from healthcare authorities and pharmaceutical agencies to envision a future with higher patient care, custom-made medical treatment, and an alternative to organ transplantation.

Over the previous few years, essential technological advancements in the 3D bioprinting space have taken place for numerous scientific applications, inclusive of skin tissue development, most cancers therapeutics, bone and cartilage development, and liver modeling. Advanced technologies grant players with a competitive area and thereby help in strengthening their function and share in the market. For instance, in 2018, Poietis (France) launched the 3D bioprinted pores and skin model, Poieskin. The total human pores and skin model is made by using the bioprinting of essential human collagen and fibroblast for the dermal layer and major human keratinocytes for the epidermal layer.

The 3D Bioprinting market is anticipated to register a CAGR of over 18.6% during the forecast period.

To Have A Glimpse Of The Report Or To Avail The Free Sample Click The Link Below:

https://www.bizizzmarketresearch.com/sample/global-overview-of-3d-bioprinting-market

By Material, the living cells segment held a prominent share in Global3D BioprintingMarket in 2018.

On the basis of material, the 3D bioprinting market is segmented into hydrogels, extracellular matrices, living cells, and other biomaterials. In 2018, the living cells segment accounted for the biggest market share particularly due to the developing R&D in the fields of regenerative medicine and stem cell research, and increasing public and personal investments to help research

By Application, Skin Printing Segment of Global 3D Bioprinting Market Is Anticipated To Witness the Fastest CAGR during the Forecast Period

The clinical applications market is similarly segmented into skin printing, bone & cartilage printing, blood vessel printing, and other scientific applications. Among these, the pores and skin printing purposes segment is estimated to develop at the best CAGR of 19.8% in the course of the forecast period. This can be attributed to the technological developments and new product launches in this utility segment, and the growing wide variety of aesthetic and reconstruction surgeries across the globe.

North America is anticipated to dominate the Global 3D Bioprinting Market during the Forecast Period

Growing target populace base is in all likelihood to be the crucial cause boosting the regions 3D bioprinting market growth. The existence of well-established corporations and subtle healthcare set-up in consort with high income tiers in the location are also anticipated through the market development. Moreover, huge research and improvement activities carried out inside the place are said to make contributions to market expansion. Additionally, the accessibility of 3D printed drugs that can be tailor-made in accordance with the age and body weight of a person is supporting to boost up the market evolution.

Global 3D Bioprinting market was highly consolidated with key players accounting for significant share in 2018. Prominent players operating in the Global 3D Bioprinting Market are: Solidscape, Inc. (acquired by Prodways Group), TeVido BioDevices, LLC, 3Dynamics Systems Ltd., Bio3D Technologies Pte. Ltd., Aspect Biosystems Ltd., Stratasys Ltd., Luxexcel Group B.V., Materialise N.V., Cyfuse Biomedical K.K., Voxeljet A.G., Envision TEC, and Organovo Holding, Inc., among others.

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Our expanding team of professionals & experts from a wide array of streams and vertical has critical problem solving skills, innovative approaches and research techniques to deliver best solution to our clients. We continuously pushing our capabilities to enhance our services and setting higher quality goals each day. BMR offers syndicated reports, custom reports and consulting services to our clients. We are capable of catering the market research demands of individuals and organizations of various industries across different geographies with utmost data accuracy in minimal turnaround time.

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Global 3D Bioprinting Market is anticipated to reach at market value of US$ 1.4 Bn by 2027 - Galus Australis

Skin Stem Cells Comments Off on Global 3D Bioprinting Market is anticipated to reach at market value of US$ 1.4 Bn by 2027 – Galus Australis | April 10th, 2020

If you notice flakes in your hair or it's simply looking drab, chances are there's something making its home on your head that you definitely don't want there. Depending on your own pH levels, it could be the oil from clogged follicles creating dandruff, but even if you consider your scalp on the normal-to-dry side, product buildup can still linger on the scalp long after you've showered with shampoo and conditioner.

If you'd like to say a final farewell to product buildup, dead skin cells, and excess sebum, using a purifying scalp scrub once a week can exfoliate away dirt and flakes and leave your hair feeling cleaner than you've ever imagined. Beyond scrubs, other treatments like serums and oils can also help fortify follicles so hair grows back in healthier and stronger, plus treat the protective cuticle layer that locks in moisture and keeps hair looking shiny, too.

Check out the best hair-care products at Sephora that tackle everything from itchiness to dullness ahead, and give your scalp the special treat it's not-so-secretly seeking.

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Don't Be Flaky: Try One of These Scalp Treatments From Sephora and Get Your Scalp Right - POPSUGAR

Skin Stem Cells Comments Off on Don’t Be Flaky: Try One of These Scalp Treatments From Sephora and Get Your Scalp Right – POPSUGAR | April 8th, 2020

Theres a great deal of innovation embedded in todays cutting-edge computer chips, but not much of it is as out-of-the-box as the thinking thats driving Australian startup Cortical Labs. The company, like so many startups with artificial intelligence in mind, is building computer chips that borrow their neural network inspiration from the biological brain. The difference? Cortical is using actual biological neurons, taken from mice and humans, to make their chips.

Were building the first hybrid computer chip which entails implanting biological neurons on silicon chips, Hon Weng Chong, CEO and co-founder of Cortical Labs, told Digital Trends.

This is done by first extracting neurons in two different ways, either from a mouse embryo or by transforming human skin cells back into stem cells and inducing those to grow into human neurons.

We then grow those neurons in our laboratory on high density CMOS-based multi-electrode devices that contain 22,000 electrodes on tiny surfaces no larger than 7mm squared, Chong continued. These neurons form neural networks which then start to spontaneously fire electrical signals, after a two-week incubation period, that is picked up by our multi-electrode device. The multi-electrode device is also able to provide electrical stimulation.

The researchers arent the first to develop neural networks based on real neurons. Recently, scientists in the U.K., Switzerland, Germany, and Italy fired up a working neural network that allowed biological and silicon-based artificial brain cells to communicate with one another over an internet connection.A California startup called Koniku, meanwhile, is building silicon chips, created using mouse neurons, which are able to sense certain chemicals.

For now, research like Cortical Labs is still in a relatively early proof-of-concept stage. According to a recent article in Fortune, Cortical Labs current approach has less processing power than a dragonfly brain. That means that, for now, its pursuing humbler ambitions than its eventual goal.

While were still in the process of building the hybrid computer chip, right now were focused on shaping our neurons behavior to play a game of [Ataris] Pong, Chong said. Thats our next big milestone, which will provide a proof-of-concept similar to DeepMinds demonstration [in 2013] of its A.I. playing Breakout.

Commercialization is still a number of years away, Chong continued. But hes convinced it could be a game-changer. When we eventually take our final product to market we believe it will have a wide array of applications across robotics, cloud computing, and computer brain interfaces, he said. This does not include industries that we might not have thought about yet because of the novelty of such a computation paradigm.

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Meet the sci-fi startup building computer chips with real biological neurons - Digital Trends

Skin Stem Cells Comments Off on Meet the sci-fi startup building computer chips with real biological neurons – Digital Trends | April 8th, 2020

The coronavirus crisis is affecting every aspect of our lives, including the condition of our skin. Have you noticed that your skin is particularly spotty, irritated and angry lately? That's another thing you can blame on COVID-19.

Express.co.ukspoke to Dr. Luca Russo, Dermatologist at Urban Retreat, to find out why.Dr. Russo says there are several reasons for your unexpected breakouts.He said: "There might be several reasons for noticing a tendency to break out during this national emergency."It's probably to do with what's going on inside, and what you're putting in your body, says Dr. Russo.

READ MORE- Coronavirus symptoms: Man reveals skin-related warning sign

Are you up all night worrying about the virus?Dr. Russo says: "The most likely cause of your breakout is stress."During such uncertain and stressful times, our system copes with increased production of Cortisol."Cortisol is an androgen hormone that is released when we are facing unusual challenges and prepare us to "fight'."However, it will also increase the sugar level in the bloodstream and production of sebum that might be a cause of the breakout."

In order to prevent breakouts that stem from high levels of stress, you'll need to calm yourself down.Dr Russo recommends doing activities that allow you to relax and unwind, such as yoga.He also suggests exercising regularly, so it's time to start making use of that daily government-approved walk, cycle, or run.

If you hate exercising, don't worry, the antidote to high cortisol levels doesn't have to be physical.Laughing, a solid night of sleep, or practising your favourite hobby are all effective options.

Having a soak in the bath and doing a face-mask may help you feel more in control of your skin.

This relief may cause a decrease in oil production and pimples.

DON'T MISS...How to help your brain through the coronavirus crisis stress [EXPLAINER]Coronavirus: How to look after your mental health during lockdown [EXPLAINER]Lockdown exercise: The eight exercises you can do at home [INFORMER]

Can you honestly say you have been eating well throughout the lockdown?Most people have stocked up on sugary treats and salty snacks in order to cheer themselves up in the face of COVID-19.And what about the good-old "support local businesses" excuse you use every time you order a greasy takeaway?Dr Russo says: "During isolation food becomes one of the few focal points of the day with more consumption of comfort food."Just like any other organ in your body, a poor diet affects your skin negatively.The body breaks down our food into tiny particles of proteins, fats, and carbs, and circulates it to the organs that need them.These nutrients make their way to your skin too, impacting its condition.It makes sense that inflammatory foods, such as sweets, some dairy, processed meat, and refined carbohydrates, will cause a flare-up in your complexion.

Dr. Russo says: "To improve your skin, you must eat well."Eat foods that are packed with vitamins and proteins and snack on fruit and veg."Drinking lots of water will replace the moisture that is lost through sweat and other processes, keeping your skin hydrated.If you fill up on foods rich in healthy oils and omega-3 fatty acids, you will improve the collagen production in your skin.This makes your skin smoother, suppler, and will help you in the longterm by preventing premature ageing.These oils and fats are found in fish, nuts, olive oil, and many more commonly found items.

During the lockdown, we're stuck inside all day and often don't get a chance to let our skin feel the sun.Dr. Russo says: "At the moment, skin isn't being exposed to natural light much at all."When your skin is exposed to natural light, the production of Vitamin D is increased."Endorphins are also produced, and this boosts your immune system and well-being."Make sure you get some fresh air every day, in order to reap these benefits of the sun.The sun is a great natural resource to improve your skin, but make sure you protect yourself with sun protection before you go out.You should wear an SPF of at least 30 on your face whenever you leave the house or are in front of a window for a prolonged amount of time.

Most people are shunning makeup in favour of the natural look since no one other than our household is going to see our faces.This means you may be tempted to skip your cleansing routine and go straight to bed once the day is over.

If you normally get facials and now can't, this may also be why you are breaking out or seeing changes.Dr. Russo explains: "You have probably been unable to receive professional treatments over this time, and this will contribute towards your breakouts."Dr. Russo recommends continuing with your normal skincare routine.He says: "Carry on as normal, but add an exfoliating cleanser to your routine."Exfoliating cleansers make your skincare routine shorter, by combining exfoliating and cleansing in one step.They remove dead skin cells and any build-up of dirt and oil in one go.There are hundreds of physical exfoliating cleansers on the market, as well as chemical exfoliating cleansers, so take your pick!

While surgical masks are thought to protect us against coronavirus, they're not great for our skin, said Dr. Russo.Wearing a mask over your face for many hours is damaging to your skin, especially when it's hot outside.The mask offers the perfect spot for bacteria and germs to harbour.Try double cleansing on the lower half of your face if you've worn a surgical mask for a prolonged period of time.

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Lockdown skin: Why is my skin worse even though I'm not wearing any makeup? - Express

Skin Stem Cells Comments Off on Lockdown skin: Why is my skin worse even though I’m not wearing any makeup? – Express | April 8th, 2020

Theres a great deal of innovation embedded in todays cutting-edge computer chips, but not much of it is as out-of-the-box as the thinking thats driving Australian startup Cortical Labs. The company, like so many startups with artificial intelligence in mind, is building computer chips that borrow their neural network inspiration from the biological brain. The difference? Cortical is using actual biological neurons, taken from mice and humans, to make their chips.

Were building the first hybrid computer chip which entails implanting biological neurons on silicon chips, Hon Weng Chong, CEO and co-founder of Cortical Labs, told Digital Trends.

This is done by first extracting neurons in two different ways, either from a mouse embryo or by transforming human skin cells back into stem cells and inducing those to grow into human neurons.

We then grow those neurons in our laboratory on high density CMOS-based multi-electrode devices that contain 22,000 electrodes on tiny surfaces no larger than 7mm squared, Chong continued. These neurons form neural networks which then start to spontaneously fire electrical signals, after a two-week incubation period, that is picked up by our multi-electrode device. The multi-electrode device is also able to provide electrical stimulation.

The researchers arent the first to develop neural networks based on real neurons. Recently, scientists in the U.K., Switzerland, Germany, and Italy fired up a working neural network that allowed biological and silicon-based artificial brain cells to communicate with one another over an internet connection.A California startup called Koniku, meanwhile, is building silicon chips, created using mouse neurons, which are able to sense certain chemicals.

For now, research like Cortical Labs is still in a relatively early proof-of-concept stage. According to a recent article in Fortune, Cortical Labs current approach has less processing power than a dragonfly brain. That means that, for now, its pursuing humbler ambitions than its eventual goal.

While were still in the process of building the hybrid computer chip, right now were focused on shaping our neurons behavior to play a game of [Ataris] Pong, Chong said. Thats our next big milestone, which will provide a proof-of-concept similar to DeepMinds demonstration [in 2013] of its A.I. playing Breakout.

Commercialization is still a number of years away, Chong continued. But hes convinced it could be a game-changer. When we eventually take our final product to market we believe it will have a wide array of applications across robotics, cloud computing, and computer brain interfaces, he said. This does not include industries that we might not have thought about yet because of the novelty of such a computation paradigm.

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'Let me tell you about the very rich,' wrote F Scott Fitzgerald. 'They are different from you and me.' Above all, in the lengths they will go to acquire, and preserve, perfect skin.

Sheikha Moza bint Nasser, the consort of the former Emir of Qatar, may well be the richest person I've ever met. She certainly has skin like no one else on the planet. She's 61 but looks about 40, with a face that seems to have no visible pores, perhaps because it's sculpted out of alabaster.

Admittedly, she is carefully made-up on a regular basis, so she would have been unlikely to want to attend a recent dinner party of Gwyneth Paltrow's in Beverly Hills, at which guests were banned from wearing any cosmetics at all. Kate Hudson and Demi Moore were among those who gamely took the challenge, the idea of which was to allow the assembled LA A-listers to show off their natural glow.

But they don't, of course, rely wholly on nature for their radiance. Moore's evening beauty routine (pared back to the minimum because, she says, "I like to keep it simple") includes eight separate products, with a total cost of 743.50, from a cleansing elixir to a 355 replenishing facial oil and a rose-quartz facial massager in the shape of a butterfly.

No wonder that, far from being petrified at the thought of the make-up-free dinner, she felt 'full of joy', according to her Instagram posts. Her face wasn't coated in foundation, but it was insulated by a thick layer of cash.

With skincare that promises actually to reverse the visible signs of ageing, beauty brands feel entitled to charge impressive sums. La Prairie has one serum, its Platinum Night Elixir, that sells for over 1,000 for 20ml. It costs about 10 more per gram than solid gold. Imagine if your cat knocked that one off the dressing table.

On the other hand, the scientist who developed it says the peptides and amino acids contained in a single daily drop will leave your skin visibly younger-looking and fresher in two weeks. Users say it feels like wrapping your face in cashmere.

La Prairie Platinum Rare Cellular Night Elixir 20ml, 1,018, Harvey Nichols

I rely on Dr Phillip Levy, a Swiss dermatologist and wound-healing specialist based in Geneva, whose moisturisers and serums are proven to revitalise dermal stem cells to kick-start your skin's own production of collagen. Another doctor - German-born Michael Prager, who operates from a clinic in Wimpole Street - emphasises the rejuvenating effects of combating pollution with an antioxidant cream that fights off free radicals.

Neither of these medical-grade ranges comes cheap, but though Dr Prager's day oil contains pure gold, at 225 for 30ml (drmichaelprager.com), it's not actually as expensive as buying the precious metal itself.

If you're going down the Sheikha Moza route to moneyed perfection with a lavish use of make-up, Gucci Westman is a name to conjure with. This make-up artist, who has worked with Natalie Portman and Nicole Kidman, has her own range, Westman Atelier.

Lip suede in Les Rouges, 75, Westman Atelier (net-a-porter.com)

Yes, the colours are lush but, even better, the brand is 'clean' - beauty-speak for vegan, against animal-testing, paraben-free and so on. Plus, the products moisturise, plump up collagen and soothe as you apply them. Even the mascara conditions your lashes. So what if it costs 58?

Equally impressive is Shiseido's luxury line, Cl de Peau, which does a foundation that's 250 for 27ml, in 13 shades. Again, it's a beauty treatment with SPF and moisturiser as much as a make-up product, and it's what I'll put on if I want anyone to tell me I look glowing.

But, of course, more precious than any cream or blush stick is a little personal attention. Dr Costas Papageorgiou operates out of Harrods and has fairly expensive-looking skin himself. He makes use of a battery of lasers, Botox, fillers and ultrasound, but the key to his success is the consultation that starts off the process.

The Foundation,250, Cl de Peau Beaut (harrods.com)

Seeing your own face in unforgiving 3D on a computer may be a shock, but it certainly helps pinpoint the areas you'd like him to focus on. He's very hot on correcting facial symmetry, which starts out pretty good in babies, but with time and use, the muscles on the face become less symmetrical as bits start to droop or wrinkle. Generally, the more lopsided you are, the more antique you look, and he can address that with filler, Botox and even thread lifts.

But I'm not one for the injectables. It's his Hybrid Energy Lift - a combination of ultrasound, infrared, light and laser - that I really rate (from 6,000 for 120 minutes, facialplasticslondon.com). It, too, stimulates collagen production, but it also gets rid of visible veins and redness, and even reduces big pores. I have had to change the tone of my foundation for a paler one since he did for my (mild) rosacea.

Radical3 Reboot Pro Peel, 89, Dr Levy (editorslist.co.uk)

The key, says Dr Papageorgiou, is to delay and reverse the "ageing cascade". This slow car crash of fine lines around the eyes, sun damage and heavy jowls is all thanks, he says, to "fat atrophy and bone resorption".

But subtlety is all - "A great result is one that shows no signs of intervention"- and nothing, he warns, can really be achieved unless you have a healthy diet, exercise and take vitamins.

Debbie Thomas, at her D.Thomas clinic in London, has a similarly personalised approach. You don't book in for a single treatment, you book for an hour of her expert time, and she'll use a cocktail of lasers, micro-needling and products depending on what you need (475 for a DNA Laser Complete 2 session, dthomas.com).

"I'm afraid,"she says, "traditional facials are not going to transform your skin for more than a few days. You need to upgrade to more advanced treatments if you want long-term results. And those will be more costly."And who can say it's not worth the money?

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The rise of 'rich woman face': how to halt the ageing process (for a certain price) - Telegraph.co.uk

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Just when you thought the world couldnt get any spookier, say hello to the newly born xenobot, a new kind of living thing.

Its hard to say with certainty who the father is.

Or maybe its just hard to admit whats actually happened: Like a bright child making a weirdo companion from Play-Doh, artificial intelligence has mated with the living cells of a frog to create an eerie hybrid of life and machine.

In a statement from the University of Vermont (UVM), the researchers explain it this way: A team of scientists has repurposed living cells, scraped from frog embryos, and assembled them into entirely new life forms.

These millimetre-wide xenobots can live for weeks, travel about with intent, work in groups autonomously, and heal themselves after being cut.

The idea is they could be set sail in their billions to clean the oceans of microplastics.

The really smart ones could be stationed in your organs, where theyd carry out renovating surgery or deliver drugs.

These are novel living machines, says Professor Joshua Bongard, a computer scientist and robotics expert at the University of Vermont who co-led the research.

Theyre neither a traditional robot, nor a known species of animal. Its a new class of artefact: A living, programmable organism.

The new creatures were designed on the Deep Green supercomputer at UVM and then assembled and tested by biologists at Tufts University.

The Deep Green supercomputer cluster at UVMs Vermont Advanced Computing Core used an evolutionary algorithm to create thousands of candidate designs for the new life forms.

Essentially, the computer was told here are your buildings blocks, literally abstract cubes with the physical parameters and limitations of skin and heart cells of an African frog.

The computer was then given an assignment: Arrange the cells so they could move forward. Or side to side. Or herd tiny sheep (no kidding).

And this is where the Play-Doh analogy comes in: The computer would, over and over, reassemble a few hundred simulated cells into myriad forms and body shapes. Is this one OK? What about this one?

Following the same pattern as human beings leaving behind its long-dead ancestors, Homo Erectus and the other hominins that followed, some of the creatures were selected to survive, but the less-successful species went extinct and were tossed to oblivion.

Eventually, the most promising designs were selected for testing.

And this is where it gets spooky.

Because the next step was to bring those building blocks, those red and green cubes, to life.

Here the research shifted from the UVM supercomputer to the biology labs at Tufts University, where stem cells were harvested from the embryos of African frogs, the species Xenopus laevis. (from which the name xenobot is derived).

The cells were separated into single cells and left to incubate.

The creepy yet wondrous thing is, not kept apart, the cells clump together and try to make something of themselves.

Next step: A microsurgeon, Dr Douglas Blackiston, used tiny forceps and an even tinier electrode, to cut the cells and join them under a microscope into a close approximation of the designs specified by the computer.

Assembled into body forms never seen in nature, the cells began to work together, the researchers advise.

The skin cells formed a more passive architecture, while the once-random contractions of heart muscle cells were put to work creating ordered forward motion as guided by the computers design, and aided by spontaneous self-organising patterns allowing the robots to move on their own.

These reconfigurable organisms were shown to be able move in a coherent fashion and explore their watery environment for days or weeks, powered by embryonic energy stores.

Turned over, however, they failed, like beetles flipped on their backs.

Later tests showed that groups of xenobots would work together like cowboys, moving around in circles, pushing pellets into a central location.

They did this spontaneously and collectively. Others were built with a hole through the centre to reduce drag.

In simulated versions, the scientists were able to repurpose this hole as a pouch to successfully carry an object.

We can imagine many useful applications of these living robots that other machines cant do, said co-leader Professor Michael Levin who directs the Centre for Regenerative and Developmental Biology at Tufts, like searching out nasty compounds or radioactive contamination, gathering microplastic in the oceans, travelling in arteries to scrape out plaque.

That fear is not unreasonable, Dr Levin said. When we start to mess around with complex systems that we dont understand, were going to get unintended consequences.

How might the creatures eventually work together in bigger systems?

As the researchers admit, who the heck knows?

A lot of complex systems, like an ant colony, begin with a simple unit an ant from which it would be impossible to predict the shape of their colony or how they can build bridges over water with their interlinked bodies.

Dr Levin said its an absolute necessity for society going forward to get a better handle on systems where the outcome is very complex.

A first step towards doing that is to explore: How do living systems decide what an overall behaviour should be and how do we manipulate the pieces to get the behaviours we want?

In other words, he suggested: This study is a direct contribution to getting a handle on what people are afraid of, which is unintended consequences.

If this was a horror movie, it would go like this: The world is under siege from a malevolent virus.

The frightened populace can think of nothing else.

Meanwhile, creepy monsters made from frog skin decide to take over the joint

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Half frog, half machine: The rise of the xenobot - The New Daily

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Limbs regenerate, embryos grow, and cancers invade.

In each of these processes, cells change dramatically. Betty Hay studied fascinating biological phenomena, relentlessly asking questions with her students and colleagues to understand how cellsbehaved. By the end of her life, she had made enormous research contributions in developmental biology, on top ofcommitting herself to mentoring the next generation of scientists and advocating for more representation of women in science.

She made significant contributions towards understanding cell and developmental biology

Betty Hay began as an undergraduate at Smith College in 1944. She lovedher first biology course and started working for Meryl Rose, a professor at Smith who studied limb regeneration in frogs. I was self-motivated and very attracted to science, she saidin an interview in 2004, Meryl at that time was working on regeneration and by the end of my first year at Smith I was also studying regeneration.

Hay regarded Rose as a significant scientific mentor in her life and followed his advice to apply for medical school instead of graduate school. She ended up attending Johns Hopkins School of Medicine for her medical degree while continuing her research on limb regeneration over the summers with Rose at Woods Holes Marine Biological Laboratory. She stayed at Johns Hopkins after to teach Anatomy and became an Assistant Professor in 1956.

The year after, she moved her studiesto Cornell Universitys Medical College as an Assistant Professor to learn how to use the powerful microscopes located there. Her goal was to use transmission electron microscopy (TEM), a method of taking high-resolution images, toseehow salamanders could regenerate an amputated limb. Nothing couldve kept me from going into TEM, she said later.

With her student, Don Fischman, they concluded that upon amputation, cells with specialized roles,known as differentiated cells and thought to be unchangeable, were able to de-differentiate and become unspecialized stem cells again. These cells without an assigned role could then have the freedom to adopt whatever new roles they required to regenerate a perfectly new limb.

Already making leaps in figuring out an explanation for the process of limb regeneration, Hay turned her attention from salamanders to bird eyes when she moved to Harvard University. She studied the outermost layer of cells on the cornea, known as the cornea epithelium. With the help of a postdoctoral scholar in her lab, Jib Dobson, and a faculty colleague, Jean-Paul Revel, they isolated, grew, and took pictures of cornea epithelium cells and demonstrated the epithelial cells could produce collagen.

Collagen is the main type of protein that weaves together to form the extracellular matrix, a connective tissue (the matrix) found outside of cells (extracellular). The collagen in the extracellular matrix provide structure, acting as a foundation for connective tissues and organs such as skin, tendons, and ligaments. Other scientists in the field were skeptical of the conclusion. They thought that one dedicated cell produced collagen, and nothing else.They dismissed the idea that cells in the cornea could somehow do the same. Despite their doubt, Hay, along with postdoctoral scholar Steve Meier, continued their studies. In 1974, they further showed that not only could epithelial cells produce collagen and extracellular matrix in different organ systems, but that the matrix could also tell other cells what type of cell to become.

She was a committed educator and mentor

Kathy Svoboda and Marion Gordon, two colleagues of hers, wrote about Betty Hay and described her not only as a superb cell and developmental biologist, but also as an educator and beloved mentor.

Limb regeneration in salamanders

Russell et al BMC Biology 2017

She was dedicated to teaching and influenced the careers of many junior and early-career scientists. In addition to working with and training her students to produce successful research and results, others mentioned how she would take the time to introduce students in her department to more established and prominent scientists in the field of cell biology. These actions reflected her belief that every student was worthy of being heard and introduced.

She held influential positions and advocated for more representation of women in science

At the time of her graduation from Johns Hopkins in 1952, she was one of only four women in her graduating class of 74 people. Afterwards, she experienced frequent moves for her career, going from Baltimore, to New York, to Boston. Despite how difficult it felt moving alone and leaving her personal relationships behind every time, she felt it was necessary for her career. In her mind, she strongly believed her research always came first, fueled by her intense desire to find answers, using the scientific approach.

She went on to serve as president for multiple professional societies, such as the American Association of Anatomists, the American Society for Cell Biology, and the Society for Developmental Biology, demonstrating her commitment to leadership and service. In two of these societies, she was the first woman to ever hold the position.

In 1975, she became the first female chair of what is now the Department of Cell Biology at Harvard University and held that position for 18 years. Even with these impressive milestones, she acknowledged one of her biggest obstacles to be achieving acceptance in the male professional world.

In 2004 and nearing retirement, Betty Hay would go on to say, I am very glad to see in my lifetime the emergence of significantly more career women in science, in an interview with editor-in-chief Fiona Watt for the Journal of Cell Science, this so enriches the intellectual power being applied to the field of cell biology.

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Meet Betty Hay, the scientist who saw how cells grow and limbs regenerate - Massive Science

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There are plenty of hair products out there that promise all kinds of miraculous results. If youre experiencing hair loss, hair thinning, or damaged hair, you might be at your wits end trying products to bring your hair back to health. With so many different options out there, its hard to know which product to choose. And how can you be sure whether any of them really work?

One of the latest big trends in the beauty industry is the use of natural plant stem cells to help replenish your hair and promote healthy growth. Companies claim that stem cell shampoo could be the answer to all your hair problems. We decided to test out the latest product from Cel MD, the Biotin shampoo and conditioner, and see the results it produced.

What is Cel MD?

Cel MD is a cosmetics company that utilizes patented techniques and cutting-edge science. Its aim is to bring the best in beauty treatments to retail. The company offers lots of different products, most of which use plant stem cells. These and other natural extracts help promote healthy skin and hair.

Stem cells are non-specialized cells that are found in our bodies. They can form any cell, meaning they have great potential for regenerating lost cells, particularly in our hair and skin. Stem cell products like shampoos use plant stem cells and extracts, which can help the body produce more stem cells naturally. This can, in turn, lead to healthier hair.

Biotin Shampoo and Conditioner Ingredients

Cel MDs Biotin shampoo and conditioner include the following active ingredients:

Biotin Stem Cell Shampoo and Conditioner Results

Biotin Stem cell Shampoo and conditioner are most effective for thin and flat hair. These products are supposed to promote new hair growth while also strengthening hair and preventing breakages and damage.

The shampoo is listed as being hypoallergenic, meaning its unlikely to cause any rashes or discomfort. I used the Biotin shampoo and conditioner for six weeks, during which time we followed the instructions provided. Both the shampoo and conditioner were used together, with a short, cold water rinse in between.

After just two weeks of using the product, I found that my hair was softer and looking healthier. I was able to grow my hair longer without suffering from the damaged look that had always happened previously. At the end of the six weeks, my hair was noticeably looking a lot thicker, shinier, and was softer to the touch. My hairstylist commented on how it had improved, and it was clear that the shampoo and conditioner were working their magic.

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Cel MD Biotin Shampoo and Conditioner Review - Explosion

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