Tag Archives: human health

Nobel Prize in Physiology or Medicine 2012 for Reprogramming Cells to be Pluripotent

The Nobel Prize in Physiology or Medicine 2012 was awarded “for the discovery that mature cells can be reprogrammed to become pluripotent.” The prize goes jointly to Sir John B. Gurdon, Gurdon Institute in Cambridge, UK and Shinya Yamanaka, Kyoto University (he is also a senior investigator at the Gladstone Institutes in the USA).

The Nobel Prize recognizes two scientists who discovered that mature, specialised cells can be reprogrammed to become immature cells capable of developing into all tissues of the body. Their findings have revolutionised our understanding of how cells and organisms develop.

John B. Gurdon discovered (in 1962) that the specialisation of cells is reversible. In a classic experiment, he replaced the immature cell nucleus in an egg cell of a frog with the nucleus from a mature intestinal cell. This modified egg cell developed into a normal tadpole. The DNA of the mature cell still had all the information needed to develop all cells in the frog.

Shinya Yamanaka discovered more than 40 years later, in 2006, how intact mature cells in mice could be reprogrammed to become immature stem cells. Surprisingly, by introducing only a few genes, he could reprogram mature cells to become pluripotent stem cells, i.e. immature cells that are able to develop into all types of cells in the body.

These groundbreaking discoveries have completely changed our view of the development and cellular specialisation. We now understand that the mature cell does not have to be confined forever to its specialised state. Textbooks have been rewritten and new research fields have been established. By reprogramming human cells, scientists have created new opportunities to study diseases and develop methods for diagnosis and therapy.

All of us developed from fertilized egg cells. During the first days after conception, the embryo consists of immature cells, each of which is capable of developing into all the cell types that form the adult organism. Such cells are called pluripotent stem cells. With further development of the embryo, these cells give rise to nerve cells, muscle cells, liver cells and all other cell types – each of them specialised to carry out a specific task in the adult body. This journey from immature to specialised cell was previously considered to be unidirectional. It was thought that the cell changes in such a way during maturation that it would no longer be possible for it to return to an immature, pluripotent stage.

Related: 2011 Nobel Prize in Physiology or MedicineNobel Prize in Physiology or Medicine 20082012 Nobel Prize in Chemistry to Robert Lefkowitz and Brian Kobilka

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2011 MacArthur Fellows

2011 MacArthur Fellows

Elodie Ghedin (in video) is a biomedical researcher who is harnessing the power of genomic sequencing techniques to generate critical insights about human pathogens. A major focus of her work has been parasites that cause diseases endemic to tropical climates, such as leishmaniasis, sleeping sickness, Chagas disease, elephantiasis, and river blindness.

More scientists given the $500,000 award: Markus Greiner, Condensed Matter Physicist, Harvard University; Sarah Otto, Evolutionary Geneticist, University of British Columbia; Shwetak Patel, Sensor Technologist & Computer Scientist, University of Washington; Kevin Guskiewicz, Department of Exercise & Sport Science, University of North Carolina; Melanie Sanford, Organometallic Chemist, University of Michigan; Matthew Nock, Clinical Psychologist, Harvard University; Yukiko Yamashita, Developmental Biologist, University of Michigan; William Seeley, Neurologist, University of California, San Francisco.

Related: 2008 MacArthur FellowsPresidential Early Career Awards for Scientists and EngineersNew Physics Prize Gives 9 Physicists $3 million Each2011 Nobel Prize in Chemistry

Key Indicator for Malignant Melanoma Found

Skin cancer detection breakthrough

The researchers found that certain biochemical elements in the DNA of normal pigment-producing skin cells and benign mole cells are absent in melanoma cells. Loss of these methyl groups — known as 5-hmC — in skin cells serves as a key indicator for malignant melanoma. Loss corresponded to more-advanced stages of melanoma as well as clinical outcome.

Strikingly, researchers were able to reverse melanoma growth in preclinical studies. When the researchers introduced enzymes responsible for 5-hmC formation to melanoma cells lacking the biochemical element, they saw that the cells stopped growing.

“It is difficult to repair the mutations in the actual DNA sequence that are believed to cause cancer,” said Christine Lian, a physician-scientist in the Department of Pathology at BWH and one of the lead authors. “So having discovered that we can reverse tumor cell growth by potentially repairing a biochemical defect that exists — not within the sequence but just outside of it on the DNA structure — provides a promising new melanoma treatment approach for the medical community to explore.”

Because cancer is traditionally regarded as a genetic disease involving permanent defects that directly affect the DNA sequence, this new finding of a potentially reversible abnormality that surrounds the DNA (thus termed “epigenetic”) is a hot topic in cancer research, according to the researchers.

In the United States, melanoma is the fifth most common type of new cancer diagnosis in men and the seventh most common type in women. The National Cancer Institute estimates that in 2012 there will be 76,250 new cases and 9,180 deaths in the United States owing to melanoma.

Thankfully scientists keep making great progress in understanding and finding potential clues to treating cancer. And big gains have been made in treating some cancers over the last few decades. But the research successes remain difficult to turn into effective solutions in treating patients.

I am thankful we have so many scientists doing good work in this difficult and important area (cancer).

Related: Webcast of a T-cell Killing a Cancerous CellNanoparticles With Scorpion Venom Slow Cancer SpreadDNA Passed to Descendants Changed by Your LifeResearchers Find Switch That Allows Cancer Cells to Spread

Man in Coma for 7 Years was Given a Sleeping Pill and Woke Up

Lazarus pill miracle for E Cape man, 9 September 2012

After reading a report in City Press last month, his wife, Nomfundo, insisted that he be given a prescription for the sleeping pill Stilnox, which has the opposite effect on those with brain injuries.

It worked – and brought him out of a seven-year coma.

But on August 12, family friend Nceba Mokoena came across an article in City Press about a miracle recovery made by another car crash victim, hundreds of kilometres away in Gauteng.

Louis Viljoen was given the sleeping pill by chance by his mother, Sienie.

She had noticed he wasn’t sleeping peacefully and asked her doctor if she could give him half a sleeping tablet. After she did, Louis opened his eyes and said “Hello Mamma”, his first words in five years.

Very cool anecdote and example that modern medicine has many miraculous cures but the medical system can’t always use them as well as we would hope. Even with all the knowledge we have today just getting that information into the right doctor’s minds is very hard. And the complexity of diagnoses and interactions makes medical care still an art as well as a science.

So is this just some freak accident. Partially, in the mother giving her son a sleeping pill to reduce his seeming restlessness in the coma. But the effect of Stilnox in bringing coma victims out of a coma has been documented previously.

Reborn from persistent vegetative state, 12 September 2006

Four three years, Riaan Bolton has lain motionless, his eyes open but unseeing. After a devastating car crash doctors said he would never again see or speak or hear. Now his mother, Johanna, dissolves a pill in a little water on a teaspoon and forces it gently into his mouth. Within half an hour, as if a switch has been flicked in his brain, Riaan looks around his home in the South African town of Kimberley and says, “Hello.” Shortly after his accident, Johanna had turned down the option of letting him die.

Three hundred miles away, Louis Viljoen, a young man who had once been cruelly described by a doctor as “a cabbage”, greets me with a mischievous smile and a streetwise four-move handshake. Until he took the pill, he too was supposed to be in what doctors call a persistent vegetative state.

Across the Atlantic in the United States, George Melendez, who is also brain-damaged, has lain twitching and moaning as if in agony for years, causing his parents unbearable grief. He, too, is given this little tablet and again, it’s as if a light comes on. His father asks him if he is, indeed, in pain. “No,” George smiles, and his family burst into tears.

It all sounds miraculous, you might think. And in a way, it is. But this is not a miracle medication, the result of groundbreaking neurological research. Instead, these awakenings have come as the result of an accidental discovery by a dedicated – and bewildered – GP. They have all woken up, paradoxically, after being given a commonly used sleeping pill.

Medical care is still today an extremely difficult area where highly trained and continuously learning doctors still have a great deal of trouble keeping up with the latest medical knowledge.

Related: Hospital Reform, IHI’s efforts to get good practices adoptedNorway Reduces Infections by Reducing Antibiotic UseMajority of Clinical Trials Don’t Provide Meaningful EvidenceContinual LearningPhysical Activity for Adults: Inactivity Leads to 5.3 Million Early Deaths a Year

Antibiotics fuel obesity by creating microbe upheavals

Antibiotics fuel obesity by creating microbe upheavals

We aren’t single individuals, but colonies of trillions. Our bodies, and our guts in particular, are home to vast swarms of bacteria and other microbes. This “microbiota” helps us to harvest energy from our food by breaking down the complex molecules that our own cells cannot cope with. They build vitamins that we cannot manufacture. They ‘talk to’ our immune system to ensure that it develops correctly, and they prevent invasions from other more harmful microbes. They’re our partners in life.

What happens when we kill them?

Farmers have been doing that experiment in animals for more than 50 years. By feeding low doses of antibiotics to healthy farm animals, they’ve found that they could fatten up their livestock by as much as 15 percent.

Ilseung Cho from the New York University School of Medicine has confirmed that hypothesis. By feeding antibiotics to young mice, he has shown that the drugs drastically change the microscopic communities within their guts, and increase the amount of calories they harvest from food. The result: they became fatter.

I continue to believe we are far to quick to medicate. We tremendously overuse anti-biotis and those costs are huge. They often are delays and systemic and given our current behavior we tend to ignore delayed and systemic problems.

The link between the extremely rapid rise in obesity and the overuse of anti-biotics is in need of much more study. It seems a possible contributing factor but there is much more data needed to confirm such a link. And other factors still seem dominant to me: increase in caloric intake and decrease in physical activity.

Related: Science Continues to Explore Causes of Weight GainWaste from Gut Bacteria Helps Host Control WeightHealthy Diet, Healthy Living, Healthy WeightRaising Our Food Without Antibiotics

Great Webcast Explaining the Digestive Systems

You will learn things like why it is so important to chew your food well (increase the surface area for enzymes to get at the food). Our bodies also have adapted to provide a huge surface area for the digestive system to work; the small intestine alone has a surface area of 250 square meters (larger than the size of most apartments). Your small intestine is 4.5 to 10.5 meters long.

Related: Staphylococcal Food PoisoningEnergy Efficiency of DigestionTracking the Ecosystem Within UsWaste from Gut Bacteria Helps Host Control Weight

Virus Kills Breast Cancer Cells in Laboratory

Some very exciting and good news from Penn State. Researchers have found a virus that kills breast cancer cells. It is great to read about research breakthroughs like this. Of course, most of these announcements never become practical solutions, unfortunately. And if they do it is many many years later and almost always in much less exciting ways than the headlines. Still, the percentage that do make it through the process into workable solutions provide us great benefits.

Virus kills breast cancer cells in laboratory

Adeno-associated virus type 2 (AAV2) is a virus that regularly infects humans but causes no disease. Past studies by the same researchers show that it promotes tumor cell death in cervical cancer cells infected with human papillomavirus. Researchers used an unaltered, naturally occurring version of AAV2 on human breast cancer cells.

“Breast cancer is the most prevalent cancer in the world and is the leading cause of cancer-related death in women,” said Samina Alam, research associate in microbiology and immunology. “It is also complex to treat.”

“We can see the virus is killing the cancer cells, but how is it doing it?” Alam said. “If we can determine which viral genes are being used, we may be able to introduce those genes into a therapeutic. If we can determine which pathways the virus is triggering, we can then screen new drugs that target those pathways. Or we may simply be able to use the virus itself.”

AAV2 does not affect healthy cells. However, if AAV2 were used in humans, the potential exists that the body’s immune system would fight to remove it from the body. Therefore, by learning how AAV2 targets the death pathways, researchers potentially can find ways to treat the cancer without using the actual virus.

In ongoing studies, the Penn State researchers also have shown AAV2 can kill cells derived from prostate cancer, mesothelioma, squamous cell carcinoma, and melanoma. A fourth line of breast cancer cells — representing the most aggressive form of the disease — also was studied in a mouse breast tumor model, followed by treatment with AAV2. Preliminary results show the destruction of the tumors in the mice, and researchers will report the findings of those mouse studies soon.

The fight against cancer has many promising breakthroughs. We have made some great progress. Still the fight is extremely difficult and we have many more frustrations than successes.

Related: Webcast of a T-cell Killing a Cancerous CellSynthetic Biologists Design a Gene that Forces Cancer Cells to Commit SuicideResearchers Find Switch That Allows Cancer Cells to Spread

Physical Activity for Adults: Inactivity Leads to 5.3 Million Early Deaths a Year

Obviously health care doesn’t only mean sickness treatment. Avoiding sickness is much better than treating it. Sadly we spend far too little energy on creating health and far too much on treating sickness.

Physical activity guidelines for adults (follow link for more details and guidelines for others) from the UK National Health Service

To stay healthy, adults aged 19-64 should try to be active daily and should do:

  • At least 150 minutes (2 hours and 30 minutes) of moderate-intensity aerobic activity such as cycling or fast walking every week, or
  • 75 minutes (1 hour and 15 minutes) of vigorous-intensity aerobic activity such as running or a game of singles tennis every week
  • and muscle-strengthening activities on 2 or more days a week that work all major muscle groups (legs, hips, back, abdomen, chest, shoulders and arms).

Sedentary lifestyle can kill

one in three adults worldwide fails to do the recommended 150 minutes of moderate aerobic physical activity per week. In the UK two out of three adults don’t manage it.

So rather than stressing the health benefits of exercise, the Lancet researchers have opted to show the harm caused by inactivity. They estimate lack of exercise is responsible for about 5.3m deaths a year – about the same number as smoking.

This is based on estimates of the impact on inactivity on coronary heart disease, Type 2 diabetes, and two specfic cancers – breast and bowel – where lack of exercise is a major risk factor.

Related: Today, Most Deaths Caused by Lifetime of InactionStudy Finds Obesity as Teen as Deadly as SmokingCan Just A Few Minutes of Exercise a Day Prevent Diabetes?An Apple a Day is Good Advice

Effect of physical inactivity on major non-communicable diseases worldwide: an analysis of burden of disease and life expectancy

Worldwide, we estimate that physical inactivity causes 6% (ranging from 3·2% in southeast Asia to 7·8% in the eastern Mediterranean region) of the burden of disease from coronary heart disease, 7% (3·9—9·6) of type 2 diabetes, 10% (5·6—14·1) of breast cancer, and 10% (5·7—13·8) of colon cancer. Inactivity causes 9% (range 5·1—12·5) of premature mortality, or more than 5·3 million of the 57 million deaths that occurred worldwide in 2008. If inactivity were not eliminated, but decreased instead by 10% or 25%, more than 533 000 and more than 1·3 million deaths, respectively, could be averted every year. We estimated that elimination of physical inactivity would increase the life expectancy of the world’s population by 0·68 (range 0·41—0·95) years.

Scientific Illiteracy Leads to Failure to Vaccinate Which Leads to Death

Anti-vaccination propagandists help create the worst whooping cough epidemic in 70 years by Steven Salzberg is a professor at Johns Hopkins School of Medicine:

When the vaccination rates drop, everyone becomes more vulnerable to infectious diseases. When more than 90% of the population is vaccinated, we have “herd immunity” – this means the disease can’t spread because there aren’t enough susceptible people in the community. So the high rate of vaccine refusal in Washington makes it easier for whooping cough (and other diseases) to spread.

And now we learn that the U.S. is in the midst of the worst whooping cough epidemic in 70 years. One of the most hard-hit states is Washington, which the CDC just announced (on 20 July) has suffered 2,520 cases so far this year, a 1300% increase over last year. This is the highest number of cases reported in Washington since 1942.

The U.S. has had over 17,000 cases this year, putting it on track for the worst year since 1959. The highest rate of infection in the nation is in Wisconsin (which has also been hit hard by anti-vaccine effects), followed by Washington and Montana. 10 deaths have been reported, mostly in infants who were too young to be vaccinated. For all this, we can thank the anti-vaccination movement.

The failure of our society to appreciate the value of science has dire consequences. We are lucky to benefit from the results of scientific advances around us everyday. Some people, instead of appreciating the value of science waste these great gifts we have been given.

What people want to believe is up to them. When people’s actions risk others lives that is not ok. Drunk drivers risk others lives; therefore we don’t allow drunk driving. Society requires that people respect others right to live. It is sensible to require people to cooperate to limit damaging behavior: such as drunk driving or not being properly vaccinated.

Pertussis (whooping cough) is a highly contagious bacterial disease that causes uncontrollable, violent coughing. The coughing can make it hard to breathe. Pertussis, or whooping cough, is an upper respiratory infection caused by the Bordetella pertussis or Bordetella parapertussis bacteria. It is a serious disease that can cause permanent disability in infants, and even death.

Related: Vaccines Can’t Provide Miraculous Results if We Don’t Take ThemDeadly Choices: How the Anti-Vaccine Movement Threatens Us All (book)CDC Report on Failures to VaccinateOur Dangerous Antibiotic Practices Carry Great Risks

High School Student Creates: Test That is Much More Accurate and 26,000 Times Cheaper Than Existing Pancreatic Cancer Tests

Seeing what these kids come up with is so refreshing after being so disappointed by the actions fo our leaders (politicians, business leaders, financiers, law enforcement [spying on citizens because they feel electronic privacy is fine to invade, taking away liberty…], health care in the USA [twice as expensive as elsewhere with no better results, 10 of millions without coverage]…). These kids make me feel hopeful, unfortunately the actions of the powerful leave me less hopeful.

Jack Andraka created a new paper based test for diagnosing pancreatic cancer that is 50% more accurate, 400 times more sensitive, and 26,000 times less expensive than existing methods. His method uses carbon nanotubes and can catch the disease in very early stages which is critical to treatment success. The test also covers other forms of cancer very effectively (he concentrated on the results for pancreatic cancer given the low survival rates for that cancer). Jack Andraka: “I actually love single-walled carbon nanotubes; they’re like the superheroes of material science.”

His results are great. Often initial results can be difficult to actually turn into such positive results in the real world. But this is a great step and it is great to see what young minds can do. The claims for how much better, cheaper etc. are wildly different in various places on the International Science and Engineering Fair (ISEF) site.

Jack Andraka was awarded $75,000 for his development of a new method to detect pancreatic cancer as the winner of the top prize at the Intel ISEF (I believe it is new this year to call the winner the Gordon E. Moore Award).

Related: 2009 Intel Science and Engineering Fair WebcastsIntel International Science and Engineering Fair 2007Intel Science Talent Search 2012 AwardeesGoogle Science Fair 2011 Projects

A Novel Paper Sensor for the Detection of Pancreatic Cancer by Jack Andraka
North County High School, Glen Burnie, MD

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