Nanotechnology may provide more effective cancer treatment

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SINGAPORE: A study led by National University of Singapore (NUS) researchers on cancer treatment has yielded promising results that could mean a more effective way of treating the disease via nanotechnology, with fewer side effects.

Still in its early stages, with clinical trials on people two years away, the studys findings show that when the widely-used, but toxic, chemotherapy drug Epirubicin is attached to nanodiamonds, chemo-resistant cancer cells are less able to pump the drug out of the cell, allowing a reservoir of the medication to form and kill more cells. This results in a smaller chance of tumours forming again following standard chemotherapy.

In addition, the new drug-delivery system is also designed to be PH-resistant - the drug is released only in an acidic environment, such as in cancer cells and not while it is flowing through the bloodstream. This minimises side effects, making it a potential alternative for patients who cannot tolerate standard chemotherapy drugs.

The study is led by NUS Assistant Professor Edward Chow, who is junior principal investigator at the Cancer Science Institute Singapore. It is conducted in collaboration with Professor Dean Ho of the University of California Los Angeles.

The findings were first published online in ACS Nano, the official journal of The American Chemical Society, in December last year.

Asst Prof Chow explained: This method has proven to be safer than chemotherapy because, in nanodiamond-Epirubicin form, more of the drug gets to the cancer cell and, once it enters the cell, does not immediately kill the cell. Rather, it provides a reservoir of drug that eventually kills the cancer cell.

He added: Lab tests show that the use of nanodiamond-Epirubicin has no side effects so far. It is removed through excretion.

Although researchers initially looked at tackling liver cancer, the drug-delivery system can be used to treat a range of difficult cancers, particularly those driven by chemo-resistant cancer stem cells.

Nanodiamonds are about five nanometres in diameter - one nanometer is one billionth of a metre - and are shaped like footballs. This prevents them from combining into larger structures that may be harmful and toxic, which is a major concern of introducing nanomaterials into the body.

Asst Prof Chow said: Every test that we have run shows that it is very safe. But a lot of work still has to be done and we are still in the stage of demonstrating a certain level of safety to test it on humans. We hope to roll it out in clinical trials in two years.

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Nanotechnology may provide more effective cancer treatment

Nano scale research could yield better ways to identify and track malignant cells

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7 hours ago by Jacqueline Mitchell In a series of experiments over the last five years, Igor Sokolov used an atomic force microscope like the one at left to look for physical differences between cancer cells and healthy cells. Credit: Alonso Nichols

As a young physicist in the former Soviet Union, Igor Sokolov studied the biggest of the bigthe entire universe. Now, as a professor of mechanical engineering at Tufts, he's focused on the tiny, the nano. By zooming inway, way inSokolov and his colleagues study everything from bacteria to beetles down to the nanoscale level. Now he's turned a fresh eye on one of medicine's oldest problems: cancer.

Sokolov's instrument of choice is the atomic force microscope (AFM), which uses its minuscule finger-like probe to measure tiny forces at a very small scale, "pretty much between individual atoms," he says. He first came across this technology as a graduate student studying the origins of the universe more than 20 years ago, about the time the AFM was invented. He used it to look for evidence of theoretical elementary particles. When Sokolov didn't find any, his work helped put those ideas to bed.

Soon Sokolov turned the instrument toward more earthly concerns. By 1994, as a member of the microbiology department at the University of Toronto, he was among the first to use AFM to study bacteria. Zooming in on a probiotic bacterium used to make Swiss cheese, Sokolov revealed a never-before-documented process by which the cell repairs its surface after sustaining chemical damage.

The experiment also demonstrated AFM's ability to detect mechanical changes in living cells at unprecedented resolutionsomething that would be useful in Sokolov's later work. "That was the beginning of my love of biomedical applications," says Sokolov, who also has appointments in the departments of biomedical engineering and physics.

Closer Look at Cancer

More recently, Sokolov and his colleagues have used atomic force microscopy on some of the most mysterious cells of allmalignant ones. Most existing diagnostic tools use the cells' chemical footprint to identify cancer. In a series of experiments over the last five years, he looked for physical differences between cancer cells and healthy cells that could help physicians diagnose cancer earlier and more accurately. Early detection substantially increases patients' chances of survival.

He and his collaborators have had some promising results in preliminary studies using cervical and bladder cancer cells"cancers where you can harvest cells without biopsiesvery un-invasive methods," he points out.

In 2009, Sokolov and his colleagues at Clarkson University in New York studied healthy and diseased cells that were virtually identical, biochemically speaking. Searching for some physical or mechanical difference that could help distinguish the two types of cells, the researchers found that the surface coat surrounding cancer cellswhat Sokolov calls the pericellular brush layerwas markedly different from that of the normal ones.

"That was definitely new," he says, noting that similar results were recently published by researchers using more traditional biochemical methods. "The authors called those findings the result of the change of paradigm of looking at cancer."

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Nano scale research could yield better ways to identify and track malignant cells

Engineering self-assembling amyloid fibers

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IMAGE:Amyloid fibers self-assemble from smaller proteins. UC Davis researchers have engineered other proteins so they spontaneously form amyloid. These new proteins could be useful in nanotechnology. Here, the cap structure... view more

Credit: UC Davis

Nature has many examples of self-assembly, and bioengineers are interested in copying or manipulating these systems to create useful new materials or devices. Amyloid proteins, for example, can self-assemble into the tangled plaques associated with Alzheimer's disease -- but similar proteins can also form very useful materials, such as spider silk, or biofilms around living cells. Researchers at UC Davis and Rice University have now come up with methods to manipulate natural proteins so that they self-assemble into amyloid fibrils. The paper is published online by the journal ACS Nano.

"These are big proteins with lots of flat surfaces suitable for functionalization, for example to grow photovoltaics or to attach to other surfaces," said Dan Cox, a physics professor at UC Davis and coauthor on the paper. They could be used as "scaffolding" for tissue engineering, and potentially could be programmed so that other particles or proteins could be attached in specific locations or arrays. Amyloids are also tough: they can withstand boiling, attack by digestive proteins and ultraviolet radiation.

Maria Peralta, a graduate student in chemistry at UC Davis, and colleagues made the amyloid fibrils by tweaking natural "antifreeze" proteins from ryegrass and an insect, spruce budworm. These proteins allow some plants and animals to withstand very cold temperatures by preventing the growth of ice crystals, but they do not naturally self-assemble into larger structures.

The researchers removed cap structures from the end of the antifreeze proteins. They were then able to let them self-assemble into fibrils with predictable heights, a potential new material for bioengineering.

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The project was funded by the Research Investments in Science and Engineering program, established by the UC Davis Office of Research to seed large-scale interdisciplinary research efforts on campus. In addition to Cox and Peralta, the team included Arpad Karsai, Alice Ngo, Catherine Sierra, Kai Fong, Xi Chen, Gang-yu Liu and Michael Toney in the UC Davis Department of Chemistry; N. Robert Hayre, Nima Mirzaee, Krishnakumar Ravikumar and Rajiv Singh in the Department of Physics; and Alexander Kluber at Rice University, Houston. Several authors are also affiliated with the Institute for Complex Adaptive Matter, based at UC Davis.

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.

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Indium Corporation Adds to Rapidly-Growing SMTA-Certified Engineering Team

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Indium Corporation announces that several company technologists have earned their designation as SMTA-Certified Process Engineers, further expanding the largest SMTA-certified engineering team in the industry.

Joining the more than 30 Indium Corporation engineers who have earned SMTA Certification are: Jun Cardozo, area technical manager, Philippines; Kenny Chiong, senior technical support engineer, Singapore; Jason Chou, area technical manager, Taiwan; Jeffrey Len, technical support engineer, Malaysia; and Nguyen Viet Truong assistant technical manager, Vietnam.

SMTA Certification is a unique program, sponsored by the Surface Mount Technology Association (SMTA), which recognizes and certifies competence across the entire SMT assembly process at an engineering level. This certification is one of the electronics assembly industrys most respected validations of process excellence.

Cardozo assists in the development and execution of strategies to maintain current customer relationships and grow new business in the Philippines. He is also responsible for providing technical recommendations and support to optimize processes at customer sites. Cardozo earned his bachelors degree in electronics and communications engineering from Saint Louis University in the Philippines.

Chiong assists customers in the optimization of manufacturing processes, including technical support for Indium Corporations full product suite. He is experienced in providing technical support and reviewing design for printed circuit board assembly to maintain quality, delivery, and optimal output. Chiong earned his bachelors degree in mechanical and manufacturing engineering from the Universiti Malaysia Sarawak and has earned his Six Sigma Green Belt.

Chou provides technical support to Indium Corporations customers in Taiwan, with a focus on the semiconductor industry. Chou earned a masters degree in chemistry from National Tsing Hua University and a bachelors degree in chemistry from National Cheng Kung University. He served as the group leader for the National Nano Device Laboratory, Tainan, Taiwan, where he collaborated with university professors and industry professionals on special projects for semiconductor manufacturing.

Len provides comprehensive technical advice in the selection, use, and application of all of Indium Corporations products. Len has experience improving processes to increase quality and customer relationship management. Len holds a bachelors degree in pure chemistry from Universiti Sains Malaysia in Penang, Malaysia.

Truong is responsible for providing technical support for Indium Corporations electronics assembly materials, semiconductor and advanced assembly materials, engineered solders, and thermal management materials in Vietnam. He earned his degree in automation from the Hanoi University of Science and Technology.

In addition to its large team of SMTA-certified engineers, Indium Corporations Dr. Ron Lasky, senior technologist, and Ivn Castellanos, technical services manager Latin America, are SMTA-certified instructors. These instructors have extensive experience conducting and supporting the SMTAs training programs in the U.S., Central and South America, and Asia.

Indium Corporation is a premier materials manufacturer and supplier to the global electronics, semiconductor, solar, thin-film, and thermal management markets. Products include solders and fluxes; brazes; thermal interface materials; sputtering targets; indium, gallium, germanium, and tin metals and inorganic compounds; and NanoFoil. Founded in 1934, Indium has global technical support and factories located in China, Malaysia, Singapore, South Korea, the United Kingdom, and the USA.

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Materials engineering professor receives NSF grant

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An assistant materials engineering professor is bringing new innovations in construction technology.

Kendra Erk, a professor in the College of Engineering, was given the Faculty Early Career Development Program Award from the National Science Foundation for her extensive research on the use of hydrogels in cement.

The same hydrogels are used in diapers to soak up moisture. When added to concrete, they can make it stronger in the curing process.

I think its cool because adding something soft and squishy to concrete makes it stronger and more durable, said Erk.

This project arose from a simple discussion among colleagues and is now one of the biggest projects that Erk will be working on for the next five years.

Erk and her team make the hydrogels themselves, test them to see how they hold water and then characterize them before finally putting them in the cement. The use of hydrogels in cement is getting more popular in the United States, but most of the research on them has been done in Europe.

Cement is unique around the world because it cannot be outsourced. The properties of cement are different depending on the area where it is made because not every location has the same resources.

Erk and her team are interested in approaching the implementation of hydrogels from a polymer physics side.

Id like the team to take a lot of the big material related problems in the construction field, said Erk.

Part of Erks team is Travis Thornell, a graduate student in materials engineering who works closely with the hydrogels.

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Materials engineering professor receives NSF grant

Helmholtz International Fellow Award for Prof. Amanda Fisher from London

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The British cell biologist Professor Amanda Gay Fisher of Imperial College London (ICL) has been honored with the Helmholtz International Fellow Award for her excellent research. Fisher is one of seven outstanding researchers from abroad who received the award, each of which is endowed with 20,000 euros. According to the Helmholtz Association, Germany's largest scientific organization, the award also includes an invitation to visit one or several Helmholtz research centers. Professor Fisher wishes in particular to strengthen her existing collaborations with the Berlin Institute of Medical Systems Biology (BIMSB) of the Max Delbrck Center for Molecular Medicine (MDC) Berlin-Buch.

In her research, Professor Fisher focuses on gene regulation, a fundamental process of life which controls every biological function, including cell division, cell differentiation and regeneration. Professor Fisher, who started her research career in the 1980s, has earned an international reputation in this field. She is known for her pioneering work on HIV, the AIDS virus, describing the function of several of its genes. She also is an expert in epigenetic gene regulation - a process in which molecular biological information not contained in the DNA regulates which genes are turned on and which genes are kept silent. She also has an expertise in T lymphocyte development (immune cells) and in embryonic stem cells.

Professor Fisher is director of the MRC (Medical Research Council) Clinical Sciences Centre (CSC), which forms part of the Institute for Clinical Sciences (ICS) at Imperial College London. In addition, she is a member of the Scientific Advisory Board of the Berlin Institute of Health (BIH), which was founded by the MDC and the Charit - Universittsmedizin Berlin in 2013. All these institutions have a strong interest in "bench-to-bedside" research employing translational and systems biological approaches.

In 2014 Professor Fisher was elected Fellow of the Royal Society for her outstanding achievements in biomedical research. In 2010 she received the Women of Outstanding Achievement in SET (Science, Engineering & Technology) Award, and in 2003 she became a Fellow of the Academy of Medical Sciences in Britain. In 2002 she was honored with the EMBO Gold Medal for her AIDS research.

Since 2012 a total of 43 Fellows including the seven scientists of this selection round have received the Helmholtz International Fellow Award.

###

A photo of Professor Fisher can be downloaded from the internet at: https://www.mdc-berlin.de/44046890/en/news/2015

Contact: Barbara Bachtler Press Department Max Delbrck Center for Molecular Medicine (MDC) Berlin-Buch in the Helmholtz Association Robert-Rssle-Strae 10; 13125 Berlin; Germany Phone: +49 (0) 30 94 06 - 38 96 Fax: +49 (0) 30 94 06 - 38 33 e-mail: presse@mdc-berlin.de http://www.mdc-berlin.de/en

Further information:

http://www.helmholtz.de/en/ http://www.imperial.ac.uk/study/pg/courses/clinical-sciences/ http://csc.mrc.ac.uk/ https://www.mdc-berlin.de/13800178/en/bimsb

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Helmholtz International Fellow Award for Prof. Amanda Fisher from London

Possible Therapeutic Target for Common, But Mysterious Brain Blood Vessel Disorder

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Newswise PHILADELPHIA Tens of millions of people around the world have abnormal, leak-prone sproutings of blood vessels in the brain called cerebral cavernous malformations (CCMs). These abnormal growths can lead to seizures, strokes, hemorrhages, and other serious conditions, yet their precise molecular cause has never been determined. Now, cardiovascular scientists at the Perelman School of Medicine at the University of Pennsylvania have studied this pathway in heart development to discover an important set of molecular signals, triggered by CCM-linked gene defects, that potentially could be targeted to treat the disorder.

We hope that these findings will lead to a better understanding of the origins of CCM, and thus to treatment possibilities, says Mark L. Kahn, MD, a professor of Cardiovascular Medicine, and senior author of the new study, published in Developmental Cell.

Although CCM has a relatively high prevalence of 1 in 200 people worldwide, it typically goes undiagnosed until symptoms arise and can only be treated by brain surgery.

Research on CCM has been slowed by the difficulty of recreating the disease in lab animals. About 20 percent of CCM patients have a highly aggressive, inherited form of the disorder that is caused by inactivating one of three genes, whose protein products normally work together in a complex. But knockout mice bred without a full set of those genes dont mature to have CCMs in their brainsthey die in the womb, having failed to develop a working vascular system.

Those animals die so early in their development that you just dont get enough information about what the genes normally should be doing, Kahn says.

Studies by Kahns lab and others have shown that CCM gene knockouts remain lethal to fetal mice even when they are limited to the endothelial cells that line blood vessels and the heart.

In the new study, Kahn and colleagues used advanced techniques to restrict CCM gene disruption to the endothelial cells of the developing heart, leaving the mouse vascular system to develop otherwise normally.

The resulting mice still died before birth, this time from a failure of normal heart development, which is not seen in human CCM patients. But they survived in the womb about a week longer than standard CCM knockout mice. That allowed Kahns team to learn more about the effects of the gene disruptions, and ultimately to find a previously unknown CCM-related signaling pathway.

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If You Upload Your Mind to a ComputerAre You Still You …

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If You Upload Your Mind to a ComputerAre You Still You?

One of the most mind-bending far future predictions you'll hear fromsome futuristsis this: Eventually, thetechnology will exist to copy your brain (every bit of data that makes you, you) onto a computer.

Technical details and exact predictionsaside (the conceptis still firmlyscience fiction) mind uploading makes for a fascinating and disturbing thought experiment.If you had the power to upload yourself, would you?

Living in a computer might not be so bad. Wed likely be able to make the digital realm a really nice place for our digital selves. All the enjoyable parts of lifewould still be available (and more). Think the Matrix without robot overlords or glowing pods of goo. Which is a central point. Wewouldn't have bodies in need of goo anymore.

Separatedfroma body doomed to slow down, break, get diseases, and eventually die, the only limit on thisnew digital existence would be the health of the computer itself. And not just a singlemachine. Ourinformation could be spread overa vast network of computers, independent ofany one. Wecould live as long as welike.

Sounds like a good deal right? Sure. But here's where it gets a little squirrelly.

Let's say I opt toupload my mind to a computer: Wouldit be methat wakes up online? Or wouldit be a facsimile, perfect in every way except onethat it isnt me. That is,if I'mstill alive, Idont suddenly have a split-screen sense of me-ness. And if I'mdead, well, thats it. I'mjust dead. Even though the digital facsimile goes on living.

I've not read a completely convincing argumentone way or the other. This is partly because we don't have a clear scientific theoryto explain what gives us oursense of "me-ness." It's still a mystery. But the topichas been longdiscussedin philosophy, and Tim Urban has a greatpost on the subject. I highly recommend it.

Also, I imagine some of you have thought about this in depth. (Star Trekfans, I'm looking at you.)

In any case,for the more visually inclined, here's a greatscience fiction short film on the topic: "The Final Moments of Karl Brant." Fewthings beat philosophy and sci-fi on a lazy Sunday. Enjoy!

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If You Upload Your Mind to a ComputerAre You Still You ...

Hans Moravec’s concept of mind uploading – Anders Sandberg …

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Upload, v.i., v.t. To become a figment of your computer's imagination. From Godling's Glossary by David Victor de Transend.

Uploading isn't a >H goal because it's one step closer to some mythical and unknowable perfection, but because it'll be jolly practical. - Dr. Rich Artym

An Introduction to Mind Uploading and its Concepts by Randal Koene. Death by Instalments by Peter Cochrane. What if we replace more and more of ourselves with technology? British Telecom und der Unsterblichkeitschip by Basil Gelpke (in German). Ghosts, computers, and Chinese Whispers by Toby Howard (Personal Computer World magazine, November 1996). About uploading and the media rumor about the BT "soulcatcher chip". Traum von der Ewigkeit, by Florian Rtzer (in Telepolis, in German). Losing your mind? Upload your brain and gain eternal life by Kathy Zucca. Philosophy and technology of Mind Uploading by Joseph Strout (In PDF). Cybernetic Immortality node in Principia Cybernetica.

Beside the obvious technological difficulties achieving uploading, there are also hotly debated philosophical aspects of the process. Among the most central questions are the strong AI postulate (is intelligence and consciousness possible in a computer?) and the identity problem (is the upload you or an impostor?).

The Prospect of Mind Uploading by Graham Hearn. Has Penrose Disproved A.I.? by Robin Hanson. A critique o f Roger Penrose's critique of AI. Conscious Machines by Marvin Minsky. Can machines be conscious? Can humans? Of Man, Mind and Machine. Meme-Based Models of Mind and the Possibility for Consciousnes s in Alternate Media, by Joshua S. Latenier. Dualism Through Reductionism by Hans Moravec (Truth Journal). Does personhood, consciousness and intelligence reside in the pattern or substrate? Drifting Identities by Alexander Chislenko Discusses the questions of self-transformation contra identity, and introduces the idea of an "identity space". Forum on Personal Identity Albert-Jan Brouwer on Personal Identity Absent Qualia, Fading Qualia, Dancing Qualia by David J. Chalmers. About the problem of qualia and the nature of consciousness. Dalai Lama on Computer Consciousness (post from the Omega Point Theory mailing list). A bit surprising.

Energy Limits to the Computational Power of the Human Brain by Ralph C. Merkle. An attempt to estimate the computational power of the brain. How Many Bytes in Human Memory? by Ralph C. Merkle.

Gradual Uploading as a Cognition of Mind by Algimantas Malickas. A process of gradual enhancement and extension, leading to an uploaded state. Automated Reconstruction of Neural Elements from Transmission Electron Microscope Images, K. Montgomery, Dissertation, University of California. Brain Scan Cryomsgs, from the Cryonics mailing list 1992. Methods of Uploading by Richard Kennaway. Cryonic Suspension and Uploading by Eugen Leitl. Discusses neurosuspension from an uploading perspective, with some ideas for scanning and storage. Large Scale Analysis of Neural Structures by Ralph C. Merkle. Discusses the possibility of analyzing the structure of the brain at a cellular level. Describing the Brain at the Molecular Level by Ralph C. Merkle. Proposed methods, from the Mind Uploading Home Page

Uploading by the Microtome Procedure Uploading by the Nanoreplacement Procedure Uploading by the Moravec Procedure Nondestructive Uploading Procedures

Cartoon about the problems of uploading. Uploading - A Little Wishful Fiction by obert Munafo.

Mind Uploading Home Page of Joe Strout. A very good introduction to the problems and possibilities of Uploading.

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Hans Moravec's concept of mind uploading - Anders Sandberg ...

Illegal sale of Swine Flu Medicine at Telangana State Secretariat | i News – Video

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Illegal sale of Swine Flu Medicine at Telangana State Secretariat | i News
Illegal sale of Swine Flu Medicine at Telangana State Secretariat | i News. Watch I News, 24/7 Telugu News Channel, for all the latest news including breaking news, regional news, national...

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Demystifying Medicine 2015 – New Advances in Cancer Diagnosis and Treatment (Immunotoxins) – Video

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Demystifying Medicine 2015 - New Advances in Cancer Diagnosis and Treatment (Immunotoxins)
Demystifying Medicine 2015 - New Advances in Cancer Diagnosis and Treatment (Immunotoxins) Air date: Tuesday, January 20, 2015, 4:00:00 PM Category: Demystifying Medicine Runtime: 01:42:24.

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Hemin improves adipocyte morphology and function by enhancing proteins of regeneration

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Scientists at the University of Saskatchewan College of Medicine, Department of Physiology, Saskatoon, Canada, led by Dr. Joseph Fomusi Ndisang have determined that upregulating heme-oxygenase with hemin improves pericardial adipocyte morphology and function. It does so by enhancing the expression of proteins of repair and regeneration such as beta-catenin, Oct3/4, Pax2 as well as the stem/progenitor-cell marker cKit, while concomitantly abating inflammatory/oxidative insults and suppressing extracellular-matrix/profibrotic and remodeling proteins. Visceral adiposity like pericardial fat is correlated to insulin resistance and cardiac disease, and this is amongst the major causes of cardiac complications in obese individuals. By virtue of its anatomical and functional proximity to the coronary circulation, pericardial adiposity can lead to myocardial inflammation, left ventricular hypertrophy and coronary artery disease through paracrine mechanisms that include increased production of inflammatory cytokines, reactive oxygen species and other atherogenic factors.

These findings, which appear in the January 2015 issue of Experimental Biology and Medicine, used a laboratory animal model characterized by obesity, hypertriglyceridemia, hypercholesteromia, insulin resistance, dyslipidemia and excessive pericardial adiposity, all of which are major pathophysiological causes of heart failure and related cardiac complications in patients with obesity. Dr. Ndisang and co-worker underscored the protective role of heme-oxygenase in obesity and related cardiometabolic complications.

"The rising incidence of obesity and related cardiometabolic complications poses a great health challenge of considerable socioeconomic burden with costs that may become unsustainable to healthcare systems. Thus preventive strategies as well as novel therapeutic remedies are needed" states Dr. Ndisang. "In this study, we showed that treatment with the heme-oxygenase inducer, hemin, suppresses hypertriglyceridemia and hypercholesteromia; reduces pericardial adiposity; abates pericardial adipocyte hypertrophy; attenuates adipocyte inflammation and oxidative insults; decreases the excessive levels of profibrotic extracellular matrix; while concomitantly potentiating heme-oxygenase, stem/progenitor cells and proteins of regeneration in the pericardial adipose tissue. These results suggest that substances capable of potentiating heme-oxygenase may be explored for the design of novel remedies against cardiac complications arising from excessive adiposity."

Future studies are needed to determine if preemptive application of hemin to the animals used in this study will retard/and or delay the manifestation of cardiometabolic complications.

Dr. Steven R. Goodman, Editor-in-Chief of Experimental Biology and Medicine, said "These studies by Dr. Ndisang and colleagues provide promise for the future testing of heme-oxygenase inducers as potential therapeutics to limit cardiac injury related to excess adiposity in obese individuals. As obesity continues to grow globally, in adults and children, better therapies to control the downstream clinical sequelae are desperately needed, in parallel with preemptive education on diet and exercise."

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Experimental Biology and Medicine is a journal dedicated to the publication of multidisciplinary and interdisciplinary research in the biomedical sciences. The journal was first established in 1903. Experimental Biology and Medicine is the journal of the Society of Experimental Biology and Medicine. To learn about the benefits of society membership visit http://www.sebm.org. If you are interested in publishing in the journal please visit http://ebm.sagepub.com/.

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.

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Integrative Medicine Program Co-Director Adds Board Certification

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Perth Amboy, NJ (PRWEB) January 26, 2015

Internist Nina K. Regevik, MD, FACP, co-director of the Division of Integrative Medicine and medical director of HIV services at Raritan Bay Medical Center (RBMC), recently achieved board certification from the American Board of Integrative Holistic Medicine.

Launched in 2004, the Divisions qualified and credentialed practitioners provide integrative therapies to enhance patients health and well-being at the hospitals Old Bridge and Perth Amboy locations and Raritan Bay Area YMCA. Integrative Holistic Medicine refers to the art and science of healing that addresses care of the whole person: body, mind and spirit. Therapies include massage therapy and reflexology, energy medicine, Reiki, Qigong, Tai Chi, meditation and Prepare for Surgery, Heal Faster workshops. Co-directed by Paula ONeill, MS, RN-BC, services are provided free-of-charge for inpatients including those undergoing surgery as part of the medical centers Human Motion Institute and Institute for Weight Loss. Scheduled classes and private sessions are also provided for a fee. For more information or an appointment, call 732-324-5257.

RBMC recognizes that holistic medical care now represents state-of-the-art medical care, says Dr. Regevik. These therapies are used not only with folks who have health challenges, but for all people to help maintain good health. It is a privilege to be part of the RBMC team that is striving to achieve these goals.

A graduate of UTESA University of Medicine in the Dominican Republic, Dr. Regevik completed her Internal Medicine Residency and served as Chief Resident at RBMC from 1985-1989 and has served as Medical Director of HIV Services for RBMC since 1990. She is a Fellow of the American College of Physicians, a faculty member of RBMCs Internal Medicine Residency Program and the Clinical Director of the RBMC site in the NY/NJ AIDS Education and Training Center.

The American Board of Holistic Medicine was founded in 1996 and officially changed its name to the American Board of Integrative Holistic Medicine in 2008. The Vision of the ABIHM is to establish and maintain the highest standards of medical care, ignite and sustain the joy and passion of physicians in their work, establish the role of unconditional love as the basis of healing and support, and to recognize the importance of the health of the planet as integral to human health. The intention of this process is the transformation of medical systems towards holism, by combining science and compassion. The ABIHM is transforming into the Academy of Integrative Health & Medicine (AIHM) in early 2015.

-END-

About Raritan Bay Medical Center With hospitals in Old Bridge and Perth Amboy Raritan Bay Medical Center (RBMC) is a New Jersey state-designated primary stroke center, a recipient of the American Heart Association Get with the Guidelines - Heart Failure Gold Performance Achievement Award recognizing the optimal care of heart failure patients. RBMC is one of a few hospitals in the world to achieve Magnet Recognition for nursing excellence three times and is ranked in the top 10 percent of New Jersey hospitals in surgical care according to the 2012 NJ Hospital Performance Report. RBMC is also an affiliate of the Joslin Diabetes Center, providing some of the latest advances for treating diabetes and its complications as well as patient education and support services. Among its flagship programs are the Human Motion Institute, a comprehensive musculoskeletal program, and Institute for Weight Loss, specializing in bariatric surgery. For more information, visit rbmc.org. For a free physician referral, call 1-800-DOCTORS.

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Dr. Bruce Lipton delivers one of the most important messages you will ever hear – Video

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Dr. Bruce Lipton delivers one of the most important messages you will ever hear
THE BIOLOGY OF BELIEF: UNLEASHING THE POWER OF CONSCIOUSNESS, MATTER MIRACLES: The Biology of Belief is a groundbreaking work in the field of new biology. Author Dr. Bruce H.

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Pediatricians Say Medical Pot May Help Some Ill Kids

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Marijuana use should be decriminalized and federal officials should reclassify cannabis as a less dangerous drug to spur vital medical research, the leading group of U.S. pediatricians recommended Monday.

In an update to its 2004 policy statement on pot, the American Academy of Pediatrics (AAP) also recognized marijuana may be a treatment option for kids "with life-limiting or severely debilitating conditions for whom current therapies are inadequate."

That new stance is welcome news to some 200 families with ill children who recently moved to Colorado where marijuana is legal for adults in searches for last-ditch cures. Those remedies include the pot strain called Charlotte's Web, which anecdotally has been shown to control seizures in some kids.

"We don't want to marginalize families who feel like this is the only option for their child because of crisis," said Dr. Sharon Levy, chair of AAP's committee on substance abuse and assistant professor of pediatrics at Harvard Medical School. She was one of the statement's co-authors.

Media accounts of medical-marijuana refugees in Colorado have given doctors "reason to suspect" that cannabinoids the chemical compounds secreted by cannabis flowers might have anticonvulsant properties, Levy said.

Charlotte's Web, for example, is selectively bred to contain low levels of the cannabinoid THC, which causes people to feel high, but elevated levels of cannabidiol, or CBD, which does not have psychoactive effects. In one medical trial, CBD was shown to be possibly effective in treating people with Parkinson's disease, though more study is needed, scientists have said.

"We understand why a desperate parent might say, 'Look it's going to take 10 years to do this research.' We think that kind of compassionate use should be limited to children who are truly debilitated or at the end of life," Levy said in an interview with NBC News. Asked to list those debilitating illnesses, Levy cited severe seizure disorders.

The AAP remains otherwise opposed to marijuana use among children and adolescents through the age of 21, and it continues to stand against the broader legalization of pot.

"The black market dealer will sell to anyone. We don't. While we can agree with the academy that marijuana may be harmful to children, (cannabis) prohibition has failed to keep our children safe." Michael Elliott, executive director of the Marijuana Industry Group.

But the pediatricians' group will now suggest that the federal government change marijuana from a Schedule I illegal drug (where it's classified along side heroin) to a Schedule II controlled substance, Levy said. The U.S. Drug Enforcement Administration lists Adderall or Ritalin as examples of Schedule II drugs.

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Pediatricians Say Medical Pot May Help Some Ill Kids