Tag Archives: heart

New Bing, Available Today, Takes You from Searching to Doing

By Guest PostJune 1, 2012Technologyatlanta, bing, bing summer, Chicago, cody simpson, days of doing, doing, dosomething, exchange ideas, Facebook, heart, hola, impulse research, lafayette park, los angeles, Microsoft, msft, nasdaq, new york, pizza party, recreation center, searching, social network, the hunt, Twitter, web

In celebration of new search experience, Bing launches the Bing Summer of Doing with DoSomething.org.

REDMOND, Wash. — June 1, 2012 — Do you ever feel like you’re spending too much time searching and not enough time doing? If so, you’re not alone. According to a recent survey conducted by Bing and Impulse Research, nearly 75 percent of people spend more time than they would like searching for information online. Time wasted searching is a thing of the past with the new Bing design, which brings together information from the Web, experts and enthusiasts, and your friends to help you do more — available today at https://www.bing.com.

Only Bing brings together the best search with people from social networks, including Facebook and Twitter. In celebration of this new search experience, Bing is joining forces with DoSomething.org to launch the Bing Summer of Doing, designed to inspire people to do amazing things, including giving back to their communities. (more…)

Study: Heart Damage after Chemo Linked to Stress in Cardiac Cells

By Guest PostMay 22, 2012Healthblocking, breast cancer, cancer cell, cardiac damage, cardiomyocytes, cellular level, chemotherapy, doxorubicin, drug, gene, govindasamy ilangovan, heart, heart muscle cells, heat shock factor 1, hsf 1, karthikeyan krishnamurthy, kaushik vedam, mdr1, multidrug resistance 1, nf kb, ohio state university, protein, ragu kanagasabai

COLUMBUS, Ohio – Blocking a protein in the heart that is produced under stressful conditions could be a strategy to prevent cardiac damage that results from chemotherapy, a new study suggests.

Previous research has suggested that up to a quarter of patients who receive the common chemotherapy drug doxorubicin are at risk of developing heart failure later in life. Exactly how that heart damage is done remains unclear.

In this study, scientists identified a protein called heat shock factor-1 (HSF-1) as a likely source of chemotherapy-related heart damage in mice and cell cultures. Heat shock factor-1 is known to be induced by stress – in this case, the chemotherapy treatment itself. (more…)

Cells in Blood Vessel Found To Cling More Tightly in Regions of Rapid Flow

By Guest PostApril 27, 2012Health, Sciencebenjamin shuman, biochemical change, blockage, cardiac surgeon, cardiovascular disease, cell, cholesterol, clogging, heart, joon jung, living organ, lucas ting, mechanical engineering, nathan sniadecki, sangyoon han, shirin feghhi, surgeon, tugging force, university of washington, vascular leakage

Clogging of pipes leading to the heart is the planet’s number one killer. Surgeons can act as medical plumbers to repair some blockages, but we don’t fully understand how this living organ deteriorates or repairs itself over time.

Researchers at the University of Washington have studied vessel walls and found the cells pull more tightly together, reducing vascular leakage, in areas of fast-flowing blood. The finding could influence how doctors design drugs to treat high cholesterol, or how cardiac surgeons plan their procedures. (more…)

New Ability To Regrow Blood Vessels Holds Promise For Treatment of Heart Disease

By Guest PostFebruary 11, 2012Scienceaaron baker, austin, blood vessels, cell growth, cell receptor, cellular differentiation, central ischemia, chronic myocardial ischemia, clinical disease, coreceptor, coronary vessel, disease, extra component, fgf 2, fibroblast growth factor 2, growth factor, heart, hindlimb ischemia, limbs, lipid based nanoparticles, lipid embedded receptor, lipid incased substance, organ dysfunction, patient, plaques, rats, revascularization approach, smoking, syndecan 4, synthetic, university of texas, western world

AUSTIN, Texas — University of Texas at Austin researchers have demonstrated a new and more effective method for regrowing blood vessels in the heart and limbs — a research advancement that could have major implications for how we treat heart disease, the leading cause of death in the Western world.

The treatment method developed by Cockrell School of Engineering Assistant Professor Aaron Baker could allow doctors to bypass surgery and instead repair damaged blood vessels simply by injecting a lipid-incased substance into a patient. Once inside the body, the substance stimulates cell growth and spurs the growth of new blood vessels from pre-existing ones. (more…)

Ferroelectric Switching Discovered For First Time in Soft Biological Tissue

By Guest PostFebruary 1, 2012Sciencearteries, atherosclerosis, biological tissues, blood vessel, bones, boston university, charged glucose molecules, computer memory chips, electric field, electrical property, electrically polar molecule, ferroelectric material, ferroelectricity, fibrous collagen, function, heart, human tissue, inner workings, inorganic, jiangyu li, katherine zhang, mammal tissue, mammalian tissue, mechanical engineering, memory storage, ming jay chow, mysterious, Nanotechnology, NASA, pig aorta, qian nataly chen, seashells, sensors, springy elastin, synthetic materials, university of washington, wall of the aorta, yanhang zhang, yuanming liu

The heart’s inner workings are mysterious, perhaps even more so with a new finding. Engineers at the University of Washington have discovered an electrical property in arteries not seen before in mammalian tissues.

The researchers found that the wall of the aorta, the largest blood vessel carrying blood from the heart, exhibits ferroelectricity, a response to an electric field known to exist in inorganic and synthetic materials. The findings are being published in an upcoming issue of the journal Physical Review Letters. (more…)

‘Fingerprinting’ Method Tracks Mercury Emissions from Coal-Fired Power Plant

By Guest PostDecember 17, 2011Environmentatmosphere, brains of fetuses, central nervous system, chemical fingerprints, chlorine producing plants, coal, coal combustion, coal fired power plants, coal samples, crystal river, crystal river plant, eastern kentucky, effects on humans, element mercury, environmental pollution, gerald keeler, global atmospheric pool, global mercury reservoir, heart, immune system, incinerators, isotopic fractionation, jason demers, joel blum, laura sherman, mass dependent fractionation, mdf, mercury emissions, mercury emissions in florida, mercury fingerprinting technique, mercury isotope fingerprints, methylmercury, microorganism, natural phenomenon, naturally occurring element, non radioactive, nuclei, power plant, primary source of mercury pollution, protons, rainfall, timothy dvonch, toxic, university of michigan, west virginia

ANN ARBOR, Mich.— For the first time, the chemical “fingerprints” of the element mercury have been used by University of Michigan researchers to directly link environmental pollution to a specific coal-burning power plant.

The primary source of mercury pollution in the atmosphere is coal combustion. The U-M mercury-fingerprinting technique – which has been under development for a decade – provides a tool that will enable researchers to identify specific sources of mercury pollution and determine how much of it is being deposited locally. (more…)

UCLA Scientists Design Experimental Treatment for Iron-Overload Diseases

By Guest PostNovember 6, 2011Health, Scienceamino acids, bo qiao, change in iron flow in the body, cooley anemia, damage, effects of hepcidin in mice, elizabeta nemeth, emilio ramos, excess iron in the body, ferroportin, genetic disorders, gloria c preza, heart, hepcidin, hereditary hemochromatosis, hormone, iron overload, iron overload diseases, iron regulating activity, iron regulation, liver, minihepcidins, molecules, organs, piotr ruchala, therapy, tomas ganz, toxic

Iron overload is a common condition affecting millions of people worldwide. Excess iron in the body is toxic, and deposits can cause damage to the liver, heart and other organs. Current treatments, researchers say, are not ideal and have significant side effects.

Iron in the body is regulated by a hormone called hepcidin, and a deficiency in this hormone can cause the iron overload seen in genetic disorders like hereditary hemochromatosis and Cooley’s anemia. (more…)

Everest Expedition Suggests Nitric Oxide Benefits for Intensive Care Patients

By Guest PostOctober 8, 2011Health, Sciencebody response, caudwell xtreme everest, chemical compound, cxe expedition, denny levett, expedition to mount everest, heart, highlanders, hypoxia, infectious diseases, low oxygen levels, lowlanders, lungs, martin feelisch, nitric oxide, no, no production, oxygen level in human blood, regulation of blood pressure, sea level altitudes, shortage of oxygen, tibetan plateau, ucl, university of warwick, vascular system

The latest results from an expedition to Mount Everest that looked at the body’s response to low oxygen levels suggest that drugs or procedures that promote the body’s production of a chemical compound called nitric oxide (NO) could improve the recovery of critically ill patients in intensive care.

Many critically ill patients suffer from a shortage of oxygen (a condition known as ‘hypoxia’), which can be life-threatening. NO is produced by virtually every cell and organ in the body where it serves many important functions including the regulation of blood pressure, learning and memory formation, and protecting us from infectious diseases. (more…)