American Heart Association Meeting Report- Metabolic Abnormalities in Obese Teens May Relate to Poor Diets

/PRNewswire/ -- Obese teens may feel healthy, but blood tests show they have inflammation, insulin resistance, and high homocysteine levels, researchers report at the American Heart Association's Nutrition, Physical Activity and Metabolism/Cardiovascular Disease Epidemiology and Prevention 2011 Scientific Sessions.

"The metabolic abnormalities suggest that the process of developing heart disease has already started in these children, making it critical for them to make definitive lifestyle and diet changes," said Ashutosh Lal, M.D., senior author of the study and a pediatric hematologist at the Children's Hospital and Research Center Oakland in California.

Researchers compared the diets and blood test results of 33 obese youths (ages 11 to 19) with 19 age-matched youths of normal weight. Obesity in youths is a body mass index (BMI) higher than the 95th percentile of children the same age. Normal weight youths had a BMI below the 85th percentile. Body mass index is a measure of weight related to height. Two thirds of the participants in both groups were girls. All of the participants were receiving regular health maintenance care at an inner city clinic in Oakland.

Blood tests revealed that the obese teens had:

* C-reactive protein levels almost ten times higher than controls, indicating more inflammation in the body.
* Insulin resistance, a precursor to type 2 diabetes, with greater amounts of insulin needed to keep blood sugar levels normal.
* Homocysteine levels 62 percent higher than controls. High levels of the amino acid homocysteine are related to greater heart disease risk.
* Total glutathione levels 27.9 percent lower than controls, with oxidized glutathione levels 125 percent higher. A higher ratio of oxidized to non-oxidized glutathione indicates oxidative stress, an imbalance in the production of cell-damaging free radicals and the body's ability to neutralize them. Oxidative stress leads to more inflammation and an increase in blood vessel damage and stiffening.


"Looking at the numbers you would think these children might feel sick, but they did not," Lal said. "They are apparently feeling well, but there is a lot going on beneath the surface."

Dietary quality was poor in all the children – low in fresh produce, fiber, and dairy products. On questionnaires, obese and normal-weight children reported consuming similar amounts of grains, proteins, fats and total calories. However, the obese children reported significantly fewer servings of dairy products and tended towards fewer fruit servings. The obese children's diets were lower in potassium, vitamin C, vitamin D, and vitamin A, found in fortified dairy products and as well as in deeply colored fruits and vegetables.

With such poor dietary quality in both the obese and control groups, clinicians should pay more attention to what their young patients are eating, researchers said.

"Obese teens were consuming too few of the natural sources of anti-oxidants, fruits and vegetables, and may have increased antioxidant needs based on the inflammation associated with their extra adiposity," Lal said. "For their heart health, obese teens need to eat better, not just eat less."

Though the study's participants attended an inner city health clinic, researchers said the metabolic differences between obese and normal-weight teens would be found in all socioeconomic groups.

The children in the study were racially diverse. The obese group was 39 percent African-American, 30 percent non-African-American Hispanic, 18 percent Caucasian and 6 percent Asian and 7 percent other. The control group was 21 percent African-American, 5 percent Hispanic, 42 percent Caucasian, 21 percent Asian and 11 percent other.

This study was funded by the Clinical and Translational Science Institute, University of California, San Francisco, and the Bruce and Giovanna Ames Foundation.

Co-authors are: Michele Mietus-Snyder, M.D.; Jung H. Suh, Ph.D.; Bruce N. Ames, Ph.D.; and Betty Flores, P.N.P. Author disclosures are on the abstract.

Statements and conclusions of study authors that are presented at American Heart Association scientific meetings are solely those of the study authors and do not necessarily reflect association policy or position. The association makes no representation or warranty as to their accuracy or reliability. The association receives funding primarily from individuals; foundations and corporations (including pharmaceutical, device manufacturers and other companies) also make donations and fund specific association programs and events. The association has strict policies to prevent these relationships from influencing science content. Revenues from pharmaceutical and device corporations are available at www.heart.org/corporatefunding. 

-----
Community News You Can Use
Click to read MORE news:
www.GeorgiaFrontPage.com
Twitter: @gafrontpage & @TheGATable @HookedonHistory
www.ArtsAcrossGeorgia.com
Twitter: @artsacrossga, @softnblue, @RimbomboAAG @FayetteFP

New Magnetic Resonance Imaging (MRI) Data Show Efficacy of SIMPONI® in Treatment of Rheumatoid Arthritis

/PRNewswire/ -- Magnetic resonance imaging (MRI) analyses from two Phase 3 clinical trials showed that once every four week subcutaneous injections of SIMPONI® (golimumab) 50 mg plus methotrexate resulted in statistically significant improvements in markers of inflammation and structural damage in patients with active rheumatoid arthritis (RA) compared with placebo plus methotrexate. Changes in disease activity were measured using the Rheumatoid Arthritis MRI Scoring (RAMRIS) system, which assesses three components: synovitis, bone edema (osteitis) and bone erosions. Changes in RAMRIS scores were observed as early as week 12 and continued through week 24. These data were presented at the largest rheumatology medical meeting in the United States.

"MRI assessment has previously been demonstrated to show greater sensitivity than x-ray in detecting changes in inflammation and the structural integrity of the bone. The findings from a randomized controlled trial with a large number of patients show the value of this diagnostic tool in its ability to monitor disease progression" said Dr. Paul Emery, head of the Academic Unit of Musculoskeletal Medicine at the University of Leeds and lead study investigator. "The ultimate goals of inhibiting joint damage are to both reduce the symptoms that patients with RA experience and also to preserve patients' functional ability (which is correlated with early structural changes). These findings present important new information for rheumatologists and further support the substantial efficacy SIMPONI demonstrated in multiple Phase 3 registration trials in the treatment of this chronic disease."

Investigators reported that at week 24 of the GOlimumab Before Employing methotrexate as the First-line Option in the treatment of Rheumatoid arthritis of Early onset (GO-BEFORE) study, patients with RA receiving SIMPONI 50 mg plus methotrexate showed significant improvements in synovitis, bone edema and bone erosions [-2.2 (P = 0.011), -2.5 ( p <0.001) and -0.7 (p = 0.016), respectively], compared with patients receiving placebo plus methotrexate (-1.0, -0.3 and -0.2, respectively).

In a second study, GOlimumab FOR subjects With Active RA Despite Methotrexate (GO-FORWARD), patients receiving SIMPONI 50 mg plus methotrexate experienced significant improvements in synovitis and bone edema [-1.9 (p < 0.001) and -2.6 (p < 0.001), respectively] at week 24 when compared with the placebo plus methotrexate group (-0.4 and 0.7, respectively). Minimal changes in bone erosion across all treatment groups (mean change ranging from -1.1 to 0.4) precluded the adequate evaluation of the effects of SIMPONI on bone erosion, which is consistent with previously published radiographic data.

In September 2010, Centocor Ortho Biotech Inc. announced the submission of a supplemental Biologics License Application (sBLA) to the U.S. Food and Drug Administration (FDA) seeking to expand the SIMPONI physician label to include inhibiting the progression of structural damage in the treatment of moderately to severely active RA.

-----
Community News You Can Use
Click to read MORE news:
www.GeorgiaFrontPage.com
Twitter: @gafrontpage & @TheGATable @HookedonHistory
www.ArtsAcrossGeorgia.com
Twitter: @artsacrossga, @softnblue, @RimbomboAAG
www.FayetteFrontPage.com
Twitter: @FayetteFP

Old Drug Holds Promise Against Opportunistic Lung Bug

/PRNewswire/ -- A drug to treat inflammation plays a surprising role reducing the level of infection caused by an opportunistic bug that is deadly for AIDS and cancer patients and others with weakened immune systems.

The drug, sulfasalazine, spurs the body to get rid of the fungal evaders by enhancing the body's ability to chew them up instead of leaving the debris to litter the lungs, where it would continue to provoke an onslaught of harmful inflammation.

Besides opening a new avenue for research on Pneumocystis pneumonia or PCP, caused by the fungus Pneumocystis jirovecii, the work with mice also offers the possibility of manipulating immune cells called macrophages to improve treatment of infections.

The findings by scientists at the University of Rochester Medical Center were published August 19 in the journal PLoS Pathogens.

During a bout with Pneumocystis, the lungs become a battlefield, where the body pits an array of impressive forces against marauding microbes. But even when the body gets the upper hand, the damage is tremendous. Immune cells like neutrophils and macrophages can flood the lungs, literally suffocating the patient. And when the debris from dead microbes fills the lungs, more and more immune cells are called in to clean up the area, making matters worse. It becomes harder and harder to breathe.

"Many people assume that once the microbe is dead, patients usually start to feel better immediately. But with Pneumocystis, patients do not always undergo a rapid clinical improvement following antibiotic treatment. Even though the bug has been killed, the debris that is left in the lungs continues to promote inflammation," said corresponding author Terry Wright, Ph.D., an infectious disease specialist and associate professor of Microbiology and Immunology and of Pediatrics.

Pneumocystis is a common bug that infects nearly everyone at some point; the authors say that more than 80 percent of children have been infected by the age of 2. Most people shake off the infection without consequence, but for people with cancer, AIDS, or other diseases that compromise their immune system, the infection can be deadly. Usually there are few signs that the patient is sick until the infection is well established and the fungus is widespread in the lungs. Among cancer patients, mortality rates as high as 40 percent have been reported.

Since the body's immune response is central to how Pneumocystis kills patients, doctors use two different types of drugs in tandem to treat patients - an antibiotic to kill the bug, and steroids or another type of drug to reduce the consequent inflammation.

Central to the study were mice in which the disease progresses in a manner very similar to AIDS patients. The remarkable strides in AIDS therapy in recent years have come with a down side for many patients, thanks to Pneumocystis: When anti-retroviral therapy kicks in, a patient's immune system often becomes stronger very quickly - and if the fungus is present, the immune system attacks it vigorously, causing a potentially deadly form of pneumonia.

Wright's team looked at the effects in mice of sulfasalazine, an anti-inflammatory drug that has proven useful in treating conditions like Crohn's disease and rheumatoid arthritis. The team found that Pneumocystis-infected mice treated with sulfasalazine developed much less severe disease than untreated mice. The sulfasalazine-treated mice had better lung function, less weight loss, and were generally healthier than untreated animals.

While some of the benefit was due to the drug's anti-inflammatory properties and was expected, the result included a big surprise: The drug also spurs the body to remove the bug more aggressively by boosting the activity of immune cells called macrophages.

"This was unexpected," said first author Jing Wang, Ph.D., research assistant professor in Pediatrics. "Since we reduced the response of the immune system, you would think the mice would get sicker. But instead, the mice treated with sulfasalazine were healthier. At first we thought it was due solely to the anti-inflammatory activity of the compound, but it turns out that sulfasalazine actually results in a reduced fungal burden. The drug helps the body clear the infection.

"We initially thought we had done something wrong, and so we repeated the experiment again and again. Then, when new technology was developed, we were able to document that the body cleared the infection more readily with sulfasalazine," added Wang.

Scientists have long known that the body's immune T cells are central to the body's response to fight off the infection. The Rochester team showed that the body's T cells spur macrophages to attack the fungus - to engulf its particles and chew them up in a process known as phagocytosis.

While scientists have long suspected that role for macrophages, the Rochester team relied on a new technology to gather the first direct evidence of macrophages engulfing fungal particles. The scientists worked closely with Timothy Bushnell, Ph.D., and others at Rochester's Flow Cytometry Resources Core, investigating new ways to use lasers to capture images of molecular events. Bushnell's team ultimately connected the team with scientists at Amnis. Together the group developed a new way to capture macrophage phagocytosis in single cells from mice infected with Pneumocystis. The technology enabled the team to capture more than 40,000 such events, compared to just a handful when using conventional microscopy.

The team showed that as macrophage activity increased, the animals' health improved and levels of fungus decreased. For example, 17 days after infection, mice treated with sulfasalazine had nine times as many macrophages that had engulfed fungal particles compared to mice that had not been treated with the compound.

"This marks a new direction in which to look for new therapies to treat Pneumocystis as well as other inflammatory diseases. Identifying modulators that can increase or decrease the action of our immune system in a precise manner is a growing area of research," said Wright. Recently researchers have come to realize that there are different kinds of macrophages, and Wright noted that the type whose activity is trigged by sulfasalazine does not contribute to inflammation.

In addition to Wang and Wright, other authors include Francis Gigliotti, M.D., professor of Pediatrics and of Microbiology and Immunology, and also chief of Infectious Disease at Golisano Children's Hospital; Samir Bhagwat, Ph.D., research assistant professor of Pediatrics; and Thaddeus George from the Amnis Corp. in Seattle. The work was funded by the National Heart Lung and Blood Institute and the Strong Children's Research Center.

-----
Community News You Can Use
www.fayettefrontpage.com
Fayette Front Page
www.georgiafrontpage.com
Georgia Front Page
Follow us on Twitter:  @GAFrontPage

FDA Approves New Device for Adults with Severe and Persistent Asthma

The U.S. Food and Drug Administration today approved the first medical device that uses radiofrequency energy to treat severe and persistent asthma in certain adults.

The Alair Bronchial Thermoplasty System is intended for patients ages 18 and older whose severe and persistent asthma is not well-controlled with inhaled corticosteroids and long-acting beta agonist medications.

The device is composed of a catheter with an electrode tip that delivers a form of electromagnetic energy, called radiofrequency energy, directly to the airways. A controller unit generates and controls the energy.

Inflammation causes the airways of people who have asthma to swell and narrow, making breathing difficult. The Alair system treats asthma symptoms by using radiofrequency energy to heat the lung tissue in a controlled manner, reducing the thickness of smooth muscle in the airways and improving a patient’s ability to breathe. To benefit, patients will require multiple sessions targeting different areas in the lungs.

“The approval of the Alair system provides adult patients suffering from severe and persistent asthma with an additional treatment option for a disease that is often difficult to manage,” said Jeffrey Shuren, M.D., J.D., director of the FDA’s Center for Devices and Radiological Health.

The FDA based its approval on data from a clinical trial of 297 patients with severe and persistent asthma. The trial showed a reduction of severe asthma attacks with use of the Alair system.

The FDA is requiring a five-year post-approval study of the device to study its long-term safety and effectiveness. The device manufacturer, Asthmatx, will follow many of the patients who were enrolled in the clinical trial and enroll 300 new patients at several medical centers across the United States.

Possible side effects during the course of treatment may include asthma attacks, wheezing, chest tightness or pain, partially collapsed lung (atelectasis), coughing up blood (hemoptysis), anxiety, headaches, and nausea. The Alair system is designed to reduce the number of severe asthma attacks on a long-term basis. However, there is a risk of immediate asthma attacks during the course of the treatment.

The Alair system is not for use in asthma patients with a pacemaker, internal defibrillator, or other implantable electronic device. Also, those patients with known sensitivities to lidocaine, atropine, or benzodiazepines should not use the device. Alair has not been studied for success in retreatment of the same area of the lung. Currently, patients should not be retreated with the Alair system in the same area of the lung.

Asthma patients considering the Alair system should not be treated while the following conditions are present: an active respiratory infection, coagulopathy (bleeding disorder), asthma exacerbations, or if they have had changes to their corticosteroid regimen 14 days before the proposed treatment.

Asthmatx Inc. is based in Sunnyvale, Calif.

-----
www.fayettefrontpage.com
Fayette Front Page
www.georgiafrontpage.com
Georgia Front Page
Follow us on Twitter:  @GAFrontPage

Researchers Find Common Respiratory Virus Hijacks Lung Cells to Stay Alive

/PRNewswire/ -- Approximately one-half of all infants are infected with the respiratory syncytial virus (RSV) during the first year of life, and almost all children have been infected at least once by the time they reach their second birthday. Researchers at West Virginia University have discovered what makes RSV such a severe and persistent illness.

Senior author Giovanni Piedimonte, M.D., and his team have discovered that RSV prompts the release of a molecule that keeps the invaded cells alive despite the infection. The mechanism allows infected cells to survive for a longer period of time while they continue to produce viral particles, thus contributing to the severity and persistence of the infection.

Research results are published in the current issue of the journal PLoS ONE.

Inflammation of the airways caused by RSV often results in wheezing, cough and respiratory distress, creating the most common respiratory infection in infancy or childhood. Each year, an estimated 125,000 infants in the United States are hospitalized with RSV, the leading cause of infant hospitalization.

"There is still no effective therapy or medical treatment for RSV infection. While often mild, it still is responsible for the deaths of hundreds of infants in the United States each year," said Dr. Piedimonte, chair of the WVU Department of Pediatrics and physician-in-chief of WVU Children's Hospital. "The virus also strikes in nursing homes and causes deaths in the elderly population, so understanding how it works is critical."

Piedimonte said up to 500 infants may die of the infection each year. RSV may also predispose children to long-term health problems such as asthma. Other groups at high risk for severe RSV disease include the elderly, adults with underlying respiratory or cardiac disease, and those with a compromised immune system.

"Viruses must find a way to survive inside the host, and in this case RSV has found a way of keeping alive the cells that they infect," Piedimonte explained. "The virus invades the cell, which then produces a small molecule called NGF, or nerve growth factor. NGF allows the cell to survive while the virus reproduces itself. Finally, the cell explodes releasing new viral particles ready to infect the neighboring cells."

In determining how the virus instructs the infected cell to prolong its life, the researchers may have established a blueprint for development of new anti-viral drugs aimed at interfering with the action of NGF, Piedimonte said. He added that RSV may prefer the lower respiratory tract specifically because the smaller airways there allow for more efficient production of NGF.

"The interesting part of the RSV infection is that the viruses induce NGF production within an hour of coming into contact with the human cells - that is, even before they start multiplying," said the paper's lead author, Sreekumar Othumpangat, Ph.D., a researcher in the WVU Pediatric Research Institute.

Children born prematurely as well as those with chronic lung or heart disease are at higher risk for severe RSV infections.

The laboratory studies were done using human cells. Now that Piedimonte's team has discovered how RSV prolongs the life of its host cell, they are proceeding with other studies to see if they can pinpoint the same mechanism in common cold and influenza viruses.

The paper's other authors are Laura F. Gibson, deputy director of the Mary Babb Randolph Cancer Center at WVU, and Lennie Samsell, a research assistant in the Pediatric Research Institute.

The article, "NGF Is an Essential Survival Factor for Bronchial Epithelial Cells during Respiratory Syncytial Virus Infection," is available online at http://dx.plos.org/10.1371/journal.pone.0006444.

-----
www.fayettefrontpage.com
Fayette Front Page
www.georgiafrontpage.com
Georgia Front Page

FDA: Cancer Warnings Required for TNF Blockers

The U.S. Food and Drug Administration is requiring stronger warnings in the prescribing information for a class of drugs known as TNF blockers. The warnings, which include an updated boxed warning, highlight the increased risk of cancer in children and adolescents who receive these drugs to treat juvenile rheumatoid arthritis, the inflammatory bowel disorder, Crohn’s disease, and other inflammatory diseases.

In addition, the FDA is working with manufacturers to explore new ways to further define the risk of cancer in children and adolescents who use these drugs.

TNF blockers target and neutralize tumor necrosis factor-alpha (TNF-α), a protein that, when overproduced in the body due to chronic inflammatory diseases, can cause inflammation and damage to bones, cartilage and tissue. The drugs in this class include Remicade (infliximab), Enbrel (etancercept), Humira (adalimumab), Cimzia (certolizumab pegol) and Simponi (golimumab).

Today’s action is based on the completion of an investigation first announced by the FDA in June 2008. An analysis of U.S. reports of cancer in children and adolescents treated with TNF-blockers showed an increased risk of cancer, occurring after 30 months of treatment on average. About half of the cancers were lymphomas, a type of cancer involving cells of the immune system. Some of the reported cancers were fatal.

Additional required updates to the prescribing information include incorporation of reports of psoriasis associated with the use of TNF blockers.

-----
www.fayettefrontpage.com
Fayette Front Page
www.georgiafrontpage.com
Georgia Front Page