Friday, February 15, 2013

Leading RSV researcher publishes work at Le Bonheur Children's

Leading RSV researcher publishes work at Le Bonheur Children's [ Back to EurekAlert! ] Public release date: 14-Feb-2013
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Contact: Hillary Welton
hillary.welton@lebonheur.org
901-287-6030
Le Bonheur Children's Hospital

Memphis, Tenn. Studies at Le Bonheur Children's Hospital in Memphis, Tenn., are advancing our understanding of how viruses, including RSV, replicate in humans, mutate to avoid the immune response and can be effectively treated.

John DeVincenzo, MD, medical director of Molecular Diagnostics and Virology Laboratories at Le Bonheur, and professor of Pediatrics and Microbiology, Immunology, and Molecular Biology at The University of Tennessee Health Science Center, has recently published three papers on this topic. DeVincenzo's lab is one of only two of its kind in the United States. His work has focused on respiratory syncytial virus (RSV), the most common cause of infant hospitalization, and his findings are leading the way towards the development of antiviral treatment strategies against the disease.

Summaries of the studies' findings include:

Complete viral RNA genome sequencing of ultra-low copy samples by sequence-independent amplification. Nucleic Acids Research, 2012

Viruses change and mutate at rapid rates in virtually random fashion. These high mutation rates of viruses always occur while they replicate within their human hosts. Detecting these changes has been difficult, because mutations that do not help the virus survive and replicate are overwhelmed by mutations that do help. Therefore, it is necessary to be able to detect minute populations of viruses that have mutated and to differentiate these small subpopulations from the majority populations of these viruses. This study outlines new advanced methods and techniques to detect minute sub-populations of viruses within clinical samples obtained from humans. These new techniques can open up areas of research in these viruses and how they mutate to avoid detection and control by our immune systems. Researchers capture 96 to 100 percent of the viral protein-coding region of HIV, respiratory syncytial and West Nile viral samples from as few as 100 copies of viral RNA. Methods are scalable to large numbers of samples and capable of generating full or near full-length viral genomes from clone and clinical samples with low amounts of viral RNA, without prior sequence information and in the presence of substantial RNA contamination from the surrounding human cells.

Assessing modeled CO2 retention and rebreathing of a facemask designed for efficient delivery of aerosols to infants. International Scholarly Research Network, 2012

New medicines for infant lung diseases, such as RSV, might require deposition of these medicines directly into the lung by infants breathing an aerosol. However, efficient masks that allow the safe delivery of these aerosols without causing the infants to re-breathe their own exhaled CO2 have not previously been developed. The researchers developed a new infant aerosol delivery mask. They then evaluated the mask using computational fluid dynamic models to see if it would both efficiently deliver aerosols and whether there was retention of exhaled CO2. Because RSV (respiratory syncytial virus) primarily is an infant disease, this device could be used for delivery of aerosol treatments of RSV in infants and children.

The promise and progress of RNA interference-based antiviral therapy for respiratory viruses. Antiviral Therapy, 2012

In this invited review, DeVincenzo discusses the science behind RNA interference (RNAi) and the potential practical issues in applying this novel treatment technology against various respiratory viral diseases. DeVincenzo was the first to demonstrate that RNAi-based therapies could work in humans. One of his recent studies showed that RSV-infected lung transplant patients treated with the novel RNAi therapy improved long term lung function significantly better than did those treated with placebo, even when the patients were analyzed as long as six months later. This marks the first effective treatment of RSV in this vulnerable immune-suppressed population. Ongoing research directed by DeVincenzo is now moving experimental RSV therapies into children.

###

About Le Bonheur Children's Hospital

Le Bonheur Children's Hospital in Memphis, Tenn., treats more than 250,000 children each year in a 255-bed hospital that features state-of-the-art technology and family-friendly resources. Nationally recognized, Le Bonheur is ranked by U.S. News & World Report as a "Best Children's Hospital." Serving as a primary teaching affiliate for the University Tennessee Health Science Center, the hospital trains more pediatricians than any other hospital in the state. For more information, please call (901) 287-6030 or visit lebonheur.org. Follow us on Twitter at twitter.com/lebonheurchild or like us at Facebook at facebook.com/lebonheurchildrens.

About the University of Tennessee Health Science Center

As the flagship statewide academic health system, the University of Tennessee Health Science Center is focused on a four-tier mission of education, research, clinical care and public service, all in support of a single goal: to improve the health of Tennesseans. Offering a broad range of postgraduate training opportunities, the main campus is located in Memphis and includes six colleges: Allied Health Sciences, Dentistry, Graduate Health Sciences, Medicine, Nursing and Pharmacy. UTHSC has additional College of Medicine and College of Pharmacy campuses in Knoxville, and a College of Medicine campus in Chattanooga. For more information, visit www.uthsc.edu.


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Leading RSV researcher publishes work at Le Bonheur Children's [ Back to EurekAlert! ] Public release date: 14-Feb-2013
[ | E-mail | Share Share ]

Contact: Hillary Welton
hillary.welton@lebonheur.org
901-287-6030
Le Bonheur Children's Hospital

Memphis, Tenn. Studies at Le Bonheur Children's Hospital in Memphis, Tenn., are advancing our understanding of how viruses, including RSV, replicate in humans, mutate to avoid the immune response and can be effectively treated.

John DeVincenzo, MD, medical director of Molecular Diagnostics and Virology Laboratories at Le Bonheur, and professor of Pediatrics and Microbiology, Immunology, and Molecular Biology at The University of Tennessee Health Science Center, has recently published three papers on this topic. DeVincenzo's lab is one of only two of its kind in the United States. His work has focused on respiratory syncytial virus (RSV), the most common cause of infant hospitalization, and his findings are leading the way towards the development of antiviral treatment strategies against the disease.

Summaries of the studies' findings include:

Complete viral RNA genome sequencing of ultra-low copy samples by sequence-independent amplification. Nucleic Acids Research, 2012

Viruses change and mutate at rapid rates in virtually random fashion. These high mutation rates of viruses always occur while they replicate within their human hosts. Detecting these changes has been difficult, because mutations that do not help the virus survive and replicate are overwhelmed by mutations that do help. Therefore, it is necessary to be able to detect minute populations of viruses that have mutated and to differentiate these small subpopulations from the majority populations of these viruses. This study outlines new advanced methods and techniques to detect minute sub-populations of viruses within clinical samples obtained from humans. These new techniques can open up areas of research in these viruses and how they mutate to avoid detection and control by our immune systems. Researchers capture 96 to 100 percent of the viral protein-coding region of HIV, respiratory syncytial and West Nile viral samples from as few as 100 copies of viral RNA. Methods are scalable to large numbers of samples and capable of generating full or near full-length viral genomes from clone and clinical samples with low amounts of viral RNA, without prior sequence information and in the presence of substantial RNA contamination from the surrounding human cells.

Assessing modeled CO2 retention and rebreathing of a facemask designed for efficient delivery of aerosols to infants. International Scholarly Research Network, 2012

New medicines for infant lung diseases, such as RSV, might require deposition of these medicines directly into the lung by infants breathing an aerosol. However, efficient masks that allow the safe delivery of these aerosols without causing the infants to re-breathe their own exhaled CO2 have not previously been developed. The researchers developed a new infant aerosol delivery mask. They then evaluated the mask using computational fluid dynamic models to see if it would both efficiently deliver aerosols and whether there was retention of exhaled CO2. Because RSV (respiratory syncytial virus) primarily is an infant disease, this device could be used for delivery of aerosol treatments of RSV in infants and children.

The promise and progress of RNA interference-based antiviral therapy for respiratory viruses. Antiviral Therapy, 2012

In this invited review, DeVincenzo discusses the science behind RNA interference (RNAi) and the potential practical issues in applying this novel treatment technology against various respiratory viral diseases. DeVincenzo was the first to demonstrate that RNAi-based therapies could work in humans. One of his recent studies showed that RSV-infected lung transplant patients treated with the novel RNAi therapy improved long term lung function significantly better than did those treated with placebo, even when the patients were analyzed as long as six months later. This marks the first effective treatment of RSV in this vulnerable immune-suppressed population. Ongoing research directed by DeVincenzo is now moving experimental RSV therapies into children.

###

About Le Bonheur Children's Hospital

Le Bonheur Children's Hospital in Memphis, Tenn., treats more than 250,000 children each year in a 255-bed hospital that features state-of-the-art technology and family-friendly resources. Nationally recognized, Le Bonheur is ranked by U.S. News & World Report as a "Best Children's Hospital." Serving as a primary teaching affiliate for the University Tennessee Health Science Center, the hospital trains more pediatricians than any other hospital in the state. For more information, please call (901) 287-6030 or visit lebonheur.org. Follow us on Twitter at twitter.com/lebonheurchild or like us at Facebook at facebook.com/lebonheurchildrens.

About the University of Tennessee Health Science Center

As the flagship statewide academic health system, the University of Tennessee Health Science Center is focused on a four-tier mission of education, research, clinical care and public service, all in support of a single goal: to improve the health of Tennesseans. Offering a broad range of postgraduate training opportunities, the main campus is located in Memphis and includes six colleges: Allied Health Sciences, Dentistry, Graduate Health Sciences, Medicine, Nursing and Pharmacy. UTHSC has additional College of Medicine and College of Pharmacy campuses in Knoxville, and a College of Medicine campus in Chattanooga. For more information, visit www.uthsc.edu.


[ Back to EurekAlert! ] [ | E-mail | Share Share ]

?


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.


Source: http://www.eurekalert.org/pub_releases/2013-02/lbch-lrr021413.php

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