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Breakthroughs in Bioscience

Learn about the important role of the National Institutes of Health (NIH) in funding basic research that leads to medical advancements and improved health. Discover how NIH grants support various programs and initiatives in Utah, contributing to the state's economy and healthcare industry. Explore the impact of NIH-funded research on medical breakthroughs and the evolution of research into healthcare.

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Breakthroughs in Bioscience

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  1. Breakthroughs in Bioscience From NIH-Funded Basic Research to Improved Health Utah

  2. National Institutes of Health (NIH) • Nation’s medical research agency • Funds the science that leads to medical advancement • Located in Bethesda, Md. – but most funding is distributed to university researchers and physicians throughout the United States

  3. Research Enterprise Is Critical to Utah’s Economy • Utah received more than $168 million in NIH awards in FY2011 • The University of Utah employs 18,000 people • Companies in Research Park employ more than 4,300 people and contribute $600 million to the state economy • 80 spinoff companies have emerged from university research • The biopharmaceutical industry pioneered in part at The U generates $52 million in state/local taxes

  4. NIH Grants Support Many Programs in Utah • The John A. Moran Eye Center received more than $6.8 million in NIH grants last year and is a world leader in intraocular lenses • The Obstetrics/Gynecology Department at the School of Medicine ranked fifth nationwide in NIH funding • A NIH grant of $1.7 million will be used to buy the U’s first small-animal MRI scanner, which will be used by the Brain Institute to study autism and multiple sclerosis • A Weber State University professor received NIH funding to study the physiology of songbirds, with the aim of transferring that knowledge to helping deaf people learn to speak • A 5-year, $10.7 million NIDA grant will help identify genes that make people susceptible to nicotine addiction and lung disease

  5. NIH: Saving Lives Through Science • Current annual budget (FY2012) of around $30.6B • Greater than 80% distributed throughout the country • Almost 50,000 grants • More than 325,000 scientists at over 3,000 research sites • How much money is being spent in your local area? • http://report.nih.gov/award/organizations.cfm • Portfolio of basic, translational, and clinical research NIH has been involved in nearly all the major medical & health related discoveries of the past fifty years

  6. How NIH Makes Science Happen… • Most researchers working at local universities, hospitals, and research institutions are dependent on federal support to fund their research, hire lab personnel, and train young scientists • Researchers write grant proposals to compete for funding • Must explain why they think it’s a good idea, how they’re going to do the experiments, and what impact it will have on science and medicine • Proposals are reviewed in a two-tier system • Peer-reviewed by scientists to ensure highest quality science • Reviewed again for applicability to scientific or health priorities, by NIH officials and other stakeholders, including public members • NIH review system is the envy of the world! • Very competitive! • Only 1 in 4 proposals funded in the 2008 fiscal year • Lots of high quality research not being done for lack of funding

  7. Basic Research: From Bench to Bedside • A portion of NIH funding goes to basic or fundamental research • Basic research is driven by interest in a scientific question • The main motivation is to expand knowledge and understanding • However, the insight into how the human body works and understanding of how diseases and disorders operate provides the foundation for medical progress "People cannot foresee the future well enough to predict what's going to develop from basic research. If we only did applied research, we would still be making better spears." Dr. George Smoot, Berkeley National Lab

  8. What About Medical Breakthroughs? • Medical breakthroughs often come from unrelated areas of science or medicine • Research on cancer biology has led to drugs for heart disease, osteoporosis, and viral diseases like influenza, herpes & AIDS • Physicists studying the effects of magnets on atomic particles made the discovery that gave us magnetic resonance imagining (MRI) • It often takes years or decades of fundamental knowledge to solve or find different pieces of the puzzle • This makes it difficult to predict where the next breakthrough will come from • Makes it imperative to support a broad range of scientific research • Too risky for the private sector, federal funding is critical for research

  9. Evolution of Research to Healthcare Some recent examples…

  10. Cardiovascular Disease • Information on the biochemical structure and synthesis of cholesterol led to the development of statins, a class of drug used to lower cholesterol • Discoveries in basic kidney biology and an increased understanding of the molecular regulation of blood pressure converged with an unexpected finding involving snake venom to give us ACE inhibitors, one of our most effective hypertension medications • Research into the mechanism of how blood forms clots, together with the search to find a new cancer treatment and the first commercial use of recombinant technologies, resulted in rt-PA, a clot-busting drug that can prevent death from heart attack or stroke

  11. Results of Cardiovascular Disease Research CVD disease death rates(United States: 1900-2006) “Americans can expect to live an average of four years longerdue to the reductions in deaths due to cardiovascular disease, largely as a result of NIH research.”

  12. Future Directions… • Genome-wide associations studies (GWAS) are providing unprecedented insight into the intricate role genetics plays in the development of heart disease and identifying possible targets for novel drug therapies • Research on the effect of air pollution on blood vessel constriction is helping scientists understand how environmental factors effect cardiovascular health • Innovative imaging systems are being developed to allow for simultaneous evaluation of electrical activity and metabolic properties in the heart, allowing for the study of the complex mechanisms which lead to sudden cardiac arrest

  13. HIV / AIDS • Fundamental knowledge of how viruses replicate gave scientists targets for therapy that led to the discovery of a way to block replication, resulting in the development of azidothymidine (AZT) • Increased understanding of how HIV operates at the cellular and molecular level identified more targets, and eventually led to the combination of drugs knows as the ‘triple cocktail’

  14. Results of HIV / AIDS Research The number of cases has remained relatively stable while the number of deaths has decreased AIDS has been transformed from an acute, fatal illness to a chronic, manageable condition

  15. Future Directions… • Topical antimicrobial products, or microbicides, offer one of the most promising avenues to primary prevention of HIV transmission • A number of HIV vaccine clinical trials have begun, which depend on fundamental research of the human immune response and on understanding of the way in which HIV infects cells • Investigators have identified the existence of HIV reservoirs that persist despite antiretroviral therapy, and efforts are now being focused on understanding and eliminating these reservoirs

  16. Cancer • The discovery that estrogen’s role in breast cancer, together with basic research into the shape and characteristics of the estrogen receptor, gave us tamoxifen, which can reduce breast cancer incidence among women at risk by over 45% • The breakthrough finding that human papillomavirus (HPV) could cause cervical cancer led to a new vaccine that NIH estimated could reduce cervical cancer incidence by as much as 90% • While investigating the cellular machinery controlling cell growth, scientists found the 26S proteasome, the inhibition of which is the power behind bortezomib – now used to treat patients with multiple myeloma

  17. Results of Cancer Research “Overall cancer survival rates have improved significantly, from about 50% in the 1970’s to 66% in recent years. This is due, in part, to both earlier detection and advances in treatment.”

  18. Future Directions… • Medical researchers have found certain antibodies that are present only in tumors and may enable early detection and diagnosis of certain cancers • The Cancer Genome Atlas (TCGA), a project dedicated to accelerating our understanding of cancer genetics, has enabled deeper understanding of the most common form of adult brain cancer, glioblastoma multiforme • By suppressing the action of a certain cellular receptor,CD47, researchers have developed a method to protect healthy tissue from radiation therapy while making cancerous cells more vulnerable

  19. Infant Mortality • Research on the fundamental biology of lung function enabled the discovery of surfactant, a protein crucial for survival of premature infants, and enabled a decrease in the number of infant deaths from respiratory distress from 15,000 per year to less than 1,000 by 2002 • The use of anti-virals to prevent mother-to-child HIV transmission reduced the rate from 25% to nearly 1% • Studies on a metabolite of progesterone led to the finding that injections of this compound, progesterone 17P, could prevent pre-term delivery by as much as 30%, which is particularly significant in African American women

  20. Results of Research on Infant Mortality In less than a century, infant mortality in the United States has been reduced by 90% This translates to almost 500,000 babies saved per year

  21. Future Directions… • In order to better diagnose and treat congenital heart defects, a leading cause of infant mortality, scientists are developing new non-invasive imaging technologies for prenatal heart studies • Novel diagnostic techniques for amniotic fluid infection, a major risk factor for preterm birth, are being developed based on a recent finding that bacteria in the amniotic cavity can form biofilms (which make infections harder to detect)

  22. Neural Prosthetics • The groundwork for neural prosthetics was laid by more than a century’s worth of basic research by anatomists, biochemists, and electrophysiologists • The first cochlear implant was introduced in the 1970s; today, more than 23,000 adults and 15,000 children in the U.S. owe their hearing to this device • The artificial retina is delicate enough not to damage the eye yet complex enough to provide visual input to the human brain; by 2011, the research team expects to start clinical testing on a version that enables reading and facial recognition

  23. Urgent Need for Prosthetics Research and Development • Body armor saves lives, but provides little to no protection for a soldier’s limbs • One of the major impairments seen in veterans returning from Iraq and Afghanistan is amputations

  24. After amputation, the nerves controlling the missing limb remain active Scientists have developed superfine electrode arrays to connect these nerves with prosthetic limbs This will allow amputees to control and sense their prosthetics intuitively, making them feel more like their original limbs Future Directions…

  25. NIH-Funded Discoveries at Utah • Researchers identified a gene that contributes to a major risk of age-related macular degeneration, a leading cause of vision loss; a blood test can determine if the patient is at higher risk • Utah scientists discovered a potential link between telomere length and mortality; in the study, individuals with shorter telomeres (the end of chromosomes) died sooner than people with longer. Women with shorter telomeres died 4.8 years sooner in the 60-74 yr age group • Discovered evidence of a genetic linkage between the angiotensinogen (AGT) gene and human hypertension • The Utah Population Database, started in 1975, is used to identify and study families that have a higher than normal incidence of cancer or other disease, analyze patterns of inheritance, and identify specific genetic mutations, including discovery of the first breast cancer mutation

  26. The Bottom Line… • People are living longer, healthier lives because of NIH funded medical research • What were once swiftly fatal illnesses have become treatable or manageable conditions • For those suffering from diseases that have no current treatment or cure, medical research provides hope

  27. The Challenge… • NIH funding requires congressional support • Sustainable budget growth is needed to achieve the full promise of medical research • Strong, outspoken champions for NIH in Congress and within the Administration are essential Diminished investment in NIH = loss of talented researchers = missed opportunities = delays in medical progress

  28. Utah’s Congressmen Need to Advocate for NIH Funding • Nothing should surpass improving our health as a national priority • Opportunities for discoveries that translate to improved health for our citizens have never been greater • Every increase in the NIH budget means additional funding for research in the state and new jobs

  29. We Need Your Help:Working Together for NIH • Contact Senators Hatch and Bennett, and your Congressional Representative • Let them know that medical research is important to you and what a bargain it is • Write a letter to the newspaper and talk to your friends • Help educate policymakers and neighbors about the important work NIH is doing • Nothing is more important than our health • The National Institutes of Health (NIH) should be an American priority

  30. Want to Know More? Please visit opa.faseb.org

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