October 27, 2009 — University of Utah
medical scientists have won more than $7.9 million in federal economic stimulus
Challenge Grants for 10 research projects – from the immensely complex task of
diagramming genetic connections in the brain to developing a skin seal to
prevent infection with artificial limb attachments.

The Challenge Grants, funded as
part of the American Economic Recovery and Reinvestment Act, are aimed at
jump-starting particular areas of biomedical and behavioral research through
high-risk and innovative research. Thousands of scientists from 241 U.S.
institutions applied for the funding through the National Institutes of Health
(NIH). The U of U’s researchers placed among the top-tier recipients, according
to Thomas N. Parks, Ph.D., University vice president for research.

“The number and dollar amount of
Challenge Grants received by the University
of Utah put us in the top
10 percent of the 241 universities receiving the grants,” Parks said. “That’s
another piece of evidence for the outstanding ability and resourcefulness of
our faculty.”

It’s also good for the state’s
economy, according to Parks. For every $1 million in grant money that comes to
the U of U, 20 jobs will be created in Utah,
he said.

For scientists such as Julie R.
Korenberg, M.D., Ph.D., USTAR professor of pediatrics and an investigator with
the U of U Brain Institute, the Challenge Grants will provide funding to begin
projects that can transform medicine. Korenberg’s ultimate goal is to
understand the genetic underpinnings of autism, schizophrenia, depression, and
other debilitating brain-related illnesses and conditions. To that end, she and
Tolga Tasdizen, Ph.D., adjunct assistant professor
of neurology, plan to use a $1 million Challenge Grant to tackle the
daunting work of diagramming genetic connections in the brain that underlie
mental illnesses and disorders. Establishing a network diagram of the brain,
particularly one of genetic connectivity, is one of the major challenges of
modern neurobiology and medicine, according to Korenberg.

“Nowhere
is this need clearer than for the brain system controlling social behavior and
emotion, where dysregulation of circuitry has been implicated in the most
devastating mental illnesses, depression, schizophrenia and autism that
together affect more than 13 million Americans,” she said. “The tools we are
creating will provide insights into new drug targets to prevent, treat, and
ultimately cure mental illness.”

Other U
of U researchers are investigating projects with similar potential for
understanding disease and providing new treatments or cures. Those
investigators and the Challenge Grant project grants they received are listed
(grant totals are for two years, unless specified):

Skin Seal to Prevent Infections

• Roy D. Bloebaum, Ph.D.,
  research professor of orthopedics, received $495,918 (one year) to work on
  developing a skin seal to prevent infections where artificial limbs
  connect to the body. The lifetime health-care costs associated with
  replacement of prostheses for people who’ve lost one limb is $500,000,
  according to Blobeaum. With the establishment of infection-free
  skin seal, health-care costs could be significantly reduced and the lives
  of 1.7 million amputees could be improved immensely.

Pediatric Hydrocephalus

• John Kestle, M.D., professor of neurosurgery,
  received $994,700 to
  conduct comparative effectiveness research into treatments for pediatric
  hydrocephalus (fluid on the brain). Research into pediatric hydrocephalus
  largely has been conducted separately at individual medical centers.
  Kestle’s goal is to link numerous institutions researching the problem and
  determine the most efficacious ways to treat pediatric hydrocephalus,
  which results in an estimated 40,000 annual hospital admission and adds approximately
  $2 billion to the nation’s yearly health-care bill.

Colon Cancer

• Deborah Neklason, Ph.D., research associate professor
  in oncological sciences, and Randall W. Burt, M.D., professor of internal
  medicine, were awarded $998,700 for a project to develop a new approach to
  diagnose and understand how colon cancer develops and progresses. Burt
  will look at differences in the molecular messages in normal colon tissue
  from unaffected people and people with an inherited predisposition to
  colon cancer, and also investigate the differences in molecular messages
  when colon tissue starts to become cancerous. These differences will be the
  basis of a new diagnostic test and will identify important processes in
  cancer development that can be targeted with drugs for treatment.

Traumatic Brain Injury

• Raminder
  Nirula, M.D., MPH.,
  assistant professor of surgery, was awarded $980,750 for research to
  compare the efficacy of a decompressive craniectomy (removal of a bone
  flap in the skull to alleviate brain swelling) versus drug therapy in
  people with traumatic brain injury (TBI). An estimated 1.4 million
  people annually sustain a traumatic brain injury in the United States.
  Of these people, 50,000 die and 235,000 are hospitalized, leading to an
  estimated cost of $60 billion in direct medical costs and lost
  productivity.

Hearing Cell Regeneration

• Tatjana Piotrowski, Ph.D., assistant professor of
  neurobiology and anatomy, and Alejandro Sanchez Alvarado, Ph.D.,
  professor of neurobiology and anatomy and Howard Hughes Medical Institute investigator, received $825,309
  to study how a tiny tropical minnow called the zebrafish regenerates hearing
  cells (hair cells) after they are damaged or die. The two researchers plan to characterize
  the molecular and cellular interactions occurring during zebrafish hair cell
  regeneration, with the long-term goal of activating these pathways in mammals. Results
  from their studies will aid in the identification of stem cells in the
  mammalian ear and in the development of therapeutic strategies to regenerate
  hair cells in mammals.

Metabolic Disorders

• Carl S. Thummel,
  Ph.D., professor of human genetics and Howard Hughes Medical Institute
  investigator, was awarded $735,382 to study the fruit fly, also called Drosophila, as a simple model system to
  define how metabolism is regulated, with the goal of providing new directions
  for understanding and treating human metabolic disorders. Misregulation of
  metabolism can lead to obesity and type 2 diabetes, which are critical risk
  factors for human disease, including cardiovascular disorders and cancer.

Epilepsy Drugs

• John White, Ph.D.,
  professor of bioengineering and executive director of the University of Utah Brain
  Institute, and Karen Wilcox, Ph.D., associate professor of toxicology and
  pharmacology, received $923,787 to develop new ways of assessing drugs for
  temporal lobe epilepsy (TLE), a devastating disorder that is untreatable in
  some patients. White and Wilcox will use a groundbreaking imaging technique,
  called targeted path scanning (TPS), to search for underlying mechanisms of TLE
  and to study how proposed drug therapies interact with networks of neurons and
  cells thought to be involved in the disorder.

Inflammation, Blood Clots

• Guy A. Zimmerman, M.D.; Dean Y. Li, M.D., Ph.D.;
  and Andrew S. Weyrich, Ph.D., all professors of internal medicine, were awarded
  $997,001 to investigate a molecular pathway he and colleagues at the University
  have identified that influences blood clot formation and inflammation, which contribute
  directly to heart attack, stroke, sepsis (blood poisoning), acute lung injury,
  and a host of other devastating human disorders. The pathway the investigators
  plan to study is a potential target for new drug treatments, and his research also
  will provide new information on how clot formation and inflammation are
  controlled in health, and become uncontrolled and injurious in disease.