- Author: Kathy Keatley Garvey
Three University of California entomology professors were among the 10 newly elected Fellows of the Entomological Society of America (ESA) honored at the organization's 58th annual meeting, held Dec. 12-15 in San Diego.
Their selection speaks highly of the caliber of UC professors. No more than 10 Fellows are selected for the honor every year from the 6000-member organization, and this year the UC system has three.
They are Bruce Hammock and Thomas Scott of UC Davis and Thomas A. Miller of UC Riverside.
Hammock, a distinguished professor of entomology, studies "inhibitors of epoxide hydrolases as drugs to treat diabetes, inflammation, ischemia and cardiovascular disease," the ESA statement of his work reads. "Compounds from the UC Davis laboratory are in human trials."
That in itself--from bench to bedside--is unique in the annals of entomology.
Hammock, a member of the UC Davis Medical Center's Cancer Center and the National Academy of Sciences, is not only a distinguished professor but a highly sought-after mentor who draws students to his lab from all over the world.
Scott, who directs the UC Mosquito Research Laboratory at Davis, is one of the key "go-to" researchers studying dengue. When he's not in his UC Davis lab, you can usually find him doing research in Peru, Thailand or Mexico. Scott is especially known for his research on mosquito ecology, evolution of mosquito virus interactions, epidemiology of mosquito-borne disease, and evaluation of novel products and strategies for mosquito control and disease prevention.
Scott is a fellow of the American Association for the Advancement of Science and is a past president of the Society for Vector Ecology. He serves as a subject editor for the American Journal of Tropical Medicine and Hygiene. (More on Hammock and Scott on the UC Davis Department of Entomology website.)
ESA officials pointed out that Miller's research "has included structure and function of the insect circulatory system; mode of action of insecticides; insect neuromuscular physiology; physiology, toxicology and behavior of pink bollworm in cotton fields; transgenic insects; and applied symbiosis for crop protection and biopesticides for crop protection. "
Miller's university teaching includes insect physiology, insect toxicology and first year biology. Current projects include control of bush cricket pests of oil palm trees in Papua New Guinea, oversight of field trials of transgenic grapevines with resistance to Pierce's disease, biotechnology for control of desert locust, and regulatory control of insect transgenic technologies.
In 2003 Miller was awarded the Gregor J. Mendel Medal for Research in Biological Sciences by the Czech Academy of Sciences. That's just one of his many honors.
Indeed, the list of honors and accomplishments for these three UC entomologists could easily fill a book!
- Author: Kathy Keatley Garvey
His foe? The day-biting, tiger-striped mosquito, Aedes aegypti. It transmits a virus that causes dengue, sometimes called "break-bone fever."
It's the world’s worst insect-transmitted virus.
And it's on the rise.
Noted science writer Carl Zimmer, former senior editor of Discover who now lectures at Yale University, recently interviewed Scott for his blog and podcast, posted on the Discover website.
"Spread by mosquitoes, it can make you feel as if your bones are broken and leave you exhausted for months," writes Zimmer, who teaches Yale University students how to write about science and the environment. "In more serious cases, people suffer uncontrollable bleeding and sometimes die. Dengue is expanding its range, and is even making incursions into the United States. Scott and I talk about what scientists know and don't know yet about dengue, and what the best strategy will be to drive the virus down."
When Scott leaves his mosquito research laboratory at UC Davis, he’s likely heading for his field stations in Peru, Thailand or Mexico to try to stop that killer mosquito from transmitting dengue.
Scott’s goal: to save lives through research, surveillance and implementation of disease prevention strategies.
“I study the patterns of human infection with dengue virus, doing detailed studies of mosquito populations and disease in humans in order to predict which prevention strategies work the best,” said Scott, who assesses risks, develops computer models and implements disease prevention strategies.
The culprit: Aedes aegypti, or the yellow-fever mosquito, that transmits dengue virus to people.
The disease: Dengue, caused by any one of four serotypes or closely related viruses known as DEN-1, DEN-2, DEN-3, or DEN-4. Nicknamed “break-bone fever,” classic dengue is characterized by high fever, headaches, muscle and joint pain, nausea, vomiting and a rash.
At risk: Some 2.5 to 3 billion people, primarily in tropical and sub-tropical countries around the world.
The prevalence: Some 50 to 100 million annual cases of debilitating dengue fever. The most severe form of the disease, dengue haemorrhagic fever (DHF), strikes half a million a year, according to the Centers for Disease Control and Prevention. An estimated 5 percent with DHF die.
There’s no vaccine. There’s no cure. The only way to prevent this disease is to kill the mosquito vector.
Scott directs the state-funded UC Mosquito Research Laboratory, based in Briggs Hall on the UC Davis campus. His team includes UC Davis associate professor and medical entomologist Anthony “Anton” Cornel, based at the Kearney Agricultural Center, Parlier; researcher Amy Morrison who lives in Iquitos, Peru and has directed their research there since 1999; program manager Leslie Sandburg; postdoctoral and graduate students; and a long list of collaborators at his field sites in Mexico, Peru and Thailand.
Listen to the podcast and learn how Thomas Scott (who at 6-foot, 6 inches tall, towers over his tiny foe) is battling this killer.
(Editor's note: Professor Scott will be teaching a winter course on medical entomology at UC Davis, discussing such diseases as malaria, dengue, West Nile virus, lyme disease, yellow fever, and river blindness.)
- Author: Kathy Keatley Garvey
The Entomological Society of America this morning announced the 2010 Fellows. Each year the governing board can elect up to 10 members as Fellows of the 6000-member society.
The highly prestigious honor acknowledges outstanding contributions in one or more of the following: research, teaching, extension, or administration.
This year...drum roll...three UC professors were among the 10 selected: Bruce Hammock and Thomas Scott of UC Davis and Thomas Miller of UC Riverside.
They will be inducted as Fellows at the ESA’s annual meeting, to be held Dec. 12-15 in San Diego.
Hammock and his laboratory are exploiting inhibitors of epoxide hydrolases as drugs to treat diabetes, inflammation, ischemia, and cardiovascular disease. Compounds from the UC Davis laboratory are in human trials.
Diabetes, arthritis and heart patients are closely following his research.
Scott’s research focuses on mosquito ecology, evolution of mosquito-virus interactions, epidemiology of mosquito-borne disease, and evaluation of novel products and strategies for mosquito control and disease prevention.
He's a noted authority on the mosquito-borne disease, dengue.
Current projects include control of bush cricket pests of oil palm trees in Papua New Guinea, oversight of field trials of transgenic grapevines with resistance to Pierce's disease, biotechnology for control of desert locust, and regulatory control of insect transgenic technologies.
These three entomologists have published widely--Hammock alone has 763 peer-reviewed publications.
Indeed, their accomplishments could fill several books.
Read more about Bruce Hammock and Thomas Scott on the UC Davis Department of Entomology website, and about Thomas Miller on the UC Riverside website.
- Author: Kathy Keatley Garvey
UC Davis medical entomologist Thomas Scott is mentioned in "The War on Dengue Fever," a news article published Nov. 3, 2008 in the New York Times.
Scott is a leading expert on dengue fever, a mosquito-borne disease transmitted by Aeges egypti.
Reporter Thomas Fuller began his story:
BANGKOK — There was little that doctors could do for a 3-year-old boy brought to Bangkok’s main children’s hospital two weeks ago with dengue fever. Like thousands before him, he had reached the most dangerous phase of the disease, dengue shock syndrome, and he died of internal bleeding and organ failure three days after being admitted.
The U.S. Army maintains a medical research laboratory in Bangkok, where military scientists study tropical diseases. One of their goals: to develop a vaccine for dengue.
Here's where Scott comes in:
"The mosquito can breed in something as small as a soda bottle, but its ideal breeding conditions are large containers common in many parts of Southeast Asia to store drinking water," Fuller wrote. "(Unlike other mosquitoes, Aedes aegypti prefers clean water, according to Thomas W. Scott, a professor at the University of California, Davis, who is a leading expert on the species.)"
We wrote about researcher Scott's work in July: On the Trail of Dengue: A Disease with No Vaccine, No Cure.
Scott's goal is to save lives through research, surveillance and implementation of disease prevention strategies. He maintains field stations in Peru, Mexico and Thailand.
He's studying "the patterns of human infection with dengue virus, doing detailed studies of mosquito populations and disease in humans in order to predict which prevention strategies work the best."
Basically, Scott assesses risks, develops computer models and implements disease prevention strategies.
Briefly:
The culprit: Aedes egypti, or the yellow-fever mosquito, that transmits dengue virus to people.
The disease: Dengue, caused by any one of four serotypes or closely related viruses known as DEN-1, DEN-2, DEN-3, or DEN-4. Nicknamed “break bone fever,” classic dengue is characterized by high fever, headaches, muscle and joint pain, nausea, vomiting and a rash.
The prevalence: Some 50 to 100 million annual cases of debilitating dengue fever. The most severe form of the disease, dengue haemorrhagic fever (DHF), strikes half a million a year, according to the Centers for Disease Control and Prevention (CDC). An estimated 5 percent with DHF die.
The CDC says dengue outbreaks occur in most tropical urban areas of the world where the Aedes egypti lives.
In the United States, dengue is rare. Occasionally travelers to infected areas return with the disease.
Now the Armed Forces Research Institute of Medical Sciences, Bangkok, is attempting to develop a vaccine for dengue. As New York Times reporter Thomas Fuller wrote, quoting Col. James Boles, the laboratory commander: "There's no dengue in Kansas. No malaria, either. That's why we are here."
And that's why medical entomologists like Thomas Scott are here, too.
- Author: Kathy Keatley Garvey
What's medical entomolology?
Anyone who's an entomologist or who works in entomology is asked that question periodically. Medical, they know. Entomology? Often not. But medical entomology?
Well, it's the study of relationships among arthorpods, microbial pathogens and human health, according to medical entomologist Thomas Scott, professor of entomology at UC Davis.
Scott teaches courses on medical entomology. His next one: the 2009 winter quarter, Jan. 5 through March 16.
Worldwide, Scott says, arthropod-borne diseases have devastating effects on human health; they are a leading cause of human morbidity and mortality.
In his course, he explains the basic biology of medically important arthropods and the pathogens they transmit. The diseases include malaria, dengue fever, yellow fever, West Nile virus, Lyme disease and River Blindness.
Scott, a noted mosquito-borne disease expert and newly elected fellow of the prestigious American Association for the Advancement of Science (for "distinguished contributions to the biology and ecology of mosquitoes and his leadership in developing strategic concepts for preventing dengue fever and other mosquito-borne diseases”) does research from his mosquito research laboratory at UC Davis and at field stations in Peru, Thailand and Mexico.
In January, Scott hosted the 42nd annual U.S.-Japan Parasitic Disease Conference on the UC Davis campus. Some 100 scientists from throughout the world participated in the three-day conference "to develop a cross-cutting perspective on what the priorities should be for the future research on arthropod vectors of disease," he explained.
With new and emerging diseases, increasing national and international travel, settlement in endemic areas, and the proliferation of commerce, we can expect disease from vector-borne pathogens to increase, Scott says.
It's obvious what we need less of (diseases) and what we need more of (medical entomologists).