Category: Being a Scientist

Meet Galina Lepesheva

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Galina Lepesheva
Galina Lepesheva
Field: Biochemistry
Works at: Vanderbilt University, Nashville, TN
Born, raised and studied in: Belarus
To unwind, she: Reads, travels, spends time with her family

Galina Lepesheva knows that kissing bugs are anything but romantic. When the lights get low, these blood-sucking insects begin feasting—and defecating—on the faces of their sleeping victims. Their feces are often infected with a protozoan (a single-celled, eukaryotic parasite) called Trypanosoma cruzi that causes Chagas disease. Lepesheva has developed a compound that might be an effective treatment for Chagas. She has also tested the substance, called VNI, as a treatment for two related diseases—African sleeping sickness and leishmaniasis.

“This particular research is mainly driven by one notion: Why should people suffer from these terrible illnesses if there could be a relatively easy solution?” she says.

Lepesheva’s Findings

Currently, most cases of Chagas disease occur in rural parts of Mexico, Central America and South America. According to some estimates, up to 1 million people in the U.S. could have Chagas disease, and most of them don’t realize it. If left untreated, the infection is lifelong and can be deadly.

The initial, acute stage of the disease is usually mild and lasts 4 to 8 weeks. Then the disease goes dormant for a decade or two. In about one in three people, Chagas re-emerges in its life-threatening, chronic stage, which can affect the heart, digestive system or both. Once chronic Chagas disease develops, about 60 percent of people die from it within 2 years.

The Centers for Disease Control and Prevention (CDC) has targeted Chagas disease as one of five “neglected parasitic infections,” indicating that it warrants special public health action.

“Chagas disease does not attract much attention from pharmaceutical companies,” Lepesheva says. Right now, there are only two medicines to treat it. They are only available by special request from the CDC, aren’t always effective and can cause severe side effects.

Lepesheva’s research focuses on a particular enzyme, CYP51, that is the target of some anti-fungal medicines. If CYP51 can also act as an effective drug target for the parasites that cause Chagas, her work might help meet an important public health need.

CYP51 is found in all kingdoms of life. It helps produce molecules called sterols, which are essential for the development and viability of eukaryotic cells. Lepesheva and her colleagues are studying VNI and related compounds to examine whether they can block the activity of CYP51 in human pathogens such as protozoa, but do no harm to the enzyme in mammals. In other words, her goal is to cripple disease-causing organisms without creating side effects in infected humans or other mammals.

Lepesheva has tested the effectiveness of VNI on Chagas-infected mice. Remarkably, it has worked 100 percent of the time, curing both the acute and chronic stages of the disease. It acts by preventing the protozoan from establishing itself in the host’s body. If it is similarly effective in humans, VNI could become the first reliable treatment for Chagas disease.

Meet David Patterson

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David Patterson
David Patterson
Field: Psychology
Works at: University of Washington, Seattle
Alternative career: Full-time rock ‘n’ roll drummer
Hobbies: Part-time rock ‘n’ roll drummer (with his band, the Shrinking Heads)
Credit: Clare McLean, UW Medicine Strategic Marketing & Communications

The pain stemming from second- and third-degree burns is among the worst known. Throughout recovery, the intense, disabling pain patients feel can lead to sleeplessness, anxiety and depression.

David Patterson first entered a burn ward as a psychologist hoping to help patients cope with these issues. He saw patients refuse wound cleaning because of how painful it could be.

“I’ve learned how horribly difficult it is to control burn and trauma pain with medications alone,” he says. “The amount of pain people feel affects how well they adjust in the long term.” Pain and the mental, social and emotional problems it causes also hinder the body’s ability to heal physically.

Today, Patterson is committed to helping burn patients overcome pain, allowing their bodies—as well as their minds—to heal more efficiently. Using virtual reality (VR) technology, Patterson has found an effective complement to pain-relieving drugs such as morphine and other opioid analgesics.

Patterson’s Findings

“To be honest, for acute pain, you give someone a shot or a pill and it’s instant relief,” Patterson says. But opioid analgesics carry problems.  Sometimes patients don’t respond well to morphine or require high dosages that carry strong side effects.

When burn patients undergo routine wound care, the pain can be excruciating—as bad as or worse than the original burn incident. Realizing the brain can take only so many stimuli, Patterson collaborated with fellow UW psychologist Hunter Hoffman to experiment with VR in pain relief. When combined with minimal pain medications, VR is a powerful solution to acute pain. By providing a computer-generated reality—for example, an icy canyon filled with snowmen and Paul Simon’s music, as in the case of their creation SnowWorld—the patient’s eyes, ears and mind are so occupied that he or she can effectively ignore the pain.

Patterson and his team found that VR pain reduction strategies are as powerful as opioid analgesics, without the negative side effects. The technology doesn’t require specialized expertise and is getting progressively less expensive, making it economically attractive.  At least eight hospitals have adopted the methods as part of their clinical program, allowing Patterson an opportunity to conduct further studies on the long-term effects of using these complementary methods and the efficacy of the techniques on other kinds of pain.

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