Tag Archive for: neutrophil

Research & Innovation Campus

Virginia Tech, Children’s National Hospital award $100,000 to fund collaborative cancer research pilot projects

Research & Innovation Campus

This pilot research program represents a growing academic research partnership between Children’s National and Virginia Tech. Last year, the two institutions announced that Virginia Tech will establish a biomedical research facility on the Children’s National Research & Innovation Campus.

Children’s National Hospital and Virginia Tech have awarded two $50,000 one-year pilot grants to multi-institutional teams of scientists for pediatric brain cancer research.

The inter-institutional program, which launched in December, promotes cross-disciplinary collaborations among researchers at both institutions. At Virginia Tech, the program is part of the Virginia Tech Cancer Research Alliance. Financial support for the program was provided by the Offices of the Physician-in-Chief and Chief Academic Officer at Children’s National, and by Virginia Tech’s Office of the Vice President for Health Sciences and Technology.

“We were delighted to see so many innovative and competitive research proposals for our first round of pilot grants in the area of brain cancer. By forging new research collaborations with our partners at Children’s National, we hope to make major strides in addressing one of the most common and devastating groups of cancers in children,” said Michael Friedlander, Virginia Tech’s vice president for health sciences and technology, and the executive director of the Fralin Biomedical Research Institute at VTC. “The pilot funding will bootstrap several programs to be able to acquire ongoing sustainable funding by providing the opportunity to test novel high impact ideas for new strategies for treating these disorders. There are simply too few good options for children in this space now and this partnership can change that for the better.”

The collaborative research initiative began through an agreement between the Fralin Biomedical Research Institute and the Children’s National Research Institute. The collaborative teams formed through a series of interactive discussions among Virginia Tech’s Cancer Research Alliance faculty members from the university’s Blacksburg and Roanoke campuses, and Children’s National’s neuro-oncology researchers.

“I am extremely excited by this collaboration between VT and CNH that is focused on pediatric brain tumors which is such an area of unmet need,” said Catherine Bollard, M.D., M.B.Ch.B.,, director of Children’s National’s Center for Cancer and Immunology Research. “I am confident that the funded proposals will soon advance our understanding of pediatric brain tumors and, more importantly, facilitate more joint efforts between two world-class institutions which is especially timely with the development of the Children’s National Research & Innovation Campus.”

Yanxin Pei, Ph.D., an assistant professor in the Center for Cancer Immunology Research at Children’s National, and Liwu Li, Ph.D., a professor of biological sciences in Virginia Tech’s College of Science, were awarded one of the pilot research grants to study how white blood cells called neutrophils are involved in metastatic MYC-driven medulloblastoma, an aggressive type of brain tumor in children that often resists conventional radiation and chemotherapies.

Yuan Zhu, Ph.D., the Gilbert Family Professor of Neurofibromatosis Research at Children’s National, and Susan Campbell, Ph.D., an assistant professor of animal and poultry sciences in Virginia Tech’s College of Agriculture and Life Sciences, were awarded funds to study glioma-induced seizures in mice with a genetic mutation that inhibits the production of P53, a key protein involved in suppressing cancer cell growth and division.

The successful applicants will receive funding starting this month and are expected to deliver preliminary data to support an extramural research application by 2024.

This pilot research program represents a growing academic research partnership between Children’s National and Virginia Tech. Last year, the two institutions announced that Virginia Tech will establish a biomedical research facility on the Children’s National Research & Innovation Campus. It will be the first research and innovation campus in the nation focused on pediatrics when it opens later this year and will house newly recruited teams of pediatric brain cancer researchers.

Liwu Li, Yanxin Pei, Susan Campbell, and Yuan Zhu

Liwu Li, Ph.D., Yanxin Pei, Ph.D., Susan Campbell, Ph.D., and Yuan Zhu, Ph.D., were awarded funding through the new pilot research program.

ER Nurse

An unexpected discovery in a central line

ER Nurse

About a year and a half ago, a 6-year-old boy arrived at Children’s Emergency Department after accidently removing his own gastrointestinal feeding tube. He wasn’t a stranger to Children’s National Health System: This young patient had spent plenty of time at the hospital since birth. Diagnosed in infancy with an intestinal pseudo-obstruction, a rare condition in which his bowels acted as if there were a blockage even though one was not present, parts of his intestine died and had been removed through multiple surgeries.

Because of this issue and associated health problems, at 4 years old he had a central line placed in a large vein that leads to his heart. That replaced other central lines placed in his neck earlier after those repeatedly broke. This latest central line in his chest als0 had frequent breaks. It also had become infected with multidrug-resistant Klebsiella bacteria two years before he was treated at Children’s National for inadvertently removing his feeding tube.

On that day, he seemed otherwise well. His exam was relatively unremarkable, except for a small leak in his central line and a slight fever. Those findings triggered cultures taken both from blood flowing through his central line and the surrounding skin.

“No one expected him to grow anything from these cultures, especially from a child who looked so healthy,” explains Madan Kumar, a fellow in Children’s division of Pediatric Infectious Disease and a member of the child’s care team. But a mold grew prolifically. Further investigation from a sample sent to the National Institutes of Health showed that it was a relatively new species known as Mucor velutinosus.

Because such an infection had never been reported in a child whose immune system wasn’t extremely compromised from cancer, Kumar and team decided to publish a case report. The study appeared online Jan. 24, 2018, in the Journal of the Pediatric Infectious Diseases Society.

Kumar notes that this patient faced myriad challenges. Not only did he have a central line, but the line also had numerous problems, necessitating fixes that could increase the chance of infection. Additionally, because of his intestinal issues, he had a chronic problem with malabsorption of nutrients. Patients with this issue often are treated liberally with antibiotics. Although this intervention can kill “bad” bacteria that can cause an infection, they also knock out “good” bacteria that keep other microorganisms – like fungi – in check. On top of all of this, the patient was receiving a nutrient-rich formula in his central line to boost his caloric intake, yet another factor associated with infections.

Patients who develop this specific fungal infection are overwhelmingly adults who are immunocompromised, Kumar explains, including those with diabetes, transplant recipients, patients with cancer and those who have abnormally low concentrations of immune cells called neutrophils in their blood. The only children who tend to get this infection are preterm infants of very low birth weight who haven’t yet developed a robust immune response.

Because there was only one other published case report about a child with M. velutinosus – a 1-year-old with brain cancer who had undergone a bone marrow transplant – Kumar notes that he and colleagues were at a loss as to how best to treat their patient. “There’s a paucity of literature on what to do in a case like this,” he says.

Fortunately, the treatment they selected was successful. As soon as the cultures came back positive for this mold, the patient went on a three-week course of an antifungal drug known as amphotericin B. Surgeons also removed his infected central line and placed a new one. These efforts cured the patient’s infection and prevented it from spreading and potentially causing the multi-organ failure associated with these types of infections.

This case taught Kumar and colleagues quite a bit – knowledge that they wanted to share by publishing the case report. For example, it reinforces the importance of central line care. It also highlights the value of thoroughly investigating potential problems in a patient with risk factors, even one who appears otherwise healthy.

Finally, Kumar adds, the case emphasizes the importance of good antibiotic stewardship, which can help prevent patients from developing sometimes deadly secondary infections like this one. “This is not an organism that you see growing in a 6-year-old very often,” he says. “The fact that we saw it here speaks to the need to be judicious with broad-spectrum antibiotics so that we have a number of therapeutic options should we see unusual cases like this one.”