inhaler

Keeping kids with asthma out of the hospital

inhaler

Pediatric asthma takes a heavy toll on patients and families alike. Affecting more than 7 million children in the U.S., it’s the most common nonsurgical diagnosis for pediatric hospital admission, with costs of more than $570 million annually. Understanding how to care for these young patients has significantly improved in the last several decades, leading the National Institutes of Health (NIH) to issue evidence-based guidelines on pediatric asthma in 1990. Despite knowing more about this respiratory ailment, overall morbidity – measured by attack rates, pediatric emergency department visits or hospitalizations – has not decreased over the last decade.

“We know how to effectively treat pediatric asthma,” says Kavita Parikh, M.D., M.S.H.S., a pediatric hospitalist at Children’s National Health System. “There’s been a huge investment in terms of quality improvements that’s reflected in how many papers there are about this topic in the literature.”

However, Dr. Parikh notes, most of those quality-improvement papers do not focus on inpatient discharge, a particularly vulnerable time for patients. Up to 40 percent of children who are hospitalized for asthma-related concerns come back through the emergency department within one year. One-quarter of those kids are readmitted.

“It’s clear that we need to do better at keeping kids with asthma out of the hospital. The point at which they’re being discharged might be an effective time to intervene,” Dr. Parikh adds.

To determine which interventions hold promise, Dr. Parikh and colleagues recently performed a systematic review of studies involving quality improvements after inpatient discharge. They published their findings in the May 2018 edition of the journal, Pediatrics. Because May is National Asthma and Allergy Awareness month, she adds, it’s a timely fit.

The researchers combed the literature, looking for research that tested various interventions at the point of discharge for their effect on hospital readmission anywhere from fewer than 30 days after discharge to up to one year later. They specifically searched for papers published from 1991, the year after the NIH issued its original asthma care guidelines, until November 2016.

Their search netted 30 articles that met these criteria. A more thorough review of each of these studies revealed common themes to interventions implemented at discharge:

  • Nine studies focused on standardization of care, such as introducing or revising a specific clinical pathway
  • Nine studies focused on education, such as teaching patients and their families better self-management strategies
  • Five studies focused on tools for discharge planning, such as ensuring kids had medications in-hand at the time of discharge or assigning a case manager to navigate barriers to care and
  • Seven studies looked at the effect of multimodal interventions that combined any of these themes.

When Dr. Parikh and colleagues examined the effects of each type of intervention on hospital readmission, they came to a stunning conclusion: No single category of intervention seemed to have any effect. Only multimodal interventions that combined multiple categories were effective at reducing the risk of readmission between 30 days and one year after initial discharge.

“It’s indicative of what we have personally seen in quality-improvement efforts here at Children’s National,” Dr. Parikh says. “With a complex condition like asthma, it’s difficult for a single change in how this disease is managed to make a big difference. We need complex and multimodal programs to improve pediatric asthma outcomes, particularly when there’s a transfer of care like when patients are discharged and return home.”

One intervention that showed promise in their qualitative analysis of these studies, Dr. Parikh adds, is ensuring patients are discharged with medications in hand—a strategy that also has been examined at Children’s National. In Children’s focus groups, patients and their families have spoken about how having medications with them when they leave the hospital can boost compliance in taking them and avoid difficulties is getting to an outside pharmacy after discharge. Sometimes, they have said, the chaos of returning home can stymie efforts to stay on track with care, despite their best efforts. Anything that can ease that burden may help improve outcomes, Dr. Parikh says.

“We’re going to need to try many different strategies to reduce readmission rates, engaging different stakeholders in the inpatient and outpatient side,” she adds. “There’s a lot of room for improvement.”

In addition to Dr. Parikh, study co-authors include Susan Keller, MLS, MS-HIT, Children’s National; and Shawn Ralston, M.D., M.Sc., Children’s Hospital of Dartmouth-Hitchcock.

Funding for this work was provided by the Agency for Healthcare Research and Quality (AHRQ) under grant K08HS024554. The content is solely the responsibility of the authors and does not necessarily represent the official views of AHRQ.

Research and Education Week awardees embody the diverse power of innovation

cnmc-research-education-week

“Diversity powers innovation” was brought to life at Children’s National April 16 to 20, 2018, during the eighth annual Research and Education Week. Children’s faculty were honored as President’s Award winners and for exhibiting outstanding mentorship, while more than 360 scientific poster presentations were displayed throughout the Main Atrium.

Two clinical researchers received Mentorship Awards for excellence in fostering the development of junior faculty. Lauren Kenworthy, Ph.D received the award for Translational Science and Murray M. Pollack, M.D., M.B.A., was recognized in the Clinical Science category as part of Children’s National Health System’s Research and Education Week 2018.

Dr. Kenworthy has devoted her career to improving the lives of people on the autism spectrum and was cited by former mentees as an inspirational and tireless counselor. Her mentorship led to promising new lines of research investigating methods for engaging culturally diverse families in autism studies, as well as the impact of dual language exposure on cognition in autism.

Meanwhile, Dr. Pollack was honored for his enduring focus on motivating early-career professionals to investigate outcomes in pediatric critical care, emergency medicine and neonatology. Dr. Pollack is one of the founders of the Collaborative Pediatric Critical Care Research Network. He developed PRISM 1 and 2, which has revolutionized pediatric intensive care by providing a methodology to predict mortality and outcome using standardly collected clinical data. Mentees credit Dr. Pollack with helping them develop critical thinking skills and encouraging them to address creativity and focus in their research agenda.

In addition to the Mentorship and President’s Awards, 34 other Children’s National faculty, residents, interns and research staff were among the winners of Poster Presentation awards. The event is a celebration of the commitment to improving pediatric health in the form of education, research, scholarship and innovation that occurs every day at Children’s National.

Children’s Research Institute (CRI) served as host for the week’s events to showcase the breadth of research and education programs occurring within the entire health system, along with the rich demographic and cultural origins of the teams that make up Children’s National. The lineup of events included scientific poster presentations, as well as a full slate of guest lectures, educational workshops and panel discussions.

“It’s critical that we provide pathways for young people of all backgrounds to pursue careers in science and medicine,” says Vittorio Gallo, Ph.D., Children’s chief research officer and CRI’s scientific director. “In an accelerated global research and health care environment, internationalization of innovation requires an understanding of cultural diversity and inclusion of different mindsets and broader spectrums of perspectives and expertise from a wide range of networks,” Gallo adds.

“Here at Children’s National we want our current and future clinician-researchers to reflect the patients we serve, which is why our emphasis this year was on harnessing diversity and inclusion as tools to power innovation,” says Mark L. Batshaw, M.D., physician-in-chief and chief academic officer of Children’s National.

“Research and Education Week 2018 presented a perfect opportunity to celebrate the work of our diverse research, education and care teams, who have come together to find innovative solutions by working with local, national and international partners. This event highlights the ingenuity and inspiration that our researchers contribute to our mission of healing children,” Dr. Batshaw concludes.

Awards for the best posters were distributed according to the following categories:

  • Basic and translational science
  • Quality and performance improvement
  • Clinical research
  • Community-based research and
  • Education, training and program development.

Each winner illustrated promising advances in the development of new therapies, diagnostics and medical devices.

Diversity powers innovation: Denice Cora-Bramble, M.D., MBA
Diversity powers innovation: Vittorio Gallo, Ph.D.
Diversity powers innovation: Mark L. Batshaw, M.D.

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.”

STAT Madness

Voters select Children’s National innovation as runner-up in national competition

STAT Madness

Facial recognition technology developed and tested by researchers with the Sheikh Zayed Institute for Pediatric Surgical Innovation and Rare Disease Institute at Children’s National was the runner-up in this year’s STAT Madness 2018 competition.

Facial recognition technology developed and tested by researchers with the Sheikh Zayed Institute for Pediatric Surgical Innovation and Rare Disease Institute at Children’s National was the runner up in this year’s STAT Madness 2018 competition. Garnering more than 33,000 overall votes in the bracket-style battle that highlights the best biomedical advances, the Children’s National entry survived five rounds and made it to the championship before falling short of East Carolina University’s overall vote count.

Children’s entry demonstrates the potential widespread utility of digital dysmorphology technology to diverse populations with genetic conditions. The tool enables doctors and clinicians to identify children with genetic conditions earlier by simply taking the child’s photo with a smartphone and having it entered into a global database for computer analyses.

The researchers partnered with the National Institutes of Health National Human Genome Research Institute and clinicians from 20 different countries to acquire pictures from local doctors for the study. Using the facial analysis technology, they compared groups of Caucasians, Africans, Asians and Latin Americans with Down syndrome, 22q11.2 deletion syndrome (also called DiGeorge syndrome) and Noonan syndrome to those without it. Based on more than 125 individual facial features, they were able to correctly identify patients with the condition from each ethnic group with more than a 93 percent accuracy rate. Missed diagnoses of genetic conditions can negatively impact quality of life and lead to premature death.

Children’s National also was among four “Editor’s Pick” finalists, entries that span a diverse range of scientific disciplines. Journalists at the digital publication STAT pored through published journal articles for 64 submissions in the single-elimination contest to honor a select group of entries that were the most creative, novel, and most likely to benefit the biomedical field and the general public.

Each year, 1 million children are born worldwide with a genetic condition that requires immediate attention. Because many of these children experience serious medical complications and go on to suffer from intellectual disability, it is critical that doctors accurately diagnose genetic syndromes as early as possible.

“For years, research groups have viewed facial recognition technology as a potent tool to aid genetic diagnosis. Our project is unique because it offers the expertise of a virtual geneticist to general health care providers located anywhere in the world,” says Marius George Linguraru, D.Phil., M.A., M.S., a Sheikh Zayed Institute for Pediatric Surgical Innovation principal investigator who invented the technology. “Right now, children born in under-resourced regions of the U.S. or the world can wait years to receive an accurate diagnosis due to the lack of specialized genetic expertise in that region.”

In addition to providing patient-specific benefits, Marshall Summar, M.D., director of Children’s Rare Disease Institute that partners in the facial recognition technology research, says the project offers a wider societal benefit.

“Right now, parents can endure a seemingly endless odyssey as they struggle to understand why their child is different from peers,” says Dr. Summar. “A timely genetic diagnosis can dispel that uncertainty and replace it with knowledge that can speed patient triage and deliver timely medical interventions.”

baby in arms

Breast-feeding, anesthesia and analgesics: What’s safe?

baby in arms

Breast-feeding is safe even just after moms have woken from anesthesia or while they take most pain medications, says Sarah Reece-Stremtan, M.D., lead author of an expanded protocol about the topic.

Moms can safely continue breast-feeding even just after waking from anesthesia and while taking most pain medications, according to a newly expanded clinical guidance, “Clinical Protocol No. 15: Analgesia and Anesthesia for the Breastfeeding Mother,” from the Academy of Breastfeeding Medicine (ABM).

In general, mothers who are beyond the postpartum stage do not need to avoid breast-feeding or to pump and discard breast milk while taking analgesics or receiving local or general anesthesia. The protocol was published in the journal Breastfeeding Medicine.

Sarah Reece-Stremtan, M.D., an anesthesiologist and acute pain medicine specialist at Children’s National Health System, co-chairs ABM’s protocol committee and is the lead author of the expanded protocol. A specialist in the intersection of anesthesia, pain medicine and breast-feeding medicine, Dr. Reece-Stremtan led the drafting of the recommendations.

“The key recommendation in this protocol is after waking up from anesthesia, most moms can breast-feed right away,” says Dr. Reece-Stremtan. “The standard thinking has been ‘pump and dump’ – discarding the breast milk for 24 hours after anesthesia. As an outdated practice, it is not evidence-based and is potentially harmful for babies. The evidence shows that this breast milk is safe.”

The authors’ main note of caution relates to opioids: “The most concerning class of medications used for anesthesia and analgesia in breast-feeding mothers is opioids, as these medications transfer into breast milk,” they write. “Judicious use of opioids for short periods is likely to be safe for most breast-feeding mothers and infants.”

The protocol recommendations cover pain medications, brief procedures, regional and general anesthesia and perioperative considerations. They provide more granular detail about specific anesthesia and analgesic agents.

For each recommendation, the protocol notes the strength or weakness of the evidence base. The authors note there is little rigorous information in the scientific literature about anesthesia or procedural sedation in breast-feeding mothers.

“For obvious reasons, it is unethical to conduct randomized, controlled clinical trials for this area, so we rely on expert opinion and on observational studies that do exist,” says Dr. Reece-Stremtan.

The protocol is intended to be relevant to a broad range of medical fields, from anesthesiology to general pediatrics, and to help any physician who may care for a new mother.

For instance, it includes a perioperative plan with suggestions that surgeons or physicians can share with their patients to make things easier for a breast-feeding mom who needs local or general anesthesia – and safer for their babies. “It’s important to acknowledge that medication isn’t the only or even the most important thing,” says Dr. Reece-Stremtan. Tips to aid breast-feeding can ease the minds of mothers and their physicians alike.

Dr. Reece-Stremtan has long been interested in breast-feeding and has seen a need for more education about where her areas of expertise, pediatric anesthesia and pain medicine, intersect. Few physicians specialize in this area, so she often gives talks to other clinicians on the topic.

“I know that most anesthesiologists do not encounter this scenario often, so many have questions about the impact of anesthesia agents on breast-feeding,” says Dr. Reece-Stremtan. “Likewise, general pediatricians, neonatal specialists and other health professionals who care for moms and newborns may have limited knowledge about the safety of pain medicine or anesthesia for breast-feeding infants.”

In developing this new set of recommendations, ABM’s protocol committee aimed to provide practical clinical guidance for two scenarios: Postpartum, and moms and babies who are past that stage. The committee divided a previous ABM protocol into these two areas and expanded them to offer clinicians more complete guidance that is clinically relevant yet concise. Dr. Reece-Stremtan attributes this expansion to a growing appreciation of the importance of breast-feeding to both individual and public health. She is helping to finalize ABM’s new birth-postpartum protocol on anesthesia and analgesics, which will be published in early 2018.

To build on these protocols, Dr. Reece-Stremtan is helping the Academy develop a set of free patient education materials that will inform mothers about the use of pain medications or the need for anesthesia while breast-feeding, so they can feel at ease that they are doing the best thing for their baby’s health.

Kavita Parikh

Discharge strategies to prevent asthma readmissions

“Improving how we care for children who are hospitalized with asthma includes preparing them for a successful return home with the best tools to manage their illness and prevent a future hospital visit,” says Kavita Parikh, M.D., M.S.H.S.

Readmission rates at three months for kids hospitalized for acute asthma dropped when families received comprehensive education prior to discharge, the only single component of discharge bundles that was strongly associated with lowered readmissions, finds a multicenter retrospective cohort study published online Feb. 1, 2018, in The Journal of Pediatrics.

According to the Centers for Disease Control and Prevention, asthma is the most common chronic lung disease of childhood, affecting roughly 6 million U.S. children. Hospitalization for asthma accounts for $1.5 billion in annual hospital charges and represents almost one-third of childhood asthma costs.

Children who are hospitalized for asthma have a roughly 20 percent chance of returning to the hospital in the next year, and individual hospital readmission rates can range from 5.7 percent to 9.1 percent at three months, writes the study team. While the National Institutes of Health (NIH) has published evidence-based guidelines for discharge planning, there is no single, standardized asthma discharge process used across all pediatric hospitals in the U.S. that impacts 30-day readmission rates.

“Improving how we care for children who are hospitalized with asthma includes preparing them for a successful return home with the best tools to manage their illness and prevent a future hospital visit,” says Kavita Parikh, M.D., M.S.H.S., an associate professor of pediatrics at Children’s National Health System and lead study author. “Our study underscores the importance of increasing the intensity of select discharge components. For example, ensuring that children hospitalized for asthma receive asthma medication at discharge along with comprehensive education and environmental mitigation may reduce asthma readmissions.”

The study team analyzed records from a national sample of tertiary care children’s hospitals, looking at hospitalizations of 5- to 17-year-olds for acute asthma exacerbation during the 2015 calendar year. They characterized how frequently hospitals used 13 separate asthma discharge components by distributing an electronic survey to quality leaders. Forty-five of 49 hospitals (92 percent) completed the survey.

The 45 hospitals recorded a median of 349 asthma discharges per year and had a median adjusted readmission rate of 2.6 percent at 30 days and a 6.6 percent median adjusted readmission rate at three months. The most commonly used discharge components employed for children with asthma were having a dedicated person providing education (76 percent), providing a spacer at discharge (67 percent) and communicating with a primary medical doctor (58 percent).

Discharge components that were trending toward reduced readmission rates at three months include:

  • Comprehensive asthma education, including having dedicated asthma educators
  • Medications and devices provided to patients at discharge, such as spacers, beta-agonists, controller medication and oral steroids
  • Communication and scheduled appointments with a primary medical doctor
  • Post-discharge activities, including home visits and referrals for environmental mitigation programs.

“In addition to being aligned with NIH asthma recommendations, connecting the family with a primary care provider after discharge helps to improve patients’ timely access to care if symptoms recur when they return home,” Dr. Parikh adds. “Bundling these discharge components may offer multiple opportunities to educate patients and families and to employ a range of communication styles such as didactic, visual and interactive.”

Study co-authors include Matt Hall, Ph.D., Children’s Hospital Association; Chén C. Kenyon, M.D., M.S.H.P., The Children’s Hospital of Philadelphia; Ronald J. Teufel II, M.D., M.S.C.R., Medical University of South Carolina; Grant M. Mussman, M.D., M.H.S.A. and Samir S. Shah, M.D., M.S.C.E., Cincinnati Children’s Hospital Medical Center; Amanda Montalbano, M.D., M.P.H., Children’s Mercy; Jessica Gold, M.D., M.S., Lucile Packard Children’s Hospital Stanford; James W. Antoon, M.D., Children’s Hospital; Anupama Subramony, M.D., Cohen Children’s Medical Center; Vineeta Mittal, M.D., M.B.A. and Rustin B. Morse, M.D., Children’s Health; and Karen M. Wilson, M.D., M.P.H., Icahn School of Medicine at Mount Sinai.

Research reported in this post was supported by the Agency for Healthcare Research and Quality, K08HS024554.

NPosnack-Heart-image

NIH funding to improve devices and safeguard cardiovascular health

Nearly 15 million blood transfusions are performed each year in the U.S., and pediatric patients alone receive roughly 425,000 transfused units. Endocrine-disrupting chemicals, such as bisphenol A and di-2-ethylhexyl-phthalate (DEHP), can leach from some plastic devices used in such transfusions. However, it remains unclear how many complications following a transfusion can be attributed to the interplay between local and systemic reactions to these chemical contaminants.

NPosnack-Heart-image

Top: Live, excised heart that is being perfused with a crystalloid buffer via the aorta. The heart is stained with a voltage-sensitive fluorescent dye, which is excited by an LED light source. Bottom, right: Cardiac action potentials are optically mapped across the epicardial surface in real-time by monitoring changes in the fluorescence signal that are proportional to changes in transmembrane voltage. Bottom, left: An activation map (middle) depicts the speed of electrical conduction across the heart surface. Credit: Rafael Jaimes, Ph.D.; Luther Swift, Ph.D.; Manelle Ramadan, B.S.; Bryan Siegel, M.D.; James Hiebert, B.S., all of Children’s National Health System; and Daniel McInerney, student at The George Washington University.

The National Heart, Lung and Blood Institute within the National Institutes of Health has awarded a $3.4 million, five-year grant to Nikki Gillum Posnack, Ph.D., assistant professor at the Children’s National Heart Institute within the Sheikh Zayed Institute for Pediatric Surgical Innovation (SZI) at Children’s National Health System, to answer that question and to provide insights that could accelerate development of safer biomaterials.

According to the Food and Drug Administration, patients who are undergoing IV therapy, blood transfusion, cardiopulmonary bypass or extracorporeal membrane oxygenation or who receive nutrition through feeding support tubes have the potential to be exposed to DEHP.

Posnack led a recent study that found that an experimental model exposed to DEHP experienced altered autonomic regulation, heart rate variability and cardiovascular reactivity and reported the findings Nov. 6, 2017, in the American Journal of Physiology. The pre-clinical model study is the first to show such an association between phthalate chemicals used in everyday medical devices like IV tubing and cardiovascular health.

In the follow-on research, Posnack and colleagues will:

  • Use in vivo and whole heart models to define the extent to which biomaterial leaching and chemical exposure alters cardiovascular and autonomic function in experimental models
  • Determine whether biocompatibility and incidental chemical exposure are linked to cardiovascular and autonomic abnormalities experienced by pediatric patients post transfusion
  • Compare and contrast alternative biomaterials, chemicals and manufacturing techniques to identify safer transfusion device options.

“Ultimately, we hope to strengthen the evidence base used to inform decisions by the scientific, medical and regulatory communities about whether chemical additives that have endocrine-disrupting properties should be used to manufacture medical devices,” Posnack says. “Our findings also will highlight incentives that could accelerate development of alternative biomaterials, additives and fabrication techniques to improve safety for patients undergoing transfusion.”

Nikki Gillum Posnack

Experimental model study links phthalates and cardiovascular health

Nikki Gillum Posnack

“Because phthalate chemicals are known to migrate out of plastic products, our study highlights the importance of adopting safer materials, chemical additives and/or surface coatings for use in medical devices to reduce the risk of inadvertent exposure,” explains study senior author Nikki Gillum Posnack, Ph.D.

An experimental model exposed to di-2-ethylhexyl-phthalate (DEHP), a chemical that can leach from plastic-based medical devices, experienced altered autonomic regulation, heart rate variability and cardiovascular reactivity, according to a study published online Nov. 6, 2017 by the American Journal of Physiology. The pre-clinical model study is the first to show such an association between phthalate chemicals used in everyday medical devices like IV tubing and cardiovascular health.

“Plastics have revolutionized medical devices, transformed how we treat blood-based diseases and helped to make innovative cardiology procedures possible,” says Nikki Gillum Posnack, Ph.D., study senior author and assistant professor at the Children’s National Heart Institute within the Sheikh Zayed Institute for Pediatric Surgical Innovation (SZI) at Children’s National Health System. “Because phthalate chemicals are known to migrate out of plastic products, our study highlights the importance of adopting safer materials, chemical additives and/or surface coatings for use in medical devices to reduce the risk of inadvertent exposure.”

According to the Food and Drug Administration, patients who are undergoing IV therapy, blood transfusion, cardiopulmonary bypass or extracorporeal membrane oxygenation or who receive nutrition through feeding support tubes have the potential to be exposed to DEHP.

Patients undergoing extensive interventions to save their lives may be exposed to multiple plastic-based devices that supply oxygen and nutrition or that pump newly oxygenated blood to oxygen-starved organs.

“These interventions keep very fragile kids alive. What’s most important is getting patients the care they need when they need it,” Posnack says. “In the biomaterials field, our ultimate goal is to reduce inadvertent risks to patients that can result from contact with plastic products by identifying replacement materials or safer coatings to lower overall risk.”

In order to assess the safety of phthalate chemicals used in such medical devices, the Children’s-led research team implanted adult experimental models with radiofrequency transmitters that monitored their heart rate variability, blood pressure and autonomic regulation. Then, they exposed the experimental models to DEHP, a softener used in making the plastic polymer, polyvinyl chloride, flexible.

DEHP-treated pre-clinical models had decreased heart rate variability with lower-than-normal variation in the intervals between heart beats. The experimental models also showed an exaggerated mean arterial pressure response to ganglionic blockade. And in response to a stressor, the experimental models in the treatment group displayed enhanced cardiovascular reactivity as well as prolonged blood pressure recovery, according to the study team.

“The autonomic nervous system is a part of the nervous system that automatically regulates such essential functions as blood pressure and breathing rate without any conscious effort by the individual,” Posnack adds. “Because alterations in the autonomic balance provide an early warning sign of trouble – before symptoms of hypertension or atherosclerosis manifest – our findings underscore the importance of additional studies to explore the potential impact of phthalate chemicals on organ function.”

Billie Lou Short, M.D., chief of Children’s Division of Neonatology, called the paper an “important study” that builds on a foundation laid in the late 199os by Children’s researchers who were the first to show that plasticizers migrated from tubing in the extracorporeal membrane oxygenation (ECMO) circuit. Children’s researchers also led a study published in 2004 that evaluated the effect of plasticizers on the human reproductive system. A small number of adolescents who had undergone ECMO as newborns did not experience the complications that had been seen in in experimental models, Dr. Short says.

Posnack’s study co-authors include Rafael Jaimes III, Ph.D., SZI staff scientist; Meredith Sherman, SZI research technician; and Adam Swiercz, Narine Muselimyan and Paul J. Marvar, all of The George Washington University.

Rahul Shah

A big transformation starting with small changes from within

Rahul Shah

“It was novel and exciting to see managers, chiefs, and even front-line staff identify potential ‘projects’ that could potentially fall under this work,” said . Rahul Shah, M.D., Vice President and Chief Quality & Safety Officer. “The change, as the executive leadership hoped, was organic and recognized a true cultural shift.”

Like many health care systems, Children’s National realizes that in order to provide top care to patients, the hospital and health system have to constantly evolve. In 2013, across the country, the importance of a strong safety and quality program were growing and the organization’s executive leadership made it a key priority to deliver the best care and follow best practices to ensure that we were driving value in healthcare. Children’s National embarked on a long-term journey, known as Transformation 2018, that would ultimately prove successful in improving quality of care while reducing costs across the hospital system.

When starting this initiative, the leaders at Children’s realized that in order to successfully transition from volume-based to value-based care, the change had to occur organically – in other words, led by our own internal teams. Continuously striving to be on the forefront of quality and safety innovation, Children’s National has always valued a culture that empowers staff at all levels to be part of transformations, and this initiative was no different. Rahul Shah, M.D., Vice President and Chief Quality & Safety Officer, and Linda Talley, R.N., Vice President and Chief Nursing Officer, would lead the effort.

Rather than setting their sights on first targeting populations of patients, as is common practice, the team aimed to make an impact at a more micro level by focusing on particular diseases or diagnoses. This strategy allowed the initiative to start on a small scale and involve staff in numerous divisions across the health system, which would eventually pave the way for bolder and broader population health initiatives.

By integrating changes through individual initiatives, Children’s National achieved a combination of quality and cost savings in a number of disease areas, including autism, testicular torsion, idiopathic posterior spinal fusion and sickle cell disease vaso-occlusive crisis.

As the benefits of this effort were realized, leaders throughout the hospital approached the transformation team to see how they too could be a part of the project to transition their divisions.

“It was novel and exciting to see managers, chiefs, and even front-line staff identify potential ‘projects’ that could potentially fall under this work,” said Dr. Shah. “The change, as the executive leadership hoped, was organic and recognized a true cultural shift.”

Stanley Thomas Fricke

Using IR imaging to improve lead apron inspection

Stanley Thomas Fricke

“When I researched how lead aprons are inspected, I learned that a combination of tactile and visual inspection is considered the gold standard. But many of the smallest holes can be missed this way,” says Stanley Thomas Fricke, Nucl. Eng., Ph.D., radiation safety officer at Children’s National Health System and study senior author.

Workers inspecting the lead aprons that shield patients from radiation during imaging tend to use tactile and visual inspections to find defects, running their fingers over the aprons since fingertips can detect even subtle changes to a surface. Yet findings from a new study could influence changes in this approach to improve inspection performance and better protect patients and inspectors.

Infrared (IR) thermal imaging is a much better detective, with 50 percent of study participants picking out all holes intentionally drilled into a test apron compared with just 6 percent of participants who detected the same defects using the tactile method, according to research published online Nov. 8, 2017 in Journal of the American College of Radiology. In addition to being a more accurate way to detect subtle defects, the IR imaging technology also reduces ionizing radiation exposure for inspectors checking the protective power of lead aprons.

“When I researched how lead aprons are inspected, I learned that a combination of tactile and visual inspection is considered the gold standard. But many of the smallest holes can be missed this way,” says Stanley Thomas Fricke, Nucl. Eng., Ph.D., radiation safety officer at Children’s National Health System and study senior author. “Unlike the fingertips, infrared light can penetrate the lead apron’s protective outer fabric and illuminate defects that are smaller than the defect size now used to reject a protective apron. This work challenges conventional wisdom and offers an inexpensive, readily available alternative.”

According to the study team, a growing number of health care settings use radiation-emitting imaging, from the operating room to the dentist’s office. Lead aprons and gonadal shields lower radiation doses experienced by health care staff and patients. In compliance with regulators, these protective devices are inspected regularly. A layer of lead inside keeps patients’ exposure to ionizing radiation at the lowest detectable level. The aprons are covered with nylon or polyester fabric for the patients’ comfort and for ease of cleaning.

“It is standard for health care institutions to use a tactile-visual approach to inspect radiation protective apparel,” Fricke says. “While increasingly common, that inspection method can allow aprons with holes and tears to slip by undetected due to the large surface area that needs to be inspected, the outer fabric that encloses the protective apron and other factors.”

Fricke recalled a news clip from years ago about an IR camera used to film swimmers at the pool that, like Superman’s powerful vision, could see through pool-goers’ clothing. The manufacturer quickly recalled the camera. But the IR technology is a perfect fit for inspectors looking for defects hidden under a lead apron’s fabric cover.

To validate this inspection alternative, the team drilled a series of nine holes ranging from 2 mm to 35 mm in diameter into a “phantom” lead apron and enclosed it within fabric that typically covers the protective shielding. The research team stapled the phantom apron to a wooden frame and placed dry wall under the frame.

Two of 31 radiation workers picked out all nine holes by touch and recorded the holes and their locations on written questionnaires.

For the IR method, the team used an infrared light to illuminate the lead apron from behind and relied on an infrared imaging camera to record 10 seconds of video from which still images were exported. Ten of 20 radiation technologists, radiology nurses and medical doctors identified all nine holes using those color photographs and recorded their entries on a questionnaire. An additional 20 percent identified eight of nine intentional defects to the phantom apron.

In both the tactile and IR groups, all participants found the largest hole and correctly recorded its location.

“Using the tactile method for inspection, most staff who work regularly with radiation-emitting devices were able to identify defects that would cause a lead apron to be rejected, which is 11 mm holes for thyroid shields and 15 mm holes for aprons,” Fricke says. “However, it is standard for these well-used aprons to develop smaller holes—which, over time, become bigger holes. Here at Children’s National, we care about every photon that touches a child.”

In the next phase of the research, the team will explore infrared flash photography, cooling the apron material and the impact of high-resolution cameras with greater depth of field.

Baby in the NICU

Reducing harm, improving quality in the NICU

Baby in the NICU

American health care is some of the most expensive in the world. To help make it more affordable, numerous efforts in all areas of medicine – from cancer care to primary care to specialized pediatrics – are focused on finding ways to improve quality and patient safety while also cutting costs.

About half a million babies born in the United States – or 10 percent to 15 percent of U.S. births – end up in the neonatal intensive care unit (NICU), most due to prematurity and very low birth weights. These vulnerable babies often need respiratory support in the form of a ventilator, which supplies oxygen to their lungs with a plastic endotracheal tube (ETT).

The typical care for these infants often involves frequent X-rays to verify the proper position of the tube. However, the American Academy of Pediatrics has counseled health care providers that ordering a daily chest X-ray simply to verify positioning of the ETT ratchets up costs without improving patient safety.

A quality-improvement initiative by Children’s National Health System’s NICU finds that these chest X-rays can be performed just twice weekly, lessening the chances of a breathing tube popping out accidentally, reducing infants’ exposure to radiation and saving an estimated $1.6 million per year.

“The new Children’s National protocol reduced the rate of chest X-rays per patient day without increasing the rate of unintended extubations,” says Michelande Ridoré, M.S., program lead in Children’s division of neonatology, who presented the research during the 2017 American Academy of Pediatrics (AAP) national conference. “That not only helps to improve patient safety – for newborns who are admitted to the NICU for longer periods, there is the additional benefit of providing significant savings to the health care system.”

Children’s NICU staff assessed how many chest X-rays were being performed per patient day before and after the protocol change, which applied to all intubated newborns in the NICU whose health condition was stable. Newborns had been undergoing a median of 0.45 chest X-rays per patient day. After the quality improvement project, that figure dropped to 0.23 chest X-rays per patient day.

When the project started in July 2015, the NICU’s monthly X-ray expenditure was $289,520. By the end of 2015, that monthly X-ray spend had fallen to $159,424 – resulting in nearly $1.6 million in annual savings.

The more restrictive strategy for ordering chest X-rays was a core component of a broader quality improvement effort aimed at lowering the number of unplanned extubations, which represent the fourth most common complication experienced by newborns in the nation’s NICUs.

“When you reduce the frequency of patients in the unit being moved, you decrease the chances of the breathing tube coming out accidentally,” Ridoré says. “By reducing unplanned extubations in the NICU, we can improve overall clinical outcomes, reduce length of stay, lower costs and improve patient satisfaction.”

When a breathing tube is accidentally dislodged, newborns can experience hypoxia (oxygen deficiency), abnormally high carbon dioxide levels in the blood, trauma to their airway, intraventricular hemorrhage (bleeding into the fluid-filled areas of the brain) and code events, among other adverse outcomes. What’s more, a patient with an unintended extubation can experience a nearly doubled hospital stay compared with the length of stay for newborns whose breathing tubes remain in their proper places. Each unplanned extubation can increase the cost of care by $36,000 per patient per admission.

To tackle this problem, Children’s National created the Stop Unintended Extubations “SUN” team. The team created a package of interventions for high-risk patients. Within one month, unintended extubations dropped from 1.18 events per 100 ventilator days to 0.59 events during the same time frame. And, within five months, that plummeted even further to 0.41 events per 100 ventilator days.

Their ultimate goal is to whittle that rate down even further to 0.3 events per 100 ventilator days, which has occurred sporadically. And the NICU notched up to 75 days between unintended extubations.

“Unintended extubation rates at Children’s National are lower than the median reported on various quality indices, but we know we can do more to enhance patient safety,” Ridoré says. ”Our SUN team will continue to address key drivers of this quality measure with the aim of consistently maintaining this rate at no more than 0.3 events per 100 ventilator days.”

Children's National Red Badge Project

The Red Badge Project: expediting ED care

Children's National Red Badge Project

A red badge allows newly diagnosed cancer patients and BMT patients to bypass security and triage so they can receive lifesaving antibiotics within an hour of fighting fever.

Chemotherapy and bone marrow transplant procedures leave cancer patients with compromised immune systems, leading many to develop life-threatening infections or other complications. In particular, neutropenia, or abnormally low levels of white blood cells that are critical to fighting off infections, is prevalent among this population. Fever with neutropenia can be fatal.

As part of the Children’s National Health System commitment to deliver better outcomes and safer care through innovative approaches, the Hematology/Oncology/Bone Marrow Transplant (BMT) Family Advisory team developed a protocol to rapidly identify BMT and cancer patients with suspected neutropenia to receive antibiotics within 60 minutes of arriving at the Emergency Department (ED). The Red Badge Project was born with the following goals:

• Decrease the median triage-to-antibiotic time in cancer patients with fever and suspected neutropenia or bone marrow transplant patients to 30 minutes
• Increase the proportion of patients receiving antibiotics within one hour to 90 percent

As part of the protocol, newly diagnosed cancer and bone marrow transplant patients receive a Red Badge and education regarding how to use it. If they run a fever and need medical attention, the patient and family present the Red Badge upon arrival at the ED in order to bypass the welcome desk and ED triage. This action accelerates the process, keeps the child from waiting in an area where there are other sick children and ensures the patient receives lifesaving antibiotics as fast as possible.

Work done before the patient walks through the ED doors contributes to the success of this program. When a patient runs a fever, the family is instructed to call the Hematology Oncology Fellow on-call. If it is determined that the patient needs to come to the ED, the Fellow then: 1) receives the patient’s estimated arrival time so that staff can clean and prep a room 2) reminds them to apply their topical analgesia to numb the port site where the antibiotic will be administered 3) reminds them to bring their Red Badge.

From there, swift action is taken. By the time the patient arrives, he or she has already been registered and the appropriate medications have been ordered. The patient bypasses security and triage using their Red Badge as a visual cue and is then directed to a prepped room complete with medications ready for administration.

To date, the median time from triage to administration of antibiotics has decreased nearly 50 percent while the proportion of patients who received antibiotics within 60 minutes of triage improved to 90 percent.

Leveraging that success, the next step is to develop education for non-English speaking families in order to extend the reach of this lifesaving practice.