When Emma Hagstrom Lost 22 Percent of Her Body Weight 5 Days After Birth, Pediatric Experts at 嘿嘿视频 Marshaled an Extraordinary Array of Resources & Expertise to Diagnose the Cause
Like her two older brothers, who were also born at 嘿嘿视频 Health, Emma Hagstrom entered this world uneventfully, on Thursday, October 8, 2020. 鈥淪he weighed 7.87 pounds, and it was a great delivery,鈥 says Annika Hagstrom, who began breastfeeding her daughter in the newborn nursery. By the time Emma was discharged on Saturday, her weight was down 7 percent.
鈥淭he doctors told us that babies can lose up to 10 percent of their body weight after delivery,鈥 recalls Karl Hagstrom, 鈥渟o they weren鈥檛 very concerned.鈥 Throughout the weekend, however, Emma had bouts of diarrhea every time she received either breast milk or formula. By the time Emma鈥檚 pediatrician examined her on Tuesday, her weight had dropped 22 percent, and the doctor advised the Hagstroms to head from their home in the Park Slope neighborhood of Brooklyn to the KiDS Emergency Department at 嘿嘿视频鈥檚 Ronald O. Perelman Center for Emergency Services.
By bringing Emma back to 嘿嘿视频, the Hagstroms made a fortunate decision. The institution was well equipped to unravel what would prove to be a daunting medical mystery. At Hassenfeld Children鈥檚 Hospital at 嘿嘿视频, a multidisciplinary team of clinicians and geneticists marshaled an extraordinary array of resources and expertise to save Emma. The medical detective work that proved critical to cracking the case was provided by 嘿嘿视频鈥檚 , a joint venture between the and the . The program, one of a small number nationwide that applies the latest genomics technologies to help families and children end their diagnostic odyssey, is supported by the Jacob Goldfield Foundation, the RTW Charitable Foundation, and NYU Grossman School of Medicine.
At Hassenfeld Children鈥檚 Hospital at 嘿嘿视频, a multidisciplinary team of clinicians and geneticists marshaled an extraordinary array of resources and expertise to save Emma.
When Emma arrived at the KiDS Emergency Department, she was so severely dehydrated that she had to be transferred to the Pediatric Intensive Care Unit. Critical care specialists faced a very delicate challenge. The excessive sodium in Emma鈥檚 blood was drawing fluid from her brain. If fluids were replenished too quickly, the brain could swell rapidly, causing permanent damage.
Once Emma was stabilized, doctors focused on the urgent need to identify the cause of her persistent diarrhea. 鈥淚f you don鈥檛 resolve the problem early enough, there鈥檚 a risk of secondary damage to the intestines,鈥 explains Jeremiah Levine, MD, professor of pediatrics and director of the at NYU Grossman School of Medicine.
Emma was switched from a standard formula to one that was soy-based, but it made the problem even worse. At that point, feeding was stopped, and she was nourished intravenously. 鈥淚 went through the fast with Emma, holding her the entire time,鈥 recalls Annika. 鈥淗earing her cries of hunger was the worst 24 hours of my life.鈥 Without being fed, Emma鈥檚 symptoms temporarily improved. 鈥淭his told us that the diarrhea was probably a reaction to a food substance rather than an underlying disease,鈥 says Dr. Levine. 鈥淲e just had to figure out which one, and come up with the right feeding regimen.鈥
Suspecting a congenital cause, Dr. Levine and his team called in geneticist John G. Pappas, MD, associate professor of pediatrics at NYU Grossman School of Medicine. By the time Dr. Pappas joined Emma鈥檚 care team on her 11th day of life, the infant鈥檚 weight was alarmingly low. 鈥淲e were losing this baby,鈥 he says, 鈥渁nd we were all sick over Emma鈥檚 condition.鈥
Knowing that Emma鈥檚 parents were from Sweden, Dr. Pappas suspected that her illness might be genetic in origin. The country has a higher carrier rate for two genetic mutations that cause a disorder known as glucose-galactose malabsorption, documented in only about 300 cases worldwide. 鈥淕lucose is the number one thing we need to absorb,鈥 Dr. Pappas explains, 鈥渁nd it鈥檚 present not only in many formulas, but also in breast milk.鈥 Dr. Pappas surmised that Emma鈥檚 intestines were unable to absorb glucose, though this deficit would not have affected her in the womb where she was nourished through the umbilical cord, which bypasses the gut.
To confirm his hunch, Dr. Pappas enlisted , assistant professor of pediatrics and of neuroscience and physiology at NYU Grossman School of Medicine, who co-directs the Pediatric Undiagnosed Diseases Program with him. Dr. Evrony and his team leverage the most advanced genome-sequencing technologies to pinpoint the root cause for conditions linked to genetic disorders, which account for 70 to 80 percent of undiagnosed diseases. For about half the children born with a rare genetic disease, clinical evaluations alone fail to identify the cause.
鈥淎 specific, accurate diagnosis is the foundation of medical care, but I tell parents that we have only a one-in-three chance of finding the genetic cause of their child鈥檚 condition,鈥 says Dr. Evrony. 鈥淓ven when we know which clinical syndrome a child has, often we can鈥檛 find the genetic mutation involved.鈥 For an estimated 1,000 presumed genetic diseases, he notes, the causative gene has yet to be discovered. Since its inception in 2019, the program has provided a definitive diagnosis for 16 pediatric patients.
On October 24, Dr. Evrony and his team rushed to perform an accelerated genetic test that used Emma鈥檚 blood samples to locate the parts of her genome most likely to have disease-causing mutations. The test, known as rapid genome sequencing, fast-tracks every step of the process, reducing the amount of time needed to obtain a result from several weeks, the usual time frame for standard genetic testing, to less than one week. For critically ill patients like Emma, the expedited test, only recently available at leading hospitals, can be a lifesaver.
While Dr. Evrony鈥檚 team was analyzing the genetic data, Emma was placed on a carbohydrate-free formula after nearly three weeks of unsuccessful feeding trials. A form of sugar she could tolerate, fructose, was later added for nutritional balance. To everyone鈥檚 relief, Emma鈥檚 diarrhea stopped, but only a genetic diagnosis would provide definitive proof of why.
Two days after Emma started the new formula, Dr. Evrony鈥檚 team, including Tina Truong, MMSc, genetic counselor, completed its analysis of the DNA-sequencing data and confirmed Dr. Pappas鈥檚 suspicion: Emma was officially diagnosed with glucose-galactose malabsorption. The carbohydrate-free formula enabled Emma to thrive, and a carbohydrate-free diet that would become less restrictive as she aged would allow her to live a normal life. 鈥淓mma鈥檚 story is a shining example of how genetics can make a difference in the lives of our patients,鈥 says Dr. Evrony.
When Dr. Evrony and Truong shared the news with the Hagstroms, 鈥渋t was tears of joy all over,鈥 says Karl. 鈥淲e鈥檝e never experienced the amount of empathy and care that was shown to us at 嘿嘿视频. It was astonishing.鈥 Karl and Annika describe Emma, now 2 years old, as extremely energetic and happy, with a feisty personality. 鈥淎nd she absolutely loves food,鈥 says Karl.