Developmental disorders, in general, affect or delay a child’s physical, cognitive, language, or behavioral development. Such disorders can not only affect day-to-day but lifelong activities. For a child with a developmental disorder, early diagnosis and the right intervention can make a big difference. Timely treatment and management can help the child learn new skills, and also help reduce the need for costly interventions at later stages.

In this article, we will understand more about autism spectrum disorder and cerebral palsy and how stem cell transplants are offering hope to parents.

Common Developmental Disorders in Childres

Autism Spectrum Disorder (ASD)

Autism, also called autism spectrum disorder (ASD), is a complicated condition that includes problems with communication and behavior. In India, about 1 in 100 children are diagnosed with this disorder under the age of 10 years (1). It can involve a wide range of symptoms and signs including trouble with learning, communication, expressing, or understanding others’ feelings. ASD can be a minor problem or a disability that needs full-time care in a special facility. People with autism might have problems with learning.

Cerebral palsy

It is caused by a brain injury near the time of birth. For instance, it could be triggered by bleeding in the brain or due to oxygen deprivation. Cerebral palsy occurs in about two per one thousand full-term births, but it is ten times more likely in premature births (2). In India, about 3 children per 1000 live births are diagnosed with cerebral palsy (3). Usually, cerebral palsy is diagnosed in the first year of life, when the baby’s motor skills get delayed when compared to normal developmental milestones. The symptoms include cognitive impairment, loss of muscle or bowel control, and slurred speech.

Diagnosis of Developmental Disorders in Children

For children, diagnosis usually involves two steps.

  • A developmental screening will tell your doctor whether your child is on track with basic skills like learning, speaking, behavior, and moving. Experts suggest that children be screened for these developmental delays during their regular checkups at 9 months, 18 months, and 24 or 30 months of age. Children are routinely checked specifically for autism at their 18-month and 24-month checkups.
  • If your child shows signs of a problem on these screenings, a more complete evaluation is needed including hearing, vision tests, or genetic tests.

Umbilical Cord Blood Transplant: A Potential Treatment Option

Both cerebral palsy and autism are lifelong conditions with no potential cure. However, at Duke University USA, Dr Joanne Kurtzberg MD, and the team had performed over 100 cord blood transplants for children with rare metabolic disorders.

If left untreated, these disorders lead to cognitive and physical impairment, and even death. The published results were a breakthrough indicating that cord blood transplants can save the lives of these patients (4).

Not only did their cognitive function stop declining, it actually improved. The cognitive improvements in patients with metabolic disorders led the researchers to extrapolate that a similar treatment might help children with neurodevelopmental disorders including cerebral palsy and autism.

The potential treatment involves the intravenous infusion of cord blood mononuclear cells (MNC), a component of the blood that includes mature and immature stem cells.

What Does Science Say on Umbilical Cord Blood Transplants?

For Autism Spectrum Disorder

The various phases of a clinical trial take years to complete. However, in early 2017, Duke University released the results of the phase I study that assessed the safety of treating autistic children by infusing their own umbilical cord blood intravenously (4).

  • Results of the Study

Researchers found that among 25 children between the ages of two to five years, more than 67% showed improvements in speech, socialization, and eye contact.

For Cerebral Palsy

In 2010, Dr. Kurtzberg conducted the first trial on the safety and feasibility of cord blood to treat cerebral palsy (5). Phase II of the study followed 63 children between the ages of one and six years who had cerebral palsy because of brain damage caused before or at the time of birth. The participants were given varying doses depending on how many stem cells they were able to store, ranging from 10 million cells to 50 million cells per two pounds (approximately 1 kg) of body weight.

  • Results of the Study

The results of this study showed that appropriately dosed infusions of cord blood cells can help improve symptoms in children with cerebral palsy including brain connectivity and motor function.

The Duke University Medical Center received permission to expand access to cord blood therapies for brain disorders including autism and cerebral palsy, attracting the attention of many parents with stored cord blood. The clinical trial is open to children who have their own cord blood stored or access to partially or fully matching cord blood from a sibling.

How is LifeCell Supporting the Parents?

LifeCell community bank preserves the child's cord blood stem cells exclusively for two years thereby ensuring access to their own stem cells for possible interventions.

Out of the 63 children who participated in this clinical trial in the US, 5 children were from India whose parents had banked their cord blood stem cells at birth with LifeCell.

Notably, this once-in-a-lifetime chance of storing the cord blood turned out to be a lifesaver for the children! As of September 2021, LifeCell has supported the treatment trial of 15 children with cerebral palsy and autism.

To know more about the benefits of cord blood and the life-saving potential of cord blood banking, speak to our expert today!

Call 18002665533 or visit Cord Blood Banking

References:

  1. Arora NK, Nair MK, Gulati S, Deshmukh V, Mohapatra A, Mishra D, Patel V, Pandey RM, Das BC, Divan G, Murthy GV. Neurodevelopmental disorders in children aged 2–9 years: Population-based burden estimates across five regions in India. PLoS medicine. 2018 Jul 24;15(7):e1002615.
  2. O’Shea TM. Diagnosis, treatment, and prevention of cerebral palsy in near-term/term infants. Clinical obstetrics and gynecology. 2008 Dec;51(4):816.
  3. Das SP, Ganesh GS. Evidence-based approach to physical therapy in cerebral palsy. Indian journal of orthopaedics. 2019 Jan;53(1):20.
  4. Sun JM, Song AW, Case LE, Mikati MA, Gustafson KE, Simmons R, Goldstein R, Petry J, McLaughlin C, Waters‐Pick B, Chen LW. Effect of autologous cord blood infusion on motor function and brain connectivity in young children with cerebral palsy: a randomized, placebo‐controlled trial. Stem cells translational medicine. 2017 Dec 1;6(12):2071-8.
  5. Sun J, Allison J, McLaughlin C, Sledge L, Waters‐Pick B, Wease S, Kurtzberg J. Differences in quality between privately and publicly banked umbilical cord blood units: a pilot study of autologous cord blood infusion in children with acquired neurologic disorders. Transfusion. 2010 Sep;50(9):1980-7.