Newborn Screening : Optional or Obligation?: Newborn Screening

Newborn Screening : Optional or Obligation?: Newborn Screening: Newborn Screening : Optional or Obligation? Dr. Mallikarjuna Swamy, MBBS, DNB (Pediatrics), Clinical Fellow (Neonatology) Department...

Newborn Screening

Newborn Screening : Optional or Obligation?

Dr. Mallikarjuna Swamy, MBBS, DNB (Pediatrics), Clinical Fellow (Neonatology)

Department of Pediatrics, Alia International Hospital, Mahboula

“Marhaba….”

Overview

Newborn screening is the practice of screening every newborn for certain genetic, endocrine, and metabolic conditions, as well as functional disorders that are not apparent at birth. Finding these conditions soon after birth can help prevent some serious problems, such as brain damage, organ damage, and even death, thereby enabling the children to reach their full potential.

For example, babies are tested for hypothyroidism, which means that their bodies do not make enough thyroid hormone. Babies with hypothyroidism can take medication with the hormone to avoid the slowed growth and brain damage that can happen if their hypothyroidism is not treated.

Screening tests do not diagnose illnesses. They identify which babies need additional testing to confirm or rule out illnesses.  If follow-up testing confirms that the child has a disease, appropriate treatment can be started right away, before symptoms appear.

Newborn screening checks for serious but rare conditions at birth. It includes blood, hearing, heart and hip screening.

Blood Test:

Newborn screening samples are collected from the infant between 24 hours and 7 days after birth, with the requirement that the baby has fed at least once. 

A health professional will take a few drops of blood from the baby’s heel. The blood is collected on a specially designed filter paper and sent to a Newborn screening lab for testing.  Thanks to improved laboratory techniques that require smaller sample volumes and improved automated heel lancing devices that minimize trauma and pain.

Conditions Tested:

The most thorough screening panel checks for about 40 disorders that include sickle cell disease and other hemoglobin disorders, conditions where a child is unable to process certain nutrients (such as PKU), or conditions where there is a hormonal insufficiency (such as hypothyroidism). 

All the Newborn screening laboratories screen for the six major conditions (among the big list of around 40 screened parameters) which can be either treated or kept under control – Congenital Hypothyroidism, Galactosemia, G6PD  Deficiency, Congenital Adrenal Hyperplasia, Hemoglobinopathies and Cystic Fibrosis.

Screening Results 

If the results are "negative" ("pass" or in-range result) it means that the baby’s test results did not show signs of any of the conditions included in the screening.

If the results are "positive" ("fail" or out-of-range result) it means that the baby’s test results showed signs of one or more of the conditions included in the newborn screening. 

This does not always mean that the baby has the condition. It may just mean that more testing is needed.

Ø  The doctor might recommend that the child get screened again or have more specific tests to diagnose a condition.

Hearing Screening:

·         All babies should be screened for hearing loss no later than 1 month of age. It is best if they are screened before leaving the hospital after birth.

·         If a baby does not pass a hearing screening, it's very important to get a full hearing test as soon as possible, but no later than 3 months of age.

Two different tests can be used to screen for hearing loss in babies. Both tests are quick (5-10 minutes), safe and comfortable (not painful). In fact, these tests are often performed while a baby is asleep. One or both tests may be used.

1.      Otoacoustic Emissions (OAE) Test: This test is used to determine if certain parts of the baby’s ear respond to sound. During the test, a miniature earphone and microphone are placed in the ear and sounds are played. When a baby has normal hearing, an echo is reflected back into the ear canal, which can be measured by the microphone. If no echo is detected, it can indicate hearing loss.

2.      Auditory Brain Stem Response (ABR) Test: This test is used to evaluate the auditory brain stem (the part of the nerve that carries sound from the ear to the brain) and the brain’s response to sound. During this test, miniature earphones are placed in the ear and sounds are played. Band-Aid-like electrodes are placed along the baby’s head to detect the brain’s response to the sounds. If the baby’s brain does not respond consistently to the sounds, there may be a hearing problem.

Screening for Critical Congenital Heart Defects:

Babies with a critical congenital heart defect (CCHD) are at significant risk of disability or death if their condition is not diagnosed soon after birth.

CCHDs can potentially be detected using pulse oximetry screening, before they show signs of the condition.  

Pulse oximetry screening is most likely to detect seven of the CCHDs. These seven main screening targets are hypoplastic left heart syndrome, pulmonary atresia (with intact septum), tetralogy of Fallot, total anomalous pulmonary venous return, transposition of the great arteries, tricuspid atresia, and truncus arteriosus. (Other heart defects can be just as severe as the main screening targets and also require treatment soon after birth. However, pulse oximetry screening may not detect these heart defects as consistently as the seven disorders listed as the main screening targets.)

When and How Babies Are Screened

Pulse oximetry is a simple bedside test to determine the amount of oxygen in a baby’s blood and the baby’s pulse rate. Low levels of oxygen in the blood can be a sign of a CCHD. The test is done using a machine called a pulse oximeter, with sensors placed on the baby’s skin. The test is painless and takes only a few minutes. 

Screening is done when a baby is 24 to 48 hours of age, or as late as possible if the baby is to be discharged from the hospital before he or she is 24 hours of age.

Pulse oximetry screening does not replace a complete history and physical examination, which sometimes can detect a CCHD before the development of low levels of oxygen in the blood. Pulse oximetry screening, therefore, should be used along with the physical examination.

CCHD Screening Results

If the results are “negative” ("pass" or in-range result), it means that the baby’s test results did not show signs of a CCHD. This type of screening test does not detect all CCHDs, so it is possible for a baby with a negative screening result to still have a CCHD or other congenital heart defect.

If the results are “positive” ("fail" or out-of-range result), it means that the baby’s test results showed low levels of oxygen in the blood, which can be a sign of a CCHD. This does not always mean that the baby has a CCHD. It just means that more testing is needed.

The baby’s doctor might recommend that the infant get screened again or have more specific tests, like an echocardiogram (an ultrasound picture of the heart), to diagnose a CCHD. Once identified, babies with a CCHD can be seen by cardiologists and can receive special care and treatment that can prevent disability and death early in life. Babies who are found to have a CCHD also might be evaluated by a clinical geneticist. This could help identify genetic syndromes associated with CCHDs and inform families about future risks.  Certain hospitals routinely screen all newborns for CCHDs.

Screening for Developmental Dysplasia of the Hip:

Developmental dislocation of the hip can lead to premature degenerative joint disease, impaired walking, and pain. Surgery is often necessary once these complications have occurred. Hip instability can be treated non-surgically if it is detected early. Neonatal screening, which has been practiced for almost four decades, is intended to reduce the need for surgery, prevent degenerative joint disease, pain, and mobility limitations.

Nonspecific instability in the hip is a common finding in newborns.  More than 80% of clinically unstable hips noted at birth have been shown to resolve spontaneously. However, due to the potential for subsequent impairment and the widespread belief that earlier treatment leads to improved outcomes, screening newborns for DDH has become commonplace.

The most common methods of screening for DDH involve the physical examination of the hips and lower extremities.  Ultrasonography during the first 4 weeks of life often reveals the presence of minor degrees of instability which will not be apparent on physical examination and may resolve spontaneously without treatment.  X-ray is less accurate in the first 3–4 months of life, when the bones of the hip are not completely ossified.

When and How Babies Are Screened

•         All newborns should undergo a hip examination prior to discharge from hospital.
•          High risk infants should be booked for an Ultrasound at 6 weeks of age.
•          If an examiner is unsure of the stability of an infant’s hip/s, re-examination by an experienced clinician should be sought.
•           Hip examination should occur at birth, 6-8 weeks and 6 months of age
•           At risk infants should undergo hip examination at all well consultations.
•           Any child with a dislocatable hip should be referred immediately to an Orthopaedic Surgeon or Paediatrician.

Selective screening should include newborns with risk factors for DDH, namely

• a family history of DDH (confined to at least one first degree relative or two second degree relatives treated for DDH)
• breech presentation, foot deformities
• positive/equivocal clinical findings

Concerns regarding an infant’s hips should be acted on immediately – delays in treatment may have adverse effects on the outcomes for the infant.

Newborn Screening - Get Help!

If your baby’s newborn screening tests show that there could be a problem, work with your baby’s doctor to get any needed follow-up tests as soon as possible – don’t wait!

Finding and treating some of the conditions at an early age can prevent serious problems, such as brain damage, organ damage, and even death. Many of the conditions can be treated with medication or changes to the baby’s diet.

If one of your children has a health condition, will another have it, too?

•         Almost all of the health conditions found by newborn screening are inherited. This means they are passed from parents to children.
•    When one child in a family has an inherited health condition, the chance of a brother or sister having the same condition is higher than if no child in the family has the condition.
•   If you have a child with a health condition and you want to have another baby, talk to your health care provider or a genetic counselor. A genetic counselor is a person who is trained to know about genetics, birth defects and other medical problems that run in families.
•    Sometimes hearing loss is not inherited. For example, it can be caused by an infection during pregnancy. In this case, it usually doesn’t happen in another pregnancy.

Newborn Screening at Alia International Hospital:

We routinely screen the babies born in our hospital with above mentioned Screening panel after consenting with the parents before discharge.

Though Newborn screeing is still optional in most of the countries, parents must view this as an obligation for carving the better future of their baby.

mallikarjuna78@gmail.com

Useful websites:

http://www.cdc.gov/ncbddd/pediatricgenetics/newborn_screening.html

http://www.babysfirsttest.org/

http://www.marchofdimes.com/baby/newborn-screening.aspx

http://emedicine.medscape.com/article/1413486-overview#aw2aab6b4 - for Heel sticks

http://www.hnehealth.nsw.gov.au/__data/assets/pdf_file/0010/76573/HNEH_CG_10_10_Screening_Assessment_and_Management_of_Developmental_Dysplasia_of_the_Hip.pdf