Newborn Screening
Critical Congenital Heart Disease (CCHD)
Guidance for primary care clinicians receiving a positive newborn screen result
Description
Critical
congenital heart disease (CCHD) refers to a group of heart defects that are
life-threatening and require catheter-based intervention or heart surgery during
the neonatal period. Newborns with CCHD may be missed because of minimal signs
and symptoms early on but can quickly decompensate when the ductus arteriosus,
which may have been providing significant blood flow to the lungs or body,
closes. Some of these newborns will have hypoxemia, which may be difficult to
detect clinically in babies. Pulse oximetry can accurately identify many
apparently asymptomatic cases of CCHD by detecting lower oxygen saturations.
Early detection allows for timely treatment. Delayed diagnosis of CCHD may
result in poorer preoperative condition, worse cardiopulmonary and neurological
outcomes after treatment, or death.
The 7 primary targets for CCHD
newborn screening are:
- Truncus arteriosus
- Transposition of the great arteries
- Tetralogy of Fallot
- Pulmonary atresia with intact ventricular septum
- Tricuspid atresia
- Hypoplastic left heart syndrome
- Total anomalous pulmonary venous return
Clinical Characteristics
- Cyanosis (a bluish tint to the skin, lips, and fingernails)
- Shock
- Severe hypoxemia
- Absent pulses
- Tachypnea
- Pulmonary edema
- Shortness of breath or trouble breathing
- Sweating around the head
- Poor weight gain
- Tiring easily during feedings
Incidence
Inheritance
Primary Care Management
Next Steps After a Positive Screen
- If the preductal or postductal pulse oximetry reading is <90%, the result is considered a fail in most states. [Matthew: 2016] If either reading is ≥95% and the difference between the 2 readings is ≤3%, the result is considered a pass. [Matthew: 2016] Results outside of these 2 ranges require repeat testing in 1 hour for up to 2 additional tests. A child who has not passed the screening by the third testing is considered to have failed. [Matthew: 2016] Pulse oximetry screening is 76.3% sensitive and 99.9% specific for CCHD. [Plana: 2018]
- Examine the infant to make sure the baby is hemodynamically stable. Any signs or symptoms of compromise or cardiac failure should prompt rapid evaluation and care, including potential urgent transfer to a center with advanced care capabilities.
- Evaluate the infant for cardiac and non-cardiac causes of hypoxemia. A positive screen does not always mean the baby has CCHD, and further testing may be needed if other clinical problems are obvious.
- If no other cause for hypoxemia is obvious, a cardiologist or neonatologist should be consulted, and an echocardiogram should be performed as indicated clinically or by local protocol.
- Depending on timing and the nursery/hospital, the family of the newborn may be aware of the screening result and pediatric cardiology may already be involved. Contact the family to provide support and coordination of care as needed.
Confirming the Diagnosis
- To confirm the diagnosis of CCHD, work with Newborn Screening Services (see NV providers [2]) and Pediatric Cardiology (see NV providers [4]).
If the Diagnosis is Confirmed
- If CCHD is identified on echocardiography, urgent consultation with a pediatric cardiologist and/or transfer to a medical facility with pediatric cardiology expertise is warranted.
- For evaluation and ongoing collaborative management, consult Pediatric Cardiology (see NV providers [4]).
Resources
Information & Support
After a Diagnosis or Problem is Identified
Families can face a big change when their baby tests positive for
a newborn condition. Find information about A New Diagnosis - You Are Not Alone;
Caring for Children with Special Health Care Needs; Assistance in Choosing
Providers; Partnering with Healthcare Providers; Top Ten Things to Do After a
Diagnosis.
For Professionals
Heart Defects - Information for Clinicians (CDC)
Contains a screening algorithm, current research summaries, and information about specific heart defects; Centers for Disease
Control and Prevention.
Pulse Oximetry Screening for CCHD (University of Wisconsin) ( 19.3 MB)
Focuses on helpful information for screening programs that includes screening recommendations, types of CCHD identified by
pulse oximetry, an algorithm for response to positive screen, and a sample screening form.
For Parents and Patients
Baby's First Test: Critical Congenital Heart Disease (Genetic Alliance)
Information about early signs, follow-up testing, treatment, causes, accessing care, and expected outcomes. Provides links
to support services; supported by the U.S. Department of Health and Human Services.
Critical Congenital Heart Disease - Information for Parents (STAR-G)
A fact sheet, written by a genetic counselor and reviewed by metabolic and genetic specialists, for families who have received
an initial diagnosis of this newborn disorder; Screening, Technology and Research in Genetics.
Critical Congenital Heart Disease (MedlinePlus)
Information for families that includes description, frequency, causes, inheritance, other names, and additional resources;
from the National Library of Medicine.
Newborn Screening for CCHD: Fact Sheet for Families (UDOH) ( 111 KB)
Family education about pulse oximetry screening and warning signs of CCHD; Utah Department of Health Birth Defect Network.
Congenital Heart Defects (AHA)
Diagnosis and care information, printable information sheets, and resources for specific congenital heart defects; American
Heart Association.
Tools
ACT Sheet for Critical Congenital Heart Disease (ACMG) ( 881 KB)
Contains short-term recommendations for clinical follow-up of the newborn who has screened positive; American College of Medical
Genetics.
Services for Patients & Families in Nevada (NV)
Service Categories | # of providers* in: | NV | NW | Other states (3) (show) | | NM | RI | UT |
---|---|---|---|---|---|---|---|---|
Newborn Screening Services | 2 | 1 | 3 | 2 | 3 | |||
Pediatric Cardiology | 4 | 3 | 17 | 4 |
For services not listed above, browse our Services categories or search our database.
* number of provider listings may vary by how states categorize services, whether providers are listed by organization or individual, how services are organized in the state, and other factors; Nationwide (NW) providers are generally limited to web-based services, provider locator services, and organizations that serve children from across the nation.
Studies
Critical Congenital Heart Disease (clinicaltrials.gov)
Studies looking at better understanding, diagnosing, and treating this condition; from the National Library of Medicine.
Helpful Articles
PubMed search for CCHD, last 3 years.
Mahle WT, Newburger JW, Matherne GP, Smith FC, Hoke TR, Koppel R, Gidding SS, Beekman RH 3rd, Grosse SD.
Role of pulse oximetry in examining newborns for congenital heart disease: a scientific statement from the American Heart
Association and American Academy of Pediatrics.
Circulation.
2009;120(5):447-58.
PubMed abstract
Matthew E. Oster, Susan W. Aucott, Jill Glidewell, Jesse Hackell, Lazaros Kochilas, Gerard R. Martin, Julia Phillippi, Nelangi
M. Pinto, Annamarie Saarinen, Marci Sontag, Alex R. Kemper.
Lessons Learned From Newborn Screening for Critical Congenital Heart Defects.
Pediatrics.
2016;137(5).
/ Full Text
Garg LF, Van Naarden Braun K, Knapp MM, Anderson TM, Koppel RI, Hirsch D, Beres LM, Sweatlock J, Olney RS, Glidewell J, Hinton
CF, Kemper AR.
Results from the New Jersey statewide critical congenital heart defects screening program.
Pediatrics.
2013;132(2):e314-23.
PubMed abstract / Full Text
Kemper AR, Mahle WT, Martin GR, Cooley WC, Kumar P, Morrow WR, Kelm K, Pearson GD, Glidewell J, Grosse SD, Howell RR.
Strategies for implementing screening for critical congenital heart disease.
Pediatrics.
2011;128(5):e1259-67.
PubMed abstract / Full Text
Authors & Reviewers
Author: | Madison Black, MD |
Senior Author: | Jennifer Goldman, MD, MRP, FAAP |
2016: update: Nelangi M. Pinto, MDSA; Lorenzo D. Botto, MDSA |
2016: first version: Dale-Marie Herring, MAA |
Page Bibliography
Al Turki S, Manickaraj AK, Mercer CL, Gerety SS, Hitz MP, et al.
Rare variants in NR2F2 cause congenital heart defects in humans.
Am J Hum Genet.
2014;94(4):574-85.
PubMed abstract / Full Text
Cao J, Wu Q, Huang Y, Wang L, Su Z, Ye H.
The role of DNA methylation in syndromic and non-syndromic congenital heart disease.
Clin Epigenetics.
2021;13(1):93.
PubMed abstract / Full Text
Garg LF, Van Naarden Braun K, Knapp MM, Anderson TM, Koppel RI, Hirsch D, Beres LM, Sweatlock J, Olney RS, Glidewell J, Hinton
CF, Kemper AR.
Results from the New Jersey statewide critical congenital heart defects screening program.
Pediatrics.
2013;132(2):e314-23.
PubMed abstract / Full Text
Hartman RJ, Rasmussen SA, Botto LD, Riehle-Colarusso T, Martin CL, Cragan JD, Shin M, Correa A.
The contribution of chromosomal abnormalities to congenital heart defects: a population-based study.
Pediatr Cardiol.
2011;32(8):1147-57.
PubMed abstract
Hugh A.
Moss & Adams’ Heart Disease in Infants, Children, and Adolescents, Including the Fetus and Young Adult.
9 ed. Philadelphia, PA: Lippincott Williams & Wilkins, a Wolters Kluwer business;
2016.
9781496300249 https://shop.lww.com/Moss---Adams--Heart-Disease-in-Infants--Children-...
Kemper AR, Mahle WT, Martin GR, Cooley WC, Kumar P, Morrow WR, Kelm K, Pearson GD, Glidewell J, Grosse SD, Howell RR.
Strategies for implementing screening for critical congenital heart disease.
Pediatrics.
2011;128(5):e1259-67.
PubMed abstract / Full Text
Lannering K, Bartos M, Mellander M.
Late Diagnosis of Coarctation Despite Prenatal Ultrasound and Postnatal Pulse Oximetry.
Pediatrics.
2015;136(2):e406-12.
PubMed abstract
Mahle WT, Newburger JW, Matherne GP, Smith FC, Hoke TR, Koppel R, Gidding SS, Beekman RH 3rd, Grosse SD.
Role of pulse oximetry in examining newborns for congenital heart disease: a scientific statement from the American Heart
Association and American Academy of Pediatrics.
Circulation.
2009;120(5):447-58.
PubMed abstract
Matthew E. Oster, Susan W. Aucott, Jill Glidewell, Jesse Hackell, Lazaros Kochilas, Gerard R. Martin, Julia Phillippi, Nelangi
M. Pinto, Annamarie Saarinen, Marci Sontag, Alex R. Kemper.
Lessons Learned From Newborn Screening for Critical Congenital Heart Defects.
Pediatrics.
2016;137(5).
/ Full Text
McSweeney ME, Jiang H, Deutsch AJ, Atmadja M, Lightdale JR.
Long-term outcomes of infants and children undergoing percutaneous endoscopy gastrostomy tube placement.
J Pediatr Gastroenterol Nutr.
2013;57(5):663-7.
PubMed abstract
Plana MN, Zamora J, Suresh G, Fernandez-Pineda L, Thangaratinam S, Ewer AK.
Pulse oximetry screening for critical congenital heart defects.
Cochrane Database Syst Rev.
2018;3(3):CD011912.
PubMed abstract / Full Text
Singh Y, Lakshminrusimha S.
Perinatal Cardiovascular Physiology and Recognition of Critical Congenital Heart Defects.
Clin Perinatol.
2021;48(3):573-594.
PubMed abstract
Zaidi S, Choi M, Wakimoto H, Ma L, Jiang J, Overton JD, et al.
De novo mutations in histone-modifying genes in congenital heart disease.
Nature.
2013;498(7453):220-3.
PubMed abstract / Full Text