Vaccination Coverage by Age 24 Months Among Children Born in 2019 and 2020 — National Immunization Survey-Child, United States, 2020–2022

By Holly A. Hill, David Yankey, Laurie D. Elam-Evans, Michael Chen, James A. Singleton

Summary

What is already known about this topic?

The Advisory Committee on Immunization Practices recommends vaccines against 15 potentially serious diseases by the age of 24 months.

What is added by this report?

Estimated coverage with most childhood vaccines was similar among children born during 2019–2020 compared with those born during 2017–2018, with only a few exceptions. Disparities in coverage by race and ethnicity, poverty status, insurance status, and urbanicity persist, with a widening of the gap among some subgroups evident over time.

What are the implications for public health practice?

Universal and equitable access to vaccination will require overcoming economic, logistic, and attitudinal obstacles to ensure that all children are protected from vaccine-preventable diseases.

Abstract

National Immunization Survey-Child data collected in 2022 were combined with data from previous years to assemble birth cohorts and assess coverage with routine vaccines by age 24 months by birth cohort. Overall, vaccination coverage was similar among children born during 2019–2020 compared with children born during 2017–2018, except that coverage with both the birth dose of hepatitis B vaccine and ≥1 dose of hepatitis A vaccine increased. Coverage was generally higher among non-Hispanic White (White) children (2–21 percentage points higher than coverage for non-Hispanic Black or African American, Hispanic or Latino, and non-Hispanic American Indian/Alaska Native [AI/AN] children), children living at or above poverty (3.5–22 percentage points higher than coverage for children living below the federal poverty level), privately insured children (2.4–38 percentage points higher than coverage for children with Medicaid, other insurance, or no insurance), and children in urban areas (3–16.5 percentage points higher than coverage for children living in rural areas). Coverage with the full series of Haemophilus influenzae type b conjugate vaccine was lower among AI/AN children compared with White children. Trends in vaccination coverage disparities across categories of race and ethnicity, health insurance status, poverty status, and urbanicity were evaluated for the 2016–2020 birth cohorts. Fewer than 5% of 168 trends examined were statistically significant, including six increases (widening of the coverage gap) and one decrease (narrowing of the gap). Analyses revealed a widening of the gap between children living at or above the poverty level (higher coverage) and those living below poverty (lower coverage), for several vaccines. Socioeconomic, demographic, and geographic disparities in vaccination coverage persist; addressing them is important to ensure protection for all children against vaccine-preventable disease.

Introduction

The World Health Organization describes immunization as a “global health and development success story,” responsible for preventing 3.5–5 million deaths each year.* In the United States, the Advisory Committee on Immunization Practices (ACIP) recommends vaccines against 15 potentially serious diseases by age 24 months^† (1). For nearly 30 years, the National Immunization Survey-Child (NIS-Child) has monitored coverage with ACIP-recommended childhood vaccines in the United States. National coverage estimates provide an overall picture of the strength of the U.S. immunization program and insight into coverage with new vaccines. Stratification by sociodemographic and geographic variables allows for identification of subpopulations at higher risk for disease because of lower vaccination coverage. NIS-Child data have been used previously to assess the impact of the COVID-19 pandemic on coverage with childhood vaccinations (2). This assessment did not identify any consistent or persistent decline in vaccination coverage associated with the COVID-19 pandemic at the national level. Among certain subgroups, however, coverage was lower during the pandemic period. For example, coverage with the combined seven-vaccine series by age 24 months decreased 4–5 percentage points among children living below the federal poverty level or in rural areas.

Methods

Data Collection

NIS-Child uses random-digit-dialing to identify U.S. households that contain children aged 19–35 months.^§ A telephone survey^¶ is conducted with the parent or guardian who is most knowledgeable about the child’s immunization history, and consent is requested to contact the child’s vaccine providers. If consent is granted, a questionnaire is mailed to all the child’s providers to obtain vaccination information, which is synthesized to create the child’s comprehensive vaccination history. Children born during 2019–2020 were identified using data collected during 2020–2022. The household interview response rate** for 2022 was 25.1%, and 49.7% of children with completed parent or guardian interviews had adequate provider data,^†† resulting in data from 27,733 children available for analysis.

Data Analysis

All NIS-Child coverage estimates are based on information supplied by providers. Kaplan-Meier techniques were used to estimate vaccination coverage by age 24 months, except for the birth dose of hepatitis B vaccine (HepB)^§§ and rotavirus vaccine.^¶¶ Because of a change in ACIP recommendations and an extremely long period of eligibility for catch-up vaccination, coverage with ≥2 doses of hepatitis A vaccine (HepA) was estimated by age 35 months (the maximum age available) as well as by age 24 months.*** The significance of coverage differences was assessed using z-tests; p<0.05 was considered statistically significant. Vaccination coverage among children born during 2019–2020 was compared with that among children born during 2017–2018. Five-year trends in coverage and in socioeconomic and demographic disparities by year of birth were evaluated by fitting a linear regression model and testing for the significance of the slope (average annual percentage point change [AAPPC]). Analyses used weighted data and were performed using SAS software (version 9.4; SAS Institute) and SUDAAN software (version 11; RTI International). This activity was reviewed by CDC, deemed not research, and was conducted consistent with applicable federal law and CDC policy.^†††

Results

Children Born During 2019–2020

National vaccination coverage. Estimated coverage with most childhood vaccines was similar among children born during 2019–2020 and those born during 2017–2018, with the exception of a 3.3 percentage point increase in coverage with the HepB birth dose and a 1.5 percentage point increase in coverage with ≥1 dose of HepA (Table 1). The proportion of children completely unvaccinated by age 24 months remained at 1%. Coverage among children born during 2019–2020 exceeded 90% for ≥3 doses of poliovirus vaccine (93.0%), ≥3 doses of HepB (92.1%), ≥1 dose of measles, mumps, and rubella vaccine (MMR) (91.6%), and ≥1 dose of varicella vaccine (VAR) (91.1%). The lowest coverage estimates were observed for ≥2 doses of influenza vaccine (61.3%) and for the combined seven-vaccine series^§§§ (69.1%).

Vaccination coverage by selected sociodemographic characteristics and geographic locations. Among children born during 2019–2020, coverage was higher among those who were privately insured compared with uninsured children and children insured by Medicaid or other insurance^¶¶¶ for all vaccines except the HepB birth dose, which did not differ between privately insured children and those who were insured by Medicaid (Table 2). Compared with children with private insurance (0.6% unvaccinated), a higher proportion of uninsured children (6.0%) and children on Medicaid (1.2%) received no vaccinations by age 24 months.

Numerous disparities in coverage by race and ethnicity were observed. Most notably, non-Hispanic Black or African American (Black) children, Hispanic or Latino, and non-Hispanic American Indian or Alaska Native (AI/AN) children all had lower coverage with ≥4 doses of diphtheria and tetanus toxoids and acellular pertussis vaccine (DTaP), ≥4 doses of pneumococcal conjugate vaccine (PCV), rotavirus vaccine, ≥2 doses of influenza vaccine, and the combined seven-vaccine series compared with non-Hispanic White (White) children. Coverage with the full series of Haemophilus influenzae type b conjugate vaccine (Hib) was lower by 12.1 percentage points among AI/AN children compared with White children. (Supplementary Table 1, https://stacks.cdc.gov/view/cdc/134544). Children living below the federal poverty level had lower coverage than children living at or above the poverty level for all vaccines except the HepB birth dose. Compared with children living in a metropolitan statistical area (MSA)**** principal city, those residing in a non-MSA had lower coverage with approximately one half of the vaccines monitored by NIS-Child. Wide variation in coverage estimates was also observed by jurisdiction (Supplementary Table 2, https://stacks.cdc.gov/view/cdc/134545), especially for ≥2 doses of influenza vaccine, which ranged from 33.0% (Mississippi) to 85.9% (Connecticut).

Trends by Birth Cohort

Coverage by birth cohort during 2011–2020 was stable for a majority of vaccines, although a decrease of 5.1 percentage points was observed for ≥2 doses of influenza vaccine among children born in 2020 compared with those born in 2019 (Figure). Examination of trends in overall coverage for the five most recent birth cohorts (2016–2020) revealed increases for the HepB birth dose (1.7 percentage points per year), ≥1 dose of HepA (0.9 percentage points per year), and ≥2 doses of HepA (0.8 percentage points per year); no decreases were found (Supplementary Table 1, https://stacks.cdc.gov/view/cdc/134544).

Coverage was also estimated by the five most recent birth cohorts within each category of the sociodemographic variables (race and ethnicity, poverty level, health insurance status, and MSA status) (Supplementary Table 1, https://stacks.cdc.gov/view/cdc/134544). Positive linear trends were observed for the HepB birth dose for multiple subgroups of children, including non-Hispanic White and multiple race children, children living at or above the poverty level, privately insured and Medicaid-insured children, and those living in an MSA principal city or an MSA nonprincipal city. Increased coverage with ≥1 dose of HepA (White, any Medicaid insurance, and MSA nonprincipal city), ≥2 doses of HepA (White, at or above poverty level, private insurance only, and non-MSA), and rotavirus vaccine (Black) was observed over time. No decreases were seen for any of the combinations of vaccines and categories of sociodemographic variables.

In addition, trends in disparities were assessed for 2016–2020 birth cohorts (Supplementary Table 3, https://stacks.cdc.gov/view/cdc/134546). Among 168 trends evaluated, six increases (widening of the coverage gap between a variable category and the referent group) and one decrease (narrowing of the gap) were identified.^†††† The most common of these was the disparity in coverage by poverty status, with a widening of the gap in coverage with ≥2 HepA doses, ≥2 influenza vaccine doses, and the combined seven-vaccine series between children living below poverty and those living at or above poverty.

Discussion

This report incorporates NIS-Child data collected in 2022 to assess vaccination coverage, disparities in vaccination coverage, and 5-year trends in coverage and disparities in coverage among children born during 2016–2020. For most recommended childhood vaccines, coverage has remained high and stable for a number of years. Among children born during 2019–2020, coverage exceeded 70% for all vaccines except ≥2 doses of influenza vaccine (61.3%) and the combined seven-vaccine series (69.1%). HepB birth dose coverage has been trending upward for several years, exceeding 80% for the first time in 2019. Coverage with ≥1 dose of HepA has increased more slowly, but if the current trend continues, coverage will exceed 90% among children born in 2022. Among children born during 2019–2020, Healthy People 2030^§§§§ objectives have been met for coverage with ≥1 dose of MMR by age 24 months (≥90.8%) and for the proportion of children who receive no recommended vaccines by age 24 months (≤1.3%), but not for coverage with ≥4 DTaP doses (≥90.0%).

Disparities persist in vaccination coverage by race and ethnicity, poverty status, MSA status, and health insurance status and are often substantial. Lower coverage with the full series of Hib among AI/AN children compared with White children is particularly concerning given the sharply elevated incidence of Hib disease in the AI/AN population.^¶¶¶¶ The largest observed coverage disparities were for ≥2 doses of influenza; influenza vaccination coverage varied widely by jurisdiction as well, with a range of 52.9 percentage points across the United States. Analysis of 5-year trends revealed that only a small proportion of the disparities involving sociodemographic variables changed over time, although it appears that children living below the poverty level might be losing ground compared with children with higher family incomes. Disparities such as these have been documented previously (3,4). Concern over financial barriers to vaccination led to the creation of the Vaccines for Children (VFC) program,***** which covers the cost of recommended vaccines for eligible children. The program appeared successful in reducing racial and ethnic disparities in coverage (5), but additional efforts will be needed to close the remaining coverage gaps. CDC is currently working with partners, such as state Medicaid programs, the Indian Health Service, and the Association of Immunization Managers, to increase awareness of the VFC program (6).

Universal and equitable access to vaccination will require overcoming often interrelated economic, logistical, and attitudinal obstacles. Interviews with parents identified issues such as appointment scheduling challenges, incomplete knowledge of the schedule of recommended vaccines, limited availability and high cost of child care for other children in the household, and lack of transportation as factors that limit access to care (7). Strategies that have been found useful in addressing barriers to vaccination include identifying venues other than physician offices for the administration of vaccines (such as health departments, child care centers, and pharmacies), strong provider recommendations, reminder and recall interventions, standing orders, vaccination status review at every health care encounter, and expanded use of immunization information systems to provide consolidated immunization histories (8,9).

Limitations

The findings in this report are subject to at least three limitations. First, the low household interview response rate (21%–25% over survey years 2018–2022) and the availability of adequate provider data for only 49%–54% of those who completed interviews during these survey years creates the possibility of selection bias. Second, use of weighting to account for nonresponse and households without telephones might not have completely eliminated bias because of these factors. Finally, coverage estimates could be incorrect if some providers did not return vaccination history questionnaires or if administered vaccines were not documented accurately. Total survey error for the 2022 survey year data was assessed and demonstrated that coverage was underestimated by 1.7 percentage points for ≥1 dose of MMR, 3.3 percentage points for the HepB birth dose, and 9.2 percentage points for the combined seven-vaccine series (10). An analysis of change in bias of vaccination coverage estimates from 2021 to 2022 determined that a meaningful change in bias was unlikely.

Implications for Public Health Practice

Overall coverage with recommended childhood vaccinations remains high; however, persistent disparities in coverage among children in racial and ethnic minority groups, as well as those who are not privately insured, who live in rural areas, and who live below the poverty level must be addressed to ensure that all children are protected from vaccine-preventable diseases. Data from immunization information systems can be used to identify local areas and population subgroups with lower vaccination coverage; children in these groups might be more susceptible to outbreaks of vaccine-preventable diseases.^{†††††} More extensive use of the VFC program, interventions to improve vaccine confidence, enhanced flexibility in scheduling vaccination appointments, and expanded options for the place of vaccination will aid in making the U.S. immunization program more accessible and equitable for all (7–9).

This piece was republished from the CDC.