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MMWR Surveillance Summaries logoLink to MMWR Surveillance Summaries
. 2022 Feb 18;71(4):1–19. doi: 10.15585/mmwr.ss7104a1

Assisted Reproductive Technology Surveillance — United States, 2018

Saswati Sunderam 1,, Dmitry M Kissin 1, Yujia Zhang 1, Amy Jewett 1, Sheree L Boulet 2, Lee Warner 1, Charlan D Kroelinger 1, Wanda D Barfield 1
PMCID: PMC8865855  PMID: 35176012

Abstract

Problem/Condition

Since the first U.S. infant conceived with assisted reproductive technology (ART) was born in 1981, both the use of ART and the number of fertility clinics providing ART services have increased steadily in the United States. ART includes fertility treatments in which eggs or embryos are handled in the laboratory (i.e., in vitro fertilization [IVF] and related procedures). Although the majority of infants conceived through ART are singletons, women who undergo ART procedures are more likely than women who conceive naturally to have multiple births because multiple embryos might be transferred. Multiple births can pose substantial risks for both mothers and infants, including obstetric complications, preterm birth (<37 weeks), and low birthweight (<2,500 g). This report provides state-specific information for the United States (including the District of Columbia and Puerto Rico) on ART procedures performed in 2018 and compares birth outcomes that occurred in 2018 (resulting from ART procedures performed in 2017 and 2018) with outcomes for all infants born in the United States in 2018.

Period Covered

2018.

Description of System

In 1995, CDC began collecting data on ART procedures performed in fertility clinics in the United States as mandated by the Fertility Clinic Success Rate and Certification Act of 1992 (Public Law 102–493 [October 24, 1992]). Data are collected through the National ART Surveillance System (NASS), a web-based data collection system developed by CDC. This report includes data from the 50 U.S. states, the District of Columbia, and Puerto Rico.

Results

In 2018, a total of 203,119 ART procedures (range: 196 in Alaska to 26,028 in California) were performed in 456 U.S. fertility clinics and reported to CDC. These procedures resulted in 73,831 live-birth deliveries (range: 76 in Puerto Rico and Wyoming to 9,666 in California) and 81,478 infants born (range: 84 in Wyoming to 10,620 in California). Nationally, among women aged 15–44 years, the rate of ART procedures performed was 3,135 per 1 million women. ART use exceeded 1.5 times the national rate in seven states (Connecticut, Illinois, Maryland, Massachusetts, New Jersey, New York, and Rhode Island) and the District of Columbia. ART use rates exceeded the national rate in an additional seven states (California, Delaware, Hawaii, New Hampshire, Utah, Vermont, and Virginia).

Nationally, among all ART transfer procedures, the average number of embryos transferred was similar across age groups (1.3 among women aged <35 years, 1.3 among women aged 35–37 years, and 1.4 among women aged >37 years). The national single-embryo transfer (SET) rate among all embryo-transfer procedures was 74.1% among women aged <35 years (range: 28.2% in Puerto Rico to 89.5% in Delaware), 72.8% among women aged 35–37 years (range: 30.6% in Puerto Rico to 93.7% in Delaware), and 66.4% among women aged >37 years (range: 27.1% in Puerto Rico to 85.3% in Delaware).

In 2018, ART contributed to 2.0% of all infants born in the United States (range: 0.4% in Puerto Rico to 5.1% in Massachusetts) from procedures performed in 2017 and 2018. Approximately 78.6% of ART-conceived infants were singleton infants. Overall, ART contributed to 12.5% of all multiple births, including 12.5% of all twin births and 13.3% of all triplets and higher-order births. ART-conceived twins accounted for approximately 97.1% (15,532 of 16,001) of all ART-conceived multiple births. The percentage of multiple births was higher among infants conceived with ART (21.4%) than among all infants born in the total birth population (3.3%). Approximately 20.7% (15,532 of 74,926) of ART-conceived infants were twins, and 0.6% (469 of 74,926) were triplets and higher-order multiples.

Nationally, infants conceived with ART contributed to 4.2% of all low birthweight (<2,500 g) infants. Among ART-conceived infants, 18.3% were low birthweight compared with 8.3% among all infants. ART-conceived infants contributed to 5.1% of all preterm (gestational age <37 weeks) infants. The percentage of preterm births was higher among infants conceived with ART (26.1%) than among all infants born in the total birth population (10.0%).

The percentage of low birthweight among singletons was 8.3% among ART-conceived infants and 6.6% among all infants born. The percentage of preterm births among ART-conceived singleton infants was 14.9% compared with 8.3% among all singleton infants. The percentages of small for gestational age infants was 7.3% among ART-conceived infants compared with 9.4% among all infants.

Interpretation

Although singleton infants accounted for the majority of ART-conceived infants, multiple births from ART varied substantially among states and nationally, contributing to >12% of all twins, triplets, and higher-order multiple infants born in the United States. Because multiple births are associated with higher rates of prematurity than singleton births, the contribution of ART to poor birth outcomes continues to be noteworthy. Although SET rates increased among all age groups, variations in SET rates among states and territories remained, which might reflect variations in embryo-transfer practices among fertility clinics and might in part account for variations in multiple birth rates among states and territories.

Public Health Action

Reducing the number of embryos transferred and increasing use of SET, when clinically appropriate, can help reduce multiple births and related adverse health consequences for both mothers and infants. Whereas risks to mothers from multiple-birth pregnancy include higher rates of caesarean delivery, gestational hypertension, and gestational diabetes, infants from multiple births are at increased risk for numerous adverse sequelae such as preterm birth, birth defects, and developmental disabilities. Long-term follow-up of ART infants through integration of existing maternal and infant health surveillance systems and registries with data available from NASS might be useful for monitoring adverse outcomes on a population basis.

Introduction

Since the birth of the first U.S. infant conceived with assisted reproductive technology (ART) in 1981, use of advanced technologies to overcome infertility has increased, as has the number of fertility clinics providing ART services and procedures in the United States (1). In 1992, Congress passed the Fertility Clinic Success Rate and Certification Act (Public Law 102–493 [October 24, 1992]), which requires that all U.S. fertility clinics performing ART procedures report data to CDC annually on every ART procedure performed. CDC initiated data collection in 1995 and in 1997 published the first annual ART Fertility Clinic Success Rates Report (2). The annual ART Fertility Clinic Success Rates Report presents multiple measures of success for ART, including the percentage of ART procedures that result in live-birth deliveries.

Although ART has helped millions of women achieve pregnancy, the treatment is associated with potential health risks for both mothers and infants. Because multiple embryos can be transferred in ART procedures, ART might result in multiple-gestation pregnancies and multiple births (3). Obstetric risks to the mothers from a multiple-birth pregnancy include higher rates of caesarean delivery, maternal hemorrhage, pregnancy-related hypertension, and gestational diabetes (47). Risks to the infants include preterm birth, low birthweight, birth defects, developmental disability, and death (811). In addition, singleton infants conceived with ART might have a higher risk for low birthweight and prematurity than singletons not conceived with ART (12). However, research published in 2017 suggests that this higher risk might be associated with singleton births resulting from multiple-embryo transfers (13).

This report was compiled from data provided and verified by ART clinics on ART procedures performed in 2018 and reported to CDC’s Division of Reproductive Health. Data on the use of ART in 2018 are presented for residents of each U.S. state, the District of Columbia, and Puerto Rico. State-specific data also are reported for outcomes for infants born in 2018 resulting from ART procedures performed in 2017 and 2018. Specifically, the report presents the contribution of ART to selected outcomes (e.g., multiple births, low birthweight, preterm births, and small for gestational age [SGA]) and compares outcomes among ART-conceived infants with outcomes among all infants born in the United States in 2018.

Methods

National ART Surveillance System

In 1995, CDC initiated data collection of ART procedures performed in the United States. ART data are obtained from all fertility clinics in the United States that provide and verify information about the outcomes of the ART cycles through the National ART Surveillance System (NASS), a web-based data collection system developed by CDC (https://www.cdc.gov/art/nass/index.html). Clinics that are members of the Society for Assisted Reproductive Technology (SART) can report their data to NASS through SART. Clinics that are not members of SART can enter their data directly in NASS. All clinics must verify the accuracy of the data they report before finalizing submission to NASS. The data then are compiled by a CDC contractor and reviewed for accuracy. In 2018, a total of 8.6% of clinics did not report their data to CDC and are listed as nonreporting clinics in the 2018 ART Fertility Clinic Success Rates Report, as required by the Fertility Clinic Success Rate and Certification Act of 1992. More details about the law are available at https://www.cdc.gov/art/nass/policy.html. Because nonreporting clinics tend to be smaller on average than reporting clinics, NASS is estimated to contain information on 98% of all ART procedures in the United States (1).

Data collected include patient demographics, medical history, and infertility diagnoses; clinical information pertaining to the ART procedure type; and information about resultant pregnancies and births. The data file contains one record per ART procedure (i.e., cycle of treatment performed). Because ART providers typically do not provide continued prenatal care after a pregnancy is established, information on live births is collected for all procedures from patients and other physicians. CDC’s NASS data are available to external researchers through the Collaborative for ART Epidemiologic Research (https://www.cdc.gov/art/nass/accessdata.html).

ART Procedures

ART includes fertility treatments in which eggs or embryos are handled in a laboratory (i.e., in vitro fertilization [IVF], gamete intrafallopian transfer, and zygote intrafallopian transfer). More than 99% of ART procedures performed are IVF. Because an ART procedure consists of multiple steps over an interval of multiple weeks, a procedure often is referred to as a cycle of treatment. An ART cycle usually begins with drug-induced ovarian stimulation. If eggs are produced, the cycle progresses to the egg-retrieval stage, which involves surgical removal of the eggs from the ovaries. After the eggs are retrieved, they are combined with sperm in a laboratory during the IVF procedure. For most IVF procedures (75.7% in 2018), a specialized technique (intracytoplasmic sperm injection) is used in which a single sperm is injected directly into the egg (1). If successful fertilization occurs, the most viable embryos (i.e., those that appear morphologically most likely to develop and implant) are selected for transfer back into the uterus. If an embryo implants in the uterus, a clinical pregnancy is diagnosed by the presence of a gestational sac detectable by ultrasound. On average, less than half of the procedures result in a clinical pregnancy. Most pregnancies will progress to a live-birth delivery, defined as the delivery of one or more live-born infants; however, some result in pregnancy loss (14,15). ART does not include treatments in which only sperm are handled (i.e., intrauterine insemination) or procedures in which a woman is administered drugs to stimulate egg production without the intention of having eggs retrieved.

ART procedures are classified based on the source of the egg (patient or donor) and the status of the eggs and embryos. Both fresh and thawed embryos can be derived from fresh or frozen eggs of the patient or donor. Patient and donor embryos can be created using sperm from a partner or donor. ART procedures involving fresh eggs and embryos include an egg-retrieval stage. ART procedures that use thawed eggs or embryos do not include egg retrieval because the eggs were retrieved during a previous ART procedure, and the eggs were either frozen or fertilized and the resultant embryos were frozen until the current ART procedure. An ART cycle can be discontinued at any step for medical reasons or by patient choice.

Birth Data for United States

Data on the total numbers of live births, including singleton and multiple births, in each area in 2018 were obtained from U.S. natality data collected via the National Center for Health Statistics (16,17). The data were derived from birth certificates.

Variables and Definitions

Data on ART procedures and birth outcomes are presented by patient’s residence (i.e., state or territory) at the time of treatment, which might not be the same as the location where the procedure was performed. If information on a patient’s residence was missing, residence was assigned as the location where the procedure was performed (0.3% of procedures performed in 2018 and 0.1% of live-birth deliveries occurring in 2018). ART procedures performed in the United States among non-U.S. residents are included in NASS data; however, they are excluded from certain calculations because these women might have delivered outside the United States, and the appropriate denominators were not available. To protect confidentiality, table cells with values of 1–4 for ART-conceived infants and 0–9 for all infants are suppressed. The cell suppression criteria for ART population allows for the representation of some clinics that carry out only a small number of cycles while maintaining minimum risks for identification. Because of limited numbers, ART data from U.S. territories (with the exception of Puerto Rico) are not included in this report. In addition, percentages derived from cell values <20 in the denominator have been suppressed because they are unstable.

This report presents data on all procedures performed with the exception of research cycles and cycles in which egg or embryo banking was performed for future ART cycles. The number of ART procedures performed per 1 million women aged 15–44 years was calculated. Data about population size were compiled based on July 1, 2018, estimates from the U.S. Census Bureau (18). The resulting rate approximates the proportion of women who used ART in each state or territory. This proxy measure of ART use is only an approximation because certain women who use ART are outside the age range of 15–44 years (approximately 5.4% of cycles performed in 2018), and certain women might have had more than one procedure during the reporting period.

A live-birth delivery was defined as a birth of one or more infants. A singleton live-birth delivery was defined as a delivery of only one infant who was born live. A multiple live-birth delivery was defined as a delivery of two or more infants, at least one of whom was born live. Low birthweight was defined as <2,500 g, moderately low birthweight as 1,500–2,499 g, and very low birthweight as <1,500 g. Gestational age for births among women who did not undergo ART procedures was calculated using obstetric estimate of gestational age at delivery (19). For births to women who underwent fresh ART procedures, gestational age was calculated by subtracting the date of egg retrieval from the birth date and adding 14 days. For births to women who underwent frozen embryo cycles or fresh ART procedures for which the date of retrieval was not available, gestational age was calculated by subtracting the date of embryo transfer from the birth date and adding 17 days (to account for an average of 3 days in embryo culture). Preterm birth was defined as gestational age <37 weeks, late preterm 34–36 weeks, early preterm <34 weeks, and very preterm <32 weeks (17).

Single-embryo transfer (SET) procedures among all embryo-transfer procedures are reported. In a SET procedure, only one embryo is placed in the uterus per transfer regardless of how many embryos are available. The rate of SET was calculated by dividing the total number of SET procedures by the total number of embryo-transfer procedures performed and reported by the following age groups: <35 years, 35–37 years, and >37 years. The average number of embryos transferred by age group was calculated by dividing the total number of embryos transferred by the total number of embryo-transfer procedures performed among that age group.

The proportion of ART infants among all births in a particular state or territory was used as a second measure of ART use. The proportion of adverse outcomes among ART-conceived infants (e.g., preterm birth) was calculated by dividing the total number of adverse outcomes among ART-conceived infants by the total number of adverse outcomes among all infants born.

The percentage of infants (ART conceived and all infants) born in a state or territory for each plurality group (singleton, multiple, twin, and triplet and higher-order multiple) was calculated by dividing the number of infants (ART conceived and all infants) in each plurality group by the total number of infants born (ART conceived and all infants). The percentage of infants with low birthweight and preterm birth was calculated only for singleton births for ART-conceived infants and for all infants by dividing the number of low birthweight or preterm infants among singletons by the total number of singleton infants.

In addition, the percentage of singleton infants who were SGA (defined as <10th percentile of birthweight for gestational age week and limited to 22–44 weeks) was calculated using a reference distribution (20). The percentage of singleton SGA infants was calculated for all births by dividing the number of singleton SGA infants in the gestational age category (week) by the total number of singleton infants in that gestational age category for ART-conceived and all infants, respectively.

To assess the proportion of ART births among U.S. births in 2018, ART births were aggregated from two reporting years: 1) infants conceived with ART procedures performed in 2017 and born in 2018 (71.2% of the live-birth deliveries reported to NASS for 2018) and 2) infants conceived with ART procedures performed in 2018 and born in 2018 (28.8% of the live-birth deliveries reported to NASS for 2018).

Results

Overview of Fertility Clinics

In 2018, a total of 499 fertility clinics in the United States performed ART procedures and 456 (91.4%) provided data to CDC, with the majority located in or near major cities (1). The number of fertility clinics performing ART procedures varied by state or territory. The states with the largest numbers of fertility clinics providing data were California (71), Texas (42), and New York (42) (Figure 1).

FIGURE 1.

Figure is a map of the United States indicating the number of assisted reproductive technology clinics in each state, the District of Columbia, and Puerto Rico. In 2018, a total of 456 (91.4%) of the 499 clinics in the United States submitted data to CDC.

Location and number* of assisted reproductive technology clinics, by quartile — United States and Puerto Rico, 2018

Abbreviations: DC = District of Columbia; PR = Puerto Rico.

* In 2018, of the 499 clinics in the United States, 456 (91.4%) submitted data.

Number and Type of ART Procedures

The number, type, and outcome of ART procedures performed in 2018 are provided according to patient’s residence for all 52 areas and non-U.S. residents (Table 1). Residence data were missing for approximately 0.3% of procedures performed, and in these instances, the patient’s residence was assigned as the location where the ART procedure was performed. In 2018, approximately 14.2% of ART procedures were performed in a state or territory other than the patient’s state or territory of residence. Non-U.S. residents accounted for approximately 3.6% of ART procedures, 4.3% of ART live-birth deliveries, and 4.4% of ART-conceived infants born.

TABLE 1. Number and outcomes of assisted reproductive technology procedures performed, by female patient’s area of residence at time of treatment — United States and Puerto Rico, 2018.

Patient’s area of residence* No. of ART clinics No. of ART procedures performed§ No. of ART embryo-transfer procedures No. of ART pregnancies No. of ART live-birth deliveries No. of ART singleton live-birth deliveries No. of ART multiple live-birth deliveries No. of ART live-born infants No. of ART procedures per 1 million women aged 15–44 yrs**
Alabama
5
1,298
973
471
388
353
35
423
1,368
Alaska
0
196
159
95
80
71
9
89
1,346
Arizona
15
3,160
2,602
1,436
1,189
1,001
188
1,383
2,295
Arkansas
1
586
490
253
210
173
37
249
1,014
California
71
26,028
20,100
11,562
9,666
8,721
945
10,620
3,218
Colorado
8
2,397
2,216
1,479
1,261
1,119
142
1,404
2,063
Connecticut
6
3,558
2,812
1,623
1,343
1,210
133
1,480
5,312
Delaware
2
703
524
319
270
259
11
281
3,911
District of Columbia
2
1,338
1,017
540
438
412
26
465
7,082
Florida
27
9,011
7,146
3,771
3,103
2,765
338
3,447
2,325
Georgia
9
4,527
3,814
2,097
1,706
1,527
179
1,889
2,093
Hawaii
6
1,078
834
495
403
329
74
480
4,075
Idaho
1
611
509
306
272
232
40
312
1,810
Illinois††
26
12,884
9,896
5,208
4,217
3,819
398
4,620
5,120
Indiana
8
2,453
1,967
927
779
662
117
899
1,888
Iowa
2
1,560
1,303
778
647
581
66
715
2,622
Kansas
3
970
802
461
383
347
36
420
1,732
Kentucky
4
1,387
1,150
546
453
372
81
536
1,632
Louisiana
5
1,541
1,224
632
502
462
40
542
1,663
Maine
1
493
422
226
192
170
22
215
2,133
Maryland
7
6,551
5,061
2,666
2,071
1,926
145
2,218
5,518
Massachusetts††
8
10,390
8,633
4,250
3,469
3,230
239
3,711
7,438
Michigan
10
4,400
3,682
2,018
1,641
1,382
259
1,909
2,338
Minnesota
5
3,088
2,656
1,505
1,289
1,140
149
1,440
2,875
Mississippi
3
628
542
294
243
222
21
265
1,065
Missouri
10
2,447
2,018
1,134
933
796
137
1,071
2,084
Montana
1
289
232
143
114
106
8
123
1,495
Nebraska
2
919
724
407
339
277
62
401
2,467
Nevada
5
1,307
1,038
630
527
442
85
614
2,199
New Hampshire
0
937
791
391
314
279
35
350
3,832
New Jersey††
19
9,942
8,547
4,797
3,964
3,727
237
4,206
5,901
New Mexico
2
394
350
207
169
150
19
188
991
New York
42
22,779
18,327
9,020
7,220
6,603
617
7,839
5,832
North Carolina
10
4,331
3,446
2,020
1,665
1,504
161
1,830
2,126
North Dakota
1
245
221
140
118
92
26
143
1,662
Ohio
11
4,988
3,976
2,117
1,749
1,585
164
1,917
2,256
Oklahoma
3
1,025
840
446
376
310
66
440
1,330
Oregon
4
1,332
1,213
822
699
596
103
804
1,623
Pennsylvania
14
7,406
5,888
2,948
2,414
2,245
169
2,585
3,107
Puerto Rico
3
298
258
106
76
55
21
98
484
Rhode Island††
1
1,026
865
351
276
245
31
308
4,935
South Carolina
4
1,946
1,510
906
729
652
77
809
1,997
South Dakota
1
304
264
136
119
91
28
147
1,882
Tennessee
10
1,987
1,634
913
767
692
75
843
1,503
Texas
42
15,160
12,529
7,134
5,895
5,225
670
6,572
2,537
Utah
3
2,180
1,833
1,106
914
800
114
1,026
3,158
Vermont
2
435
345
180
148
133
15
163
3,780
Virginia
11
6,252
4,958
2,676
2,194
1,997
197
2,390
3,703
Washington
11
4,171
3,363
2,053
1,707
1,566
141
1,849
2,785
West Virginia
3
409
340
176
142
121
21
165
1,282
Wisconsin
6
2,199
1,818
956
818
719
99
918
2,022
Wyoming
0
209
176
104
76
68
8
84
1,944
Non-U.S. residents

7,366
5,851
3,711
3,154
2,729
425
3,583
§§
Total 456 203,119 163,889 89,688 73,831 66,290 7,541 81,478 3,135

Abbreviation: ART = assisted reproductive technology.

* In cases of missing patient’s residence data (0.3%), the patient’s residence was assigned as the location where the ART procedure was performed.

† The ART procedures and outcomes by patient’s area of residence do not necessarily reflect the procedures and outcomes of the ART clinics within the area because some patients seek treatment at a clinic in a location other than their area of residence.

§ The total number of procedures reported to CDC was 306,197. The number of procedures in this report excludes 103,078 cycles in which egg or embryo banking was performed. In addition, all numbers and percentages exclude eight research cycles that were evaluating new procedures.

Embryo-transfer procedures include all procedures performed in which at least one embryo was transferred.

** On the basis of U.S. Census Bureau estimates (Source: US Census Bureau. Annual estimates of the resident population for selected age groups by sex for the United States, states, counties, and Puerto Rico Commonwealth and municipios: April 1, 2010 to July 1, 2018. Washington, DC: US Census Bureau, Population Division; 2018. https://data.census.gov/cedsci/table?q=United%20States&g=0100000US&tid=ACSST1Y2018.S0101&vintage=2018).

†† State with comprehensive insurance mandate requiring insurers to cover the costs associated with diagnosis and treatment of infertility inclusive of ART services for at least four oocyte retrievals.

§§ Non-U.S. residents were excluded from rate because the appropriate denominators were not available.

In 2018, a total of 306,197 ART procedures were reported to CDC (1). This report includes data for 203,119 ART procedures performed (range: 196 in Alaska to 26,028 in California) in the United States (including Puerto Rico) (Table 1) (Figure 2). Excluded are 103,078 cycles in which egg or embryo banking was performed and eight research cycles in which a new treatment procedure was being evaluated. Of 203,119 procedures performed in the 52 states or territories, 163,889 (80.7%) progressed to embryo transfer. Of 163,889 ART procedures that progressed to the embryo-transfer stage, 89,688 (54.7%) resulted in a pregnancy and 73,831 (45.0%) in a live-birth delivery (range: 76 in Puerto Rico and Wyoming to 9,666 in California). The 73,831 live-birth deliveries included 66,290 singleton deliveries (89.8%) and 7,541 multiple deliveries (10.2%) and resulted in 81,478 live-born infants (range: 84 in Wyoming to 10,620 in California).

FIGURE 2.

Figure is a bar graph indicating the number and outcomes of assisted reproductive technology procedures performed in the United States and Puerto Rico in 2018. Types of outcomes include pregnancies, live-birth deliveries, singleton deliveries, and multiple deliveries.

Number and outcomes of assisted reproductive technology procedures performed,* by type of outcome — United States and Puerto Rico, 2018

* The total number of procedures reported to CDC was 306,197. Procedures performed exclude 103,078 cycles in which egg or embryo banking was performed and eight research cycles in which a new treatment procedure was being evaluated. Embryo transfers include all procedures in which at least one embryo was transferred.

Six states with the largest numbers of ART procedures (California, Illinois, Massachusetts, New Jersey, New York, and Texas) accounted for approximately half (47.8%; 97,183 of 203,119) of all ART procedures, 47.6% (78,032 of 163,889) of all embryo-transfer procedures, 46.1% (37,568 of 81,478) of all ART-conceived infants born, and 41.2% (3,106 of 7,541) of all ART-conceived multiple live-birth deliveries in the United States (Table 1). However, these six states accounted for only 36.1% of all U.S. births (17).

The number of ART procedures per 1 million women aged 15–44 years ranged from 484 in Puerto Rico to 7,438 in Massachusetts, with an overall national rate of 3,135 (Table 1). Fourteen states (California, Connecticut, Delaware, Hawaii, Illinois, Maryland, Massachusetts, New Hampshire, New Jersey, New York, Rhode Island, Utah, Vermont, and Virginia) and the District of Columbia had ART use rates higher than the national rate. The District of Columbia (7,082) and Massachusetts (7,438) had rates exceeding twice the national rate, whereas Connecticut (5,312), Illinois (5,120), Maryland (5,518), New Jersey (5,901), New York (5,832), and Rhode Island (4,935) had rates exceeding 1.5 times the national rate. The three areas with the lowest ART use rates were Arkansas (1,014), New Mexico (991), and Puerto Rico (484).

Number of Embryos Transferred

Overall, 66,732 embryo-transfer procedures were performed among women aged <35 years, 37,604 among women aged 35–37 years, and 59,553 among women aged >37 years (Table 2). Nationally, on average, 1.3 embryos were transferred per procedure among women aged <35 years, 1.3 embryos among women aged 35–37 years, and 1.4 embryos among women aged >37 years. The national SET rate was 74.1% among women aged <35 years (range: 28.2% in Puerto Rico to 89.5% in Delaware), 72.8% among women aged 35–37 years (range: 30.6% in Puerto Rico to 93.7% in Delaware), and 66.4% among women aged >37 years (range: 27.1% in Puerto Rico to 85.3% in Delaware).

TABLE 2. Number of assisted reproductive technology embryo-transfer procedures performed with a single-embryo transfer, by female patient’s age group and area of residence at time of treatment — United States and Puerto Rico, 2018.

Patient’s area of residence* <35 yrs
35–37 yrs
>37 yrs
No. of embryo-transfer procedures Average no. of embryos transferred SET (%) No. of embryo-transfer procedures Average no. of embryos transferred SET (%) No. of embryo-transfer procedures Average no. of embryos transferred SET (%)
Alabama
513
1.3
71.0
212
1.4
66.0
248
1.5
57.3
Alaska
56
1.3
66.1
39
1.1
87.2
64
1.4
68.8
Arizona
1,161
1.5
57.3
591
1.4
61.8
850
1.5
58.1
Arkansas
262
1.4
59.9
119
1.4
57.1
109
1.6
52.3
California
6,016
1.3
73.9
4,920
1.3
74.5
9,164
1.4
68.6
Colorado
904
1.2
76.8
546
1.2
81.0
766
1.2
77.0
Connecticut
1,109
1.2
80.7
681
1.3
68.4
1,022
1.5
60.9
Delaware
266
1.1
89.5
95
1.1
93.7
163
1.2
85.3
District of Columbia
226
1.1
88.1
229
1.2
83.4
562
1.3
76.0
Florida
2,861
1.3
70.5
1,614
1.3
70.6
2,671
1.4
67.4
Georgia
1,598
1.3
73.2
863
1.3
72.2
1,353
1.3
71.9
Hawaii
268
1.5
51.5
171
1.5
55.6
395
1.7
50.4
Idaho
276
1.4
60.9
76
1.3
68.4
157
1.4
63.7
Illinois§
4,105
1.3
72.1
2,406
1.3
67.8
3,385
1.5
59.4
Indiana
1,076
1.4
62.5
439
1.4
62.2
452
1.5
57.5
Iowa
771
1.2
75.7
261
1.3
71.3
271
1.3
72.3
Kansas
420
1.2
82.6
206
1.2
78.2
176
1.3
78.4
Kentucky
662
1.4
63.0
213
1.4
58.7
275
1.6
49.1
Louisiana
636
1.2
82.9
292
1.2
79.1
296
1.3
79.1
Maine
180
1.2
77.8
103
1.3
75.7
139
1.3
74.1
Maryland
1,951
1.2
83.5
1,110
1.2
80.0
2,000
1.4
67.7
Massachusetts§
3,319
1.1
87.5
2,138
1.2
81.5
3,176
1.6
60.1
Michigan
1,834
1.5
52.1
825
1.5
54.2
1,023
1.7
52.4
Minnesota
1,311
1.3
68.0
613
1.3
71.9
732
1.4
65.3
Mississippi
316
1.3
74.4
107
1.4
65.4
119
1.2
75.6
Missouri
1,104
1.4
62.0
435
1.5
56.3
479
1.6
58.0
Montana
115
1.2
79.1
61
1.2
82.0
56
1.3
76.8
Nebraska
422
1.3
66.8
149
1.4
60.4
153
1.4
66.0
Nevada
471
1.4
62.2
222
1.3
67.1
345
1.3
73.3
New Hampshire
363
1.2
81.0
200
1.3
74.0
228
1.5
64.5
New Jersey§
3,303
1.2
85.4
1,951
1.2
82.6
3,293
1.3
73.9
New Mexico
150
1.3
70.0
94
1.2
77.7
106
1.5
62.3
New York
6,214
1.3
75.2
3,950
1.3
72.2
8,163
1.5
61.9
North Carolina
1,593
1.2
80.7
754
1.3
74.1
1,099
1.4
67.2
North Dakota
111
1.4
55.9
51
1.5
52.9
59
1.4
59.3
Ohio
2,005
1.2
77.6
913
1.3
70.4
1,058
1.4
61.9
Oklahoma
442
1.5
55.0
204
1.6
45.1
194
1.6
47.4
Oregon
438
1.4
64.8
288
1.3
69.8
487
1.3
74.7
Pennsylvania
2,757
1.2
81.8
1,445
1.2
78.2
1,686
1.4
70.3
Puerto Rico
78
1.8
28.2
62
1.8
30.6
118
1.9
27.1
Rhode Island§
373
1.2
82.8
209
1.2
76.6
283
1.6
57.6
South Carolina
709
1.3
75.2
345
1.3
66.7
456
1.4
65.6
South Dakota
171
1.6
40.4
50
1.6
42.0
43
1.3
69.8
Tennessee
804
1.2
78.2
347
1.3
70.9
483
1.4
67.5
Texas
5,956
1.3
72.4
2,930
1.3
72.6
3,643
1.4
68.9
Utah
1,064
1.3
69.6
329
1.3
67.5
440
1.4
65.2
Vermont
115
1.3
73.9
75
1.4
62.7
155
1.6
59.4
Virginia
1,836
1.2
79.3
1,175
1.2
78.9
1,947
1.3
72.5
Washington
1,265
1.2
79.4
840
1.2
81.3
1,258
1.3
76.9
West Virginia
193
1.5
58.0
74
1.3
70.3
73
1.5
63.0
Wisconsin
918
1.3
69.9
467
1.4
65.7
433
1.4
63.5
Wyoming
93
1.2
78.5
39
1.3
74.4
44
1.4
63.6
Non-U.S. resident
1,572
1.3
68.0
1,076
1.3
72.1
3,203
1.3
72.7
Total 66,732 1.3 74.1 37,604 1.3 72.8 59,553 1.4 66.4

Abbreviation: SET = single-embryo transfer.

* In cases of missing patient’s residence data (0.3%), the patient’s residence was assigned as the location where the assisted reproductive technology procedure was performed.

Includes all procedures in which at least one embryo was transferred.

§ State with comprehensive insurance mandate requiring insurers to cover the costs associated with diagnosis and treatment of infertility inclusive of ART services for at least four oocyte retrievals.

Singleton and Multiple Births

To allow comparisons between ART infants and all infants born in the United States, this report includes all ART infants born in 2018. These infants resulted from ART procedures performed in 2017 or 2018.

In 2018, among 3,813,136 infants born in the United States and Puerto Rico, 74,926 (2.0%) were conceived with ART procedures performed in 2017 and 2018 (Table 3). California, New York, and Texas had the highest total numbers of all infants born (454,920; 226,238; and 378,624, respectively) and ART-conceived infants born (10,016; 7,742; and 6,173, respectively). The percentage of ART-conceived infants among all infants born was highest in Massachusetts (5.1%), followed by the District of Columbia (4.6%) and New Jersey (4.2%).

TABLE 3. Number, proportion, and percentage of infants born with use of assisted reproductive technology, by female patient’s area of residence at time of treatment — United States and Puerto Rico, 2018.

Patient’s area of residence* Total infants born†,§
ART infants born
Proportion of ART infants among all infants
Singleton infants among ART infants
Singleton infants among all infants
Proportion of ART singleton infants among all singleton infants
No. No. % No. (%) No. (%) %
Alabama
57,761
389
0.7
284 (73.0)
55,655 (96.4)
0.5
Alaska
10,086
76
0.8
56 (73.7)
9,741 (96.6)
0.6
Arizona
80,723
1,329
1.6
898 (67.6)
78,082 (96.7)
1.2
Arkansas
37,018
246
0.7
149 (60.6)
35,854 (96.9)
0.4
California
454,920
10,016
2.2
8,046 (80.3)
440,699 (96.9)
1.8
Colorado
62,885
1,418
2.3
1,097 (77.4)
60,867 (96.8)
1.8
Connecticut
34,725
1,426
4.1
1,133 (79.5)
33,429 (96.3)
3.4
Delaware
10,621
229
2.2
215 (93.9)
10,323 (97.2)
2.1
District of Columbia
9,212
428
4.6
380 (88.8)
8,887 (96.5)
4.3
Florida
221,542
3,236
1.5
2,450 (75.7)
214,480 (96.8)
1.1
Georgia
126,172
1,843
1.5
1,422 (77.2)
121,778 (96.5)
1.2
Hawaii
16,972
425
2.5
274 (64.5)
16,443 (96.9)
1.7
Idaho
21,403
312
1.5
203 (65.1)
20,690 (96.7)
1.0
Illinois**
144,815
4,474
3.1
3,591 (80.3)
139,561 (96.4)
2.6
Indiana
81,646
831
1.0
598 (72.0)
78,876 (96.6)
0.8
Iowa
37,785
689
1.8
543 (78.8)
36,433 (96.4)
1.5
Kansas
36,261
401
1.1
333 (83.0)
35,097 (96.8)
0.9
Kentucky
53,922
533
1.0
369 (69.2)
52,091 (96.6)
0.7
Louisiana
59,615
539
0.9
430 (79.8)
57,526 (96.5)
0.7
Maine
12,311
206
1.7
152 (73.8)
11,884 (96.5)
1.3
Maryland
71,080
2,192
3.1
1,840 (83.9)
68,592 (96.5)
2.7
Massachusetts**
69,109
3,543
5.1
2,996 (84.6)
66,664 (96.5)
4.5
Michigan
110,032
1,778
1.6
1,194 (67.2)
105,973 (96.3)
1.1
Minnesota
67,344
1,396
2.1
1,047 (75.0)
65,015 (96.5)
1.6
Mississippi
37,000
244
0.7
196 (80.3)
35,697 (96.5)
0.5
Missouri
73,269
968
1.3
670 (69.2)
70,611 (96.4)
0.9
Montana
11,513
133
1.2
110 (82.7)
11,184 (97.1)
1.0
Nebraska
25,488
347
1.4
239 (68.9)
24,551 (96.3)
1.0
Nevada
35,682
567
1.6
421 (74.3)
34,638 (97.1)
1.2
New Hampshire
11,995
438
3.7
328 (74.9)
11,579 (96.5)
2.8
New Jersey**
101,223
4,239
4.2
3,625 (85.5)
97,667 (96.5)
3.7
New Mexico
23,039
186
0.8
148 (79.6)
22,453 (97.5)
0.7
New York
226,238
7,742
3.4
6,266 (80.9)
218,244 (96.5)
2.9
North Carolina
118,954
1,855
1.6
1,436 (77.4)
114,948 (96.6)
1.2
North Dakota
10,636
133
1.3
90 (67.7)
10,290 (96.7)
0.9
Ohio
135,134
1,840
1.4
1,483 (80.6)
130,554 (96.6)
1.1
Oklahoma
49,800
393
0.8
271 (69.0)
48,129 (96.6)
0.6
Oregon
42,188
756
1.8
534 (70.6)
40,698 (96.5)
1.3
Pennsylvania
135,673
2,538
1.9
2,142 (84.4)
131,199 (96.7)
1.6
Puerto Rico
21,424
84
0.4
46 (54.8)
20,977 (97.9)
0.2
Rhode Island**
10,506
301
2.9
240 (79.7)
10,123 (96.4)
2.4
South Carolina
56,669
692
1.2
535 (77.3)
54,785 (96.7)
1.0
South Dakota
11,893
129
1.1
91 (70.5)
11,466 (96.4)
0.8
Tennessee
80,751
794
1.0
601 (75.7)
78,042 (96.6)
0.8
Texas
378,624
6,173
1.6
4,704 (76.2)
366,664 (96.8)
1.3
Utah
47,209
1,091
2.3
786 (72.0)
45,580 (96.5)
1.7
Vermont
5,432
120
2.2
91 (75.8)
5,249 (96.6)
1.7
Virginia
99,843
2,339
2.3
1,946 (83.2)
96,370 (96.5)
2.0
Washington
86,085
1,733
2.0
1,408 (81.2)
83,506 (97.0)
1.7
West Virginia
18,248
121
0.7
87 (71.9)
17,657 (96.8)
0.5
Wisconsin
64,098
917
1.4
665 (72.5)
61,795 (96.4)
1.1
Wyoming
6,562
98
1.5
66 (67.3)
6,332 (96.5)
1.0
Total 3,813,136 74,926 2.0 58,925 (78.6) 3,685,628 (96.7) 1.6

Abbreviation: ART = assisted reproductive technology.

* In cases of missing patient’s residence data (0.3%), the patient’s residence was assigned as the location where the ART procedure was performed.

U.S. births exclude births to non-U.S. residents (Source: Martin JA, Hamilton BE, Osterman MJ, Driscoll AK. Births: final data for 2018. Natl Vital Stat Rep 2018;68:1–47).

§ U.S. births exclude births to non-U.S. residents (Source: National Center for Health Statistics, Vital statistics data available. Natality public use file and CD-ROM. Hyattsville, MD, National Center for Health Statistics).

Includes infants conceived from ART procedures performed in 2017 and born in 2018 and infants conceived from ART procedures performed in 2018 and born in 2018. Total ART births exclude births to non-U.S. residents.

** State with comprehensive insurance mandate requiring insurers to cover the costs associated with diagnosis and treatment of infertility inclusive of ART services for at least four oocyte retrievals.

Nationally, 21.4% of ART-conceived infants were born in multiple-birth deliveries (range: 6.1% in Delaware to 45.2% in Puerto Rico), compared with 3.3% of all infants (range: 2.1% in Puerto Rico to 3.7% in Connecticut, Michigan, and Nebraska) (Table 4). ART-conceived twins accounted for approximately 97.1% (15,532 of 16,001) of all ART-conceived infants born in multiple-birth deliveries. ART-conceived multiple births contributed to 12.5% of all multiple births (range: 3.7% in Mississippi to 28.5% in Hawaii). Approximately 20.7% of all ART-conceived infants were twins, compared with 3.3% of all infants. ART-conceived twins contributed to 12.5% of all twins. Of ART-conceived infants, 0.6% were triplets and higher-order multiples, compared with 0.1% among all infants. ART-conceived triplets and higher-order multiples contributed to 13.3% of all triplets and higher-order multiples.

TABLE 4. Number, percentage, and proportion of multiple-birth infants, twins, and triplets and higher-order infants born with use of assisted reproductive technology procedures, by female patient’s area of residence at time of treatment — United States and Puerto Rico, 2018.

Patient’s area of residence* Multiple-birth infants among ART infants†,§
Multiple births among all infants
Proportion of ART multiple births among all multiple births
Twin infants among ART infants†,§
Twin infants among all infants
Proportion of ART twin infants among all twin infants
Triplets and higher-order infants among ART infants†,§
Triplets and higher-order infants among all infants
Proportion of ART triplets and higher-order infants among all triplets and higher-order infants
No. (%) No. (%) % No. (%) No. (%) % No. (%) No. (%) %
Alabama
105 (27.0)
2,106 (3.6)
5.0
96 (24.7)
2,015 (3.5)
4.8
9 (2.3)
91 (0.2)
9.9
Alaska
20 (26.3)
345 (3.4)
5.8
20 (26.3)
330 (3.3)
6.1
0 (0.0)
15 (0.1)
††
Arizona
431 (32.4)
2,641 (3.3)
16.3
412 (31.0)
2,545 (3.2)
16.2
19 (1.4)
96 (0.1)
19.8
Arkansas
97 (39.4)
1,164 (3.1)
8.3
88 (35.8)
1,124 (3.0)
7.8
9 (3.7)
40 (0.1)
22.5
California
1,970 (19.7)
14,221 (3.1)
13.9
1,928 (19.2)
13,851 (3.0)
13.9
42 (0.4)
370 (0.1)
11.4
Colorado
321 (22.6)
2,018 (3.2)
15.9
321 (22.6)
1,990 (3.2)
16.1
0 (0.0)
28 (0.0)
0.0
Connecticut
293 (20.5)
1,296 (3.7)
22.6
287 (20.1)
1,265 (3.6)
22.7
6 (0.4)
31 (0.1)
19.4
Delaware
14 (6.1)
298 (2.8)
4.7
14 (6.1)
—**
—**
0 (0.0)
—**
—**,††
District of Columbia
48 (11.2)
325 (3.5)
14.8
48 (11.2)
314 (3.4)
15.3
0 (0.0)
11 (0.1)
††
Florida
786 (24.3)
7,062 (3.2)
11.1
759 (23.5)
6,906 (3.1)
11.0
27 (0.8)
156 (0.1)
17.3
Georgia
421 (22.8)
4,394 (3.5)
9.6
415 (22.5)
4,281 (3.4)
9.7
6 (0.3)
113 (0.1)
5.3
Hawaii
151 (35.5)
529 (3.1)
28.5
142 (33.4)
511 (3.0)
27.8
9 (2.1)
18 (0.1)
††
Idaho
109 (34.9)
713 (3.3)
15.3
109 (34.9)
701 (3.3)
15.5
0 (0.0)
12 (0.1)
††
Illinois
883 (19.7)
5,254 (3.6)
16.8
862 (19.3)
5,102 (3.5)
16.9
21 (0.5)
152 (0.1)
13.8
Indiana
233 (28.0)
2,770 (3.4)
8.4
227 (27.3)
2,699 (3.3)
8.4
6 (0.7)
71 (0.1)
8.5
Iowa
146 (21.2)
1,352 (3.6)
10.8
140 (20.3)
1,320 (3.5)
10.6
6 (0.9)
32 (0.1)
18.8
Kansas
68 (17.0)
1,164 (3.2)
5.8
68 (17.0)
1,152 (3.2)
5.9
0 (0.0)
12 (0.0)
††
Kentucky
164 (30.8)
1,831 (3.4)
9.0
153 (28.7)
1,799 (3.3)
8.5
11 (2.1)
32 (0.1)
34.4
Louisiana
109 (20.2)
2,089 (3.5)
5.2
—**
2,029 (3.4)
—**
—**
60 (0.1)
—**
Maine
54 (26.2)
427 (3.5)
12.6
48 (23.3)
408 (3.3)
11.8
6 (2.9)
19 (0.2)
††
Maryland
352 (16.1)
2,488 (3.5)
14.1
340 (15.5)
2,397 (3.4)
14.2
12 (0.5)
91 (0.1)
13.2
Massachusetts
547 (15.4)
2,445 (3.5)
22.4
523 (14.8)
2,373 (3.4)
22.0
24 (0.7)
72 (0.1)
33.3
Michigan
584 (32.8)
4,059 (3.7)
14.4
560 (31.5)
3,950 (3.6)
14.2
24 (1.3)
109 (0.1)
22.0
Minnesota
349 (25.0)
2,329 (3.5)
15.0
336 (24.1)
2,270 (3.4)
14.8
13 (0.9)
59 (0.1)
22.0
Mississippi
48 (19.7)
1,303 (3.5)
3.7
42 (17.2)
1,251 (3.4)
3.4
6 (2.5)
52 (0.1)
11.5
Missouri
298 (30.8)
2,658 (3.6)
11.2
285 (29.4)
2,593 (3.5)
11.0
13 (1.3)
65 (0.1)
20.0
Montana
23 (17.3)
329 (2.9)
7.0
—**
—**
—**
—**
—**
—**
Nebraska
108 (31.1)
937 (3.7)
11.5
—**
894 (3.5)
—**
—**
43 (0.2)
—**
Nevada
146 (25.7)
1,044 (2.9)
14.0
140 (24.7)
1,026 (2.9)
13.6
6 (1.1)
18 (0.1)
††
New Hampshire
110 (25.1)
416 (3.5)
26.4
110 (25.1)
416 (3.5)
26.4
0 (0.0)
0 (0.0)
††
New Jersey
614 (14.5)
3,556 (3.5)
17.3
599 (14.1)
3,457 (3.4)
17.3
15 (0.4)
99 (0.1)
15.2
New Mexico
38 (20.4)
586 (2.5)
6.5
38 (20.4)
573 (2.5)
6.6
0 (0.0)
13 (0.1)
††
New York
1,476 (19.1)
7,994 (3.5)
18.5
1,440 (18.6)
7,754 (3.4)
18.6
36 (0.5)
240 (0.1)
15.0
North Carolina
419 (22.6)
4,006 (3.4)
10.5
404 (21.8)
3,873 (3.3)
10.4
15 (0.8)
133 (0.1)
11.3
North Dakota
43 (32.3)
346 (3.3)
12.4
43 (32.3)
—**
—**
0 (0.0)
—**
—**
Ohio
357 (19.4)
4,580 (3.4)
7.8
344 (18.7)
4,431 (3.3)
7.8
13 (0.7)
149 (0.1)
8.7
Oklahoma
122 (31.0)
1,671 (3.4)
7.3
122 (31.0)
1,642 (3.3)
7.4
0 (0.0)
29 (0.1)
0.0
Oregon
222 (29.4)
1,490 (3.5)
14.9
210 (27.8)
1,464 (3.5)
14.3
12 (1.6)
26 (0.1)
46.2
Pennsylvania
396 (15.6)
4,474 (3.3)
8.9
374 (14.7)
4,338 (3.2)
8.6
22 (0.9)
136 (0.1)
16.2
Puerto Rico
38 (45.2)
447 (2.1)
8.5
38 (45.2)
—**
—**
0 (0.0)
—**
—**
Rhode Island
61 (20.3)
383 (3.6)
15.9
—**
365 (3.5)
—**
—**
18 (0.2)
—**,††
South Carolina
157 (22.7)
1,884 (3.3)
8.3
157 (22.7)
1,860 (3.3)
8.4
0 (0.0)
24 (0.0)
0.0
South Dakota
38 (29.5)
427 (3.6)
8.9
38 (29.5)
—**
—**
0 (0.0)
—**
—**
Tennessee
193 (24.3)
2,709 (3.4)
7.1
181 (22.8)
2,624 (3.2)
6.9
12 (1.5)
85 (0.1)
14.1
Texas
1,469 (23.8)
11,960 (3.2)
12.3
1,445 (23.4)
11,603 (3.1)
12.5
24 (0.4)
357 (0.1)
6.7
Utah
305 (28.0)
1,629 (3.5)
18.7
299 (27.4)
1,571 (3.3)
19.0
6 (0.5)
58 (0.1)
10.3
Vermont
29 (24.2)
183 (3.4)
15.8
29 (24.2)
—**
—**
0 (0.0)
—**
—**
Virginia
393 (16.8)
3,473 (3.5)
11.3
381 (16.3)
3,368 (3.4)
11.3
12 (0.5)
105 (0.1)
11.4
Washington
325 (18.8)
2,579 (3.0)
12.6
—**
2,501 (2.9)
—**
—**
78 (0.1)
—**
West Virginia
34 (28.1)
591 (3.2)
5.8
34 (28.1)
—**
—**
0 (0.0)
—**
—**
Wisconsin
252 (27.5)
2,303 (3.6)
10.9
240 (26.2)
2,236 (3.5)
10.7
12 (1.3)
67 (0.1)
17.9
Wyoming
32 (32.7)
230 (3.5)
13.9
32 (32.7)
220 (3.4)
14.5
0 (0.0)
10 (0.2)
††
Total 16,001 (21.4) 127,508 (3.3) 12.5 15,532 (20.7) 123,974 (3.3) 12.5 469 (0.6) 3,534 (0.1) 13.3

Abbreviation: ART = assisted reproductive technology.

* In cases of missing patient’s residence data (0.3%), the patient’s residence was assigned as the location where the ART procedure was performed.

ART totals include infants conceived from ART procedures performed in 2017 and born in 2018 and infants conceived from ART procedures performed in 2018 and born in 2018. Total ART births exclude births to non-U.S. residents.

§ Includes only the number of infants live born in a multiple-birth delivery. For example, if three infants were born in a live-birth delivery and one of the three infants was stillborn, the total number of live-born infants would be two. However, the two infants still would be counted as triplets.

U.S. births exclude births to non-U.S. residents (Source: National Center for Health Statistics, Vital statistics data available. Natality public use file and CD-ROM. Hyattsville, MD, National Center for Health Statistics).

** To protect confidentiality, cells with values of 1–4 for ART infants and cells with values of 0–9 for all infants are suppressed. Also suppressed are data that can be used to derive suppressed cell values. These values are included in the totals.

†† Estimates on the basis of N <20 in the denominator have been suppressed because such rates are considered unstable.

Adverse Perinatal Outcomes

Nationally, ART-conceived infants contributed to 4.2% of all infants with low birthweight, 4.2% of all infants with moderately low birthweight, and 4.1% of all infants with very low birthweight (Table 5). Among all ART-conceived infants (including multiples), 18.3% had low birthweight compared with 8.3% among all infants (including multiples). Approximately 3.0% of all ART-conceived infants (including multiples) had very low birthweight compared with 1.4% among all infants (including multiples).

TABLE 5. Number, percentage, and proportion of infants born with use of assisted reproductive technology, by low birthweight category and female patient’s area of residence at time of treatment — United States and Puerto Rico, 2018.

Patient’s area of residence* <1,500 g (VLBW)
1,500–2,499 g (MLBW)
<2,500 g (LBW)
ART infants
All infants§
Proportion of ART infants among all infants
ART infants
All infants§
Proportion of ART infants among all infants
ART infants
All infants§
Proportion of ART infants among all infants
No. (%) No. (%) % No. (%) No. (%) % No. (%) No. (%) %
Alabama
21 (5.7)
1,084 (1.9)
1.9
52 (14.1)
5,100 (8.8)
1.0
73 (19.8)
6,184 (10.7)
1.2
Alaska

98 (1.0)


492 (4.9)

15 (20.0)
590 (5.8)
2.5
Arizona
45 (3.5)
977 (1.2)
4.6
278 (21.8)
5,139 (6.4)
5.4
323 (25.3)
6,116 (7.6)
5.3
Arkansas
6 (2.4)
565 (1.5)
1.1
59 (24.0)
2,900 (7.8)
2.0
65 (26.4)
3,465 (9.4)
1.9
California
212 (2.2)
5,039 (1.1)
4.2
1,378 (14.2)
26,706 (5.9)
5.2
1,590 (16.4)
31,745 (7.0)
5.0
Colorado
26 (1.9)
761 (1.2)
3.4
260 (19.2)
5,145 (8.2)
5.1
286 (21.1)
5,906 (9.4)
4.8
Connecticut
34 (2.4)
459 (1.3)
7.4
208 (14.7)
2,182 (6.3)
9.5
242 (17.1)
2,641 (7.6)
9.2
Delaware
8 (3.6)
161 (1.5)
5.0
21 (9.5)
787 (7.4)
2.7
29 (13.1)
948 (8.9)
3.1
District of Columbia

165 (1.8)


753 (8.2)

43 (10.2)
918 (10.0)
4.7
Florida
137 (4.3)
3,482 (1.6)
3.9
527 (16.7)
15,735 (7.1)
3.3
664 (21.0)
19,217 (8.7)
3.5
Georgia
46 (2.6)
2,259 (1.8)
2.0
306 (17.5)
10,474 (8.3)
2.9
352 (20.1)
12,733 (10.1)
2.8
Hawaii
21 (5.2)
240 (1.4)
8.8
92 (22.9)
1,176 (6.9)
7.8
113 (28.1)
1,416 (8.3)
8.0
Idaho
19 (6.2)
224 (1.0)
8.5
69 (22.5)
1,329 (6.2)
5.2
88 (28.7)
1,553 (7.3)
5.7
Illinois
116 (2.7)
2,132 (1.5)
5.4
647 (14.8)
10,238 (7.1)
6.3
763 (17.4)
12,370 (8.5)
6.2
Indiana
29 (3.6)
1,111 (1.4)
2.6
156 (19.3)
5,461 (6.7)
2.9
185 (22.9)
6,572 (8.0)
2.8
Iowa
21 (3.1)
425 (1.1)
4.9
107 (15.7)
2,183 (5.8)
4.9
128 (18.7)
2,608 (6.9)
4.9
Kansas
8 (2.1)
459 (1.3)
1.7
55 (14.7)
2,217 (6.1)
2.5
63 (16.8)
2,676 (7.4)
2.4
Kentucky
16 (3.1)
756 (1.4)
2.1
95 (18.4)
4,026 (7.5)
2.4
111 (21.6)
4,782 (8.9)
2.3
Louisiana
17 (3.2)
1,145 (1.9)
1.5
85 (16.1)
5,283 (8.9)
1.6
102 (19.4)
6,428 (10.8)
1.6
Maine

121 (1.0)


764 (6.2)

30 (15.2)
885 (7.2)
3.4
Maryland
73 (3.4)
1,175 (1.7)
6.2
272 (12.5)
5,091 (7.2)
5.3
345 (15.9)
6,266 (8.8)
5.5
Massachusetts
71 (2.1)
822 (1.2)
8.6
454 (13.1)
4,415 (6.4)
10.3
525 (15.2)
5,237 (7.6)
10.0
Michigan
65 (3.8)
1,485 (1.3)
4.4
325 (18.8)
7,817 (7.1)
4.2
390 (22.5)
9,302 (8.5)
4.2
Minnesota
51 (3.7)
786 (1.2)
6.5
227 (16.4)
3,831 (5.7)
5.9
278 (20.1)
4,617 (6.9)
6.0
Mississippi
11 (4.6)
794 (2.1)
1.4
45 (18.9)
3,690 (10.0)
1.2
56 (23.5)
4,484 (12.1)
1.2
Missouri
28 (3.1)
991 (1.4)
2.8
184 (20.1)
5,398 (7.4)
3.4
212 (23.2)
6,389 (8.7)
3.3
Montana

108 (0.9)


747 (6.5)

24 (18.3)
855 (7.4)
2.8
Nebraska
8 (2.4)
287 (1.1)
2.8
69 (20.5)
1,640 (6.4)
4.2
77 (22.8)
1,927 (7.6)
4.0
Nevada
33 (6.1)
459 (1.3)
7.2
102 (19.0)
2,638 (7.4)
3.9
135 (25.1)
3,097 (8.7)
4.4
New Hampshire
12 (2.8)
131 (1.1)
9.2
67 (15.5)
681 (5.7)
9.8
79 (18.2)
812 (6.8)
9.7
New Jersey
102 (2.5)
1,401 (1.4)
7.3
512 (12.3)
6,600 (6.5)
7.8
614 (14.8)
8,001 (7.9)
7.7
New Mexico

294 (1.3)


1,790 (7.8)

48 (25.9)
2,084 (9.0)
2.3
New York
212 (2.9)
2,968 (1.3)
7.1
1,001 (13.7)
15,240 (6.7)
6.6
1,213 (16.6)
18,208 (8.0)
6.7
North Carolina
63 (3.7)
1,887 (1.6)
3.3
250 (14.7)
9,083 (7.6)
2.8
313 (18.4)
10,970 (9.2)
2.9
North Dakota
11 (8.7)
121 (1.1)
9.1
22 (17.5)
577 (5.4)
3.8
33 (26.2)
698 (6.6)
4.7
Ohio
47 (2.7)
1,995 (1.5)
2.4
253 (14.5)
9,476 (7.0)
2.7
300 (17.2)
11,471 (8.5)
2.6
Oklahoma
11 (2.8)
721 (1.4)
1.5
81 (20.8)
3,394 (6.8)
2.4
92 (23.7)
4,115 (8.3)
2.2
Oregon
31 (4.2)
370 (0.9)
8.4
120 (16.3)
2,456 (5.8)
4.9
151 (20.5)
2,826 (6.7)
5.3
Pennsylvania
66 (2.7)
1,869 (1.4)
3.5
308 (12.7)
9,353 (6.9)
3.3
374 (15.4)
11,222 (8.3)
3.3
Puerto Rico
9 (10.7)
302 (1.4)
3.0
26 (31.0)
1,910 (8.9)
1.4
35 (41.7)
2,212 (10.3)
1.6
Rhode Island
15 (5.2)
136 (1.3)
11.0
41 (14.2)
665 (6.3)
6.2
56 (19.4)
801 (7.6)
7.0
South Carolina
20 (3.1)
965 (1.7)
2.1
112 (17.3)
4,467 (7.9)
2.5
132 (20.3)
5,432 (9.6)
2.4
South Dakota
10 (7.9)
104 (0.9)
9.6
22 (17.5)
685 (5.8)
3.2
32 (25.4)
789 (6.6)
4.1
Tennessee
34 (4.4)
1,303 (1.6)
2.6
126 (16.5)
6,168 (7.6)
2.0
160 (20.9)
7,471 (9.3)
2.1
Texas
211 (3.5)
5,345 (1.4)
3.9
1,021 (17.1)
26,692 (7.0)
3.8
1,232 (20.6)
32,037 (8.5)
3.8
Utah
44 (4.2)
495 (1.0)
8.9
190 (18.1)
2,890 (6.1)
6.6
234 (22.2)
3,385 (7.2)
6.9
Vermont

58 (1.1)


323 (5.9)

17 (14.9)
381 (7.0)
4.5
Virginia
67 (2.9)
1,453 (1.5)
4.6
275 (12.1)
6,722 (6.7)
4.1
342 (15.0)
8,175 (8.2)
4.2
Washington
30 (1.8)
865 (1.0)
3.5
261 (15.3)
4,825 (5.6)
5.4
291 (17.1)
5,690 (6.6)
5.1
West Virginia

285 (1.6)


1,423 (7.8)

24 (20.9)
1,708 (9.4)
1.4
Wisconsin
19 (2.1)
765 (1.2)
2.5
158 (17.8)
4,170 (6.5)
3.8
177 (19.9)
4,935 (7.7)
3.6
Wyoming

70 (1.1)


544 (8.3)

25 (25.8)
614 (9.4)
4.1
Total 2,158 (3.0) 52,473 (1.4) 4.1 11,123 (15.4) 263,491 (6.9) 4.2 13,281 (18.3) 315,964 (8.3) 4.2

Abbreviations: ART = assisted reproductive technology; LBW = low birthweight; MLBW = moderately low birthweight; VLBW = very low birthweight.

* In cases of missing patient’s residence data (0.3%), the patient’s residence was assigned as the location where the ART procedure was performed.

ART totals include infants conceived from ART procedures performed in 2017 and born in 2018 and infants conceived from ART procedures performed in 2018 and born in 2018. Total ART infants exclude births to non-U.S. residents and include only infants with birthweight data available.

§ U.S. births exclude births to non-U.S. residents (Source: National Center for Health Statistics, Vital statistics data available. Natality public use file and CD-ROM. Hyattsville, MD, National Center for Health Statistics).

To protect confidentiality, cells with values of 1–4 for ART infants and cells with values of 0–9 for all infants are suppressed. Also suppressed are data that can be used to derive suppressed cell values. These values are included in the totals.

Nationally, ART contributed to approximately 5.1% of all infants born preterm, 5.0% very preterm, 5.5% early preterm, and 4.9% late preterm (Table 6). In Connecticut and Massachusetts, the contribution of ART to preterm infants was ≥10%. Among all ART-conceived infants (including multiples), 26.1% had born preterm, 4.0% very preterm, 7.8% early preterm, and 18.4% late preterm. Corresponding rates among all infants (including multiples) were 10.0% preterm, 1.6% very preterm, 2.8% early preterm, and 7.3% late preterm. Late preterm births accounted for the majority of preterm births among both ART-conceived infants and all infants (70.2% and 72.6%, respectively).

TABLE 6. Number, percentage, and proportion of infants born with use of assisted reproductive technology, by preterm gestational age category and female patient’s area of residence at time of treatment — United States and Puerto Rico, 2018.

Patient’s area of residence* VPTB (<32 wks)
Early PTB (<34 wks)
Late PTB (34–36 wks)
PTB (<37 wks)
ART infants
All infants§
Proportion of ART infants among all infants
ART infants
All infants§
Proportion of ART infants among all infants
ART infants
All infants§
Proportion of ART infants among all infants
ART infants
All infants§
Proportion of ART infants among all infants
No. (%) No. (%) % No. (%) No. (%) % No. (%) No. (%) % No. (%) No. (%) %
Alabama
32 (8.3)
1,194 (2.1)
2.7
46 (11.9)
2,088 (3.6)
2.2
72 (18.6)
5,116 (8.9)
1.4
118 (30.5)
7,204 (12.5)
1.6
Alaska
(1.4)
131 (1.3)
0.8

236 (2.3)


697 (6.9)

12 (16.4)
933 (9.3)
1.3
Arizona
67 (5.0)
1,127 (1.4)
5.9
135 (10.2)
1,968 (2.4)
6.9
330 (24.8)
5,705 (7.1)
5.8
465 (35.0)
7,673 (9.5)
6.1
Arkansas
10 (4.1)
644 (1.7)
1.6
15 (6.1)
1,154 (3.1)
1.3
64 (26.1)
3,145 (8.5)
2.0
79 (32.2)
4,299 (11.6)
1.8
California
324 (3.3)
5,888 (1.3)
5.5
667 (6.7)
10,438 (2.3)
6.4
1,620 (16.3)
29,526 (6.5)
5.5
2,287 (23.0)
39,964 (8.8)
5.7
Colorado
40 (2.8)
887 (1.4)
4.5
100 (7.1)
1,551 (2.5)
6.4
305 (21.7)
4,244 (6.7)
7.2
405 (28.8)
5,795 (9.2)
7.0
Connecticut
40 (2.8)
517 (1.5)
7.7
112 (7.9)
905 (2.6)
12.4
213 (15.0)
2,346 (6.8)
9.1
325 (22.9)
3,251 (9.4)
10.0
Delaware
12 (5.3)
174 (1.6)
6.9
14 (6.1)
293 (2.8)
4.8
29 (12.7)
722 (6.8)
4.0
43 (18.9)
1,015 (9.6)
4.2
District of Columbia
(0.5)
181 (2.0)
1.1
8 (1.9)
311 (3.4)
2.6
60 (14.1)
619 (6.7)
9.7
68 (15.9)
930 (10.1)
7.3
Florida
180 (5.6)
3,804 (1.7)
4.7
318 (9.9)
6,457 (2.9)
4.9
673 (20.9)
16,244 (7.3)
4.1
991 (30.8)
22,701 (10.2)
4.4
Georgia
67 (3.7)
2,539 (2.0)
2.6
125 (6.8)
4,340 (3.4)
2.9
416 (22.8)
10,169 (8.1)
4.1
541 (29.6)
14,509 (11.5)
3.7
Hawaii
29 (6.8)
270 (1.6)
10.7
48 (11.3)
459 (2.7)
10.5
85 (20.0)
1,285 (7.6)
6.6
133 (31.3)
1,744 (10.3)
7.6
Idaho
27 (8.7)
265 (1.2)
10.2
50 (16.0)
463 (2.2)
10.8
71 (22.8)
1,470 (6.9)
4.8
121 (38.8)
1,933 (9.0)
6.3
Illinois
156 (3.5)
2,401 (1.7)
6.5
330 (7.4)
4,292 (3.0)
7.7
811 (18.2)
11,153 (7.7)
7.3
1,141 (25.6)
15,445 (10.7)
7.4
Indiana
43 (5.2)
1,307 (1.6)
3.3
73 (8.8)
2,254 (2.8)
3.2
199 (24.0)
6,097 (7.5)
3.3
272 (32.8)
8,351 (10.2)
3.3
Iowa
31 (4.5)
530 (1.4)
5.8
70 (10.2)
993 (2.6)
7.0
140 (20.3)
2,752 (7.3)
5.1
210 (30.5)
3,745 (9.9)
5.6
Kansas
12 (3.0)
511 (1.4)
2.3
29 (7.2)
922 (2.5)
3.1
70 (17.5)
2,518 (6.9)
2.8
99 (24.7)
3,440 (9.5)
2.9
Kentucky
21 (4.0)
878 (1.6)
2.4
54 (10.2)
1,607 (3.0)
3.4
105 (19.8)
4,502 (8.3)
2.3
159 (30.0)
6,109 (11.3)
2.6
Louisiana
29 (5.4)
1,293 (2.2)
2.2
50 (9.3)
2,167 (3.6)
2.3
119 (22.2)
5,576 (9.4)
2.1
169 (31.6)
7,743 (13.0)
2.2
Maine
7 (3.4)
140 (1.1)
5.0
15 (7.3)
266 (2.2)
5.6
36 (17.6)
788 (6.4)
4.6
51 (24.9)
1,054 (8.6)
4.8
Maryland
85 (3.9)
1,308 (1.8)
6.5
159 (7.3)
2,189 (3.1)
7.3
342 (15.6)
5,042 (7.1)
6.8
501 (22.9)
7,231 (10.2)
6.9
Massachusetts
85 (2.4)
921 (1.3)
9.2
199 (5.6)
1,682 (2.4)
11.8
556 (15.7)
4,490 (6.5)
12.4
755 (21.4)
6,172 (8.9)
12.2
Michigan
76 (4.3)
1,686 (1.5)
4.5
176 (9.9)
2,973 (2.7)
5.9
351 (19.8)
8,066 (7.3)
4.4
527 (29.8)
11,039 (10.0)
4.8
Minnesota
70 (5.0)
890 (1.3)
7.9
125 (9.0)
1,551 (2.3)
8.1
246 (17.6)
4,453 (6.6)
5.5
371 (26.6)
6,004 (8.9)
6.2
Mississippi
19 (7.8)
888 (2.4)
2.1
32 (13.2)
1,536 (4.2)
2.1
45 (18.5)
3,733 (10.1)
1.2
77 (31.7)
5,269 (14.2)
1.5
Missouri
33 (3.4)
1,184 (1.6)
2.8
85 (8.8)
2,072 (2.8)
4.1
216 (22.5)
5,777 (7.9)
3.7
301 (31.3)
7,849 (10.7)
3.8
Montana
(3.0)
123 (1.1)
3.3
14 (10.5)
257 (2.2)
5.4
19 (14.3)
790 (6.9)
2.4
33 (24.8)
1,047 (9.1)
3.2
Nebraska
9 (2.6)
370 (1.5)
2.4
27 (7.8)
665 (2.6)
4.1
111 (32.0)
1,999 (7.8)
5.6
138 (39.8)
2,664 (10.5)
5.2
Nevada
41 (7.3)
532 (1.5)
7.7
64 (11.4)
962 (2.7)
6.7
102 (18.1)
2,654 (7.4)
3.8
166 (29.5)
3,616 (10.1)
4.6
New Hampshire
11 (2.5)
152 (1.3)
7.2
30 (6.9)
276 (2.3)
10.9
68 (15.6)
719 (6.0)
9.5
98 (22.4)
995 (8.3)
9.8
New Jersey
136 (3.2)
1,518 (1.5)
9.0
258 (6.1)
2,655 (2.6)
9.7
660 (15.6)
6,963 (6.9)
9.5
918 (21.8)
9,618 (9.5)
9.5
New Mexico
(2.2)
327 (1.4)
1.2
12 (6.5)
580 (2.5)
2.1
49 (26.5)
1,674 (7.3)
2.9
61 (33.0)
2,254 (9.8)
2.7
New York
270 (3.5)
3,266 (1.4)
8.3
494 (6.4)
5,799 (2.6)
8.5
1,206 (15.7)
14,482 (6.4)
8.3
1,700 (22.1)
20,281 (9.0)
8.4
North Carolina
77 (4.2)
2,095 (1.8)
3.7
157 (8.5)
3,581 (3.0)
4.4
364 (19.7)
8,759 (7.4)
4.2
521 (28.2)
12,340 (10.4)
4.2
North Dakota
11 (8.3)
128 (1.2)
8.6
18 (13.6)
262 (2.5)
6.9
32 (24.2)
756 (7.1)
4.2
50 (37.9)
1,018 (9.6)
4.9
Ohio
66 (3.6)
2,262 (1.7)
2.9
139 (7.6)
3,896 (2.9)
3.6
300 (16.3)
9,949 (7.4)
3.0
439 (23.9)
13,845 (10.2)
3.2
Oklahoma
18 (4.6)
823 (1.7)
2.2
38 (9.7)
1,478 (3.0)
2.6
93 (23.7)
4,192 (8.4)
2.2
131 (33.4)
5,670 (11.4)
2.3
Oregon
51 (6.8)
437 (1.0)
11.7
81 (10.7)
813 (1.9)
10.0
119 (15.8)
2,491 (5.9)
4.8
200 (26.5)
3,304 (7.8)
6.1
Pennsylvania
85 (3.4)
2,124 (1.6)
4.0
161 (6.4)
3,688 (2.7)
4.4
446 (17.6)
9,227 (6.8)
4.8
607 (24.0)
12,915 (9.5)
4.7
Puerto Rico
9 (10.7)
459 (2.1)
2.0
15 (17.9)
863 (4.0)
1.7
26 (31.0)
2,235 (10.4)
1.2
41 (48.8)
3,098 (14.5)
1.3
Rhode Island
23 (7.6)
143 (1.4)
16.1
29 (9.6)
276 (2.6)
10.5
48 (15.9)
667 (6.3)
7.2
77 (25.6)
943 (9.0)
8.2
South Carolina
25 (3.6)
1,083 (1.9)
2.3
61 (8.9)
1,855 (3.3)
3.3
143 (20.8)
4,571 (8.1)
3.1
204 (29.6)
6,426 (11.3)
3.2
South Dakota
8 (6.3)
141 (1.2)
5.7
17 (13.3)
254 (2.1)
6.7
22 (17.2)
868 (7.3)
2.5
39 (30.5)
1,122 (9.4)
3.5
Tennessee
46 (5.8)
1,441 (1.8)
3.2
84 (10.6)
2,531 (3.1)
3.3
153 (19.3)
6,380 (7.9)
2.4
237 (29.9)
8,911 (11.0)
2.7
Texas
335 (5.4)
6,182 (1.6)
5.4
560 (9.1)
10,983 (2.9)
5.1
1,375 (22.4)
29,816 (7.9)
4.6
1,935 (31.5)
40,799 (10.8)
4.7
Utah
52 (4.8)
600 (1.3)
8.7
101 (9.3)
1,053 (2.2)
9.6
260 (24.0)
3,392 (7.2)
7.7
361 (33.3)
4,445 (9.4)
8.1
Vermont
(2.5)
66 (1.2)
4.5
12 (10.1)
116 (2.1)
10.3
20 (16.8)
346 (6.4)
5.8
32 (26.9)
462 (8.5)
6.9
Virginia
100 (4.3)
1,613 (1.6)
6.2
178 (7.6)
2,643 (2.6)
6.7
366 (15.7)
6,758 (6.8)
5.4
544 (23.3)
9,401 (9.4)
5.8
Washington
49 (2.8)
1,020 (1.2)
4.8
116 (6.7)
1,854 (2.2)
6.3
284 (16.4)
5,293 (6.1)
5.4
400 (23.1)
7,147 (8.3)
5.6
West Virginia
(2.5)
311 (1.7)
1.0
9 (7.5)
566 (3.1)
1.6
27 (22.5)
1,592 (8.7)
1.7
36 (30.0)
2,158 (11.8)
1.7
Wisconsin
32 (3.5)
924 (1.4)
3.5
82 (8.9)
1,664 (2.6)
4.9
206 (22.5)
4,684 (7.3)
4.4
288 (31.4)
6,348 (9.9)
4.5
Wyoming
(2.0)
92 (1.4)
2.2
5 (5.1)
157 (2.4)
3.2
29 (29.6)
489 (7.5)
5.9
34 (34.7)
646 (9.8)
5.3
Total 2,968 (4.0) 59,790 (1.6) 5.0 5,805 (7.8) 104,894 (2.8) 5.5 13,706 (18.4) 277,981 (7.3) 4.9 19,511 (26.1) 382,875 (10.0) 5.1

Abbreviations: ART = assisted reproductive technology; PTB = preterm birth; VPTB = very preterm birth.

* In cases of missing patient’s residence data (0.3%), the patient’s residence was assigned as the location where the ART procedure was performed.

ART totals include infants conceived from ART procedures performed in 2017 and born in 2018 and infants conceived from ART procedures performed in 2018 and born in 2018. Total ART births exclude births to non-U.S. residents and include only infants with gestational age data available.

§ U.S. births exclude births to non-U.S. residents (Source: National Center for Health Statistics, Vital statistics data available. Natality public use file and CD-ROM. Hyattsville, MD, National Center for Health Statistics).

To protect confidentiality, cells with values of 1–4 for ART infants and cells with values of 0–9 for all infants are suppressed. Also suppressed are data that can be used to derive suppressed cell values. These values are included in the totals.

Among singletons only, the percentage of infants who had low birthweight was 8.3% among ART-conceived infants and 6.6% among all infants. In addition, among singletons, the percentage of infants who were born preterm was 14.9% among ART-conceived infants and 8.3% among all infants, and the percentage of SGA infants was 7.3% among ART-conceived infants and 9.4% for all infants (Table 7).

TABLE 7. Percentage of low birthweight, preterm, and small for gestational age infants among singleton infants born with assisted reproductive technology, by female patient’s area of residence at time of treatment — United States and Puerto Rico, 2018.

Patient’s area of residence* Low birthweight (<2,500 g)
Preterm (<37 wks)
Small for gestational age
(22–44 wks)
ART infants
(%)
All infants§
(%)
ART infants (%) All infants§
(%)
ART infants
(%)
All infants§
(%)
Alabama
8.2
8.7
15.2
10.4
6.9
11.6
Alaska

4.4
10.9
7.5

5.7
Arizona
10.3
5.9
17.2
7.7
6.7
8.7
Arkansas
8.7
7.6
13.5
9.8
8.1
9.9
California
7.5
5.5
12.8
7.2
7.8
8.7
Colorado
9.0
7.6
15.1
7.5
9.9
12.8
Connecticut
8.1
5.9
12.8
7.6
7.4
8.4
Delaware
9.6
7.6
16.4
8.2
6.8
10.2
District of Columbia
7.2
8.4
11.6
8.4
8.4
11.5
Florida
8.0
7.1
17.4
8.6
6.7
9.9
Georgia
8.2
8.2
15.8
9.5
6.8
11.3
Hawaii
14.3
6.9
18.2
8.7
12.6
10.4
Idaho
9.5
5.6
18.7
7.2
6.0
8.8
Illinois
8.6
6.8
16.2
8.8
7.3
9.0
Indiana
8.4
6.4
16.4
8.4
4.6
8.7
Iowa
8.2
5.3
18.1
8.0
5.2
6.8
Kansas
6.5
5.8
13.5
7.7
5.8
7.8
Kentucky
6.7
7.1
13.1
9.4
6.7
8.7
Louisiana
8.6
8.9
17.4
10.9
5.0
10.9
Maine
5.4
5.7
11.3
7.0
5.4
8.2
Maryland
9.0
7.1
15.6
8.3
6.8
9.6
Massachusetts
8.4
5.8
13.1
7.0
8.3
8.9
Michigan
9.9
6.7
14.6
8.1
7.9
9.5
Minnesota
8.0
5.3
13.2
7.2
6.7
7.4
Mississippi
13.7
10.1
19.0
12.1
5.3
12.0
Missouri
8.2
6.9
16.3
8.6
7.4
9.0
Montana
7.3
6.0
12.7
7.5
9.1
9.3
Nebraska
8.9
5.8
20.5
8.4
8.1
7.4
Nevada
11.2
7.1
16.4
8.6
8.7
10.8
New Hampshire
5.9
5.2
11.0
6.6
6.5
7.8
New Jersey
7.7
6.1
14.2
7.7
7.4
9.5
New Mexico
15.0
7.7
21.1
8.3
13.7
12.2
New York
8.0
6.3
13.2
7.2
8.1
10.0
North Carolina
7.9
7.5
14.8
8.5
7.5
10.2
North Dakota

4.9
12.4
7.6

6.3
Ohio
8.1
6.8
13.8
8.4
7.2
9.3
Oklahoma
7.1
6.6
14.4
9.4
5.2
8.3
Oregon
5.9
5.1
12.7
6.3
5.7
8.1
Pennsylvania
8.1
6.7
15.3
7.9
5.7
9.6
Puerto Rico
21.7
9.2
32.6
13.4
13.0
13.5
Rhode Island
6.5
5.8
12.5
7.1
9.1
8.7
South Carolina
8.8
7.9
16.7
9.5
6.2
10.1
South Dakota
10.2
5.0
18.9
7.5

7.6
Tennessee
9.9
7.5
17.7
9.2
5.7
10.0
Texas
9.6
6.8
18.1
9.0
6.4
9.2
Utah
12.0
5.3
17.5
7.4
9.8
8.1
Vermont
8.0
5.6
17.8
7.0
9.3
8.0
Virginia
7.5
6.5
14.7
7.7
6.5
9.5
Washington
8.2
5.3
13.6
6.9
6.4
7.8
West Virginia
9.6
7.6
18.6
9.9
7.2
9.7
Wisconsin
6.7
5.9
15.0
7.9
6.1
8.0
Wyoming
12.3
7.5
18.2
8.0
9.2
13.0
Total 8.3 6.6 14.9 8.3 7.3 9.4

Abbreviation: ART = assisted reproductive technology.

* In cases of missing patient’s residence data (0.3%), the patient’s residence was assigned as the location where the ART procedure was performed.

ART totals include infants conceived from ART procedures performed in 2017 and born in 2018 and infants conceived from ART procedures performed in 2018 and born in 2018. Total ART births exclude births to non- U.S. residents and include only infants with gestational age data available.

§ U.S. births exclude births to non-U.S. residents (Source: National Center for Health Statistics, Vital statistics data available. Natality public use file and CD-ROM. Hyattsville, MD, National Center for Health Statistics).

To protect confidentiality, cells with values of 1–4 for ART infants and cells with values of 0–9 for all infants are suppressed. Also suppressed are data that can be used to derive suppressed cell values. These values are included in the totals.

Discussion

Overview

The use of ART has increased substantially in the United States since the beginning of ART surveillance. In 1996 (the first full year for which ART data were reported to CDC), 20,597 infants were born from 64,036 ART procedures performed by 302 reporting clinics (2). Since then, the number of clinics performing ART services has increased considerably, the number of reported procedures has tripled, and the number of infants born from ART procedures has almost quadrupled. Multiple improvements can be observed in embryo-transfer practices and ART outcomes by comparing data for years 2017 and 2018 (21). The rate of SET procedures increased from 67.3% to 74.1% among women aged <35 years (a 10.1% increase), from 65.0% to 72.8% among women aged 35–37 years (a 12.0% increase), and from 60.0% to 66.4% among women aged >37 years (a 10.7% increase). Relatedly, from 2017 to 2018 the percentage of singleton births increased from 73.6% to 78.6% (a 6.8% increase), the percentage of twin births decreased from 25.5% to 20.7% (a 18.8% decrease), and the percentage of triplets and higher-order multiples decreased from 0.9% to 0.6% (a 33.3% decrease). The percentage of low birthweight among ART-conceived infants decreased from 20.2% to 18.3% (a 9.4% decrease), and preterm birth rates decreased from 27.8% to 26.1% (a 6.1% decrease). The contribution of ART-conceived twins to all twins born in the United States decreased from 14.7% to 12.5% (a 15.0% decrease). The contribution of ART-conceived infants to all triplets and higher-order infants decreased from 17.3% to 13.3% (a 23.1% decrease).

Despite these improvements, ART still disproportionally contributes to multiple births and poor birth outcomes (low birthweight and preterm birth). Because births resulting from ART are more likely to be multiple births than are births in the general population, and because multiple births are associated with higher rates of prematurity than singleton births, their contribution to poor birth outcomes continues to be noteworthy. In 2018, the multiple birth rate was nearly 6.5 times higher among ART-conceived infants compared with all infants (21.4% versus 3.3%). Although infants conceived with ART accounted for approximately 2.0% of total births in the United States in 2018, the proportion of multiple births attributable to ART was 12.5%. The percentage of infants with low birthweight or born preterm was 2.2 and 2.6 times higher among ART-conceived infants (18.3% and 26.1%, respectively) than among all infants (8.3% and 10.0%, respectively). Nationally, even among singletons, the rate of preterm birth among ART-conceived infants was 1.8 times the preterm birth rate among all infants (14.9% and 8.3%, respectively).

Variations in ART Use by States and Territories

The rate of ART use, as measured by number of procedures performed per 1 million women aged 15–44 years, increased from 3,040 in reporting year 2017 to 3,135 in reporting year 2018. ART use varied across areas. Residents of 14 states (California, Connecticut, Delaware, Hawaii, Illinois, Maryland, Massachusetts, New Hampshire, New Jersey, New York, Rhode Island, Utah, Vermont, and Virginia) and the District of Columbia had higher rates of ART use than the national rate. Residents of California, Illinois, Massachusetts, New Jersey, New York, and Texas accounted for almost half (46.1%) of all infants conceived with ART. The large number of ART procedures performed in these six states is a result of the size of the general population (California and Texas), high rates of ART use per capita (Illinois, Massachusetts, and New Jersey), or both (New York).

The contribution of ART to all infants born varied substantially by state. State-level differences might be explained in part by variations in insurance mandates for infertility treatments and disparities in access to fertility services (2224). As of 2021, a total of 19 states (Arkansas, California, Colorado, Connecticut, Delaware, Hawaii, Illinois, Louisiana, Maryland, Massachusetts, Montana, New Hampshire, New Jersey, New York, Ohio, Rhode Island, Texas, Utah, and West Virginia) had passed fertility insurance coverage laws mandating that private insurers provide coverage for certain fertility treatments, although not all mandates require coverage for ART (25,26). Of four states that provide comprehensive coverage, two include at least four oocyte retrievals (Illinois and New Jersey), one does not limit the number of treatment cycles (Massachusetts), and one has a $100,000 cap on treatment (Rhode Island). These four states had rates of ART use that were ≥50% higher than the national rate.

Other possible contributors to differences in ART use across states might include state variations in demographic characteristics such as race, ethnicity, and income levels. Use of fertility services varies by race and ethnicity. One study that analyzed 2014 NASS data indicated that ART use was highest among Asians or Pacific Islanders, followed by non-Hispanic White women, whereas non-Hispanic Black, Hispanic, and non-Hispanic American Indian or Alaska Native women had substantially lower levels of ART use (27). A study that linked NASS data to state vital statistics registries data in Florida, Massachusetts, and Michigan also found disparities by maternal race and ethnicity in ART use (24). Because many insurance plans in the United States do not provide coverage for ART treatment, costs often are the responsibility of patients (22). Even in states with an insurance mandate, ART use rates for non-Hispanic Black and Hispanic women were substantially lower than the rate for non-Hispanic White women (27). Thus, differences in the use rate might be due to factors beyond costs (27). Disparities might be due to cultural and social barriers, such as stigma, which might delay or prevent certain racial and ethnic groups from seeking infertility care (28).

Limitations of current data collection systems in terms of data quality and completeness might limit meaningful research in racial and ethnic disparities in ART use and outcomes (27). As of January 2016, all states had adopted the 2003 revision of the birth certificate that includes information on whether the pregnancy resulted from the use of infertility treatment; 47 states and the District of Columbia differentiate between the use of ART and non-ART treatments. This additional information on ART use in birth certificates could facilitate more comprehensive research on racial and ethnic differences in ART use and outcomes among infants born in the United States. The scope of such research would be greater if data from NASS, which include detailed information on ART, were to be linked to data from state vital statistics registries.

Single-Embryo Transfer Rates

Recommendations issued by the American Society for Reproductive Medicine and SART to limit the number of embryos to transfer have been revised multiple times to reduce higher-order multiple deliveries (2932). The most recent guidance was intended to reduce all multiple births, including twins (3). This guidance adopted a broader approach and recommended SET for patients of any age transferring a euploid embryo, selected with the assistance of preimplantation genetic screening, and for patients aged <38 years with any one of the following criteria: 1) availability of quality embryos for cryopreservation, 2) a history of live birth after an IVF procedure, 3) availability of vitrified blastocyst stage embryos, or 4) undergoing first frozen-embryo transfer (3). Increasing SET rates among all age groups reflect these changes in clinical practice. However, variations in the percentages of SET procedures across states and territories suggest that SET has not been implemented equally in all areas.

ART Multiple Births

Singleton births have lower risks than multiple births for adverse outcomes, such as prematurity, low birthweight, developmental disability, and death (10,33,34). To optimize healthy birth outcomes, the transfer of fewer embryos should be encouraged when clinically appropriate, taking into consideration the patient’s age and prognosis (3,35). The percentage of multiple births among ART-conceived infants in the United States has decreased from 53.1% in 2000 (when national multiple birth rates were first reported) to 21.4% in 2018 (36). A substantial decrease was noted for both the percentage of ART-conceived triplets and higher-order multiples (from 8.9% in 2000 to 0.6% in 2018) and the percentage of ART-conceived twins (from 44.2% in 2000 to 20.7% in 2018). Areas with the highest SET rates (Delaware, the District of Columbia, and Massachusetts) also had the lowest rates of ART-conceived multiple births.

Transferring two embryos is associated with a slight increase in overall birth rate but a much greater increase in the twin birth rate compared with transferring a single embryo (37,38). However, transferring two embryos sequentially (single-embryo transfer over two sequential procedures, if the first procedure did not result in a live birth) has similar cumulative live-birth rates and substantially lower twin delivery rates than transferring two embryos in a single procedure and might be a cost-effective approach; estimated costs include ART treatment and pregnancy- and infant-associated medical costs (37,38). Evidence from other countries suggests that access to coverage for ART, availability of cryopreservation services, and economic and social factors regarding the number of embryos transferred per cycle can encourage SET procedures and reduce multiple births (39). In 2013, the mean health care costs to patients and insurers were estimated at $26,922 for ART-conceived singleton deliveries, $115,238 for ART-conceived twin deliveries, and $434,668 for ART-conceived triplets and higher-order infants (40).

The desire for twins among couples experiencing infertility and their perception that the benefits of a multiple-gestation pregnancy (compared with no pregnancy) outweigh the risks (4143) might partially explain why twin rates remain high. Therefore, understanding the perspective of couples undergoing infertility treatments regarding multiple-gestation pregnancies and multiple births is important. Patient education focusing on maternal and perinatal morbidity and mortality and the economic costs of twin gestations has been effective in reducing the preference for twins among patients undergoing ART (4446).

Low Birthweight, Preterm Birth, and Small for Gestational Age Among ART Infants

In the United States, although rates of ART-conceived preterm and low birthweight infants have been declining steadily, the percentage of infants born with low birthweight and born preterm remained higher among ART-conceived infants (18.3% and 26.1%, respectively) than among all infants (8.3% and 10.0%, respectively). In addition, preterm and low birthweight rates varied more widely across areas among ART-conceived infants than among all infants.

Fertility treatments, both ART and non-ART, contribute substantially to preterm birth, which is a leading cause of infant morbidity and mortality (33,4749). The health risks associated with preterm birth have contributed to increased health care costs. In 2016, the societal economic cost associated with one infant born preterm in the United States was estimated at $64,815 (33,50), which translates into approximately $1.3 billion for 19,511 ART-conceived infants born preterm in 2018.

Although ART-conceived singletons had higher rates of preterm birth (14.9%) than singletons among the general population (8.3%), SGA rates were lower among the former. Studies have indicated that SGA risks among ART-conceived infants might be lower than among non-ART infants and also might vary by type of ART performed (5153). ART singletons from fresh-embryo transfers had higher risks for SGA than non-ART singletons, whereas ART singletons from frozen-embryo transfers had lower risks for SGA than non-ART singletons (52). In a more recent study, SGA rates were lower among ART singletons from frozen-embryo transfers than singletons from both fresh-embryo transfers and infants conceived naturally; genetic factors as well as the freeze-thaw process might explain these differences (53). More research is needed to better understand the risks for SGA among ART-conceived infants and how these risks might vary by the type of ART cycle performed.

Use of ART only partially explains the overall prevalence of multiple births in the United States. Other factors influencing multiple births include advanced maternal age at conception and the use of non-ART fertility treatments (33,5456). The risk for multiple gestations associated with non-ART fertility treatments (i.e., controlled ovarian stimulation and ovulation induction coupled with timed intercourse or intrauterine insemination) is less well documented than that associated with ART procedures; fertility clinics are only required to report data on ART use to NASS. However, research suggests that non-ART fertility treatments contribute to a larger percentage of multiple births than ART. In 2015, approximately 17% of multiple births in the United States were attributable to IVF fertility treatments, whereas 29% were attributable to non-IVF fertility treatments (57,58).

Additional efforts are needed to monitor the use of non-ART fertility treatments and their role in multiple births, particularly because the ability to control the occurrence of a multiple birth is more challenging when using non-ART fertility treatments (54). CDC is monitoring the prevalence of ART and non-ART fertility treatment use and resultant outcomes among women who had live births in states participating in the Pregnancy Risk Assessment Monitoring System (59,60).

Limitations

The findings in this report are subject to at least seven limitations. First, the procedure-specific use rates might be higher than the actual per-patient use rates. ART surveillance data were reported for each ART procedure performed rather than for each patient who used ART, and patients can undergo more than one procedure during the reporting period. In addition, the procedure-specific use rates are standardized by the size of the female population aged 15–44 years and do not account for certain ART users who are aged >44 years. Second, when comparisons are made between ART-conceived births and all births, all births also include ART-related births. Third, preterm birth, low birthweight, and SGA could be associated with factors contributing to underlying infertility or other maternal or paternal factors and not necessarily ART procedures. Fourth, approximately 9% of fertility clinics that performed ART in 2018 did not report their data to CDC. Although these clinics might have had results differing from reporting clinics, typically they are smaller and represent approximately 2% of all ART cycles performed in the United States (1). Fifth, gestational age is computed for ART infants conceived with frozen embryos by subtracting 17 days (to allow for an average of 3 days in embryo culture) from the date of transfer. However, many frozen-embryo transfers use blastocyst embryos (approximately 5 days of embryo culture), which might slightly underestimate gestational age. Sixth, SET rates cannot be compared with elective single embryo transfer (eSET) rates from previous reports (2016 and prior) because of differences in definition between eSET (a procedure in which one embryo is selected for transfer from a larger number of available embryos, and the remaining embryos are cryopreserved) and SET (a procedure in which one embryo is transferred regardless of the number of available embryos). In addition, in previous reports, eSET rates were reported only for procedures in which patients were using their own fresh eggs. Finally, the number of ART procedures reported for 2018 included all procedures in which banking was not performed, including procedures with frozen eggs that were thawed. Therefore, comparisons with previous years (2015 and prior) in which procedures using thawed eggs were excluded from analyses should be made with caution.

Conclusion

Since 1995, the number of ART procedures performed and the number of infants born as a result have more than tripled in the United States. With this increasing use, ART-conceived infants represented approximately 2% of infants born in 2018 in the United States and contributed to approximately 4% and 5% of all low birthweight and preterm births, respectively. Although the percentage of all multiple births including twins, triplets, and higher-order multiples has decreased among ART-conceived infants since 2000, the percentage of twins remains high (21%). Because multiple births have higher rates of preterm birth than singleton births, ART has a disproportionate impact on poor birth outcomes. This report provides information that allows state health departments to monitor and inform patients of the extent of ART use and ART-related adverse perinatal outcomes in their regions and take action to initiate programs and policies that improve access to ART treatments and reduce the adverse effects of ART multiple births. A state-specific website that presents key ART success rates and other statistics is available at https://www.cdc.gov/art/state-specific-surveillance/index.html.

Conflict of Interest: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. No potential conflicts of interest were disclosed.

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