Abstract
Introduction
Multiple abortions are consistently associated with adverse health consequences. Prior abortion is a known risk factor for another abortion.
Objective
To determine the persistence of the association of a first-pregnancy abortion with the likelihood of subsequent pregnancy outcomes.
Methods
Data was extracted for a study population of 5453 continuously eligible Medicaid beneficiaries in states which funded and reported elective abortions 1999–2015. Women age 16 in 1999 were organized into three cohorts based upon the first pregnancy outcome: abortion, birth, natural loss.
Results
Women in the abortion cohort are more likely than those in the birth cohort to experience another abortion rather than a birth or natural loss, and less likely to experience a live birth rather than an abortion or natural loss, for every subsequent pregnancy. The tendency toward abortion (OR 2.99, CL 2.02-4.43) and away from birth (OR 0.49, CL 0.39-0.63) peaks at the sixth pregnancy, but persists throughout the reproductive period ages 16–32. The pattern is reversed, but similarly consistent, for women in the birth cohort. They remain likelier to have another birth rather than an abortion or natural loss in subsequent pregnancies. Compared to the birth cohort, the abortion cohort had 1.35 times as many pregnancies: 4.31 times the abortions, 1.53 times the natural losses, but only 0.52 times the births. They were 4.3 and 5.0 times as likely to have 2-plus and 3-plus abortions, but only 0.47 times and 0.31 times as likely to have 2-plus and 3-plus births. Of the abortion cohort, 37.1% had no births. By contrast, 73.6% of the birth cohort had no abortions.
Conclusion
The first-pregnancy abortion maintains a strong and persistent association with the likelihood of another abortion in subsequent pregnancies, enabling a cascade of adverse events associated with multiple abortions.
Keywords: pregnancy outcome sequence, induced abortion, repeat abortion, Medicaid
Introduction
Women exposed to multiple (two or more) induced abortions are at increased risk of adverse perinatal outcomes in subsequent pregnancies such as preterm birth and low birth weight, other negative longer term medical and psychological outcomes, and a 50% increased risk of death from all causes for each exposure.1–10 As a result, multiple abortions are a demonstrated risk for reproductive mortality and morbidity.
Increases in the percent of women who underwent multiple abortions appears to be a global phenomenon as in France (18% in 1990% to 41% in 2011), Sweden (19% in 1975% to 38% in 2008), and New Zealand (23% in 1991% to 38% in 2011).11,12 A 2013 survey in 30 provinces in China reported that among all women with a history of induced abortion, 64.8% had been exposed to multiple abortions.13 In the United States the percentage of abortions being done on women with a previous history of abortion has ranged between 44%-59%.14–16
Many factors have been associated with multiple abortions, including individual sociodemographic characteristics (age, income, marital status, migrant status, parity), contraceptive knowledge and patterns of use, partner violence, drug abuse and others.17–22 A history of prior abortion, however, appears to be the strongest risk factor for subsequent abortions. In a previous study, we determined that women who experience an abortion for any pregnancy in their reproductive history were more likely to become pregnant again and to experience another abortion in the next subsequent pregnancy.23 We also found that 23% of Medicaid beneficiaries whose first pregnancy ended in an abortion were pregnant a second time within 12 months with approximately 60% undergoing a second abortion.24 An important Finnish study followed a cohort of 1269 women who underwent chemical abortion for a follow-up period of 4.2 years ( + /− 1.5) and determined that young women with previous abortions were most likely to experience abortion in the subsequent pregnancy.25
Since abortion increases the risk of abortion in a subsequent pregnancy, an important question is whether the risk has perseverance. Does an initial abortion, particularly if it occurs with a woman's first pregnancy, have an influence on her entire reproductive history? No published research to date has addressed the association of a first pregnancy outcome with each and every subsequent outcome. In this analysis, we sought to determine whether or not the outcome of the first pregnancy establishes a marker which differentiates a woman's reproductive trajectory. If the outcome of a first pregnancy is associated with the increased risk of lifetime morbidity and mortality, a robust informed consent and educational process is essential.
Methods
Data were obtained from the enrollee-level Medicaid Analytic eXtract (MAX) files licensed through the Centers for Medicare and Medicaid Services (CMS) Chronic Condition Data Warehouse (CCW). The total analytic dataset is comprised of enrollees at least 13 years of age with at least one pregnancy outcome from the 17 states who allocated state funds to induced abortions not covered by federal Medicaid. For this specific design, we limited the study population to the seven states which had consistently submitted full Medicaid claims data during every year of the study observation period (1999-2015): Connecticut, New Jersey, New Mexico, New York, Oregon, Vermont, and West Virginia. Similarly, each eligible enrollee admitted to the study population had at least one month of Medicaid eligibility in each year of the 17-year study period. Identifying these states from which to draw the study population assured that no pregnancy outcomes would be lost to periods of non-reporting among the states or lack of eligibility among Medicaid beneficiaries. The study cohorts were determined from all women who were or turned 16 years of age in 1999. Analysis of a similarly defined population but of women 15 years of age in 1999 showed less than 0.47% experienced a pregnancy, providing high confidence that the study cohort assignment was based on the woman's first pregnancy outcome. Three cohorts were produced based upon the first pregnancy outcome: abortion cohort, birth cohort, or natural loss cohort. For each beneficiary, all unique pregnancy outcomes were identified using International Classification of Diseases, Ninth Revision (ICD-9) and Tenth Revision (ICD-10) codes. Additionally, Current Procedural Terminology, Fourth Edition (CPT4) and Healthcare Common Procedure Coding System (HCPCS) codes were used to confirm pregnancy outcomes.
All pregnancy outcomes were subdivided into three categories using these codes: live birth (ICD9 V27.0, V27.2, V27.5 and ICD10 Z370, Z372, V375), natural loss (ICD9 V27.1, V27.4, V27.7, 630, 631, 633, 634 and ICD10 O00, O01, O02, O03), and induced abortion (ICD9 635.xx, ICD10 O04, CPT4: 59840, 59841, 59850, 59851, 59852, 59855, 59856, 59857, and HCPCS: S0199, S2260, S2265, S2266, S2267, X7724, X7726, S0190, S0191). In order to uniquely define each pregnancy event, multiple diagnostic or treatment codes within 30 days of a pregnancy loss (natural or induced) were rolled into a single pregnancy outcome using the first date associated with that cluster of Medicaid claims. Multiple diagnostic or treatment codes within 180 days of a delivery were also collapsed into a single pregnancy outcome. Twins or higher-order pregnancies that resulted in both live birth and pregnancy loss were excluded from the analysis.
The analytic strategy was composed of three phases. First, each eligible enrollee was assigned to one of three cohorts based upon the first pregnancy outcome. For every enrollee, each subsequent pregnancy outcome during the study period was identified to create a pregnancy outcome sequence for each woman. Second, we calculated a series of logistic regression odds ratios and confidence intervals to determine the likelihood of experiencing a subsequent outcome event based only (exclusively) on the type of the first pregnancy outcome exposure. This would enable determination of the association of the first pregnancy outcome with the likelihood of each and every subsequent pregnancy outcome. Third, we calculated a series of summary statistics which allowed us to categorize the average reproductive histories of the three cohorts during the entire study period.
Summary analytic tables, and logistic regression models, including odds ratios and 95% confidence intervals were created using (SAS/STAT) software, version10 of the SAS system for (Unix), copyright (2019) SAS Institute, Inc. The study has been exempted from Institutional Review Board (IRB) review pursuant to the U.S. Department of Health and Human Services Policy for Protection of Human Research Subjects at C.F.R. 46.101(b). See IRB ID: 7269, www.sterlingirb.com.
Findings
Overall, there were 5453 eligible beneficiaries in the three cohorts (Table 1): abortion (1331), birth (3517), and natural loss (605). The three cohorts accumulated a total of 14,451 pregnancies during the study period: abortion (4291), birth (8412), and natural loss (1748). The total distribution of all pregnancy outcomes for each cohort was as follows: abortion (abortion 65%, birth 28%, natural loss 7%); birth (abortion 20%, birth 73%, natural loss 7%); natural loss (abortion 22%, birth 39%, natural loss 39%). Notably, subsequent natural losses among women who had a first-pregnancy abortion were 1.53 times more common than among women whose first pregnancy ended in a live birth and 1.72 times more likely than women whose first pregnancy ended in a natural loss. Overall, 65.5% of our study population had two or more pregnancies. Women in the abortion cohort were more likely (79.2%) than women in the birth cohort (57.7%) to have two or more pregnancies. For the natural loss cohort, 81.1% had two or more pregnancies. This is consistent with the finding that the abortion cohort had 1.35 times as many pregnancies as women in the birth cohort. Birth cohort women are, therefore, about twice as likely as women in the abortion cohort to have only a single pregnancy.
Table 1.
Total Study Population in Three Cohorts, by Pregnancy Number, Number of Beneficiaries, and Pregnancy Outcome.
| First Pregnancy Abortion Cohort | First Pregnancy Birth Cohort | First Pregnancy Natural Loss Cohort | Total | |||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Abortion | Birth | Natural Loss | Total | Abortion | Birth | Natural Loss | Total | Abortion | Birth | Natural Loss | Total | |||||||||||
| Pregnancy | N | % | N | % | N | % | N | % | N | % | N | % | N | % | N | % | N | % | ||||
| 1 | 1331 | 100% | 0 | 0% | 0 | 0% | 1331 | 0 | 0% | 3517 | 100% | 0 | 0% | 3517 | 0 | 0% | 0 | 0% | 605 | 100% | 605 | 5453 |
| 2 | 383 | 36% | 562 | 53% | 109 | 10% | 1054 | 662 | 33% | 1127 | 56% | 239 | 12% | 2028 | 121 | 25% | 336 | 69% | 33 | 7% | 490 | 3572 |
| 3 | 332 | 49% | 272 | 40% | 79 | 12% | 683 | 375 | 32% | 673 | 57% | 134 | 11% | 1182 | 93 | 33% | 163 | 58% | 27 | 10% | 283 | 2148 |
| 4 | 249 | 53% | 168 | 36% | 54 | 11% | 471 | 251 | 36% | 371 | 53% | 80 | 11% | 702 | 67 | 42% | 83 | 52% | 11 | 7% | 161 | 1334 |
| 5 | 178 | 59% | 95 | 31% | 29 | 10% | 302 | 152 | 36% | 228 | 53% | 48 | 11% | 428 | 38 | 47% | 35 | 43% | 8 | 10% | 81 | 811 |
| 6 | 124 | 67% | 46 | 25% | 15 | 8% | 185 | 106 | 40% | 133 | 51% | 23 | 9% | 262 | 22 | 49% | 21 | 47% | 2 | 4% | 45 | 492 |
| 7–16 | 169 | 64% | 64 | 24% | 32 | 12% | 265 | 150 | 51% | 116 | 40% | 27 | 9% | 293 | 44 | 53% | 36 | 43% | 3 | 4% | 83 | 641 |
| Total | 2766 | 65% | 1207 | 28% | 318 | 7% | 4291 | 1696 | 20% | 6165 | 73% | 551 | 7% | 8412 | 385 | 22% | 674 | 39% | 689 | 39% | 1748 | 14451 |
Persistence of the First Outcome Association
Abortion cohort women are more likely than women in the birth cohort to experience another abortion rather than a birth or natural loss in subsequent pregnancies. This likelihood is progressively stronger, peaking at the sixth pregnancy (OR 2.99, CL 2.02-4.43). Similarly, these women are less likely to experience a live birth rather than an induced abortion or natural loss in subsequent pregnancies. The likelihood of a birth in this cohort is also minimized in the sixth pregnancy (OR 0.49, CL 0.39-0.63) (Table 2).
Table 2.
Logistic Regression (Walde) Odds Ratios and 95% Confidence Intervals by First and Subsequent Pregnancy Outcomes.
| First Pregnancy Abortion Cohort | ||||
|---|---|---|---|---|
| Likelihood of Abortion | Likelihood of Birth | |||
| Pregnancy | OR | LCL-UCL | OR | LCL-UCL |
| 2 | 1.18 | 1.01–1.38 | 0.91 | 0.79–1.06 |
| 3 | 2.04 | 1.68–2.47 | 0.50 | 0.41–0.61 |
| 4 | 2.02 | 1.59–2.56 | 0.49 | 0.39–0.63 |
| 5 | 2.61 | 1.93–3.53 | 0.40 | 0.30–0.55 |
| 6 | 2.99 | 2.02–4.43 | 0.32 | 0.21–0.49 |
| 7 | 1.94 | 1.18–3.21 | 0.45 | 0.15–2.27 |
| 8 | 2.38 | 1.20–4.72 | 0.39 | 0.16–3.60 |
| First Pregnancy Birth Cohort | ||||
| Likelihood of Abortion | Likelihood of Birth | |||
| Pregnancy | OR | LCL-UCL | OR | LCL-UCL |
| 2 | 0.85 | 0.73–0.99 | 1.10 | 0.94–1.27 |
| 3 | 0.49 | 0.41–0.60 | 2.00 | 1.65–2.42 |
| 4 | 0.5 | 0.39–0.63 | 2.02 | 1.59–2.57 |
| 5 | 0.38 | 0.28–0.52 | 2.48 | 1.83–3.38 |
| 6 | 0.33 | 0.23–0.50 | 3.12 | 2.06–4.70 |
| 7 | 0.51 | 0.31–0.85 | 2.22 | 1.31–3.78 |
| 8 | 0.42 | 0.21–0.83 | 2.55 | 1.25–5.23 |
When compared with women in the abortion cohort, women in the birth cohort are less likely to experience an abortion rather than a birth or natural loss for subsequent pregnancies. These women are similarly more likely to have another birth in subsequent pregnancies. For the birth cohort, the tendency for another birth (OR 3.12, CL 2.06-4.70) and away from an abortion (OR 0.33, CL 0.23-0.50) also peaks at the sixth pregnancy (Table 2).
The first pregnancy outcome is a strong and consistent indicator of the likelihood of subsequent pregnancy outcomes. Abortion in the first pregnancy is associated with more abortions and fewer births in subsequent pregnancies. Birth in the first pregnancy is associated with more subsequent births and fewer abortions. The first pregnancy outcome is a persistent indicator of subsequent reproductive outcomes.
Pregnancies
For the study period, women in the abortion cohort averaged 3.22 pregnancies. Women in the birth cohort averaged 2.39 pregnancies. Therefore, abortion cohort women have more than a third (34.8%) more total pregnancies than women in the birth cohort.
Further, the likelihood of a subsequent pregnancy following a first-pregnancy abortion, relative to a woman with a first-pregnancy birth, increases progressively through 10 pregnancies (Table 3). Of abortion cohort women, 79.2% achieve a second pregnancy, but only 57.7% of women in the birth cohort have a second pregnancy, so there are 1.37 times as many second pregnancies among the abortion cohort. By the sixth pregnancy the ratio is 1.87 times and, by pregnancy 10, women in the abortion cohort have 2.77 times as many tenth pregnancies as women in the birth cohort.
Table 3.
Number and Percent of Women with Subsequent Pregnancies, by First Pregnancy Outcome Cohort.
| First Pregnancy Abortion Cohort | First Pregnancy Birth Cohort | % abortion ÷ % birth | |||
|---|---|---|---|---|---|
| Pregnancy | n | % | n | % | |
| 1 | 1331 | 100.0% | 3517 | 100.0% | 1.00 |
| 2 | 1054 | 79.2% | 2028 | 57.7% | 1.37 |
| 3 | 683 | 51.3% | 1182 | 33.6% | 1.53 |
| 4 | 471 | 35.4% | 702 | 20.0% | 1.77 |
| 5 | 302 | 22.7% | 428 | 12.2% | 1.86 |
| 6 | 185 | 13.9% | 262 | 7.4% | 1.87 |
| 7 | 118 | 8.9% | 138 | 3.9% | 2.26 |
| 8 | 73 | 5.5% | 71 | 2.0% | 2.72 |
| 9 | 37 | 2.8% | 40 | 1.1% | 2.44 |
| 10 | 22 | 1.7% | 21 | 0.6% | 2.77 |
| Total Pregnancies (1–10) | 4276 | 8389 | |||
Distribution of Abortions and Births
Nearly three quarters (73.6%) of women in the birth cohort and 66.3% of the women in the natural loss cohort had no abortions. While 41.5% of the abortion cohort had more than a single abortion, only 9.7% of women in the birth cohort and 13% of the natural loss cohort did so. Of the abortion cohort, 26.5% had three or more (3 + ) abortions compared to only 5.3% of the birth cohort and 6.6% of the natural loss cohort. Over 11% (11.3%) of the abortion cohort women had five or more (5 + ) abortions compared to only 1.6% of the birth cohort and 2.1% of the natural loss cohort (Table 4).
Table 4.
Number (%) of Women by Discrete Count of Abortions, by First Pregnancy Outcome.
| First Pregnancy Abortion Cohort | First Pregnancy Birth Cohort | First Pregnancy Natural Loss Cohort | Total | |||||
|---|---|---|---|---|---|---|---|---|
| 1331 | 3517 | 605 | 5453 | |||||
| Discrete Count of Abortions | n | % | n | % | n | % | n | % |
| 0 | 2590 | 73.6% | 401 | 66.3% | 2991 | 54.9% | ||
| 1 | 778 | 58.5% | 587 | 16.7% | 125 | 20.7% | 1490 | 27.3% |
| 2 | 200 | 15.0% | 152 | 4.3% | 39 | 6.4% | 391 | 7.2% |
| 3 | 130 | 9.8% | 86 | 2.4% | 17 | 2.8% | 233 | 4.3% |
| 4 | 73 | 5.5% | 44 | 1.3% | 10 | 1.7% | 127 | 2.3% |
| 5 | 67 | 5.0% | 19 | >1.0% | 4 | >1.0% | 90 | 1.7% |
| 6 | 40 | 3.0% | 17 | >1.0% | 4 | >1.0% | 61 | 1.1% |
| 7 | 23 | 1.7% | 11 | >1.0% | 1 | >1.0% | 35 | >1.0% |
| 8 | 13 | 1.0% | 4 | >1.0% | 2 | >1.0% | 19 | >1.0% |
| 9 | 4 | >1.0% | 5 | >1.0% | 0 | 0.0% | 9 | >1.0% |
| 10 | 3 | >1.0% | 2 | >1.0% | 0 | 0.0% | 5 | >1.0% |
| 11 | 0 | 0.0% | 0 | 0.0% | 0 | 0.0% | 0 | 0.0% |
| 12 | 0 | 0.0% | 0 | 0.0% | 2 | >1.0% | 2 | >1.0% |
Over one-third (37.1%) of the abortion cohort and 30.7% of the natural loss cohort had no births. While 39.4% of the birth cohort had more than a single birth, 18.6% of women in the abortion cohort and 23.5% of the natural loss cohort had more than one child. The percentages for three or more (3 + ) births are as follows: abortion cohort, 5.8%; birth cohort, 18.8%; natural loss cohort, 10.2% (Table 5).
Table 5.
Number (%) of Women by Discrete Count of Births, by First Pregnancy Outcome.
| First Pregnancy Abortion Cohort | First Pregnancy Birth Cohort | First Pregnancy Natural Loss Cohort | Total | |||||
|---|---|---|---|---|---|---|---|---|
| 1331 | 3517 | 605 | 5453 | |||||
| Discrete Count of Births | n | % | n | % | n | % | n | % |
| 0 | 494 | 37.1% | 186 | 30.7% | 680 | 12.5% | ||
| 1 | 589 | 44.3% | 2133 | 60.6% | 277 | 45.8% | 2999 | 55.0% |
| 2 | 171 | 12.8% | 723 | 20.6% | 80 | 13.2% | 974 | 17.9% |
| 3 | 52 | 3.9% | 364 | 10.3% | 36 | 6.0% | 452 | 8.3% |
| 4 | 11 | >1.0% | 127 | 3.6% | 15 | 2.5% | 153 | 2.8% |
| 5 | 9 | >1.0% | 74 | 2.1% | 4 | >1.0% | 87 | 1.6% |
| 6 | 4 | >1.0% | 65 | 1.8% | 3 | >1.0% | 72 | 1.3% |
| 7 | 1 | >1.0% | 23 | >1.0% | 2 | >1.0% | 26 | >1.0% |
| 8 | 0 | 0.0% | 7 | >1.0% | 1 | >1.0% | 8 | >1.0% |
| 9 | 0 | 0.0% | 1 | >1.0% | 1 | >1.0% | 2 | >1.0% |
Women in the abortion cohort (Figure 1) are consistently and increasingly likely to have an abortion rather than a birth. For women with only two abortions (15% - see Table 4) and only two births (12.8% - see Table 5), the A/B ratio (15%/12.8%) is 1.17. For women with six abortions and women with six births, the A/B ratio is 10.0. The birth cohort (Figure 2) of women are consistently less likely to have an abortion rather than a birth for any discrete count of pregnancy outcomes. At 2 only abortions and births, the A/B ratio is 0.21. For 6 only abortions and births, the A/B ratio is 0.26. Compared to the consistently increasing ratio of abortions to births in the abortion cohort, the birth cohort trajectory is reversed (ie, consistently more births than abortions) and also relatively stable through six pregnancies. Beyond six pregnancies, the A/B ratio spikes for both cohorts because of the overall likelihood of an abortion versus a birth for women achieving this number of pregnancies independent of the outcome of the first pregnancy.
Figure 1.
Distribution of birth and abortion pregnancy outcomes: first pregnancy abortion cohort.
Figure 2.
Distribution of birth and abortion pregnancy outcomes: first pregnancy birth cohort.
Discussion
Compared to a woman who carries her first pregnancy to term, the woman who terminates her first pregnancy has 1.35 times as many pregnancies, 4.31 times as many abortions, 1.53 times as many natural losses, but only 0.52 times as many births. She is 4.3 times as likely to have 2 or more abortions but only 0.47 times as likely to have 2 or more children; 5.0 times as likely to have 3 or more abortions, but only 0.31 times as likely to have 3 or more children. Of her peers in the abortion cohort, 37.1% will be childless at age 32. By contrast, 73.6% of the birth cohort will not have had an abortion.
Abortion, and especially exposure to multiple abortions, can predispose to future pregnancy complications. For example, surgical trauma to the uterine lining in a dilation and suction, curettage or evacuation procedure may cause an abnormal placental attachment in the next pregnancy. Placental abruption (separation) or placental accreta syndrome (invasion) can occur, and either can lead to life-threatening bleeding at delivery. Abortion has been documented to increase risk of subsequent preterm birth. Obstetric interventions to delay delivery in the instance of premature labor or premature rupture of membranes can increase a woman's risk of medication toxicity and infection. Abortion, especially repeat abortion, is linked to increased risk of premature deaths from all causes, including suicide, and also other mental health disorders such as anxiety, depression, substance abuse or overdose, and excessive risk-taking behavior.10
It is clear that the outcome of a first pregnancy is at least a strong marker, and perhaps an important influencer, of the frequency and outcomes of subsequent pregnancies, including rapid repeat pregnancies24 and the risks associated with exposure to multiple induced abortions. The robust and enduring effect of the first pregnancy outcome on a woman's reproductive life and aspirational goals must be honestly and widely communicated. The screening and risk disclosures for women considering abortion, especially of a first pregnancy, should include a discussion of the elevated risks associated with multiple abortions and the critical importance of the first pregnancy outcome.
The study population is limited to low-income women and cannot be generalized to a more affluent population. However, socioeconomic factors are not likely to significantly contribute to the differences found between the cohorts in our study population. For example, the states included in the study population all provide abortion services and, since 1972, coverage for prescription contraceptives.26 Therefore, access to family planning services and abortion is uniformly assured within the study population across cohorts. Our study period does not capture the entire reproductive history, missing the pregnancy outcomes beyond 32 years of age. We estimate that about 11% of future births and 14% of future abortions are not included in this analysis.27,28 In a previous analysis, we determined that women 36 + years of age are increasingly more likely to abort a subsequent pregnancy and less likely to experience childbirth following an index abortion, no matter the pregnancy for which the abortion occurred.23 The results of the current study also indicate that abortion is increasingly likely with increasing age and pregnancy order, independent of the first pregnancy outcome. Therefore, there is no reason to believe that the missing pregnancy outcomes in later reproductive years are a threat to the validity of our findings.
Author Biographies
James Studnicki is currently Vice President and Director of Data Analytics at the Charlotte Lozier Institute in Arlington, Virginia. Over a span of four decades, he held academic appointments at the Johns Hopkins University School of Hygiene and Public Health, the University of South Florida College of Public Health, and the University of North Carolina, Charlotte, where for ten years he served as the Irwin Belk Endowed Chair in Health Services Research. He holds Doctor of Science (ScD) and Master of Public Health (MPH) degrees from Johns Hopkins and a Master of Business Administration (MBA) from the George Washington University.
Tessa Longbons is a research associate with the Charlotte Lozier Institute. Her research focuses on abortion statistics at the state and national levels and the changing landscape of abortion policy, provision, and access in the United States. She received her BA from Thomas Edison State University.
David C. Reardon is the director of Elliot Institute, a biomedical ethicist, and a lead author on numerous studies and books examining the risk factors and effects of pregnancy loss on women and families.
John W. Fisher is currently an Associate Scholar at the Charlotte Lozier Institute. Following a 22-year career as a nuclear submarine officer, he served as the Director of Life Support and engineering at the Florida Aquarium, Chief Financial Officer of Technology Transfer Services, and 10 years as an Assistant Professor at the University of North Carolina at Charlotte College of Health and Human Services. He holds a PhD in Information Systems and Decision Sciences from the University of South Florida, a JD from Massachusetts School of Law, and master's degrees from the Massachusetts Institute of Technology (Ocean Engineering), University of Notre Dame (Administration), Indiana University (Business Administration), and the United States Naval War College (National Security Policy). He is currently a member of the bar in New Hampshire and Massachusetts.
Donna J. Harrison, MD received her MD from the University of Michigan and completed her OBGYN residency at a University of Michigan affiliate hospital (St. Joseph Mercy Hospital). She is a diplomate of the American Board of Obstetrics and Gynecology. She is currently CEO of the American Association of Pro-Life Obstetricians and Gynecologists.
Ingrid Skop, MD, FACOG is Senior Fellow and Director of Medical Affairs for the Charlotte Lozier Institute. Prior to joining CLI, she served for over 25 years in private practice as an obstetrician-gynecologist in San Antonio. She received her Bachelor of Science in physiology from Oklahoma State University and her medical doctorate from Washington University School of Medicine. She completed her residency in obstetrics and gynecology at the University of Texas Health Science Center at San Antonio. She is a Fellow of the American College of Obstetricians and Gynecologists and is a lifetime member of the American Association of Pro-Life Obstetricians and Gynecologists.
Christina A. Cirucci, MD received her Bachelor of Science in Mechanical Engineering from Virginia Tech in Blacksburg, VA and her MD from Thomas Jefferson University, Philadelphia, PA. She completed her residency in obstetrics and gynecology at the Medical College of Virginia in Richmond, VA. She is a diplomate of the American Board of Obstetrics and Gynecology and a life Fellow of the American College of Obstetricians and Gynecologists. She is a member of the Christian Medical and Dental Associations, the North American Menopause Society, the Pennsylvania Medical Society, and the Allegheny County Medical Society. She is a board member of the American Association of Pro-Life Obstetricians and Gynecologists. She worked in private practice for twenty years in Pittsburgh, PA.
Christopher Craver is an independent health services researcher affiliated with the Charlotte Lozier Institute focused on the use of secondary healthcare data sources in population based scientific research. He is widely published in many healthcare topics including cancer treatment, rare disease populations, and the efficacy of surgical services.
Maka Tsulukidze, MD, PhD, MPH is an Assistant Professor at the Florida Gulf Coast University, Marieb College of Health & Human Services. Before joining FGCU, she was a Postdoctoral Fellow at the Dartmouth Center for Health Care Delivery Science. She has earned a PhD degree from the University of North Carolina at Charlotte and MD from Tbilisi Medical Academy. Previously, she was a UNICEF National Consultant to the Parliament of Georgia, Short-Term Consultant at PAHO/WHO and Senior Expert at the Parliament of Georgia, Committee on Health and Social Issues. She has also worked as a Deputy Chair/Project Manager for the Task Force for Prevention of Micronutrient Malnutrition and Food Fortification Initiatives established under the Parliament of Georgia, Committee on Health and Social Issues.
Zbigniew Ras is a Professor of Computer Science and KDD Laboratory Director at the University of North Carolina, Charlotte. He also holds professorship position at the Polish-Japanese Academy of Information Technology in Warsaw, Poland. His PhD degree is from the University of Warsaw and the Habilitation Degree from the Polish Academy of Sciences. In 2012, President of Poland appointed him as full professor. His areas of expertise include Knowledge Discovery and Data Mining, Recommender Systems, Health Informatics, Business Analytics, Granular Computing, Music Information Retrieval, and Art. He is the Editor-in-Chief of the Journal of Intelligent Information Systems (Springer) and a member of several Editorial Boards at other journals. He is the author of 350+ publications and the editor/author of 62 books published mainly by Springer and North Holland. He received many awards including Harshini V. de Silva Graduate Mentor Award and Alcoa Foundation Outstanding Faculty Award, both at UNC Charlotte. Also, he was the finalist of the Bank of America Award for excellence in teaching. He received competitive grants and contracts from NSF, DOD/ARO, ONR, SAS, The Daniel Group, ORNL, DOE, IBM, State Committee for Scientific Research (in Poland), and AMVIS (in Czech Republic). He graduated 23 PhD students, including 4 in Poland.
Footnotes
The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.
Funding: The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This work was supported by the Charlotte Lozier Institute.
ORCID iDs: James Studnicki https://orcid.org/0000-0003-2958-7493
Tessa Longbons https://orcid.org/0000-0003-0479-9166
Christina A. Cirucci https://orcid.org/0000-0002-4681-6529
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