The Use of Biologic Agents in Pregnancy and Breastfeeding




Biologic therapies, including anti–tumor necrosis factor antibody therapy and anti-integrin antibodies, are currently approved for the treatment of and are increasingly being used in patients with moderate to severe inflammatory bowel disease, including Crohn disease and ulcerative colitis. Because patients who require these medications are often in their child-bearing years, knowledge of the safety of these medications before and after pregnancy is imperative. This article summarizes the available data regarding the use of biologic therapy during and after pregnancy, highlighting such issues as safety for mother and newborn, length of medication use during pregnancy, and breastfeeding after pregnancy while on biologic therapy.


Key points








  • Treatment of patients with inflammatory bowel disease in pregnancy is of utmost importance.



  • The safety of biologic medications in pregnancy (anti-TNF medications and natalizumab) is a prominent issue.



  • The safety of biology medications during breastfeeding is a key concern.






Introduction


Inflammatory bowel disease (IBD), including Crohn disease (CD) and ulcerative colitis (UC), often affects women during their peak reproductive years. Indeed, 50% of patients are younger than 35 years old at diagnosis. Disease treatment and medication effects on the patient’s health, current and future pregnancies, and the health of the child after pregnancy are very important issues for patients who are pregnant or considering pregnancy in the future. Determining the risks of medications during pregnancy versus the benefits of these medications to help with disease control is a complex equation. Therefore, it is imperative for a comprehensive review of the available data and literature to help physicians and patients who may require biologic therapy during and after pregnancy. No randomized studies exist for medications in patients with IBD who are pregnant, given the ethical considerations. This article focuses on the available data regarding anti–tumor necrosis factor (TNF)-α therapy, including infliximab, adalimumab, certolizumab pegol, and golimumab, and the anti-integrin antibody, natalizumab, because these medications have become a mainstay of therapy in patients with moderate to severe UC and CD.




Introduction


Inflammatory bowel disease (IBD), including Crohn disease (CD) and ulcerative colitis (UC), often affects women during their peak reproductive years. Indeed, 50% of patients are younger than 35 years old at diagnosis. Disease treatment and medication effects on the patient’s health, current and future pregnancies, and the health of the child after pregnancy are very important issues for patients who are pregnant or considering pregnancy in the future. Determining the risks of medications during pregnancy versus the benefits of these medications to help with disease control is a complex equation. Therefore, it is imperative for a comprehensive review of the available data and literature to help physicians and patients who may require biologic therapy during and after pregnancy. No randomized studies exist for medications in patients with IBD who are pregnant, given the ethical considerations. This article focuses on the available data regarding anti–tumor necrosis factor (TNF)-α therapy, including infliximab, adalimumab, certolizumab pegol, and golimumab, and the anti-integrin antibody, natalizumab, because these medications have become a mainstay of therapy in patients with moderate to severe UC and CD.




IBD, disease activity, and pregnancy


It is important to consider several issues when considering medication therapy in patients who have IBD.


Pregnancy Impact on IBD


Several studies, including large population-based studies, have shown that females with CD and UC may have greater risk for adverse pregnancy outcomes, including preterm birth and low birth weight. Most of these data have been retrospective; however, a recent prospective 1:1 case control study evaluating 332 pregnant women with IBD found that women with IBD had similar pregnancy outcomes to women without IBD.


Disease activity at conception is an important determinant of disease activity throughout pregnancy, because studies have found that only one-third of patients with quiescent IBD at conception have a flare, whereas most of those with active disease at conception continue to have active disease through pregnancy. In a large population-based cohort study from Northern California, most patients with CD and UC had inactive or mild disease at conception, and had good outcomes throughout pregnancy. However, more recent data suggest that patients with UC have an increased risk of disease flare during pregnancy as compared with nonpregnant patients with IBD. A prospective multicenter case-control study followed 209 pregnant patients with IBD and found that pregnant patients with UC were significantly more likely to have a disease flare than nonpregnant patients with UC. Only 65% of patients with UC in remission at conception remained in remission.


Disease Activity Impact on Pregnancy


The effect of disease activity on pregnancy outcomes is a key issue to consider. Studies have suggested that increased disease activity can lead to worse pregnancy outcomes, including fetal loss, preterm birth, and low birth weight. A more recent large cohort study of women with CD found that disease activity during pregnancy was associated with preterm birth. Another population-based case-control study evaluating 1209 women with UC and 787 women with CD found that the risk of venous thromboembolism was increased in patients with UC, particularly in those with flaring disease. Furthermore, women with IBD had increased risk for an emergency cesarean section, and in patients with CD, the risk increased with disease activity. In a prospective case-control study in pregnant women with and without IBD, patients with UC who required hospitalizations had a higher risk of preterm birth, small-for-gestational-age birth, and cesarean section compared with those who only required ambulatory care.


In summary, significant evidence exists to suggest that the most important factor for an expectant mother with IBD and her unborn child is to have adequate disease control before conception. This may be especially important in patients with UC. With this in mind, physicians and patients should focus on disease response and remission, and in patients with moderate to severe IBD, biologic therapy may be required.




Biologic therapy during pregnancy


Anti-TNF Medications in Pregnancy


Anti–TNF-α medications are monoclonal antibodies or antibody fragments to TNF, an important cytokine in pathogenesis of inflammation in IBD. Infliximab is a chimeric mouse/human IgG1 monoclonal antibody against TNF, and in large clinical trials was found to be effective for induction and maintenance of remission in UC and CD. Adalimumab is a fully human IgG1 anti-TNF monoclonal antibody, and in large clinical trials was found to be effective for induction and maintenance of remission in UC and CD. Certolizumab pegol is a polyethylene glycolylated Fab’ fragment of humanized anti–TNF-α monoclonal antibody, and in large clinical trials has been shown to have clinical efficacy in CD. Golimumab is a fully human monoclonal antibody to TNF, and in large clinical trials found to be effective for induction and maintenance of remission in UC.


Anti–TNF-α Antibodies and Placental Transfer


An important consideration in the evaluation of the safety of anti-TNF antibodies administered during pregnancy is when the fetus will be exposed to the medication. IgG antibodies are the main subclass of antibodies that are transferred across the placenta, with selective binding of the Fc gamma portion of the IgG at the surface of the syncytiotrophioblast layer. Additionally, an Fc receptor neonatal molecule is bound to the IgG and is responsible for the transfer of the IgG from mother and neonate. Studies have shown that IgG1 subclass antibodies likely increase linearly through pregnancy, with fetal blood concentrations steadily increasing from second trimester until delivery, with most antibodies being transferred in the third trimester.


Infliximab, adalimumab, and golimumab are complete anti-TNF antibodies with an intact Fc portion of IgG1 subclass, and should therefore cross the placenta through the previously described mechanisms. These anti-TNF medications have been shown to cross the placenta, because studies have shown detectable umbilical cord blood concentrations of anti-TNF medication at delivery. A recent study evaluating the outcomes of pregnant patients with IBD on infliximab or adalimumab found detectable cord blood levels in most patients, even those who stopped anti-TNF medication greater than 10 weeks from delivery. Recently, a prospective multicenter observational study evaluated pregnant patients with IBD treated with infliximab or adalimumab. Infliximab levels from mother at delivery and cord blood in 11 newborns and 8 mothers (last dose given at mean gestational week 28; range, 24–31 weeks) were higher in the cord blood than the mother, with a mean ratio of 3.8 (range, 0.9–10.7). Adalimumab levels were drawn in five mothers and newborn cord blood at delivery, and similar levels were found in the mothers and newborn. Mahadevan and colleagues evaluated 31 pregnant women on infliximab, adalimumab, and certolizumab. The median level of infliximab in the cord blood was 160% that of the mother, and the adalimumab median drug level was 153% that of the mother. Drug levels could be detected up to 6 months after delivery in the infants. Because certolizumab is a polyethylene glycolylated Fab’ fragment, it does not have an Fc portion, and therefore should not be transported actively across the placenta. The only transfer of the antibody fragment that occurs will likely be passive, and in a much smaller amount than actively transported antibodies. In the previously mentioned study by Mahadevan and colleagues, infants of 10 pregnant women on certolizumab were found to have very low drug levels, with a median level of 3.9% of the mother.


Anti–TNF-α Medications in Pregnancy


Although newborns will likely be exposed to certain anti-TNF medications in utero, all anti-TNF medications are Food and Drug Administration (FDA) pregnancy class B ( Table 1 ). In evaluation of available animal data, toxicity studies using doses several hundred times higher than the recommended human dosing of infliximab and adalimumab showed no evidence of teratogenic effects. Data available from each individual medication are presented next, and further studies combining data from all anti-TNF medication use in pregnancy are then summarized.



Table 1

Food and Drug Administration categories for use of medications in pregnancy






















FDA Pregnancy Category Interpretation
A Controlled studies in animals and women have shown no risk in the first trimester, and possible fetal harm is remote
B Either animal studies have not demonstrated a fetal risk but no controlled studies in pregnant women exist, or animal studies have shown an adverse effect that was not confirmed in controlled studies in women in their first trimester
C No controlled studies in humans have been performed, and animal studies have shown adverse events, or studies in humans and animals are not available; give if potential benefit outweighs the risk
D Positive evidence of fetal risk is available, but the benefits may outweigh the risk if life-threatening or serious disease
X Studies in animals or humans show fetal abnormalities; drug contraindicated


Infliximab


Although early case reports documented adverse outcomes in a patient with active IBD on infliximab, a growing body of evidence supports that infliximab use in patients with IBD who are pregnant is low risk. The Crohn’s Therapy, Resource, Evaluation, and Assessment Tool registry is a large prospective registry of more than 6000 patients with CD on differing medication regimens or no medications. Sixty-six pregnancies were reported, with 36 patients exposed to infliximab. Rates of spontaneous abortion (11% vs 7.1%) and neonatal complications (8.3% vs 7.1%) were not significantly different between cases who were exposed to infliximab and those not exposed to infliximab. No congenital anomalies were noted. The Infliximab Safety Database is a retrospective data collection set up by the manufacturer of infliximab (Janssen Biotech, Horsham, PA) using voluntary reports of adverse events. The outcomes of women with CD or rheumatoid arthritis exposed to infliximab in pregnancy were no different from the general population. Two major fetal structural abnormalities were noted (tetralogy of Fallot and intestinal malrotation). Mahadevan and colleagues reported on a series of 10 women intentionally on maintenance infliximab throughout pregnancy. All infants were liveborn with no congenital abnormalities. Three infants were preterm and two had neonatal illnesses not thought to be related to infliximab use.


Adalimumab


A registry study from the Organization for Teratology Information Specialists reported on 38 women with autoimmune diseases (not exclusively IBDs) enrolled in a prospective study of adalimumab in pregnancy and 133 pregnant women exposed to adalimumab from case series. There were similar rates of spontaneous abortion (13%) compared with a control group and the general population, and no increased rates of congenital malformation (6.1%). A recent review regarding adalimumab use during pregnancy for disease states not limited to IBD found 85 pregnancies reported from registry studies and case reports, with no increased risk of adalimumab use during pregnancy.


Certolizumab pegol


There have been case reports in the literature regarding certolizumab use in pregnancy. Recently, a certolizumab safety database was queried, and of 139 pregnant women exposed to certolizumab in pregnancy, no increased adverse outcomes compared with the US National Vital Statistics data were noted.


Summary of anti-TNF medication use in pregnancy


As experience continues to increase with use of anti-TNF medications in pregnancy, studies recently have coalesced all anti-TNF medications into a class and evaluated the effects of their use in pregnancy. A recent systematic review has synthesized much of the available data regarding anti-TNF therapy and use in pregnancy for autoimmune disease states including IBD. A total number of 471 patients (infliximab = 195, adalimumab = 259, and certolizumab = 17) were evaluated. Approximately 6% of live births had reported congenital abnormalities, with no pattern of specific birth defects seen. Thirty-seven fetal deaths (35 spontaneous abortions and 2 stillbirths) were recorded, which per the review is similar to rates in the US general population. Thirty-nine preterm or premature births were recorded, which is higher than expected in the general population, but this has been previously documented for patients with IBD in general. Overall, the authors highlight the growing body of evidence of low risk of use of anti-TNF medications in pregnancy; however, data are still insufficient given the lack of controlled studies to prove absolute safety of anti-TNF medications during pregnancy with the review.


Gisbert and Chaparro recently published a critical review of the literature regarding anti-TNF medication use in pregnancy. They summarized data from more than 462 women exposed to anti-TNF medications and all outcomes including such complications as spontaneous abortion, congenital anomalies, intrauterine growth retardation, and preterm birth did not seem to differ from other patients with IBD not on anti-TNF medication. They calculated the rate of spontaneous abortion to be 11%, a figure similar to that reported in the general population and in patients with IBD not exposed to anti-TNF medications. A 2013 systematic review of 58 reports on the safety of TNF-α inhibitors during pregnancy concluded that there was no association between administration of TNF inhibitors and adverse pregnancy outcomes or congenital abnormalities.


Recently, several additional studies have added to the knowledge of safety of anti-TNF medications in pregnancy. An observational study by Schnitzler and colleagues compared pregnant women with and without IBD in the following groups: 42 pregnancies with known anti-TNF exposure (35 infliximab, 7 adalimumab; all were stopped before third trimester), 23 pregnancies before diagnosis of IBD, 78 pregnancies before the start of anti-TNF, 53 pregnancies with indirect exposure to infliximab, and 56 matched healthy pregnant women. Pregnancy outcomes after known anti-TNF exposure were not different from the other groups. A retrospective multicenter study by Casanova and colleagues evaluated pregnancies in patients with IBD exposed to thiopurines (N = 187) compared with those exposed to anti-TNF medications (N = 66) and those without exposure to these medications (N = 318). A global pregnancy outcome was evaluated, and neither anti-TNF medications nor thiopurine medications were associated with complications in pregnancy or newborn. Bortlik and colleagues conducted a prospective three-center observational study in which consecutive patients with IBD on anti-TNF medications were followed. Forty-one pregnancies (27 CD, 14 UC) were followed and exposed to either infliximab (N = 32) or adalimumab (N = 9). Five pregnancies (12%) ended in spontaneous abortions, and two had elective abortions. No congenital abnormalities were noted except for one case of hip dysplasia. No serious perinatal complications were noted.


The Pregnancy IBD and Neonatal Outcomes (PIANO) study, currently in abstract form, is the largest study evaluating the safety of anti-TNF therapy during pregnancy. This prospective study, performed in 30 IBD centers in the United States, follows patients through pregnancy and children to age 4 years. There are currently 1115 women being followed, with 366 with exposure to biologics and 279 with exposure to thiopurines. The use of thiopurines and anti-TNF agents has not been associated with increased rates of complications, including congenital abnormalities, preterm birth, or overall rates of infection, when controlling for preterm birth and developmental milestones at months 4, 9, and 12. When adjusting for disease activity, patients exposed to biologics had increased rates of spontaneous abortion (relative risk [RR], 2.56; 95% confidence interval [CI], 1.07–6.12). Patients on combination therapy had a slightly increased risk of preterm birth, and an increased rate of infection in infants at 9 to 12 months (RR, 1.35; 95% CI, 1.01–1.80) when certolizumab pegol was excluded from the analysis, because it does not likely cross the placenta.


Several position statements have addressed this issue. The World Congress of Gastroenterology recommends that anti-TNF medications are low risk and compatible with use at least in the first two trimesters and certolizumab is compatible with use in pregnancy. The American Gastroenterological Association also notes that anti-TNF medications infliximab and adalimumab are low risk in pregnancy and benefits likely outweigh known risks. The European Crohn’s and Colitis Organization noted limited data on the safety of anti-TNF medications in pregnancy, but suggest that they are low risk.


Effect of Anti-TNF Medication on Newborns


As noted, anti-TNF levels have been detected in umbilical cord blood in multiple studies, often at levels higher than maternal anti-TNF levels. Although most data have not shown deleterious effects of this, immunosuppression of the mother can lead to adverse outcomes. A recent case report documented a fatal case of disseminated bacille Calmette-Guérin (BCG) infection after BCG vaccination in an infant born to a mother treated with infliximab throughout her pregnancy. However, nonlive vaccines are likely safe, and it is currently recommended that infants exposed to anti-TNF therapy in utero can undergo vaccinations according to regular schedule, because no adverse effects have been noted and vaccination responses seem appropriate. A few recent case reports have documented appropriate vaccine responses in infants exposed to anti-TNF medications in utero.


Bortlik and colleagues recently prospectively evaluated the long-term impact of maternal anti-TNF medication on 25 exposed children (infliximab = 22, adalimumab = 3) until median gestational age 26 weeks (range, 17–37 weeks). Twelve mothers (48%) were on concomitant thiopurines. All children had normal growth and all but one had normal psychomotor development. Twenty-three (92%) had normal vaccination according to protocol, and 15 children had tuberculosis vaccination (BCG vaccine within 1 week of birth) without serious complication. Immunologic evaluation was performed in 17 children, cellular immunity was normal in all infants, and all had detectable serologic response to vaccination. Additionally, the largest amount of data available, from the large prospective PIANO registry, shows no increased risk of infections from biologic therapy exposure in infants to 1 year. There was a small but significant increase in infections in children detected at 12 months in the combination therapy–treated group (excluding certolizumab pegol–treated patients given the minimal placental transfer; RR, 1.35; 95% CI, 1.01–1.80). These infants will be followed prospectively for 4 years, and further data are forthcoming.


Therefore, with limited data that are available, children exposed to anti-TNF therapy likely will have normal development and minimally increased risk of immunodeficiency syndromes. Children exposed to combination therapy, however, may be at slight increased risk of infections in the first and second year of life, although documented infections were mild. Given the recent data regarding improved outcomes in patients on combination therapy (both an immunomodulator and anti-TNF medication) compared with either medication alone in patients with moderate to severe IBD, more patients will likely become pregnant while on combination therapy with thiopurine and anti-TNF medications. More data regarding combination therapy throughout pregnancy are needed.


Based on available data, infants exposed to anti-TNF medications in utero will likely mount appropriate immune response to inactivated vaccinations and these can be given according to regular schedule. Live vaccines, however, should be avoided for at least the first 6 months in infants.


How Long to Continue Anti-TNF Therapy During Pregnancy


Opinions in the literature regarding this question differ. Because most placental transfer of immunoglobulins, and thus anti-TNF medications, occurs in the third trimester, it had been suggested in the literature to stop anti-TNF medication before gestational week 30. However, older studies have suggested cessation of therapy could worsen patient outcomes in pregnancy, but this was before the era of biologics. Also, it has been well documented that stopping anti-TNF medications is associated with a high risk of recurrence of luminal and perianal disease. To answer this question, a previously mentioned study was conducted to evaluate if patients with IBD in remission could safely stop their anti-TNF medication in the second trimester. Five women had active disease in their second trimester and continued infliximab to weeks 30 to 34. Twelve women were in remission and stopped infliximab in the second trimester (between weeks 18 and 27; average, week 23), and 11 patients on adalimumab were in remission and stopped in their second trimester (stopped between weeks 21 and 27; average, week 22). Only two women, both in the adalimumab-treated group, had a flare in their third trimester (at weeks 30 and 36). Those who stopped the anti-TNF inhibitor greater than 10 weeks before delivery still had detectable cord blood levels. However, the cord blood levels were significantly lower in the patients who had their infliximab stopped greater than 10 weeks before delivery compared with those who continued through delivery.


However, stopping anti-TNF medication in the second or third trimester leads to continued exposure of medication for the fetus, because the previously mentioned studies have shown cord blood levels persist if mothers last received the medication as early as gestational weeks 16 to 20. Certainly, if a patient has active disease, she should continue her biologic therapy throughout pregnancy, because much of the available literature detailed now supports the medications’ safety in pregnancy. Also, newer literature showing that patients with UC have an increased risk of flare, even if they are in remission at conception, compared with nonpregnant patients with UC, would cause more hesitation for medication cessation in this group. However, if a patient is in clinical remission, it may be reasonable to consider cessation of anti-TNF medications in the second trimester, and physicians and patients should consider options carefully.


Anti-integrin Antibody Therapy in Pregnancy


Natalizumab is an IgG4 antibody that inhibits the α 4 integrin adhesion molecule. IgG4 antibodies cross the placenta in the second and third trimester, although not as preferentially as IgG1. There is limited knowledge of the use of natalizumab during pregnancy and lactation. In a small study of pregnant guinea pigs given seven times the human dose based on body weight, there was a small reduction in pup survival. A primate study showed hematologic effects on the fetus (mild anemia, decreased platelet count, reduced weight of the liver and thymus, and increased splenic weight) at a dose of natalizumab that was 2.3-fold higher than typical clinical dosing in humans. No teratogenic effects were noted in either animal study.


In one study of 143 pregnancies reported in patients with CD or multiple sclerosis who received natalizumab in their first trimester, no increased numbers of birth defects were noted. A preliminary data review of the prospective Tysabri (natalizumab) Pregnancy Exposure Registry in 2011 following patients on natalizumab showed 277 known pregnancy outcomes. The rate of spontaneous abortions (11%) was consistent with the expected rate in the US population. Malformations occurred in 23 pregnancies in 21 of the 277 women, but they were isolated, some were confounded by other risk factors, and they did not suggest a drug-related pattern. The ongoing multicenter PIANO study includes a cohort of six women with natalizumab exposure in pregnancy with no increased rates of adverse events of congenital anomalies or abnormal infant growth or development. Recently, a study evaluated two pregnant women with relapsing multiple sclerosis treated with natalizumab until pregnancy week 34. Both newborns had uneventful deliveries with normal birth weights and were followed to week 12 of age. One infant had no adverse events. One infant had a possible minor intracerebral hemorrhage detected on a screening ultrasound, which normalized by week 12. This infant also had mild anemia and thrombocytopenia, which normalized by week 12. Blood was evaluated in both infants at weeks 2 and 12 of age and found impaired in vitro CXCL-12–induced T-lymphocyte chemotaxis rate, which normalized by week 12. The authors noted that similar effects on in vivo chemotaxis of T lymphocytes have been demonstrated in adults treated with natalizumab, but the clinical significance of this is yet unclear.


Currently, natalizumab has an FDA pregnancy category class C. A recent World Congress of Gastroenterology position statement highlights that the safety of natalizumab in pregnancy is unknown, with available human data showing no increased risk of birth defects. The authors state that physicians and patients should judge the risk versus the individual patient needs with use of natalizumab during pregnancy.

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Feb 26, 2017 | Posted by in GASTROENTEROLOGY | Comments Off on The Use of Biologic Agents in Pregnancy and Breastfeeding

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